The EPA Administrator, Gina McCarthy, signed the following notice on 8/3/2015, and EPA is submitting it for 
publication in the Federal Register (FR). While we have taken steps to ensure the accuracy of this Internet version 
of the rule, it is not the official version of the rule for purposes of compliance. Please refer to the official version in 
a forthcoming FR publication, which will appear on the Government Printing Office's FDSys website 
(http://gpo.gov/fdsys/search/home.action) and on Regulations.gov (http://www.regulations.gov) in Docket No. 
EPA–HQ–OAR–2013‐0602. Once the official version of this document is published in the FR, this version will be 
removed from the Internet and replaced with a link to the official version. 

6560-50
ENVIRONMENTAL PROTECTION AGENCY
40 CFR Part 60
[EPA-HQ-OAR-2013-0602; FRL-XXXX-XX-OAR]
RIN 2060-AR33
Carbon Pollution Emission Guidelines for Existing Stationary
Sources: Electric Utility Generating Units
AGENCY: Environmental Protection Agency (EPA).
ACTION: Final rule.
SUMMARY: In this action, the Environmental Protection Agency
(EPA) is establishing final emission guidelines for states to
follow in developing pans to reduce greenhouse gas (GHG)
emissions from existing fossil fuel-fired electric generating
units (EGUs). Specifically, the EPA is establishing: 1) carbon
dioxide (CO2) emission performance rates representing the best
system of emission reduction (BSER) for two subcategories of
existing fossil fuel-fired EGUs – fossil fuel-fired electric
utility steam generating units and stationary combustion
turbines, 2) state-specific CO2 goals reflecting the CO2 emission
performance rates, and 3) guidelines for the development,
submittal and implementation of state plans that establish
emission standards or other measures to implement the CO2
emission performance rates, which may be accomplished by meeting

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the state goals. This final rule will continue progress already
underway in the U.S. to reduce CO2 emissions from the utility
power sector.
DATES: The final rule is effective on [INSERT THE DATE 60 DAYS
AFTER PUBLICATION IN THE FEDERAL REGISTER].
ADDRESSES:
Docket. The EPA has established a docket for this action under
Docket No. EPA–HQ–OAR–2013-0602. All documents in the docket are
listed in the http://www.regulations.gov index. Although listed
in the index, some information is not publicly available (e.g.,
confidential business information (CBI) or other information for
which disclosure is restricted by statute). Certain other
material, such as copyrighted material, will be publicly
available only in hard copy. Publicly available docket materials
are available either electronically in
http://www.regulations.gov or in hard copy at the EPA Docket
Center, EPA WJC West Building, Room 3334, 1301 Constitution
Ave., NW, Washington, DC. The Public Reading Room is open from
8:30 a.m. to 4:30 p.m., Monday through Friday, excluding federal
holidays. The telephone number for the Public Reading Room is
(202) 566-1744, and the telephone number for the Air Docket is
(202) 566-1742. For additional information about the EPA’s
public docket, visit the EPA Docket Center homepage at
http://www2.epa.gov/dockets.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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World Wide Web. In addition to being available in the docket, an
electronic copy of this final rule will be available on the
World Wide Web (WWW). Following signature, a copy of this final
rule will be posted at the following address:
http://www.epa.gov/cleanpowerplan/. A number of documents
relevant to this rulemaking, including technical support
documents (TSDs), a legal memorandum, and the regulatory impact
analysis (RIA), are also available at
http://www.epa.gov/cleanpowerplan/. These and other related
documents are also available for inspection and copying in the
EPA docket for this rulemaking.
FOR FURTHER INFORMATION CONTACT: Ms. Amy Vasu, Sector Policies
and Programs Division (D205-01), U.S. EPA, Research Triangle
Park, NC 27711; telephone number (919) 541-0107, facsimile
number (919) 541-4991; email address: vasu.amy@epa.gov or Mr.
Colin Boswell, Measurements Policy Group (D243-05), Sector
Policies and Programs Division, U.S. EPA, Research Triangle
Park, NC 27711; telephone number (919) 541-2034, facsimile
number (919) 541-4991; email address: boswell.colin@epa.gov.
SUPPLEMENTARY INFORMATION:
Acronyms. A number of acronyms and chemical symbols are
used in this preamble. While this may not be an exhaustive list,
to ease the reading of this preamble and for reference purposes,
the following terms and acronyms are defined as follows:
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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ACEEE
AEO
AFL-CIO
ASTM
BSER
Btu/kWh
CAA
CBI
CCS
CEIP
CEMS
CHP
CO2
DOE
ECMPS
EE
EERS
EGU
EIA
EM&V
EO
EPA
FERC
ERC
FR
GHG
GW
HAP
HRSG
IGCC
IPCC
IPM
IRP
ISO
kW
kWh
lb CO2/MWh
LBNL
MMBtu
MW
MWh
NAAQS
NAICS
NAS
NGCC
NOx

American Council for an Energy-Efficient Economy
Annual Energy Outlook
American Federation of Labor and Congress of
Industrial Organizations
American Society for Testing and Materials
Best System of Emission Reduction
British Thermal Units per Kilowatt-hour
Clean Air Act
Confidential Business Information
Carbon Capture and Storage (or Sequestration)
Clean Energy Incentive Program
Continuous Emissions Monitoring System
Combined Heat and Power
Carbon Dioxide
U.S. Department of Energy
Emissions Collection and Monitoring Plan System
Energy Efficiency
Energy Efficiency Resource Standard
Electric Generating Unit
Energy Information Administration
Evaluation, Measurement and Verification
Executive Order
Environmental Protection Agency
Federal Energy Regulatory Commission
Emission Rate Credit
Federal Register
Greenhouse Gas
Gigawatt
Hazardous Air Pollutant
Heat Recovery Steam Generator
Integrated Gasification Combined Cycle
Intergovernmental Panel on Climate Change
Integrated Planning Model
Integrated Resource Plan
Independent System Operator
Kilowatt
Kilowatt-hour
Pounds of CO2 per Megawatt-hour
Lawrence Berkeley National Laboratory
Million British Thermal Units
Megawatt
Megawatt-hour
National Ambient Air Quality Standards
North American Industry Classification System
National Academy of Sciences
Natural Gas Combined Cycle
Nitrogen Oxides

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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NRC
NSPS
NSR
NTTAA
OMB
PM
PM2.5
PRA
PSB
PUC
RE
REC
RES
RFA
RGGI
RIA
RPS
RTO
SBA
SBC
SCC
SIP
SO2
Tg
TSD
TTN
UMRA
UNFCCC
USGCRP
VCS

National Research Council
New Source Performance Standard
New Source Review
National Technology Transfer and Advancement Act
Office of Management and Budget
Particulate Matter
Fine Particulate Matter
Paperwork Reduction Act
Public Service Board
Public Utilities Commission
Renewable Energy
Renewable Energy Credit
Renewable Energy Standard
Regulatory Flexibility Act
Regional Greenhouse Gas Initiative
Regulatory Impact Analysis
Renewable Portfolio Standard
Regional Transmission Organization
Small Business Administration
System Benefits Charge
Social Cost of Carbon
State Implementation Plan
Sulfur Dioxide
Teragram (one trillion (1012) grams)
Technical Support Document
Technology Transfer Network
Unfunded Mandates Reform Act of 1995
United Nations Framework Convention on Climate
Change
U.S. Global Change Research Program
Voluntary Consensus Standard

Organization of This Document. The information presented in
this preamble is organized as follows:
I. General Information
A. Executive Summary
B. Organization and Approach for this Final Rule
II. Background
A. Climate Change Impacts from GHG Emissions
B. GHG Emissions from Fossil Fuel-Fired EGUs
C. The Utility Power Sector
D. Challenges in Controlling Carbon Dioxide Emissions
E. Clean Air Act Regulations for Power Plants
F. Congressional Awareness of Climate Change
G. International Agreements and Actions
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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H. Legislative and Regulatory Background for CAA Section 111
I. Statutory and Regulatory Requirements
J. Clean Power Plan Proposal and Supplemental Proposal
K. Stakeholder Outreach and Consultations
L. Comments on the Proposal
III. Rule Requirements and Legal Basis
A. Summary of Rule Requirements
B. Summary of Legal Basis
IV. Authority for this Rulemaking, Definition of Affected
Sources, and Treatment of Categories
A. EPA’s Authority under CAA Section 111(d)
B. CAA Section 112 Exclusion to CAA Section 111(d) Authority
C. Authority to Regulate EGUs
D. Definition of Affected Sources
E. Combined Categories and Codification in the Code of Federal
Regulations
V. The Best System of Emission Reduction and Associated Building
Blocks
A. The Best System of Emission Reduction (BSER)
B. Legal Discussion of Certain Aspects of the BSER
C. Building Block 1—Efficiency Improvements at Affected CoalFired Steam EGUs
D. Building Block 2—Generation Shifts Among Affected EGUs
E. Building Block 3—Renewable Generating Capacity
VI. Subcategory-Specific CO2 Emission Performance Rates
A. Overview
B. Emission Performance Rate Requirements
C. Form of the Emission Performance Rates
D. Emission Performance Rate-Setting Equation and Computation
Procedure
VII. Statewide CO2 Goals
A. Overview
B. Reconstituting Statewide Rate-based CO2 Emission Performance
Goals from the Subcategory-specific Emission Performance
Rates
C. Quantifying Mass-based CO2 Emission Performance Goals from the
Statewide Rate-based CO2 Emission Performance Goals
D. Addressing Potential Leakage in Determining the Equivalence
of Statewide CO2 Emission Performance Goals
E. State Plan Adjustments of State Goals
F. Geographically Isolated States and Territories with Affected
EGUs
VIII. State Plans
A. Overview
B. Timeline for State Plan Performance and Provisions to
Encourage Early Action
C. State Plan Approaches
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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D.
E.
F.
G.
H.
I.

State Plan Components and Approvability Criteria
State Plan Submittal and Approval Process and Timing
State Plan Performance Demonstrations
Additional Considerations for State Plans
Resources for States to Consider in Developing Plans
Considerations for CO2 Emission Reduction
Measures that Occur at Affected EGUs
J. Additional Considerations and Requirements for Mass-Based
State Plans
K. Additional Considerations and Requirements for Rate-Based
State Plans
L. Treatment of Interstate Effects
IX. Community and Environmental Justice Considerations
A. Proximity Analysis
B. Community Engagement in State Plan Development
C. Providing Communities with Access to Additional Resources
D. Federal Programs and Resources Available to Communities
E. Multi-pollutant Planning and Co-pollutants
F. Assessing Impacts of State Plan Implementation
G. EPA Continued Engagement
X. Interactions with Other EPA Programs and Rules
A. Implications for the NSR Program
B. Implications for the Title V Program
C. Interactions with Other EPA Rules
XI. Impacts of this Action
A. What are the air impacts?
B. Endangered Species Act
C. What are the energy impacts?
D. What are the compliance costs?
E. What are the economic and employment impacts?
F. What are the benefits of the proposed action?
XII. Statutory and Executive Order Reviews
A. Executive Order 12866, Regulatory Planning and Review, and
Executive Order 13563, Improving Regulation and Regulatory
Review
B. Paperwork Reduction Act (PRA)
C. Regulatory Flexibility Act (RFA)
D. Unfunded Mandates Reform Act (UMRA)
E. Executive Order 13132, Federalism
F. Executive Order 13175, Consultation and Coordination with
Indian Tribal Governments
G. Executive Order 13045, Protection of Children from
Environmental Health Risks and Safety Risks
H. Executive Order 13211, Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use
I. National Technology Transfer and Advancement Act (NTTAA)
J. Executive Order 12898, Federal Actions to Address
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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Environmental Justice in Minority Populations and Low-Income
Populations
K. Congressional Review Act (CRA)
XIII. Statutory Authority
I. General Information
A. Executive Summary
1. Introduction
This final rule is a significant step forward in reducing
greenhouse gas (GHG) emissions in the U.S. In this action, the
EPA is establishing for the first time GHG emission guidelines
for existing power plants. These final emission guidelines,
which rely in large part on already clearly emerging growth in
clean energy innovation, development and deployment, will lead
to significant carbon dioxide (CO2) emission reductions from the
utility power sector that will help protect human health and the
environment from the impacts of climate change. This rule
establishes, at the same time, the foundation for longer term
GHG emission reduction strategies necessary to address climate
change and, in so doing, confirms the international leadership
of the U.S. in the global effort to address climate change. In
this final rule, we have taken care to ensure that achievement
of the required emission reductions will not compromise the
reliability of our electric system, or the affordability of
electricity for consumers. This final rule is the result of
unprecedented outreach and engagement with states, tribes,
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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utilities, and other stakeholders, with stakeholders providing
more than 4.3 million comments on the proposed rule. In this
final rule, we have addressed the comments and concerns of
states and other stakeholders while staying consistent with the
law. As a result, we have followed through on our commitment to
issue a plan that is fair, flexible and relies on the
accelerating transition to cleaner power generation that is
already well underway in the utility power sector.
Under the authority of Clean Air Act (CAA) section 111(d),
the EPA is establishing CO2 emission guidelines for existing
fossil fuel-fired electric generating units (EGUs) – the Clean
Power Plan. These final guidelines, when fully implemented, will
achieve significant reductions in CO2 emissions by 2030, while
offering states and utilities substantial flexibility and
latitude in achieving these reductions. In this final rule, the
EPA is establishing a CO2 emission performance rate for each of
two subcategories of fossil fuel-fired EGUs -- fossil fuel-fired
electric steam generating units and stationary combustion
turbines – that expresses the “best system of emissions
reduction… adequately demonstrated” (BSER) for CO2 from the power
sector.1 The EPA is also establishing state-specific rate-based

1

Under CAA section 111(d), pursuant to 40 CFR 60. 22(b)(5),
states must establish, in their state plans, emission standards
that reflect the degree of emission limitation achievable
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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and mass-based goals that reflect the subcategory-specific CO2
emission performance rates and each state’s mix of affected
EGUs. The guidelines also provide for the development, submittal
and implementation of state plans that implement the BSER –
again, expressed as CO2 emission performance rates – either
directly by means of source-specific emission standards or other
requirements, or through measures that achieve equivalent CO2
reductions from the same group of EGUs.
States with one or more affected EGUs will be required to
develop and implement plans that set emission standards for
affected EGUs. The CAA section 111(d) emission guidelines that
the EPA is promulgating in this action apply to only the 48
contiguous states and any Indian tribe that has been approved by
the EPA pursuant to 40 CFR 49.9 as eligible to develop and
implement a CAA section 111(d) plan.2 Because Vermont and the

through the application of the “best system of emission
reduction” that, taking into account the cost of achieving such
reduction and any non-air quality health and environmental
impacts and energy requirements, the Administrator determines
has been adequately demonstrated (i.e., the BSER). Under CAA
section 111(a)(1) and (d), the EPA is authorized to determine
the BSER and to calculate the amount of emission reduction
achievable through applying the BSER. The state is authorized to
identify the emission standard or standards that reflect that
amount of emission reduction.
2 In the case of a tribe that has one or more affected EGUs in
its area of Indian country, the tribe has the opportunity, but
not the obligation, to establish a CO2 emission standard for each
affected EGU located in its area of Indian country and a CAA
section 111(d) plan for its area of Indian country. If the tribe
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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District of Columbia do not have affected EGUs, they will not be
required to submit a state plan. Because the EPA does not
possess all of the information or analytical tools needed to
quantify the BSER for the two non-contiguous states with
otherwise affected EGUs (Alaska and Hawaii) and the two U.S.
territories with otherwise affected EGUs (Guam and Puerto Rico),
these emission guidelines do not apply to those areas, and those
areas will not be required to submit state plans on the schedule
required by this final action.
The emission standards in a state’s plan may incorporate
the subcategory-specific CO2 emission performance rates set by
the EPA or, in the alternative, may be set at levels that ensure
that the state’s affected EGUs, individually, in aggregate, or
in combination with other measures undertaken by the state
achieve the equivalent of the interim and final CO2 emission
performance rates between 2022 and 2029 and by 2030,
respectively. State plans must also: 1) ensure that the period
for emission reductions from the affected EGUs begin no later
than 2022, 2) show how goals for the interim and final periods

chooses to establish its own plan, it must seek and obtain
authority from the EPA to do so pursuant to 40 CFR 49.9. If it
chooses not to seek this authority, the EPA has the
responsibility to determine whether it is necessary or
appropriate, in order to protect air quality, to establish a CAA
section 111(d) plan for an area of Indian country where affected
EGUs are located.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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will be met, 3) ensure that, during the period from 2022 to
2029, affected EGUs in the state collectively meet the
equivalent of the interim subcategory-specific CO2 emission
performance rates, and 4) provide for periodic state-level
demonstrations prior to and during the 2022-2029 period that
will ensure required CO2 emission reductions are being
accomplished and no increases in emissions relative to each
state’s planned emission reduction trajectory are occurring. A
Clean Energy Incentive Program (CEIP) will provide opportunities
for investments in renewable energy (RE) and demand-side energy
efficiency (EE) that deliver results in 2020 and/or 2021. The
plans must be submitted to the EPA in 2016, though an extension
to 2018 is available to allow for the completion of stakeholder
and administrative processes.
The EPA is promulgating: 1) subcategory-specific CO2
emission performance rates, 2) state rate-based goals, and
3) state mass-based CO2 goals that represent the equivalent
of each state’s rate-based goal. This will facilitate
states’ choices in developing their plans, particularly for
those seeking to adopt mass-based allowance trading
programs or other statewide policy measures as well as, or
instead of, source-specific requirements. The EPA received
significant comment to the effect that mass-based allowance
trading was not only highly familiar to states and EGUs,
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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but that it could be more readily applied than rate-based
trading for achieving emission reductions in ways that
optimize affordability and electric system reliability.
In this summary, we discuss the purpose of this rule, the
major provisions of the final rule, the context for the
rulemaking, key changes from the proposal, the estimated CO2
emission reductions, and the costs and benefits expected to
result from full implementation of this final action. Greater
detail is provided in the body of this preamble, the RIA, the
response to comments (RTC) documents, and various TSDs and
memoranda addressing specific topics.
2. Purpose of this rule
The purpose of this rule is to protect human health and the
environment by reducing CO2 emissions from fossil fuel-fired
power plants in the U.S. These plants are by far the largest
domestic stationary source of emissions of CO2, the most
prevalent of the group of air pollutant GHGs that the EPA has
determined endangers public health and welfare through its
contribution to climate change. This rule establishes for the
first time emission guidelines for existing power plants. These
guidelines will lead to significant reductions in CO2 emissions,
result in cleaner generation from the existing power plant
fleet, and support continued investments by the industry in
cleaner power generation to ensure reliable, affordable
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

 Page 14 of 1560
electricity now and into the future.
Concurrent with this action, the EPA is also issuing a
final rule that establishes CO2 emission standards of performance
for new, modified, and reconstructed power plants. Together,
these rules will reduce CO2 emissions by a substantial amount
while ensuring that the utility power sector in the U.S. can
continue to supply reliable and affordable electricity to all
Americans using a diverse fuel supply. As with past EPA rules
addressing air pollution from the utility power sector, these
guidelines have been designed with a clear recognition of the
unique features of this sector. Specifically, the agency
recognizes that utilities provide an essential public service
and are regulated and managed in ways unlike any other
industrial activity. In providing assurances that the emission
reductions required by this rule can be achieved without
compromising continued reliable, affordable electricity, this
final rule fully accounts for the critical service utilities
provide.
As with past rules under CAA section 111, this rule relies
on proven technologies and measures to set achievable emission
performance rates that will lead to cost-effective pollutant
emission reductions, in this case CO2 emission reductions at
power plants, across the country. In fact, the emission
guidelines reflect strategies, technologies and approaches
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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already in widespread use by power companies and states. The
vast preponderance of the input we received from stakeholders is
supportive of this conclusion.
States will play a key role in ensuring that emission
reductions are achieved at a reasonable cost. The experience of
states in this regard is especially important because CAA
section 111(d) relies on the well-established state-EPA
partnership to accomplish the required CO2 emission reductions.
States will have the flexibility to choose from a range of plan
approaches and measures, including numerous measures beyond
those considered in setting the CO2 emission performance rates,
and this final rule allows and encourages states to adopt the
most effective set of solutions for their circumstances, taking
account of cost and other considerations. This rulemaking, which
will be implemented through the state-EPA partnership, is a
significant step that will reduce air pollution, in this case
GHG emissions, in the U.S. At the same time, the final rule
greatly facilitates flexibility for EGUs by establishing a basis
for states to set trading-based emission standards and
compliance strategies. The rule establishes this basis by
including both uniform emission performance rates for the two
subcategories of sources and also state-specific rate- and massbased goals.
This final rule is a significant step forward in
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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implementing the President’s Climate Action Plan.3 To address the
far-reaching harmful consequences and real economic costs of
climate change, the President’s Climate Action Plan details a
broad array of actions to reduce GHG emissions that contribute
to climate change and its harmful impacts on public health and
the environment. Climate change is already occurring in this
country, affecting the health, economic well-being and quality
of life of Americans across the country, and especially those in
the most vulnerable communities. This CAA section 111(d)
rulemaking to reduce GHG emissions from existing power plants,
and the concurrent CAA section 111(b) rulemaking to reduce GHG
emissions from new, modified, and reconstructed power plants,
implement one of the strategies of the Climate Action Plan.
Nationwide, by 2030, this final CAA section 111(d) existing
source rule will achieve CO2 emission reductions from the utility
power sector of approximately 32 percent from CO2 emission levels
in 2005.
The EPA projects that these reductions, along with
reductions in other air pollutants resulting directly from this
rule, will result in net climate and health benefits of $25
billion to $45 billion in 2030. At the same time, coal and

3

The President’s Climate Action Plan, June 2013.
http://www.whitehouse.gov/sites/default/files/image/president27s
climateactionplan.pdf.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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natural gas will remain the two leading sources of electricity
generation in the U.S., with coal providing about 27 percent of
the projected generation and natural gas providing about 33
percent of the projected generation.
3. Summary of major provisions
a. Overview. The fundamental goal of this rule is to reduce
harmful emissions of CO2 from fossil fuel-fired EGUs in
accordance with the requirements of the CAA. The June 2014
proposal for this rule was designed to meet this overarching
goal while accommodating two important objectives. The first was
to establish guidelines that reflect both the unique
interconnected and interdependent manner in which the power
system operates and the actions, strategies, and policies states
and utilities have already been undertaking that are resulting
in CO2 emission reductions. The second objective was to provide
states and utilities with broad flexibility and choice in
meeting those requirements in order to minimize costs to
ratepayers and to ensure the reliability of electricity supply.
In this final rule, the EPA has focused on changes that, in
addition to being responsive to the critical concerns and
priorities of stakeholders, more fully accomplish these
objectives.
While our consideration of public input and additional
information has led to notable revisions from the emission
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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guidelines we proposed in June 2014, the proposed guidelines
remain the foundation of this final rule. These final guidelines
build on the progress already underway to reduce the carbon
intensity of power generation in the U.S., especially through
the lowest carbon-intensive technologies, while reflecting the
unique interconnected and interdependent system within which
EGUs operate. Thus, the BSER, as determined in these guidelines,
incorporates a range of CO2-reducing actions, while at the same
time adhering to the fundamental approach the EPA has relied on
for decades in implementing section 111 of the CAA.
Specifically, in making its BSER determination, the EPA examined
not only actions, technologies and measures already in use by
EGUs and states, but also deliberately incorporated in its
identification of the BSER the unique way in which affected EGUs
actually operate in providing electricity services. This latter
feature of the BSER mirrors Congress’ approach to regulating air
pollution in this sector, as exemplified by Title IV of the CAA.
There, Congress established a pollution reduction program
specifically for fossil fuel-fired EGUs and designed the sulfur
dioxide (SO2) portion of that program with express recognition of
the utility power sector’s ability to shift generation among
various EGUs, which enabled pollution reduction by increasing
reliance on RE and even on demand-side EE. The result of our
following Congress’ recognition of the interdependent operation
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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of EGUs within an interconnected grid

is the incorporation in

the BSER of measures, such as shifting generation to loweremitting NGCC units and increased use of RE, that rely on the
current interdependent operation of EGUs. As we noted in the
proposal and note here as well, the EPA undertook an
unprecedented and sustained process of engagement with the
public and stakeholders. It is, in many ways, as a direct result
of public discussion and input that the EPA came to recognize
the substantial extent to which the BSER needed to account for
the unique interconnected and interdependent operations of EGUs
if it was to meet the criteria on which the EPA has long relied
in making BSER determinations.
Equally important, these guidelines offer states and owners
and operators of EGUs broad flexibility and latitude in
complying with their obligations. Because affordability and
electricity system reliability are of paramount importance, the
rule provides states and utilities with time for planning and
investment, which is instrumental to ensuring both manageable
costs and system reliability, as well as to facilitating clean
energy innovation. The final rule continues to express the CO2
emission reduction requirements in terms of state goals, as well
as in terms of emission performance rates for the two
subcategories of affected EGUs, reflecting the particular mix of
power generation in each state, and it continues to provide
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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until 2030, fifteen years from the date of this final rule, for
states and sources to achieve the CO2 reductions. Numerous
commenters, including most sources, states and energy agencies,
indicated that this was a reasonable timeframe. The final
guidelines also continue to provide an option where programs
beyond those directly limiting power plant emission rates can be
used for compliance (i.e., policies, programs and other
measures). The final rule also continues to allow, but not
require, multi-state approaches. Finally, EPA took care to
ensure that states could craft their own emissions reduction
trajectories in meeting the interim goals included in this final
rule.
b. Opportunities for states. As stated above, the final
guidelines are designed to build on and reinforce progress by
states, cities and towns, and companies on a growing variety of
sustainable strategies to reduce power sector CO2 emissions.
States, in their CAA section 111(d) plans, will be able to rely
on, and extend, programs they may already have created to
address emissions of air pollutants, and in particular CO2, from
the utility power sector or to address the sector from an
overall perspective. Those states committed to Integrated
Resource Planning (IRP) will be able to establish their CO2
reduction plans within that framework, while states with a more
deregulated power sector system will be able to develop CO2
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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reduction plans within that specific framework. Each state will
have the opportunity to take advantage of a wide variety of
strategies for reducing CO2 emissions from affected EGUs,
including demand-side EE programs and mass-based trading, which
some suggested in their comments. The EPA and other federal
entities, including the U.S. Department of Energy (DOE), the
Federal Energy Regulatory Commission (FERC) and the U.S.
Department of Agriculture (USDA), among others, are committed to
sharing expertise with interested states as they develop and
implement their plans.
States will be able to address the economic interests of
their utilities and ratepayers by using the flexibilities in
this final action to reduce costs to consumers, minimize
stranded assets, and spur private investments in RE and EE
technologies and businesses. They may also, if they choose, work
with other states on multi-state approaches that reflect the
regional structure of electricity operating systems that exists
in most parts of the country and is critical to ensuring a
reliable supply of affordable energy. The final rule gives
states the flexibility to implement a broad range of approaches
that recognize that the utility power sector is made up of a
diverse range of companies of various sizes that own and operate
fossil fuel-fired EGUs, including vertically integrated
companies in regulated markets, independent power producers,
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rural cooperatives and municipally-owned utilities, some of
which are likely to have more direct access than others to
certain types of GHG emission reduction opportunities, but all
of which have a wide range of opportunities to achieve
reductions or acquire clean generation.
Again, with features that facilitate mass-based and/or
interstate trading, the final guidelines also empower affected
EGUs to pursue a broad range of choices for compliance and for
integrating compliance action with the full range of their
investments and operations.
c. Main elements. This final rule comprises three main elements:
1) two subcategory-specific CO2 emission performance rates
resulting from application of the BSER to the two subcategories
of affected EGUs; 2) state-specific CO2 goals, expressed as both
emission rates and as mass, that reflect the subcategoryspecific CO2 emission performance rates and each state’s mix of
affected EGUsthe two performance rates; and 3) guidelines for
the development, submittal and implementation of state plans
that implement those BSER emission performance rates either
through emission standards for affected EGUs, or through
measures that achieve the equivalent, in aggregate, of those
rates as defined and expressed in the form of the state goals.
In this final action, the EPA is setting emission
performance rates, phased in over the period from 2022
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through 2030, for two subcategories of affected fossil
fuel-fired EGUs – fossil fuel-fired electric utility steamgenerating units and stationary combustion turbines. These
rates, applied to each state’s particular mix of fossil
fuel-fired EGUs, generate the state’s carbon intensity goal
for 2030 (and interim rates for the period 2022-2029). Each
state will determine whether to apply these to each
affected EGU or to take an alternative approach and meet
either an equivalent statewide rate-based goal or statewide
mass-based goal. The EPA does not prescribe how a state
must meet the emission guidelines, but, if a state chooses
to take the path of meeting a state goal, these final
guidelines identify the methods that a state can or, in
some cases, must use to demonstrate that the combination of
measures and standards that the state adopts meets its
state-level CO2 goals. While the EPA accomplishes the phasein of the interim goal by way of annual emission
performance rates, states and EGUs may meet their
respective emission reduction obligations “on average” over
that period following whatever emission reduction
trajectory they determine to pursue over that period.
CAA section 111(d) creates a partnership between the
EPA and the states under which the EPA establishes emission
guidelines and the states take the lead on implementing
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them by establishing emission standards or creating plans
that are consistent with the EPA emission guidelines. The
EPA recognizes that each state has differing policy
considerations – including varying regional emission
reduction opportunities and existing state programs and
measures – and that the characteristics of the electricity
system in each state (e.g., utility regulatory structure
and generation mix) also differ. Therefore, as in the
proposal, each state will have the latitude to design a
program to meet source-category specific emission
performance rates or the equivalent statewide rate- or
mass-based goal in a manner that reflects its particular
circumstances and energy and environmental policy
objectives. Each state can do so on its own, or a state can
collaborate with other states and/or tribal governments on
multi-state plans, or states can include in their plans the
trading tools that EGUs can use to realize additional
opportunities for cost savings while continuing to operate
across the interstate system through which electricity is
produced. A state would also have the option of adopting

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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the model rules for either a rate- or a mass-based program
that the EPA is proposing concurrently with this action.4
To facilitate the state planning process, this final
rule establishes guidelines for the development, submittal,
and implementation of state plans. The final rule describes
the components of a state plan, the additional latitude
states have in developing strategies to meet the emission
guidelines, and the options they have in the timing of
submittal of their plans. This final rule also gives states
considerable flexibility with respect to the timeframes for
plan development and implementation, as well as the choice
of emission reduction measures. The final rule provides up
to fifteen years for full implementation of all emission
reduction measures, with incremental steps for planning and
then for demonstration of CO2 reductions that will ensure
that progress is being made in achieving CO2 emission
reductions. States will be able to choose from a wide range
of emission reduction measures, including measures that are
not part of the BSER, as discussed in detail in section
VIII.G of this preamble.

4

The EPA’s proposed CAA section 111(d) federal plan and model
rules for existing fossil fuel-fired EGUs are being published
concurrently with this final rule.
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d. Determining the BSER. In issuing this final rulemaking, the
EPA is implementing statutory provisions that have been in place
since Congress first enacted the CAA in 1970 and that have been
implemented pursuant to regulations promulgated in 1975 and
followed in numerous subsequent CAA section 111 rulemakings.
These requirements call on the EPA to develop emission
guidelines that reflect the EPA’s determination of the “best
system of emission reduction... adequately demonstrated”for
states to follow in formulating plans to establish emission
standards to implement the BSER.
As the EPA has done in making BSER determinations in
previous CAA section 111 rulemakings, for this final BSER
determination, the agency considered the types of strategies
that states and owners and operators of EGUs are already
employing to reduce the covered pollutant (in this case, CO2)
from affected sources (in this case, fossil fuel-fired EGUs).5
In so doing, as has always been the case, our
considerations were not limited solely to specific technologies

5

The final emission guidelines for landfill gas emissions from
municipal solid waste landfills, published on March 12, 1996,
and amended on June 16, 1998 (61 FR 9905 and 63 FR 32743,
respectively), provide an example, as the guidelines allow
either of two approaches for controlling landfill gas – by
recovering the gas as a fuel, for sale, and removing from the
premises, or by destroying the organic content of the gas on the
premises using a control device. Recovering the gas as a fuel
source was a practice already being used by some affected
sources prior to promulgation of the rulemaking.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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or equipment in hypothetical operation; rather, our analysis
encompassed the full range of operational practices,
limitations, constraints and opportunities that bear upon EGUs’
emission performance, and which

reflect the unique

interconnected and interdependent operations of EGUs and the
overall electricity grid.
In this final action, the agency has determined that the
BSER comprises the first three of the four proposed “building
blocks,” with certain refinements to the three building blocks.
The three building blocks are:
1. Improving heat rate at affected coal-fired steam
EGUs.
2. Substituting increased generation from loweremitting existing natural gas combined cycle units
for reduced generation from higher-emitting affected
steam generating units.
3. Substituting increased generation from new zeroemitting renewable energy generating capacity for
reduced generation from affected fossil fuel-fired
generating units.
These three building blocks are approaches that are
available to all affected EGUs, either through direct
investment or operational shifts or through emissions
trading where states, which must establish emission
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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standards for affected EGUs, do so by incorporating
emissions trading.6 At the same time, and as we noted in the
proposal, there are numerous other measures available to
reduce CO2 emissions from affected EGUs, and our
determination of the BSER does not necessitate the use of
the three building blocks to their maximum extent, or even
at all. The building blocks and the BSER determination are
described in detail in section V of this preamble.
e. CO2 state-level goals and subcategory-specific emission
performance rates.
(1) Final CO2 goals and emission performance rates.
In this action, the EPA is establishing CO2 emission
performance rates for two subcategories of affected EGUs -fossil fuel-fired electric utility steam generating units and
stationary combustion turbines. For fossil fuel-fired steam
generating units, we are finalizing an emission performance rate
of 1,305 lb CO2/MWh. For stationary combustion turbines, we are
finalizing an emission performance rate of 771 lb CO2/MWh. As we
did at proposal, for each state, we are also promulgating rate-

6

The EPA notes that, in quantifying the emission reductions that
are achievable through application of the BSER, some building
blocks will apply to some, but not all, affected EGUs.
Specifically, building block 1 will apply to affected coal-fired
steam EGUs, building block 2 will apply to all affected steam
EGUs (both coal-fired and oil/gas-fired), and building block 3
will apply to all affected EGUs.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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based CO2 goals that are the weighted aggregate of the emission
performance rates for the state’s EGUs. To ensure that states
and sources can choose additional alternatives in meeting their
obligations, the EPA is also promulgating each state’s goal
expressed as a CO2 mass goal. The inclusion of mass-based goals,
along with information provided in the proposed federal plan and
model rules that are being issued concurrently with this rule,
paves the way for states to implement mass-based trading, as
some states have requested, reflecting their view that massbased trading provides significant advantages over rate-based
trading.
Affected EGUs, individually, in aggregate, or in
combination with other measures undertaken by the state,
must achieve the equivalent of the CO2 emission performance
rates, expressed via the state-specific rate- and massbased goals, by 2030.
(2) Interim CO2 emission performance rates and statespecific goals.
The best system of emission reduction includes both the
measures for reducing CO2 emissions and the timeframe over which
they can be implemented. In this final action, the EPA is
establishing an eight-year interim period, beginning in 2022
instead of 2020, over which to achieve the full required
reductions to meet the CO2 performance rates, a commencement date
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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more than six years from [INSERT THE DATE OF PUBLICATION IN THE
FEDERAL REGISTER], the date of this rulemaking. This eight-year
interim period from 2022 through 2029 is separated into three
steps, 2022-2024, 2025-2027, and 2028-2029, each associated with
its own interim CO2 emission performance rates. The interim steps
are presented both in terms of emission performance rates for
the two subcategories of affected EGUs and in terms of state
goals, expressed both as a rate and as a mass. A state may adopt
emission standards for its sources that are identical to these
interim emission performance rates or, alternatively, adapt
these steps to accommodate the timing of expected reductions, as
long as the state’s interim goal is met over the eight-year
period.
f. State plans.7

7

The CAA section 111(d) emission guidelines apply to the 50
states, the District of Columbia, U.S. territories, and any
Indian tribe that has been approved by the EPA pursuant to 40
CFR 49.9 as eligible to develop and implement a CAA section
111(d) plan. In this preamble, in instances where these
governments are not specifically listed, the term “state” is
used to represent them. Because Vermont and the District of
Columbia do not have affected EGUs, they will not be required to
submit a state plan. Because the EPA lacks appropriate
information to quantify the BSER for the two non-contiguous
states with affected EGUs (Alaska and Hawaii) and the two U.S.
territories with affected EGUs (Guam and Puerto Rico), we are
not finalizing emission performance rates in those areas at this
time, and those areas will not be required to submit state plans
until we do.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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In this action, the EPA is establishing final
guidelines for states to follow in developing, submitting
and implementing their plans. In developing plans, states
will need to choose the type of plan they will develop.
They will also need to include required plan components in
their plan submittals, meet plan submittal deadlines,
achieve the required CO2 emission reductions over time, and
provide for monitoring and periodic reporting of progress.
As with the BSER determination, stakeholder comments have
provided both data and recommendations to which these final
guidelines are responsive.
(1)

Plan approaches.

To comply with these emission guidelines, a state will have
to ensure, through its plan, that the emission standards it
establishes for its sources individually, in aggregate, or in
combination with other measures undertaken by the state,
represent the equivalent of the subcategory-specific CO2 emission
performance rates. This final rule includes several options for
state plans, as discussed in the proposal and in many of the
comments we received.
First, in the final rule, states may establish emission
standards for their affected EGUs that mirror the uniform
emission performance rates for the two subcategories of sources
included in this final rule. They may also pursue alternative
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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approaches that adopt emission standards that meet the uniform
emission performance rates, or emission standards that meet
either the rate-based goal promulgated for the state or the
alternative mass-based goal promulgated for the state. It is for
the purpose of providing states with these choices that the EPA
is providing state-specific rate-based and mass-based goals
equivalent to the emission performance rates that the EPA is
establishing for the two subcategories of fossil fuel-fired
EGUs. A detailed explanation of rate- and mass-based goals is
provided in section VII of this preamble and in a TSD.8 In
developing its plan, each state and eligible tribe electing to
submit a plan will need to choose whether its plan will result
in the achievement of the CO2 emission performance rates,
statewide rate-based goals, or statewide mass-based goals by the
affected EGUs.
The second major set of options provided in the final rule
includes the types of measures states may rely on through the
state plans. A state will be able to choose to establish
emission standards for its affected EGUs sufficient to meet the
requisite performance rates or state goal, thus placing all of
the requirements directly on its affected EGUs, which we refer
to as the “emission standards approach.” Alternatively, a state

The CO2 Emission Performance Rate and Goal Computation TSD for
the CPP Final Rule, available in the docket for this rulemaking.
8

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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can adopt a “state measures approach,” which would result in the
affected EGUs meeting the statewide mass-based goal by allowing
a state to rely upon state-enforceable measures on entities
other than affected EGUs, in conjunction with any federally
enforceable emission standards the state chooses to impose on
affected EGUs. With a state measures approach, the plan must
also include a contingent backstop of federally enforceable
emission standards for affected EGUs that fully meet the
emission guidelines and that would be triggered if the plan
failed to achieve the required emission reductions on schedule.
A state would have the option of basing its backstop emission
standards on the model rule, which focuses on the use of
emissions trading as the core mechanism, that the EPA is
proposing today. A state that adopts a state measures approach
must use its mass CO2 emission goal as the metric for
demonstrating plan performance.
The final rule requires that the state plan submittal
include a timeline with all of the programmatic milestone steps
the state will take between the time of the state plan submittal
and the year 2022 to ensure that the plan is effective as of
2022. States must submit a report to the EPA in 2021 that
demonstrates that the state has met the programmatic milestone
steps that the state indicated it would take during the period
from the submittal of the final plan through the end of 2020,
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and that the state is on track to implement the approved state
plan as of January 1, 2022.
The plan must also include a process for reporting on plan
implementation, progress toward achieving CO2 emission
reductions, and implementation of corrective actions, in the
event that the state fails to achieve required emission levels
in a timely fashion. Beginning January 1, 2025, and then January
1, 2028, January 1, 2030, and then every two calendar years
thereafter, the state will be required to compare emission
levels achieved by affected EGUs in the state with the emission
levels projected in the state plan and report the results of
that comparison to the EPA by July 1 of those calendar years.
Existing state programs can be aligned with the
various state plan options further described in Section
VIII. A state plan that uses one of the finalized model
rules, which the EPA is proposing concurrently with this
action, could be presumptively approvable if the state plan
meets all applicable requirements.9 The plan guidelines
provide the states with the ability to achieve the full
reductions over a multi-year period, through a variety of
reduction strategies, using state-specific or multi-state
approaches that can be achieved on either a rate or mass

9

The EPA would take action on such a state plan through
independent notice and comment rulemaking.
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basis. They also address several key policy considerations
that states can be expected to contemplate in developing
their plans.
State plan approaches and plan guidelines are explained
further in section VIII of this preamble.
(2) State plan components and approvability criteria.
The EPA’s implementing regulations provide certain basic
elements required for state plans submitted pursuant to CAA
section 111(d).10 In the proposal, the EPA identified certain
additional elements that should be contained in state plans. In
this final action, in response to comments, the EPA is making
several revisions to the components required in a state plan
submittal and is also incorporating the approvability criteria
into the final list of components required in a state plan
submittal. In addition, we have organized the state plan
components to reflect: 1) components required for all state plan
submittals; 2) additional components required for the emission
standards approach; and 3) additional components required for
the state measures approach.
All state plans must include the following components:



10

Description of the plan
Applicability of state plans to affected EGUs

40 CFR 60.23.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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





Demonstration that the plan submittal is projected to
achieve the state’s CO2 emission performance rates or
state CO2 goal11
Monitoring, reporting and recordkeeping requirements
for affected EGUs
State recordkeeping and reporting requirements
Public participation and certification of hearing on
state plan
Supporting documentation
Also, in submitting state plans, states must provide

documentation demonstrating that they have considered electric
system reliability in developing their plans.
Further, in this final rule, the EPA is requiring states to
demonstrate how they are meaningfully engaging all stakeholders,
including workers and low-income communities, communities of
color, and indigenous populations living near power plants and
otherwise potentially affected by the state’s plan. In their
plan submittals, states must describe their engagement with
their stakeholders, including their most vulnerable communities.
The participation of these communities, along with that of
ratepayers and the public, can be expected to help states ensure
that state plans maintain the affordability of electricity for
all and preserve and expand jobs and job opportunities as they
move forward to develop and implement their plans.

11

A state that chooses to set emission standards that are
identical to the emission performance rates for both the interim
period and in 2030 and beyond need not identify interim state
goals nor include a separate demonstration that its plan will
achieve the state goals.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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State plan submittals using the emission standards approach
must also include:




Identification of each affected EGU; identification of
federally enforceable emission standards for the affected
EGUs; and monitoring, recordkeeping and reporting
requirements.
Demonstrations that each emission standard will result in
reductions that are quantifiable, non-duplicative,
permanent, verifiable, and enforceable.
State plan submittals using the state measures approach

must also include:




Identification of each affected EGU; identification of
federally enforceable emission standards for affected EGUs
(if applicable); identification of backstop of federally
enforceable emission standards; and monitoring,
recordkeeping and reporting requirements.
Identification of each state measure and demonstration that
each state measure will result in reductions that are
quantifiable, non-duplicative, permanent, verifiable, and
enforceable.

In addition to these requirements, each state plan must follow
the EPA implementing regulations at 40 CFR 60.23.
(3) Timing and process for state plan submittal and review.
Because of the compelling need for actions to begin the steps
necessary to reduce GHG emissions from EGUs, the EPA proposed
that states submit their plans within 13 months of the date of
this final rule and that reductions begin in 2020. In light of
the comments received and in order to provide maximum
flexibility to states while still taking timely action to reduce
CO2 emissions, in this final rule the EPA is allowing for a 2This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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year extension until September 6, 2018, for both individual and
multi-state plans, to provide a total of 3 years for states to
submit a final plan if an extension is received. Specifically,
the final rule requires each state to submit a final plan by
September 6, 2016. Since some states may need more than one year
to complete all of the actions needed for their final state
plans, including technical work, state legislative and
rulemaking activities, a robust public participation process,
coordination with third parties, coordination among states
involved in multi-state plans, and consultation with reliability
entities, the EPA is allowing an optional two-phased submittal
process for state plans. If a state needs additional time to
submit a final plan, then the state may request an extension by
submitting an initial submittal by September 6, 2016. For the
extension to be granted, the initial submittal must address
three required components sufficiently to demonstrate that a
state is able to undertake steps and processes necessary to
timely submit a final plan by the extended date of September 6,
2018. These components are: an identification of final plan
approach or approaches under consideraton, including a
description of progress made to date; an appropriate explanation
for why the state needs additional time to submit a final plan
beyond September 6, 2016; and a demonstration of how they have
been engaging with the public, including vulnerable communities,
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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and a description of how they intend to meaningfully engage with
community stakeholders during the additonal time (if an
extension is granted) for development of the final plan, as
described in section VIII.E of this preamble. As further
described in section VIII.B of this preamble, the EPA is
establishing a CEIP in order to promote early action. States’
participation in the CEIP is optional. In order for a state to
participate in the program, it must include in its initial
submittal, if applicable, a non-binding statement of intent to
participate in the CEIP; if a state is submitting a final plan
by September 6, 2016, it must include such a statement of intent
as part of its supporting documentation for the plan.
If the initial submittal includes those components and if
the EPA does not notify the state that the initial submittal
does not contain the required components, then, within 90 days
of the submittal, the extension of time to submit a final plan
will be deemed granted. A state will then have until no later
than September 6, 2018, to submit a final plan. The EPA will
also be working with states during the period after they make
their initial submittals and provide states with any necessary
information and assistance during the 90-day period. Further,
states participating in a multi-state plan may submit a single
joint plan on behalf of all of the participating states.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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States and tribes that do not have any affected EGUs in
their jurisdictional boundaries may provide emission rate
credits (ERCs) to adjust CO2 emissions, provided they are
connected to the contiguous U.S. grid and meet other
requirements for eligibility. There are certain limitations and
restrictions for generating ERCs, and these, as well as
associated requirements, are explained in section VIII of this
preamble.
Following submission of final plans, the EPA will
review plan submittals for approvability. Given a similar
timeline accorded under section 110 of the CAA, and the
diverse approaches states may take to meet the CO2 emission
performance rates or equivalent statewide goals in the
emission guidelines, the EPA is extending the period for
EPA review and approval or disapproval of plans from the
four-month period provided in the EPA implementing
regulations to a twelve-month period. This timeline will
provide adequate time for the EPA to review plans and
follow notice-and-comment rulemaking procedures to ensure
an opportunity for public comment. The EPA, especially
through our regional offices, will be available to work
with states as they develop their plans, in order to make
review of submitted plans more straightforward and to

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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minimize the chances of unexpected issues that could slow
down approval of state plans.
(4)

Timing for implementing the CO2 emission guidelines.

The EPA recognizes that the measures states and utilities
have been and will be taking to reduce CO2 emissions from
existing EGUs can take time to implement. We also recognize that
investments in low-carbon intensity and RE and in EE strategies
are currently underway and in various stages of planning and
implementation widely across the country. We carefully reviewed
information submitted to us regarding the feasible timing of
various measures and identifying concerns that the required CO2
emission reductions could not be achieved as early as 2020
without compromising electric system reliability, imposing
unnecessary costs on ratepayers, and requiring investments in
more carbon-intensive generation, while diverting investment in
cleaner technologies. The record is compelling. To respond to
these concerns and to reflect the period of time required for
state plan development and submittal by states, review and
approval by the EPA, and implementation of approved plans by
states and affected EGUs, the EPA is determining in this final
rule that affected EGUs will be required to begin to make
reductions by 2022, instead of 2020, as proposed, and meet the
final CO2 emission performance rates or equivalent statewide
goals by no later than 2030. The EPA is establishing an 8-year
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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interim period that begins in 2022 and goes through 2029, and
which is separated into three steps, 2022-2024, 2025-2027, and
2028-2029, each associated with its own interim goal. Affected
EGUs must meet each of the interim period step 1, 2, and 3 CO2
emission performance rates, or, following the emissions reduction
trajectory designed by the state itself, must meet the
equivalent statewide interim period goals, on average, that a
state may establish over the 8-year period from 2022-2029. The
CAA section 111(d) plan must include those specific
requirements. Affected EGUs must also achieve the final CO2
performance rates or the equivalent statewide goal by 2030 and
maintain that level subsequently. This approach reflects
adjustments to the timeframe over which reductions must be
achieved that mirror the determination of the final BSER, which
incorporates the phasing in of the BSER measures in keeping with
the achievability of those measures. The agency believes that
this approach to timing is reasonable and appropriate, is
consistent with many of the comments we received, and will best
support the optimization of overall CO2 reductions, ratepayer
affordability and electricity system reliability.
The EPA recognizes that successfully achieving reductions
by 2022 will be facilitated by actions and investments that
yield CO2 emission reductions prior to 2022. The final guidelines
include provisions to encourage early actions. States will be
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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able to take advantage of the impacts of early investments that
occur prior to the beginning of a plan performance period. Under
a mass-based plan, those impacts will be reflected in reductions
in the reported CO2 emissions of affected EGUs during the plan
performance period. Under a rate-based plan, states may
recognize early actions implemented after 2012 by crediting MWh
of electricity generation and savings that are achieved by those
measures during the interim and final plan performance periods.
This provision is discussed in section VIII.K of the preamble.
In addition, to encourage early investments in RE and
demand-side EE, the EPA is establishing the CEIP. Through this
program, detailed in section VIII.B of this preamble, states
will have the opportunity to award allowances and ERCs to
qualified providers that make early investments in RE, as well
as in demand-side EE programs implemented in low-income
communities. Those states that take advantage of this option
will be eligible to receive from the EPA matching allowances or
ERCs, up to a total for all states that represents the
equivalent of 300 million short tons of CO2 emissions.
The EPA will address design and implementation details of
the CEIP in a subsequent action. Prior to doing so, the EPA will
engage with states, utilities and other stakeholders to gather
information regarding their interests and priorities with regard
to implementation of the CEIP.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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The CEIP can play an important role in supporting one of
the critical policy benefits of this rule. The incentives and
market signal generated by the CEIP can help sustain the
momentum toward greater RE investment in the period between now
and 2022 so as to offset any dampening effects that might be
created by setting the period for mandatory reductions to begin
to 2022, two years later than at proposal.
(5)

Community and environmental justice considerations.

Climate change is an environmental justice issue. Lowincome communities and communities of color already overburdened
by pollution are disproportionately affected by climate change
and are less resilient than others to adapt to or recover from
climate-change impacts. While this rule will provide broad
benefits to communities across the nation by reducing GHG
emissions, it will be particularly beneficial to populations
that are disproportionately vulnerable to the impacts of climate
change and air pollution.
Conventional pollutants emitted by power plants, such as
particulate matter (PM), SO2, hazardous air pollutants (HAP), and
nitrogen oxides (NOx), will also be reduced as the plants reduce
their carbon emissions. These pollutants can have significant
adverse local and regional health impacts. The EPA analyzed the
communities in closest proximity to power plants and found that
they include a higher percentage of communities of color and
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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low-income communities than national averages. We thus expect an
important co-benefit of this rule to be a reduction in the
adverse health impacts of air pollution on these low-income
communities and communities of color. We refer to these
communities generally as “vulnerable” or “overburdened,” to
denote those communities least resilient to the impacts of
climate change and central to environmental justice
considerations.
While pollution will be cut from power plants overall,
there may be some relatively small number of plants whose
operation and corresponding emissions increase, as energy
providers balance energy production across their fleets to
comply with state plans. These plants are likely to be the
highest-efficiency natural gas-fired units, which have
correspondingly low carbon emissions and are also characterized
by low emissions of the conventional pollutants that contribute
to adverse health effects in nearby communities and regionally.
The EPA strongly encourages states to evaluate the effects of
their plans on vulnerable communities and to take the steps
necessary to ensure that all communities benefit from the
implementation of this rule. In order to identify whether state
plans are causing any adverse impacts on overburdened
communities, mindful that substantial overall reductions,
nevertheless, may be accompanied by potential localized
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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increases, the EPA intends to perform an assessment of the
implementation of this rule to determine whether it and other
air quality rules are leading to improved air quality in all
areas or whether there are localized impacts that need to be
addressed.
Effective engagement between states and affected
communities is critical to the development of state plans. The
EPA encourages states to identify communities that may be
currently experiencing adverse, disproportionate impacts of
climate change and air pollution, how state plan designs may
affect them, and how to most effectively reach out to them. This
final rule requires that states include in their initial
submittals a description of how they engaged with vulnerable
communities as they developed their initial submittals, as well
as the means by which they intend to involve communities and
other stakeholders as they develop their final plans. The EPA
will provide training and other resources for states and
communities to facilitate meaningful engagement.
In addition to the benefits for vulnerable communities from
reducing climate change impacts and effects of conventional
pollutant emissions, this rule will also help communities by
moving the utility industry toward cleaner generation and
greater EE. The federal government is committed to ensuring that
all communities share in these benefits.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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The EPA also encourages states to consider how they may
incorporate approaches already used by other states to help lowincome communities share in the investments in infrastructure,
job creation, and other benefits that RE and demand-side
EEprograms provide, have access to financial assistance
programs, and minimize any adverse impacts that their plans
could have on communities. To help support states in taking
concrete actions that provide economic development, job and
electricity bill-cutting benefits to low-income communities
directly, the EPA has designed the CEIP specifically to target
the incentives it creates on investments that benefit low-income
communities.
Community and environmental justice considerations are
discussed further in section IX of this preamble.
(6)

Addressing employment concerns.

In addition, the EPA encourages states in designing their state
plans to consider the effects of their plans on employment and
overall economic development to assure that the opportunities
for economic growth and jobs that the plans offer are realized.
To the extent possible, states should try to assure that
communities that can be expected to experience job losses can
also take advantage of the opportunities for job growth or
otherwise transition to healthy, sustainable economic growth.
The President has proposed the POWER+ Plan to help communities
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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impacted by power sector transition. The POWER+ planinvests in
workers and jobs, addresses important legacy costs in coal
country, and drives development of coal technology.12
Implementation of one key part of the POWER+ Plan, the
Partnerships for Opportunity and Workforce and Economic
Revitalization (POWER) initiative, has already begun. The POWER
initiative specifically targets economic and workforce
development assistance to communities affected by ongoing
changes in the coal industry and the utility power sector.13
(7)

Electric system reliability.

In no small part thanks to the comments we received and our
extensive consultation with key agencies responsible for
reliability, including FERC and DOE, among others, along with
EPA’s longstanding principles in setting emission standards for
the utility power sector, these guidelines reflect the paramount
importance of ensuring electric system reliability. The input we
received on this issue focused heavily on the extent of the
reductions required at the beginning of the interim period,
proposed as 2020. We are addressing these concerns in large part
by moving the beginning of the period for mandatory reductions
under the program from 2020 to 2022 and significantly adjusting

12

https://www.whitehouse.gov/the-press-office/2015/03/27/factsheet-partnerships-opportunity-and-workforce-and-economicrevitaliz.
13 http://www.eda.gov/power/.
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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the interim goals so that they provide a less abrupt initial
reduction expectation. This, in turn, will provide states and
utilities with a great deal more latitude in determining their
emission reduction trajectories over the interim period. As a
result, there will be more time for planning, consultation and
decision making in the formulation of state plans and in EGUs’
choice of compliance strategies, all within the existing
extensive structure of energy planning at the state and regional
levels. These adjustments in the interim goals are supported by
the information in the record concerning the time needed to
develop and implement reductions under the BSER. In addition,
the various forms of flexibility retained and enhanced in this
final rule, including opportunities for trading within and
between states, and other multi-state compliance approaches,
will further support electric system reliability.
The final guidelines address electric system reliability in
several additional important ways. Numerous commenters urged us
to include, as part of the plan development or approval process,
input from review by energy regulatory agencies and reliability
entities. In the final rule, we are requiring that each state
demonstrate in its final state plan submittal that it has
considered reliability issues in developing its plan. Second, we
recognize that issues may arise during the implementation of the
guidelines that may warrant adjustments to a state’s plan in
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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order to maintain electric system reliability. The final
guidelines make clear that states have the ability to propose
amendments to approved plans in the event that unanticipated and
significant electric system reliability challenges arise and
compel affected EGUs to generate at levels that conflict with
their compliance obligations under those plans.
As a final element of reliability assurance, the rule also
provides for a reliability safety valve for individual sources
where there is a conflict between the requirements the state
plan imposes on a specific affected EGU and the maintenance of
electric system reliability in the face of an extraordinary and
unanticipated event that presents substantial reliability
concerns.
We anticipate that these situations will be extremely rare
because the states have the flexibility to craft requirements
for their EGUs that will provide long averaging periods and/or
compliance mechanisms, such as trading, whose inherent
flexibility will make it unlikely that an individual unit will
find itself in this kind of situation. As one example, under
compliance regimes that allow individual EGUs to establish
compliance through the acquisition and holding of allowances or
ERCs equal to their emissions, an EGU’s need to continue to
operate – and emit – for the purposes of ensuring system
reliability will not put the EGU into non-compliance, provided,
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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of course, it obtains the needed allowances or credits in a
timely fashion. We, nevertheless, agree with many commenters
that it is prudent to provide an electric system reliability
safety valve as a precaution.
Finally, the EPA, DOE and FERC have agreed to coordinate
their efforts, at the federal level, to help ensure continued
reliable electricity generation and transmission during the
implementation of the final rule. The three agencies have set
out a memorandum that reflects their joint understanding of how
they will work together to monitor implementation, share
information, and to resolve any difficulties that may be
encountered.
As a result of the many features of this final rule that
provide states and affected EGUs with meaningful time and
decision making latitude, we believe that the comprehensive
safeguards already in place in the U.S. to ensure electric
system reliability will continue to operate effectively as
affected EGUs reduce their CO2 emissions under this program.
(8)

Outreach and resources for stakeholders.

To provide states, U.S. territories, tribes, utilities,
communities, and other interested stakeholders with
understanding about the rule requirements, and to provide
efficiencies where possible and reduce the cost and
administrative burden, the EPA will continue to work with
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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states, tribes, territories, and stakeholders to provide
information and address questions about the final rule. Outreach
will include opportunities for states and tribes to participate
in briefings, teleconferences, and meetings about the final
rule. The EPA’s ten regional offices will continue to be the
entry point for states, tribes and territories to ask technical
and policy questions. The agency will host (or partner with
appropriate groups to co-host) a number of webinars about
various components of the final rule; these webinars are planned
for the first two months after the final rule is issued. The EPA
will also offer consultations with tribal governments. The EPA
will continue outreach throughout the plan development and
submittal process. The EPA will use information from this
outreach process to inform the training and other tools that
will be of most use to the state, tribes, and territories that
are implementing the final rule.
The EPA has worked with communities, states, tribes and
relevant associations to develop an extensive training plan that
will continue in the months after the Clean Power Plan is
finalized. The EPA has assembled resources from a variety of
sources to create a comprehensive training curriculum for those
implementing this rule. Recorded presentations from the EPA, DOE
and other federal entities will be available for communities,
states, and others involved in composing and participating in
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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the development of state plans. This curriculum is available
online at EPA’s Air Pollution Training Institute.
The EPA also expects to issue guidance on specific topics.
As guidance documents, tools, templates and other resources
become available, the EPA, in consultation with DOE and other
federal agencies, will continue to make these resources
available via a dedicated website.14
We intend to continue to work actively with states and
tribes, as appropriate, to provide information and technical
support that will be helpful to them in developing and
implementing their plans. The EPA will engage in formal
consultations with tribal governments and provide training
tailored to the needs of tribes and tribal governments.
Additional detail on aspects of the final rule is
included in several technical support documents (TSDs) and
memoranda that are available in the rulemaking docket.
4. Key changes from proposal
a. Overview and highlights. As noted earlier in this overview,
the June 2014 proposal for the rule was designed to meet the
fundamental goal of reducing harmful emissions of CO2 from fossil
fuel-fired EGUs in a manner consistent with the CAA
requirements, while accommodating two important objectives. The

14

www.epa.gov/cleanpowerplantoolbox.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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first objective was to establish guidelines that reflect both
the manner in which the power system operates and the actions
and measures already underway across states and the utility
power sector that are resulting in CO2 emission reductions. The
second objective was to provide states and utilities maximum
flexibility, control and choice in meeting their compliance
obligations. In this final rule, the EPA has focused on changes
that, in addition to being responsive to the critical concerns
and priorities of stakeholders, more fully accomplish these two
crucial objectives.
To achieve these objectives, the June 2014 proposal
featured several important elements: the building block approach
for the BSER; state-specific, rather than source-specific,
goals; a 10-year interim goal that could be met “on average”
over the 10-year period between 2020 and 2029; and a “portfolio”
option for state plans. These features were intended either to
capture, in the emission guidelines, emission reduction measures
already in widespread use or to maximize the range of choices
that states and utilities could select in order to achieve their
emission limitations at low cost while ensuring electric system
reliability. In this final rule, we are retaining the key design
elements of the proposal and making certain adjustments to
respond to a variety of very constructive comments on ways that

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will implement the CAA section 111(d) requirements efficiently
and effectively.
The building block approach is a key feature of the
proposal that we are retaining in the final rule, but have
refined to include only the first three building blocks and to
reflect implementation of the measures encompassed in the
building blocks on a broad regional grid-level. In the proposal,
we expressed the emission limitation requirements reflecting the
BSER in terms of the state goals in order to provide states with
maximum flexibility and latitude. We viewed this as an important
feature because each state has its own energy profile and statespecific policies and needs relative to the production and use
of electricity. In the final rule, we extend that flexibility
significantly in direct response to comments from states and
utilities. The final rule establishes source-level emission
performance rates for the source subcategories, while retaining
state-level rate- and mass-based goals. One of the key messages
conveyed by state and utility commenters was that the final rule
should make it easier for states to adopt mass-based programs
and for utilities accustomed to operating across broad multistate grids to be able to avail themselves of more “ready-made”
emissions trading regimes. The inclusion of both of these new
features – mass-based state goals in addition to rate-based
goals, and source-level emission performance rates for the two
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subcategories of sources – is intended to make it easier for
states and utilities to achieve these outcomes. In fact, these
additions, together with the model rules and federal plan being
proposed concurrently with this rule, should demonstrate the
relative ease with which states can adopt mass-based trading
programs, including interstate mass-based programs that lend
themselves to the kind of interstate compliance strategies so
well suited for integration with the current interstate
operations of the overall utility grid.
Many stakeholders conveyed to the EPA that the proposal’s
interim goals for the 2020-2029 period were designed in a way
that defeated the EPA’s objective of allowing states and
utilities to shape their emission reduction trajectories. They
pointed out that, in many cases, the timing and stringency of
the states’ interim goals could require actions that could
result in high costs, threaten electric system reliability or
hinder the deployment of renewable technology. In response, the
EPA has revised the interim goals in two critical ways. First,
the period for mandatory reductions begin in 2022 rather than
2020; second, in keeping with the BSER, emission reduction
requirements are phased in more gradually over the interim
period. These changes will allow states and utilities to
delineate their own emission reduction trajectories so as to
minimize costs and foster broader deployment of RE technologies.
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The value of these changes is demonstrated by our analysis of
the final rule, which shows lower program costs, especially in
the early years of the interim period, and greater RE
deployment, relative to the analysis of the proposed rule. At
the same time, this re-design of the interim goals, together
with refinements we have made to state plan requirements and the
inclusion of a reliability safety valve, provide states,
utilities and other entities with the ability to continue to
guarantee system reliability.
b.

Outreach, engagement and comment record. This final rule is

the product of one of the most extensive and long-running public
engagement processes the EPA has ever conducted, starting in the
summer of 2013, prior to proposal, and continuing through
December 2014, when the public comment period ended, and
continuing beyond that with consultations and meetings with
stakeholders. The result of this extensive consultation was
millions of comments from stakeholders, which we have carefully
considered over the past several months. The EPA gained crucial
insights from the more than 4 million comments that the agency
received on the proposal and on notices leading to this final
rulemaking. Comments were provided by stakeholders that include
state environmental and energy officials, tribal officials,
public utility commissioners, system operators, owners and
operators of every type of power generating facility, other
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industry representatives, labor leaders, public health leaders,
public interest advocates, community and faith leaders, and
members of the public.
The insights gained from public comments contributed to the
development of final emission guidelines that build on the
proposal and the alternatives on which we sought comment. The
modifications incorporated in the final guidelines are directly
responsive to the comments we received from the many and diverse
stakeholders. The improved guidelines reflect information and
ideas that states and utilities provided to us about both the
best approach to establishing CO2 emission reduction requirements
for EGUs and the most effective ways to create true flexibility
for states and utilities in meeting these requirements. These
final rules also reflect the results of EPA’s robust
consultation with federal, state and regional energy agencies
and authorities, to ensure that the actions sources will take to
reduce GHG emissions will not compromise electric system
reliability or affordability of the U.S. electricity supply.
Input and assistance from FERC and DOE have been particularly
important in shaping some provisions in these final guidelines.
At the same time, input from faith-based, community-based and
environmental justice organizations, who provided thoughtful
comments about the potential impacts of this rule on pollution
levels in overburdened communities and economic impacts,
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including utility rates in low-income communities, is also
reflected in this rule. The final rule also reflects our
response to concerns raised by labor leaders regarding the
potential effects on workers and communities of the transition
away from higher-emitting power generation to lower- and zeroemitting power generation.
c.

Key changes. The most significant changes in these final

guidelines are: 1) the period for mandatory emission reductions
beginning in 2022 instead of 2020 and a gradual application of
the BSER over the 2022-2029 interim period, such that a state
has substantial latitude in selecting its own emission reduction
trajectory or “glide path” over that period, 2) a revised BSER
determination that focuses on narrower generation options that
do not include demand-side EE measures and that includes
refinements to the building blocks, more complete incorporation
in the BSER of the realities of electricity operations over the
three regional interconnections, and up-to-date information
about the cost and availability of clean generation options, 3)
establishment of source-specific CO2 emission performance rates
that are uniform across the two fossil fuel-fired subcategories
covered in these guidelines, as well as rate- and mass-based
state goals, to facilitate emission trading, including
interstate trading and, in particular, mass-based trading, 4) a
variation on the proposal’s “portfolio” option for state plans –
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called here the “state measures” approach - that continues to
provide states flexibility while ensuring that all state plans
have federally enforceable measures as a backstop, 5)
additional, more flexible options for states and utilities to
adopt multi-state compliance strategies, 6) an extension of up
to two years available to all states for submittal of their
final compliance plans following making initial submittals in
2016, 7) provisions to encourage actions that achieve early
reductions, including a Clean Energy Incentive Program (CEIP),
8) a combination of provisions expressly designed to ensure
electric system reliability, 9) the addition of employment
considerations for states in plan development, and 10) the
expansion of considerations and programs for low-income and
vulnerable communities.
We provide summary explanations in the following paragraphs
and more detailed explanations of all of these changes in later
sections of this preamble and associated documents.
(1) Mandatory reduction period beginning in 2022 and a
gradual glide path.
The proposal’s mandatory emission reduction period
beginning in 2020 and the trajectory of emission reduction
requirements in the interim period were both the subjects of
significant comment. Earlier this year, FERC conducted a series
of technical conferences comprising one national session and
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three regional sessions. The information provided by workshop
participants echoed much of the material that had been submitted
to the comment record for this rulemaking. On May 15, 2015, the
FERC Commissioners, drawing upon information highlighted at the
technical conferences, transmitted to the EPA some suggestions
for the final rule. In addition, via comments, states,
utilities, and reliability entities asked us to ensure adequate
time for them to implement strategies to achieve CO2 reductions.
They expressed concern that, in the proposal, at least some
states would be required to reduce emissions in 2020 to levels
that would require abrupt shifts in generation in ways that
raised concerns about impacts to electric system reliability and
ratepayer bills, as well as about stranded assets. To many
commenters, the proposal’s requirement for CO2 emission
reductions beginning in 2020, together with the stringency of
the interim CO2 goal, posed significant reliability implications,
in particular. In this final rule, the agency is addressing
these concerns, in part, by adjusting the compliance timeframe
from a 10-year interim period that begins in 2020 to an 8-year
interim period that begins in 2022, and by refining the approach
for meeting interim CO2 emission performance rates to be a
gradual glide path separated into three steps, 2022-2024, 20252027, and 2028-2029, that is also achievable “on average” over
the 8-year interim period. In response to the concerns of
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commenters that the proposal’s 10-year interim target failed to
afford sufficient flexibility, the final guidelines’ approach
will provide states with realistic options for customizing their
emission reduction trajectories. Of equal importance, the
approach provides more time for planning, consultation and
decision making in the formulation of state plans and in EGUs’
choices of compliance strategies. Both FERC’s May 15, 2015
letter and the comment record, as well as other information
sources, made it clear that providing sufficient time for
planning and implementation was essential to ensuring electric
system reliability.
The final guidelines’ approach to the interim emission
performance rates is the result of the application of the
measures constituting the BSER in a more gradual way, reflecting
stakeholder comments and information about the appropriate
period of time over which those measures can be deployed
consistent with the BSER factors of cost and feasibility. In
addition to facilitating reliable system operations, these
changes provide states and utilities with the latitude to
consider a broader range of options to achieve the required
reductions while addressing concerns about ratepayer impacts and
stranded assets.
(2) Revised BSER determination.

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Commenters urged the EPA to confine its BSER determination
to actions that involve what they characterized as more
“traditional” generation. While some stakeholders recognized
demand-side EE as being an integral part of the electricity
system, with many of the characteristics of more traditional
generating resources, other stakeholders did not. As explained
in section V.B.3.c.(8) below, our traditional interpretation and
implementation of CAA section 111 has allowed regulated entities
to produce as much of a particular good as they desire, provided
that they do so through an appropriately clean (or low-emitting)
process. While building blocks 1, 2, and 3 fall squarely within
this paradigm, the proposed building block 4 does not. In view
of this, since the BSER must serve as the foundation of the
emission guidelines, the EPA has not included demand-side EE as
part of the final BSER determination. Thus, neither the final
guidelines’ BSER determination nor the emission performance
rates for the two subcategories of affected EGUs take into
account demand-side EE. However, many commenters also urged the
EPA to allow states and sources to rely on demand-side EE as an
element of their compliance strategies, as demand-side EE is
treated as functionally interchangeable with other forms of
generation for planning and operational purposes, as EE measures
are in widespread use across the country and provide energy
savings that reduce emissions, lower electric bills, and lead to
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positive investments and job creation. We agree, and the final
guidelines provide ample latitude for states and utilities to
rely on demand-side EE in meeting emission reduction
requirements.
In response to stakeholder comments on the first three
building blocks and considerable data in the record, the EPA has
made refinements to the building blocks, and these are reflected
in the final BSER. Refinements include adoption of a modified
approach to quantification of the RE component, exclusion of the
proposed nuclear generation components, and adoption of a
consistent regionalized approach to quantification of all three
building blocks. The agency also recognizes the important
functional relationship between the period of time over which
measures are deployed and the stringency of emission limitations
those measures can achieve practically and at reasonable cost.
Therefore, the final BSER also reflects adjustments to the
stringency of the building blocks, after consideration of more
and less stringent levels, and refinements to the timeframe over
which reductions must be achieved. Sections V.C through V.E of
this preamble provide further information on the refinements
made to the building blocks and the rationale for doing so.
Commenters pointed out – and practical experience confirms
– what is widely known: that the utility power sector operates
over regional interconnections that are not constrained by state
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borders. Across a variety of issues raised in the proposal, many
commenters urged that the EPA take that reality into account in
developing this final rule.

Consequently, the BSER

determination itself (as well as a number of new compliance
features included in this final rule) and the resulting
subcategory-specific emission performance rates take into
account the grid-level operations of the source category.
The final guidelines’ BSER determination also takes into
account recent reductions in the cost of clean energy
technology, as well as projections of continuing cost
reductions, and continuing increases in RE deployment. We also
updated the underlying analysis with the most recent Energy
Information Administration (EIA) projections that show lower
growth in electricity demand between 2020 and 2030 than
previously projected. In keeping with these recent EIA
projections, we expect the final guidelines will be more
conducive to compliance, consistent with a strategy that allows
for the cleanest power generation and greater CO2 reductions in
2030 than the proposal. With a date of 2022, instead of 2020, as
proposed, for the mandatory CO2 emission reduction period to
begin, the final guidelines reflect that the additional time
aligns with the adoption of lower-cost clean technology and,
thus, its incorporation in the BSER at higher levels. At the
same time, the 2022-2029 interim period will more easily allow
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for companies to take advantage of improved clean energy
technologies as potential least cost options.
(3)

Uniform emission performance rates.

Some stakeholders commented that the proposal’s approach of
expressing the BSER in terms of state-specific goals deviated
from the requirements of CAA section 111 and from previous new
source performance standards (NSPS). The effect, they stated,
was that the proposal created de facto emission standards for
all affected EGUs but that these de facto standards varied
widely depending on the state in which a given EGU happened to
be located. Instead, these and other commenters stated, section
111 requires that EPA establish the BSER specifically for
affected sources, rather than by means of merely setting statespecific goals, and that these standards be uniform. Still other
commenters observed that the effect of the approach taken in the
proposal of applying the BSER to each state’s fleet was to put a
greater burden of reductions on lower-emitting or less carbonintensive states and a lesser emission reduction burden on
sources and states that were higher-emitting or more carbonintensive. This, they argued, was both inequitable and at odds
with the way in which NSPS have been applied in the past, where
the higher-emitting sources have made the greater and more costeffective reductions, while lower-emitting sources, whose
reduction opportunities tend to be less cost-effective, have
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been required to make fewer reductions to meet the applicable
standard.
At the same time, state and utility commenters expressed
concern that relying on state-specific goals and state-by-state
planning could introduce complexity into the otherwise seamless
integrated operation of affected EGUs across the multi-state
grids on which system operators, states and utilities currently
rely and intend to continue to rely. Accordingly, they
recommended that the final guidelines facilitate emissions
trading, in particular interstate trading, which would enable
EGU operators to integrate compliance with CO2 emissions
limitations with facility and grid-level operations. These sets
of comments intersected at the point at which they focused on
the fact that it is at the source level at which the standard is
set for NSPS and at the source level at which compliance must be
achieved.
The EPA carefully considered these comments and while we
believe that the approach we took at proposal was well-founded
and reflected a number of important considerations, we have
concluded that there is a way to address these concerns while
expanding upon the advantages offered by the proposal.
Accordingly, the final guidelines establish uniform rates for
the two subcategories of sources – an approach that is valuable
for creating greater equity between and among utilities and
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states with widely varying emission levels and for expanding the
flexibility of the program, especially in ways that have been
identified as important to utilities and states. Specifically,
the final guidelines express the BSER by means of performancebased CO2 emission rates that are uniform across each of two
subcategories – fossil fuel-fired electric steam generating
units and stationary combustion turbines – for the affected EGUs
covered by the guidelines. The rates are determined, in part, by
applying the methodology identified in the Notice of Data
Availability published on October 30, 2014, which was based on
the proposal’s building block approach. The final guidelines
also maintain the approach adopted in the proposal of
establishing state-level goals; in the final rule, those goals
are equal to the weighted aggregate of the two emission
performance rates as applied to the EGUs in each state.
This approach rectifies what would have been an
inefficient, unintended outcome of putting the greater reduction
burden on lower-emitting sources and states while exempting
higher-emitting sources and states. Expressing the BSER by means
of these rates also augments the range of options for both
states and EGUs for securing needed flexibility. Inclusion of
state goals creates latitude for states as to how they will meet
the guidelines. States also may meet the guideline requirements
by adopting the CO2 emission performance rates as emission
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standards that apply to the affected EGUs in their jurisdiction.
Such an approach would lend itself to the ready establishment of
intra-state and interstate trading, with the uniform rate-based
standards of performance established for each EGU as the basis
for such trading. At the same time, as at proposal, each state
also has the option of complying with these guidelines by
adopting a plan that takes a different approach to setting
standards of performance for its EGUs and/or by applying
complementary or alternative measures to meet the state goal set
by these guidelines – as either a rate or a mass total.
During the outreach process and through comments, a number
of state officials and other stakeholders expressed concern that
the EPA’s approach at proposal necessitated or represented a
significant intrusion into state-level energy policy-making,
drawing the EPA well beyond the bounds of its CAA authority and
expertise. In fact, these final guidelines are entirely
respectful of the EPA’s responsibility and authority to regulate
sources of air pollution. Instead, by establishing and operating
through uniform performance rates for the two subcategories of
sources that can be applied by states at the individual source
level and that can readily be implemented through emission
standards that incorporate emissions trading, these final
guidelines align with the approach Congress and the EPA have
consistently taken to regulating emissions from this and other
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industrial sectors, namely setting source-level, source
category-wide standards that individual sources can meet through
a variety of technologies and measures.
We emphasize, at the same time, that while the final
guidelines express the BSER by means of source-level CO2 emission
performance rates, as well as state-level goals, as at proposal,
each state will have a goal reflecting its particular mix of
sources, and the final guidelines retain the flexibility
inherent in the proposal’s state-specific goals approach (and,
as discussed in section VIII of this preamble, enhanced in
various ways). Thus, in keeping with the proposal’s flexibility,
states may choose to adopt either the emission performance rates
as emission standards for their sources, set different but, in
the aggregate, equivalent rates, or fulfill their obligations by
meeting their respective individual state goals.
(4)

State plan approaches.

Commenters expressed support for the objectives served by
the “portfolio” option in the state plan approaches included at
proposal, but many raised concerns about its legality, with
respect, in particular, to the CAA’s enforceability
requirements. Some of these commenters identified a “state
commitment approach” with backstop measures as a variation of
the “portfolio” approach that would retain the benefits of the
“portfolio” approach while resolving legal and enforceability
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concerns. In this final rule, in response to stakeholder
comments on the portfolio approach and alternative approaches,
the EPA is finalizing two approaches: a source-based “emission
standards” approach, and a “state measures” approach. Through
the latter, states may adopt a set of policies and programs,
which would not be federally enforceable, except that any
standards imposed on affected EGUs would be federally
enforceable. In addition, states would be required to include
federally enforceable backstop measures applicable to each
affected EGU in the event that the measures included in the
state plan failed to achieve the state plan’s emissions
reduction trajectory. Under these guidelines, states can
implement the BSER through standards of performance
incorporating the uniform performance rates or alternative but
in the aggregate equivalent rates, or they can adopt plans that
achieve in aggregate the equivalent of the subcategory-specific
CO2 emission performance rates by relying on other measures
undertaken by the state that complement source-specific
requirements or, save for the contingent backstop requirement,
supplant them entirely. This revision provides consistency in
the treatment of sources while still providing maximum
flexibility for states to design their plans around reduction
approaches that best suit their policy objectives.
(5) Emission trading programs.
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Many state and utility commenters supported the use of
mass-based and rate-based emission trading programs in state
plans, including interstate emission trading programs, and
either pointed out obstacles to establishing such programs or
suggested approaches that would enhance states’ and utilities’
ability to create and participate in such programs.
Through a combination of features retained from the
proposal and changes made to the proposal, these final
guidelines provide states and utilities with a panoply of tools
that greatly facilitate their putting in place and participating
in emissions trading programs. These include: 1) expressing BSER
in uniform emission performance rates that states may rely on in
setting emission standards for affected EGUs such that EGUs
operating under such standards readily qualify to trade with
affected EGUs in states that adopt the same approach, 2)
promulgating state mass goals so that states can move quickly to
establish mass-based programs such that their affected EGUs
readily qualify to trade with affected EGUs in states that adopt
the same approach, and 3) providing EPA resources and capacity
to create a tracking system to support state emissions trading
programs.
(6) Extension of plan submittal date.
Stakeholders, particularly states, provided compelling
information establishing that it could take longer than the
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agency initially anticipated for the states to develop and
submit their required plans. While the approach at proposal
reflected the EPA’s conclusion that it was essential to the
environmental and economic purposes of this rulemaking that
utilities and states establish the path towards emissions
reductions as early as possible, we recognize commenters’
concerns. To strike the proper balance, the EPA has developed a
revised state plan submittal schedule. For states that cannot
submit a final plan by September 6, 2016, the EPA is requiring
those states to make an initial submittal by that date to assure
that states begin to address the urgent needs for reductions
quickly, and is providing until September 6, 2018, for states to
submit a final plan, if an extension until that date is
justified, to address the concern that a submitting state needs
more time to develop comprehensive plans that reflect the full
range of the state’s and its stakeholders’ interests.
(7) Provisions to encourage early action.
Many commenters supported providing incentives for states
and utilities to deploy CO2-reducing investments, such as RE and
demand-side EE measures, as early as possible. We also received
comments from stakeholders regarding the disproportionate
burdens that some communities already bear, and stating that all
communities should have equal access to the benefits of clean
and affordable energy. The EPA recognizes the validity and
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importance of these perspectives, and as a result has determined
to provide a program – called the CEIP – in which states may
choose to participate.
The CEIP is designed to incentivize investment in certain
RE and demand-side EE projects that commence construction, in
the case of RE, or commence construction, in the case of demandside EE, following the submission of a final state plan to the
EPA, or after September 6, 2018, for states that choose not to
submit a final state plan by that date, and that generate MWh
(RE) or reduce end-use energy demand (EE) during 2020 and/or
2021. State participation in the program is optional.
Under the CEIP, a state may set aside allowances from the
CO2 emission budget it establishes for the interim plan
performance period or may generate early action ERCs (ERCs are
discussed in more detail in section VIII.K.2), and allocate
these allowances or ERCs to eligible projects for the MWh those
projects generate or the end-use energy savings they achieve in
2020 and/or 2021. For each early action allowance or ERC a state
allocates to such projects, the EPA will provide the state with
an appropriate number of matching allowances or ERCs for the
state to allocate to the project. The EPA will match stateissued early action ERCs and allowances up to an amount that
represents the equivalent of 300 million short tons of CO2
emissions.
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For a state to be eligible for a matching award of
allowances or ERCs from the EPA, it must demonstrate that it
will award allowances or ERCs only to “eligible” projects. These
are projects that:


Are located in or benefit a state that has submitted a
final state plan that includes requirements establishing
its participation in the CEIP;



Are implemented following the submission of a final state
plan to the EPA, or after September 6, 2018, for a state
that chooses not to submit a complete state plan by that
date;



For RE: Generate metered MWh from any type of wind or solar
resources;



For EE: Result in quantified and verified electricity
savings (MWh) through demand-side EE implemented in lowincome communities; and



Generate or save MWh in 2020 and/or 2021.
The following provisions outline how a state may award

early action ERCs and allowances to eligible projects, and how
the EPA will provide matching ERCs or allowances to states.


For RE projects that generate metered MWh from any type of
wind or solar resources: for every two MWh generated, the
project will receive one early action ERC (or the

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equivalent number of allowances) from the state, and the
EPA will provide one matching ERC (or the equivalent number
of allowances) to the state to award to the project.


For EE projects implemented low-income communities: for
every two MWh in end-use demand savings achieved, the
project will receive two early action ERCs (or the
equivalent number of allowances) from the state, and the
EPA will provide two matching ERCs (or the equivalent
number of allowances) to the state to award to the project.
Early action allowances or ERCs awarded by the state, and

matching allowances or ERCs awarded by the EPA pursuant to the
CEIP, may be used for compliance by an affected EGU with its
emission standards and are fully transferrable prior to such
use.
The EPA discusses the CEIP in the proposed federal plan
rule and will address design and implementation details of the
CEIP in a subsequent action. Prior to doing so, the EPA will
engage with states, utilities and other stakeholders to gather
information regarding their interests and priorities with regard
to implementation of the CEIP.
(8) Provisions for electric system reliability.
A number of commenters stressed the importance of final
guidelines that addressed the need to ensure that EGUs could
meet their emission reduction requirements without being
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compelled to take actions that would undermine electric system
reliability. As noted above, the EPA has consulted extensively
with federal, regional and state energy agencies, utilities and
many others about reliability concerns and ways to address them.
The final guidelines support electric system reliability in a
number of ways, some inherent in the improvements made in the
program’s design and some through specific provisions we have
included in the final rule. Most important are the two key
changes we made to the interim goal: establishing 2022, instead
of 2020, as the period for mandatory emission reductions begin
and phasing in, over the 8-year period, emission performance
rates such that the level of stringency of the emission
performance rates in 2022-2024 is significantly less than that
for the years 2028 and 2029. Since states and utilities need
only to meet their interim goal “on average” over the 8-year
period, these changes provide them with a great deal of latitude
in determining for themselves their emission reduction
trajectory – and they have additional time to do so. As a
result, the final guidelines provide the ingredients that
commenters, reliability entities and expert agencies told the
EPA were essential to ensuring electric system reliability: time
and flexibility sufficient to allow for planning, implementation
and the integration of actions needed to address reliability
while achieving the required emissions reductions.
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In addition, the final guidelines add a requirement, based
on substantial input from experts in the energy field, for
states to demonstrate that they have considered electric system
reliability in developing their state plans. The final rule also
offers additional opportunities that support electric system
reliability, including opportunities for trading within and
between states. The final guidelines also make clear that states
can adjust their plans in the event that reliability challenges
arise that need to be remedied by amending the state plan. In
addition, the final rule includes a reliability safety valve to
address situations where, because of an unanticipated
catastrophic event, there is a conflict between the requirements
imposed on an affected unit and the maintenance of reliability.
(9) Approaches for addressing employment concerns.
Some commenters brought to our attention the concerns of
workers, their families and communities, particularly in coalproducing regions and states, that the ongoing shift toward
lower-carbon electricity generation that the final rule reflects
will cause harm to communities that are dependent on coal.
Others had concerns about whether new jobs created as a result
of actions taken pursuant to the final rule will allow for
overall economic development. In the final rule, the EPA
encourages states, in designing their state plans, to consider
the effects of their plans on employment and overall economic
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development to assure that the opportunities for economic growth
and jobs that the plans offer are manifest. We also identify
federal programs, including the multi-agency Partnerships for
Opportunity and Workforce and Economic Revitalization (POWER)
Initiative.15 The POWER Initiative is competitively awarding
planning assistance and implementation grants with funding from
the Department of Commerce, Department of Labor (DOL), Small
Business Administration, and the Appalachian Regional
Commission,16 whose mission is to assist communities affected by
changes in the coal industry and the utility power sector.
(10) Community and environmental justice considerations.
Many community leaders, environmental justice advocates,
faith-based organizations and others commented that the benefits
of this rule must be shared broadly across society and that
undue burdens should not be imposed on low-income ratepayers. We
agree. The federal government is taking significant steps to
help low-income families and individuals gain access to RE and
demand-side EE through new initiatives involving, for example,
increasing solar energy systems in federally subsidized homes
and supporting solar systems for others with low incomes. The
final rule ensures that bill-lowering measures such as demand-

15

http://www.eda.gov/power/.
https://www.whitehouse.gov/the-press-office/2015/03/27/factsheet-partnerships-opportunity-and-workforce-and-economicrevitaliz.
16

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taken steps to ensure the accuracy of this version, but it is not the official version. 

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side EE continue to be a major compliance option. The CEIP will
encourage early investment in these types of projects as well.
In addition to carbon reduction benefits, we expect significant
near- and long-term public health benefits in communities as
conventional air pollutants are reduced along with GHGs.
However, some stakeholders expressed concerns about the
possibility of localized increases in emissions from some power
plants as the utility industry complies with state plans, in
particular in communities already disproportionately affected by
air pollution. This rule sets expectations for states to engage
with vulnerable communities as they develop their plans, so that
impacts on these communities are considered as plans are
designed. The EPA also encourages states to engage with workers
in the utility power and related sectors, as well as their
worker representatives, so that impacts on their communities may
be considered. The EPA commits, once implementation is under
way, to assess the impacts of this rule. Likewise, we encourage
states to evaluate the effects of their plans to ensure that
there are no disproportionate adverse impacts on their
communities.
5. Additional context for this final rule
a. Climate change impacts. This final rule is an important step
in an essential series of long-term actions that are achieving
and must continue to achieve the GHG emission reductions needed
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to address the serious threat of climate change, and constitutes
a major commitment – and international leadership-by-doing – on
the part of the U.S., one of the world’s largest GHG emitters.
GHG pollution threatens the American public by leading to
damaging and long-lasting changes in our climate that can have a
range of severe negative effects on human health and the
environment. CO2 is the primary GHG pollutant, accounting for
nearly three-quarters of global GHG emissions17 and 82 percent of
U.S. GHG emissions.18 The May 2014 report of the National Climate
Assessment19 concluded that climate change impacts are already
manifesting themselves and imposing losses and costs. The report
documents increases in extreme weather and climate events in
recent decades, with resulting damage and disruption to human
well-being, infrastructure, ecosystems, and agriculture, and
projects continued increases in impacts across a wide range of
communities, sectors, and ecosystems. New scientific assessments
since 2009, when the EPA determined that GHGs pose a threat to

17

Intergovernmental Panel on Climate Change (IPCC) report,
“Contribution of Working Group I to the Fourth Assessment Report
of the Intergovernmental Panel on Climate Change,”
2007. Available at
http://epa.gov/climatechange/ghgemissions/global.html.
18 From Table ES-2 “Inventory of U.S. Greenhouse Gas Emissions
and Sinks: 1990 – 2013”, Report EPA 430-R-15-004, United States
Environmental Protection Agency, April 15, 2015.
19 U.S. Global Change Research Program, Climate Change Impacts in
the United States: The Third National Climate Assessment, May
2014. Available at http://nca2014.globalchange.gov/.
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human health and the environment (the “Endangerment Finding”),
highlight the urgency of addressing the rising concentration of
CO2 in the atmosphere. Certain groups, including children, the
elderly, and the poor, are most vulnerable to climate-related
effects. Recent studies also find that certain communities,
including low-income communities and some communities of color
(more specifically, populations defined jointly by ethnic/racial
characteristics and geographic location), are disproportionately
affected by certain climate change related impacts — including
heat waves, degraded air quality, and extreme weather events –
which are associated with increased deaths, illnesses, and
economic challenges. Studies also find that climate change poses
particular threats to the health, well-being, and ways of life
of indigenous peoples in the U.S.
b. The utility power sector. One of the strategies of the
President’s Climate Action Plan is to reduce CO2 emissions from
power plants.20 This is because fossil fuel-fired EGUs are by far
the largest emitters of GHGs, primarily in the form of CO2. Among
stationary sources in the U.S. and among fossil fuel-fired EGUs,
coal-fired units are by far the largest emitters of GHGs. To
accomplish the goal of reducing CO2 emissions from power plants,

20

The President’s Climate Action Plan, June 2013.
http://www.whitehouse.gov/sites/default/files/image/president27s
climateactionplan.pdf.
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President Obama issued a Presidential Memorandum21 that
recognized the importance of significant and prompt action. The
Memorandum directed the EPA to complete carbon pollution
standards, regulations or guidelines, as appropriate, for new,
modified, reconstructed and existing power plants, and in doing
so to build on state leadership in moving toward a cleaner power
sector. In this action and the concurrent CAA section 111(b)
rule, the EPA is finalizing regulations to reduce GHG emissions
from fossil fuel-fired EGUs. This CAA section 111(d) action
builds on actions states and utilities are already taking to
move toward cleaner generation of electric power.
The utility power sector is unlike other industrial
sectors. In other sectors, sources effectively operate
independently and on a local-site scale, with control of their
physical operations resting in the hands of their respective
owners and operators. Pollution control standards, which focus
on each source in a non-utility industrial source category, have
reflected the standalone character of individual source
investment decision-making and operations.
In stark contrast, the utility power sector comprises a
unique system of electricity resources, including the EGUs

Presidential Memorandum – Power Sector Carbon Pollution
Standards, June 25, 2013. http://www.whitehouse.gov/the-pressoffice/2013/06/25/presidential-memorandum-power-sector-carbonpollution-standards.
21

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affected under these guidelines, that operate in a complex and
interconnected grid where electricity generally flows freely
(e.g., portions of the system cannot be easily isolated through
the use of switches or valves as can be done in other networked
systems like trains and pipeline systems). That grid is
physically interconnected and operated on an integrated basis
across large regions. In this interconnected system, system
operators, whose decisions, protocols, and actions, to a
significant extent, dictate the operations of individual EGUs
and large ensembles of EGUs, must reliably balance supply and
demand using available generation and demand-side resources,
including EE, demand response and a wide range of low- and zeroemitting sources. These resources are managed to meet the system
needs in a reliable and efficient manner. Each aspect of this
interconnected system is highly regulated and coordinated, with
supply and demand constantly being balanced to meet system
needs. Each step of the process from the electric generator to
the end user is highly regulated by multiple entities working in
coordination and considering overall system reliability. For
example, in an independent system operator (ISO) or regional
transmission organization (RTO) with a centralized, organized
capacity market, electric generators are paid to be available to
run when needed, must bid into energy markets, must respond to
dispatch instructions, and must have permission to
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schedule maintenance. The ISO/RTO dispatches resources in a way
that maintains electric system reliability.
The approach we take in the final guidelines – both in the
way we defined the BSER and established the resulting emission
performance rates, and in the ranges of options we created for
states and affected EGUs – is consistent with, and in some ways
mirrors, the interconnected, interdependent and highly regulated
nature of the utility power sector, the daily operation of
affected EGUs within this framework, and the critical role of
utilities in providing reliable, affordable electricity at all
times and in all places within this complex, regulated system.
Thus, not only do these guidelines put a premium on providing as
much flexibility and latitude as possible for states and
utilities, they also recognize that a given EGU’s operations are
determined by the availability and use of other generation
resources to which it is physically connected and by the
collective operating regime that integrates that individual
EGU’s activity with other resources across the grid.
In this integrated system, numerous entities have both the
capability and the responsibility to maintain a reliable
electric system. FERC, DOE, state public utility commissions,
ISOs, RTOs, other planning authorities, and the North American
Electric Reliability Corporation (NERC), all contribute to
ensuring the reliability of the electric system in the U.S.
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Critical to this function are dispatch tools, applied primarily
by RTOs, ISOs, and balancing authorities, that operate such that
actions taken or costs incurred at one source directly affect or
cause actions to occur at other sources. Generation, outages,
and transmission changes in one part of the synchronous grid can
affect the entire interconnected grid.22 The interconnection is
such that “[i]f a generator is lost in New York City, its effect
is felt in Georgia, Florida, Minneapolis, St. Louis, and New
Orleans.”23 The U.S. Supreme Court has explicitly recognized the
interconnected nature of the electricity grid.24

22

Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 159 (2d ed. 2010).
23 Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 160 (2d ed. 2010).
24 Federal Power Comm’n v. Florida Power & Light Co., 404 U.S.
453, at 460 (1972) (quoting a Federal Power Commission hearing
examiner, "`If a housewife in Atlanta on the Georgia system
turns on a light, every generator on Florida’s system almost
instantly is caused to produce some quantity of additional
electric energy which serves to maintain the balance in the
interconnected system between generation and load.’”) (citation
omitted). See also New York v. FERC, 535 U.S. 1, at 7-8 (2002)
(stating that “any electricity that enters the grid immediately
becomes a part of a vast pool of energy that is constantly
moving in interstate commerce.”) (citation omitted). In Federal
Power Comm’n v. Southern California Edison Co., 376 U.S. 205
(1964), the Supreme Court found that a sale for resale of
electricity from Southern California Edison to the City of
Colton, which took place solely in California, was under Federal
Power Commission jurisdiction because some of the electricity
that Southern California Edison marketed came from out of state.
The Supreme Court stated that, “`federal jurisdiction was to
follow the flow of electric energy, an engineering and
scientific, rather than a legalistic or governmental, test.’”
Id. at 210, quoting Connecticut Light & Power Co. v. Federal
Power Commission, 324 U.S. 515, 529 (1945) (emphasis omitted).
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The uniqueness of the utility power sector inevitably
affects the way in which environmental regulations are designed.
When the EPA promulgates environmental regulations that affect
the utility power sector, as we have done numerous times over
the past four decades, we do so with the awareness of the
importance of the efficient and continuous, uninterrupted
operation of the interconnected electricity system in which EGUs
participate. We also keep in mind the unique product that this
interconnected system provides – electricity services – and the
critical role of this sector to the U.S. economy and to the
fundamental well-being of all Americans.
In the context of environmental regulation, Congress, the
EPA and the states all have recognized – as we do in these final
guidelines – that electricity production takes place, at least
to some extent, interchangeably between and among multiple
generation facilities and different types of generation. This is
evidenced in the enactment or promulgation of pollution
reduction programs, such as Title IV of the CAA, the NOx state
implementation plan (SIP) Call, the Cross-State Air Pollution
Rule (CSAPR), and the Regional Greenhouse Gas Initiative (RGGI).
As these actions show, both Congress and the EPA have
consistently tailored legislation and regulations affecting the
utility power sector to its unique characteristics. For example,
in Title IV of the Clean Air Act Amendments of 1990, Congress
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established a pollution reduction program specifically for
fossil fuel-fired EGUs and designed the SO2 portion of that
program with express recognition of the sector’s ability to
shift generation among various EGUs, which enabled pollution
reduction by increasing reliance on RE and demand-side EE.
Similarly, in the NOX SIP Call, the Clean Air Interstate Rule
(CAIR), and CSAPR, the EPA established pollution reduction
programs focused on fossil fuel-fired EGUs and designed those
programs with express recognition of the sector’s ability to
shift generation among various EGUs. In this action, we continue
that approach. Both the subcategory-specific emission
performance rates, and the pathways offered to achieve them,
reflect and are tailored to the unique characteristics of the
utility power sector.
The way that power is produced, distributed and used in the
U.S. is already changing as a result of advancements in
innovative power sector technologies and in the availability and
cost of low-carbon fuel, RE and demand-side EE technologies, as
well as economic conditions. These changes are taking place at a
time when the average age of the coal-fired generating fleet is
approaching that at which utilities and states undertake
significant new investments to address aging assets. In 2025,
the average age of the coal-fired generating fleet is projected
to be 49 years old, and 20 percent of those units would be more
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than 60 years old if they remain in operation at that time.
Therefore, even in the absence of additional environmental
regulation, states and utilities can be expected to be, and
already are, making plans for and investing in the next
generation of power production, simply because of the need to
take account of the age of current assets and infrastructure.
Historically, the industry has invested about $100 billion a
year in capital improvements. These guidelines will help ensure
that, as those necessary investments are being made, they are
integrated with the need to address GHG pollution from the
sector.
At the same time, owners/operators of affected EGUs are
already pursuing the types of measures contemplated in this
rule. Out of 404 entities identified as owners or operators of
affected EGUs, representing ownership of 82 percent of the total
capacity of the affected EGUs, 178 already own RE generating
capacity in addition to fossil fuel-fired generating
capacity. In fact, these entities already own aggregate amounts
of RE generating capacity equal to 25 percent of the aggregate
amounts of their affected EGU capacity.25 In addition, funding
for utility EE programs has been growing rapidly, increasing
from $1.6 billion in 2006 to $6.3 billion in 2013.

25

SNL Energy. Data used with permission. Accessed on June 9,
2015.
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The final guidelines are based on, and reinforce, the
actions already being taken by states and utilities to upgrade
aging electricity infrastructure with 21st century technologies.
The guidelines will ensure that these trends continue in ways
that are consistent with the long-term planning and investment
processes already used in the utility power sector. This final
rule provides flexibility for states to build upon their
progress, and the progress of cities and towns, in addressing
GHGs, and minimizes additional requirements for existing
programs where possible. It also allows states to pursue
policies to reduce carbon pollution that: 1) continue to rely on
a diverse set of energy resources; 2) ensure electric system
reliability; 3) provide affordable electricity; 4) recognize
investments that states and power companies are already making;
and 5) tailor plans to meet their respective energy,
environmental and economic needs and goals, and those of their
local communities. Thus, the final guidelines will achieve
meaningful CO2 emission reductions while maintaining the
reliability and affordability of electricity in the U.S.
6. Projected national-level emission reductions
Under the final guidelines, the EPA projects annual CO2
reductions of 22 to 23 percent below 2005 levels in 2020,
28 to 29 percent below 2005 levels in 2025, and 32 percent
below 2005 levels in 2030. These guidelines will also
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result in important reductions in emissions of criteria air
pollutants, including SO2, NOX, and directly-emitted fine
particulate matter (PM2.5). A thorough discussion of the
EPA’s analysis is presented in Section XI.A of this
preamble and in Chapter 3 of the Regulatory Impact Analysis
(RIA) included in the docket for this rulemaking.
7. Costs and benefits
Actions taken to comply with the final guidelines will
reduce emissions of CO2 and other air pollutants, including
SO2, NOX, and directly emitted PM2.5 from the utility power
sector. States will make the ultimate determination as to
how the emission guidelines are implemented. Thus, all
costs and benefits reported for this action are
illustrative estimates. The illustrative costs and benefits
are based upon compliance approaches that reflect a range
of measures consisting of improved operations at EGUs,
dispatching lower-emitting EGUs and zero-emitting energy
sources, and increasing levels of end-use EE.
Because of the range of choices available to states
and the lack of a priori knowledge about the specific
choices states will make in response to the final goals,
the RIA for this final action presents two scenarios
designed to achieve these goals, which we term the “rate-

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based” illustrative plan approach and the “mass-based”
illustrative plan approach.
In summary, we estimate the total combined climate benefits
and health co-benefits for the rate-based approach to be $3.5 to
$4.6 billion in 2020, $18 to $28 billion in 2025, and $34 to $54
billion in 2030 (3 percent discount rate, 2011$). Total combined
climate benefits and health co-benefits for the mass-based
approach are estimated to be $5.3 to $8.1 billion in 2020, $19
to $29 billion in 2025, and $32 to $48 billion in 2030 (3
percent discount rate, 2011$). A summary of the emission
reductions and monetized benefits estimated for this rule at all
discount rates is provided in Tables 15 through 22 of this
preamble.
The annual compliance costs are estimated using the
Integrated Planning Model (IPM) and include demand-side EE
program and participant costs as well as monitoring, reporting
and recordkeeping costs. In 2020, total compliance costs of the
final guidelines are approximately $2.5 billion (2011$) under
the rate-based approach and $1.4 billion (2011$) under the massbased approach. In 2025, total compliance costs of the final
guidelines are approximately $1.0 billion (2011$) under the
rate-based approach and $3.0 billion (2011$) under the massbased approach. In 2030, total compliance costs of the final
guidelines are approximately $8.4 billion (2011$) under the
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rate-based approach and $5.1 billion (2011$) under the massbased approach.
The quantified net benefits (the difference between
monetized benefits and compliance costs) in 2020 are estimated
to range from $1.0 billion to $2.1 billion (2011$) using a 3
percent discount rate (model average) under the rate-based
approach and from $3.9 billion to $6.7 billion (2011$) using a 3
percent discount rate (model average) under the mass-based
approach. In 2025, the quantified net benefits (the difference
between monetized benefits and compliance costs) in 2025 are
estimated to range from $17 billion to $27 billion (2011$) using
a 3 percent discount rate (model average) under the rate-based
approach and from $16 billion to $26 billion (2011$) using a 3
percent discount rate (model average) under the mass-based
approach. In 2030, the quantified net benefits (the difference
between monetized benefits and compliance costs) in 2030 are
estimated to range from $26 billion to $45 billion (2011$) using
a 3 percent discount rate (model average) under the rate-based
approach and from $26 billion to $43 billion (2011$) using a 3
percent discount rate (model average) under the mass-based
approach.
Table 1. Summary of the Monetized Benefits, Compliance Costs,
and Net Benefits for the Final Guidelines in 2020, 2025, and

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2030a Under the Rate-Based Illustrative Plan Approach [Billions
of 2011$]
Rate-based Approach, 2020
3% Discount Rate
7% Discount rate
Climate benefits

b

$2.8

Air pollution health
co-benefits c
Total Compliance
Costs d
Net Monetized
Benefits e

$2.5

$2.5

$1.0 to $2.1

$1.0 to $2.0

b

$10

Air pollution health
co-benefits c
Total Compliance
Costs d
Net Monetized
Benefits e

$7.4 to $18

$6.7 to $16

$1.0

$1.0

$17 to $27

$16 to $25

Non-monetized climate benefits
Reductions in exposure to ambient NO2 and
SO2
Reductions in mercury deposition
Ecosystem benefits associated with
reductions in emissions of NOX, SO2, PM,
and mercury
Visibility impairment
Rate-based Approach, 2030

Non-monetized
Benefits

Climate benefits

$0.64 to $1.7

Non-monetized climate benefits
Reductions in exposure to ambient NO2 and
SO2
Reductions in mercury deposition
Ecosystem benefits associated with
reductions in emissions of NOX, SO2, PM,
and mercury
Visibility impairment
Rate-based Approach, 2025
3% Discount rate
7% Discount rate

Non-monetized
Benefits

Climate benefits

$0.70 to $1.8

b

$20

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Air pollution health
co-benefits c
Total Compliance
Costs d
Net Monetized
Benefits e

$14 to $34

$13 to $31

$8.4

$8.4

$26 to $45

$25 to $43

Non-monetized climate benefits
Reductions in exposure to ambient NO2
and SO2
Non-monetized
Reductions in mercury deposition
Benefits
Ecosystem benefits associated with
reductions in emissions of NOX, SO2, PM,
and mercury
Visibility impairment
a All are rounded to two significant figures, so figures may not
sum.
b The climate benefit estimate in this summary table reflects
global impacts from CO2 emission changes and does not account for
changes in non-CO2 GHG emissions. Also, different discount rates
are applied to SC-CO2 than to the other estimates because CO2
emissions are long-lived and subsequent damages occur over many
years. The benefit estimates in this table are based on the
average SCC estimated for a 3 percent discount rate, however we
emphasize the importance and value of considering the full range
of SC-CO2 values. As shown in the RIA, climate benefits are also
estimated using the other three SC-CO2 estimates (model average
at 2.5 percent discount rate, 3 percent, and 5 percent; 95th
percentile at 3 percent). The SC-CO2 estimates are year-specific
and increase over time.
c The air pollution health co-benefits reflect reduced exposure
to PM2.5 and ozone associated with emission reductions of directly
emitted PM2.5, SO2 and NOX. The range reflects the use of
concentration-response functions from different epidemiology
studies. The reduction in premature fatalities each year
accounts for over 98 percent of total monetized co-benefits from
PM2.5 and ozone. These models assume that all fine particles,
regardless of their chemical composition, are equally potent in
causing premature mortality because the scientific evidence is
not yet sufficient to allow differentiation of effect estimates
by particle type.
d Total costs are approximated by the illustrative compliance
costs estimated using the Integrated Planning Model for the
final guidelines and a discount rate of approximately 5%. This
estimate includes monitoring, recordkeeping, and reporting costs
and demand-side EE program and participant costs.
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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e

The estimates of net benefits in this summary table are
calculated using the global SC-CO2 at a 3 percent discount rate
(model average). The RIA includes combined climate and health
estimates based on additional discount rates.
Table 2. Summary of the Monetized Benefits, Compliance Costs,
and Net Benefits for the Final Guidelines in 2020, 2025 and 2030a
Under the Mass-Based Illustrative Plan Approach [Billions of
2011$]
Mass-based Approach, 2020
3% Discount Rate
7% Discount rate
Climate benefits

b

$3.3

Air pollution health
co-benefits c
Total Compliance
Costs d
Net Monetized
Benefits e

Non-monetized
Benefits

$1.4

$1.4

$3.9 to $6.7

$3.7 to $6.3

b

Air pollution health
co-benefits c
Total Compliance
Costs d
Net Monetized
Benefits e

$1.8 to $4.4

Non-monetized climate benefits
Reductions in exposure to ambient NO2 and
SO2
Reductions in mercury deposition
Ecosystem benefits associated with
reductions in emissions of NOX, SO2, PM,
and mercury
Visibility impairment
Mass-based Approach, 2025
3% Discount rate
7% Discount rate

Non-monetized
Benefits

Climate benefits

$2.0 to $4.8

$12
$7.1 to $17

$6.5 to $16

$3.0

$3.0

$16 to $26

$15 to $24

Non-monetized climate benefits
Reductions in exposure to ambient NO2 and
SO2

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Reductions in mercury deposition
Ecosystem benefits associated with
reductions in emissions of NOX, SO2, PM,
and mercury
Visibility impairment
Mass-based Approach, 2030
Climate benefits

b

Air pollution health
co-benefits c
Total Compliance
Costs d
Net Monetized
Benefits e

$20
$12 to $28

$11 to $26

$5.1

$5.1

$26 to $43

$25 to $40

Non-monetized climate benefits
Reductions in exposure to ambient NO2
and SO2
Non-monetized
Reductions in mercury deposition
Benefits
Ecosystem benefits associated with
reductions in emissions of NOX, SO2, PM,
and mercury
Visibility impairment
a All are rounded to two significant figures, so figures may not
sum.
b The climate benefit estimate in this summary table reflects
global impacts from CO2 emission changes and does not account for
changes in non-CO2 GHG emissions. Also, different discount rates
are applied to SC-CO2 than to the other estimates because CO2
emissions are long-lived and subsequent damages occur over many
years. The benefit estimates in this table are based on the
average SC-CO2 estimated for a 3 percent discount rate, however
we emphasize the importance and value of considering the full
range of SC-CO2 values. As shown in the RIA, climate benefits are
also estimated using the other three SC-CO2 estimates (model
average at 2.5 percent discount rate, 3 percent, and 5 percent;
95th percentile at 3 percent). The SC-CO2 estimates are yearspecific and increase over time.
c The air pollution health co-benefits reflect reduced exposure
to PM2.5 and ozone associated with emission reductions of directly
emitted PM2.5, SO2 and NOX. The range reflects the use of
concentration-response functions from different epidemiology
studies. The reduction in premature fatalities each year
accounts for over 98 percent of total monetized co-benefits from
PM2.5 and ozone. These models assume that all fine particles,
regardless of their chemical composition, are equally potent in
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causing premature mortality because the scientific evidence is
not yet sufficient to allow differentiation of effect estimates
by particle type.
d Total costs are approximated by the illustrative compliance
costs estimated using the Integrated Planning Model for the
final guidelines and a discount rate of approximately 5 percent.
This estimate includes monitoring, recordkeeping, and reporting
costs and demand-side EE program and participant costs.
e The estimates of net benefits in this summary table are
calculated using the global SC-CO2 at a 3 percent discount rate
(model average). The RIA includes combined climate and health
estimates based on additional discount rates.
There are additional important benefits that the EPA
could not monetize. Due to current data and modeling
limitations, our estimates of the benefits from reducing CO2
emissions do not include important impacts like ocean
acidification or potential tipping points in natural or
managed ecosystems. The unquantified benefits also include
climate benefits from reducing emissions of non-CO2 GHGs
(e.g., nitrous oxide and methane)26 and co-benefits from
reducing direct exposure to SO2, NOX, and HAP (e.g., mercury
and hydrogen chloride), as well as from reducing ecosystem
effects and visibility impairment.
We project employment gains and losses relative to
base case for different types of labor, including

26

Although CO2 is the predominant greenhouse gas released by the
power sector, electricity generating units also emit small
amounts of nitrous oxide and methane. For more detail about
power sector emissions, see RIA Chapter 2 and the U.S.
Greenhouse Gas Reporting Program’s power sector summary,
http://www.epa.gov/ghgreporting/ghgdata/reported/powerplants.htm
l.
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construction, plant operation and maintenance, coal and
natural gas production, and demand-side EE. In 2030, we
project a net decrease in job-years of about 31,000 under
the rate-based approach and 34,000 under the mass-based
approach27 for construction, plant operation and
maintenance, and coal and natural gas and a gain of 52,000
to 83,000 jobs in the demand-side EE sector under either
approach. Actual employment impacts will depend upon
measures taken by states in their state plans and the
specific actions sources take to comply.
Based upon the foregoing, it is clear that the monetized
benefits of this rule are substantial and far outweigh the
costs.
B. Organization and Approach for this Rule
This final rule establishes the EPA’s emission guidelines
for states to follow in developing plans to reduce CO2 emissions
from the utility power sector. Section II of this preamble
provides background information on climate change impacts from
GHG emissions, GHG emissions from fossil fuel-fired EGUs, the
utility power sector, the CAA section 111(d) requirements, EPA
actions prior to this final action, outreach and consultations,

27

A job-year is not an individual job; rather, a job-year is the
amount of work performed by the equivalent of one full-time
individual for one year. For example, 20 job-years in 2025 may
represent 20 full-time jobs or 40 half-time jobs.
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and the number and extent of comments received. In section III
of the preamble, we present a summary of the rule requirements
and the legal basis for these. Section IV explains the EPA
authority to regulate CO2 and EGUs, identifies affected EGUs, and
describes the proposed treatment of source categories. Section V
describes the agency’s determination of the BSER using three
building blocks and our key considerations in making the
determination. Section VI provides the subcategory-specific
emission performance rates, and section VII provides equivalent
statewide rate-based and mass-based goals. Section VIII then
describes state plan approaches and the requirements, and
flexibilities, for state plans, followed by section IX, in which
considerations for communities are described. Interactions
between this final rule and other EPA programs and rules are
discussed in section X. Impacts of the proposed action are then
described in section XI, followed by a discussion of statutory
and executive order reviews in section XII and the statutory
authority for this action in section XIII.
We note that this rulemaking is being promulgated
concurrently with two related rulemakings: the final NSPS for CO2
emissions from newly constructed, modified, and reconstructed
EGUs [INSERT THE FEDERAL REGISTER REFERENCE FOR THE FINAL GHG
NEW SOURCE RULE], which is being promulgated under CAA section
111(b), and the proposed federal plan and model rules [INSERT
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THE FEDERAL REGISTER REFERENCE FOR THE FEDERAL PLAN PROPOSAL].
These rulemakings have their own rulemaking dockets.
II. Background
In this section, we discuss climate change impacts from GHG
emissions, both on public health and public welfare. We also
present information about GHG emissions from fossil fuel-fired
EGUs, the challenges associated with controlling carbon dioxide
emisions, the uniqueness of the utility power sector, and
drecent and continuing trends and transitions in the utility
power sector. In addition, we briefly describe CAA regulations
for power plants, provide highlights of Congressional awareness
of climate change and international agreements and actions, and
summarize statutory and regulatory requirements relevant to this
rulemaking. In addition, we provide background information on
the EPA’s June 18, 2014 Clean Power Plan proposal, the November
4, 2014 supplemental proposal, and other actions associated with
this rulemaking,28 followed by information on stakeholder
outreach and consultations and the comments that the EPA
received prior to issuing this final rulemaking.
A.

Climate Change Impacts from GHG Emissions

28

The EPA also published in the Federal Register a notice of
data availability (79 FR 64543; November 8, 2014) and a notice
on the translation of emission rate-based CO2 goals to mass-based
equivalents (79 FR 67406; November 13, 2014).
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According to the National Research Council, “Emissions
of CO2 from the burning of fossil fuels have ushered in a
new epoch where human activities will largely determine the
evolution of Earth’s climate. Because CO2 in the atmosphere
is long lived, it can effectively lock Earth and future
generations into a range of impacts, some of which could
become very severe. Therefore, emission reduction choices
made today matter in determining impacts experienced not
just over the next few decades, but in the coming centuries
and millennia.”29
In 2009, based on a large body of robust and compelling
scientific evidence, the EPA Administrator issued the
Endangerment Finding under CAA section 202(a)(1).30 In the
Endangerment Finding, the Administrator found that the current,
elevated concentrations of GHGs in the atmosphere—already at
levels unprecedented in human history—may reasonably be
anticipated to endanger public health and welfare of current and
future generations in the U.S. We summarize these adverse
effects on public health and welfare briefly here.
1. Public health impacts detailed in the 2009 Endangerment
Finding

29

National Research Council, Climate Stabilization Targets, p.3.
“Endangerment and Cause or Contribute Findings for Greenhouse
Gases Under Section 202(a) of the Clean Air Act,” 74 FR 66496
(Dec. 15, 2009) (“Endangerment Finding”).
30

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Climate change caused by human emissions of GHGs threatens
the health of Americans in multiple ways. By raising average
temperatures, climate change increases the likelihood of heat
waves, which are associated with increased deaths and illnesses.
While climate change also increases the likelihood of reductions
in cold-related mortality, evidence indicates that the increases
in heat mortality will be larger than the decreases in cold
mortality in the U.S. Compared to a future without climate
change, climate change is expected to increase ozone pollution
over broad areas of the U.S., especially on the highest ozone
days and in the largest metropolitan areas with the worst ozone
problems, and thereby increase the risk of morbidity and
mortality. Climate change is also expected to cause more intense
hurricanes and more frequent and intense storms and heavy
precipitation, with impacts on other areas of public health,
such as the potential for increased deaths, injuries, infectious
and waterborne diseases, and stress-related disorders. Children,
the elderly, and the poor are among the most vulnerable to these
climate-related health effects.
2. Public welfare impacts detailed in the 2009 Endangerment
Finding
Climate change impacts touch nearly every aspect of public
welfare. Among the multiple threats caused by human emissions of
GHGs, climate changes are expected to place large areas of the
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country at serious risk of reduced water supplies, increased
water pollution, and increased occurrence of extreme events such
as floods and droughts. Coastal areas are expected to face a
multitude of increased risks, particularly from rising sea level
and increases in the severity of storms. These communities face
storm and flooding damage to property, or even loss of land due
to inundation, erosion, wetland submergence and habitat loss.
Impacts of climate change on public welfare also include
threats to social and ecosystem services. Climate change is
expected to result in an increase in peak electricity demand.
Extreme weather from climate change threatens energy,
transportation, and water resource infrastructure. Climate
change may also exacerbate ongoing environmental pressures in
certain settlements, particularly in Alaskan indigenous
communities, and is very likely to fundamentally rearrange U.S.
ecosystems over the 21st century. Though some benefits may
balance adverse effects on agriculture and forestry in the next
few decades, the body of evidence points towards increasing
risks of net adverse impacts on U.S. food production,
agriculture and forest productivity as temperature continues to
rise. These impacts are global and may exacerbate problems
outside the U.S. that raise humanitarian, trade, and national
security issues for the U.S.
3. New scientific assessments and observations
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Since the administrative record concerning the Endangerment
Finding closed following the EPA’s 2010 Reconsideration Denial,
the climate has continued to change, with new records being set
for a number of climate indicators such as global average
surface temperatures, Arctic sea ice retreat, CO2 concentrations,
and sea level rise. Additionally, a number of major scientific
assessments have been released that improve understanding of the
climate system and strengthen the case that GHGs endanger public
health and welfare both for current and future generations.
These assessments, from the Intergovernmental Panel on Climate
Change (IPCC), the U.S. Global Change Research Program (USGCRP),
and the National Research Council (NRC), include: IPCC’s 2012
Special Report on Managing the Risks of Extreme Events and
Disasters to Advance Climate Change Adaptation (SREX) and the
2013-2014 Fifth Assessment Report (AR5), the USGCRP’s 2014
National Climate Assessment, Climate Change Impacts in the
United States (NCA3), and the NRC’s 2010 Ocean Acidification: A
National Strategy to Meet the Challenges of a Changing Ocean
(Ocean Acidification), 2011 Report on Climate Stabilization
Targets: Emissions, Concentrations, and Impacts over Decades to
Millennia (Climate Stabilization Targets), 2011 National
Security Implications for U.S. Naval Forces (National Security
Implications), 2011 Understanding Earth’s Deep Past: Lessons for
Our Climate Future (Understanding Earth’s Deep Past), 2012 Sea
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Level Rise for the Coasts of California, Oregon, and Washington:
Past, Present, and Future, 2012 Climate and Social Stress:
Implications for Security Analysis (Climate and Social Stress),
and 2013 Abrupt Impacts of Climate Change (Abrupt Impacts)
assessments.
The EPA has carefully reviewed these recent assessments in
keeping with the same approach outlined in Section VIII.A of the
2009 Endangerment Finding, which was to rely primarily upon the
major assessments by the USGCRP, the IPCC, and the NRC of the
National Academies to provide the technical and scientific
information to inform the Administrator’s judgment regarding the
question of whether GHGs endanger public health and welfare.
These assessments addressed the scientific issues that the EPA
was required to examine, were comprehensive in their coverage of
the GHG and climate change issues, and underwent rigorous and
exacting peer review by the expert community, as well as
rigorous levels of U.S. government review.
The findings of the recent scientific assessments confirm
and strengthen the conclusion that GHGs endanger public health,
now and in the future. The NCA3 indicates that human health in
the U.S. will be impacted by “increased extreme weather events,
wildfire, decreased air quality, threats to mental health, and
illnesses transmitted by food, water, and disease-carriers such
as mosquitoes and ticks.” The most recent assessments now have
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greater confidence that climate change will influence production
of pollen that exacerbates asthma and other allergic respiratory
diseases such as allergic rhinitis, as well as effects on
conjunctivitis and dermatitis. Both the NCA3 and the IPCC AR5
found that increasing temperature has lengthened the allergenic
pollen season for ragweed, and that increased CO2 by itself can
elevate production of plant-based allergens.
The NCA3 also finds that climate change, in addition to
chronic stresses such as extreme poverty, is negatively
affecting indigenous peoples’ health in the U.S. through impacts
such as reduced access to traditional foods, decreased water
quality, and increasing exposure to health and safety hazards.
The IPCC AR5 finds that climate change-induced warming in the
Arctic and resultant changes in environment (e.g., permafrost
thaw, effects on traditional food sources) have significant
impacts, observed now and projected, on the health and wellbeing of Arctic residents, especially indigenous peoples. Small,
remote, predominantly-indigenous communities are especially
vulnerable given their “strong dependence on the environment for
food, culture, and way of life; their political and economic
marginalization; existing social, health, and poverty
disparities; as well as their frequent close proximity to

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exposed locations along ocean, lake, or river shorelines.”31

In

addition, increasing temperatures and loss of Arctic sea ice
increases the risk of drowning for those engaged in traditional
hunting and fishing.
The NCA3 concludes that children’s unique physiology and
developing bodies contribute to making them particularly
vulnerable to climate change. Impacts on children are expected
from heat waves, air pollution, infectious and waterborne
illnesses, and mental health effects resulting from extreme
weather events. The IPCC AR5 indicates that children are among
those especially susceptible to most allergic diseases, as well
as health effects associated with heat waves, storms, and
floods. The IPCC finds that additional health concerns may arise
in low income households, especially those with children, if
climate change reduces food availability and increases prices,
leading to food insecurity within households.
Both the NCA3 and IPCC AR5 conclude that climate change
will increase health risks facing the elderly. Older people are
at much higher risk of mortality during extreme heat events.

31

IPCC, 2014: Climate Change 2014: Impacts, Adaptation, and
Vulnerability. Part B: Regional Aspects. Contribution of Working
Group II to the Fifth Assessment Report of the Intergovernmental
Panel on Climate Change [Barros, V.R., C.B. Field, D.J. Dokken,
M.D. Mastrandrea, K.J. Mach, T.E. Bilir, M. Chatterjee, K.L.
Ebi, Y.O. Estrada, R.C. Genova, B. Girma, E.S. Kissel, A.N.
Levy, S. MacCracken, P.R. Mastrandrea, and L.L. White (eds.)].
Cambridge University Press, Cambridge, p. 1581.
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Pre-existing health conditions also make older adults
susceptible to cardiac and respiratory impacts of air pollution
and to more severe consequences from infectious and waterborne
diseases. Limited mobility among older adults can also increase
health risks associated with extreme weather and floods.
The new assessments also confirm and strengthen the
conclusion that GHGs endanger public welfare, and emphasize the
urgency of reducing GHG emissions due to their projections that
show GHG concentrations climbing to ever-increasing levels in
the absence of mitigation. The NRC assessment Understanding
Earth’s Deep Past projected that, without a reduction in
emissions, CO2 concentrations by the end of the century would
increase to levels that the Earth has not experienced for more
than 30 million years.32 In fact, that assessment stated that
“the magnitude and rate of the present GHG increase place the
climate system in what could be one of the most severe increases
in radiative forcing of the global climate system in Earth
history.”33 Because of these unprecedented changes, several
assessments state that we may be approaching critical, poorly
understood thresholds. As stated in the assessment, “As Earth
continues to warm, it may be approaching a critical climate

32

National Research Council, Understanding Earth’s Deep Past, p.

1.
33

Id., p.138.

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threshold beyond which rapid and potentially permanent—at least
on a human timescale—changes not anticipated by climate models
tuned to modern conditions may occur.” The NRC Abrupt Impacts
report analyzed abrupt climate change in the physical climate
system and abrupt impacts of ongoing changes that, when
thresholds are crossed, can cause abrupt impacts for society and
ecosystems. The report considered destabilization of the West
Antarctic Ice Sheet (which could cause 3-4 m of potential sea
level rise) as an abrupt climate impact with unknown but
probably low probability of occurring this century. The report
categorized a decrease in ocean oxygen content (with attendant
threats to aerobic marine life); increase in intensity,
frequency, and duration of heat waves; and increase in frequency
and intensity of extreme precipitation events (droughts, floods,
hurricanes, and major storms) as climate impacts with moderate
risk of an abrupt change within this century. The NRC Abrupt
Impacts report also analyzed the threat of rapid state changes
in ecosystems and species extinctions as examples of an
irreversible impact that is expected to be exacerbated by
climate change. Species at most risk include those whose
migration potential is limited, whether because they live on
mountaintops or fragmented habitats with barriers to movement,
or because climatic conditions are changing more rapidly than
the species can move or adapt. While the NRC determined that it
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is not presently possible to place exact probabilities on the
added contribution of climate change to extinction, they did
find that there was substantial risk that impacts from climate
change could, within a few decades, drop the populations in many
species below sustainable levels thereby committing the species
to extinction. Species within tropical and subtropical
rainforests such as the Amazon and species living in coral reef
ecosystems were identified by the NRC as being particularly
vulnerable to extinction over the next 30 to 80 years, as were
species in high latitude and high elevation regions. Moreover,
due to the time lags inherent in the Earth’s climate, the NRC
Climate Stabilization Targets assessment notes that the full
warming from any given concentration of CO2 reached will not be
fully realized for several centuries, underscoring that emission
activities today carry with them climate commitments far into
the future.
Future temperature changes will depend on what emission
path the world follows. In its high emission scenario, the IPCC
AR5 projects that global temperatures by the end of the century
will likely be 2.6 °C to 4.8 °C (4.7 to 8.6 °F) warmer than
today. Temperatures on land and in northern latitudes will
likely warm even faster than the global average. However,
according to the NCA3, significant reductions in emissions would

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lead to noticeably less future warming beyond mid-century, and
therefore less impact to public health and welfare.
While rainfall may only see small globally and annually
averaged changes, there are expected to be substantial shifts in
where and when that precipitation falls. According to the NCA3,
regions closer to the poles will see more precipitation, while
the dry subtropics are expected to expand (colloquially, this
has been summarized as wet areas getting wetter and dry regions
getting drier). In particular, the NCA3 notes that the western
U.S., and especially the Southwest, is expected to become drier.
This projection is consistent with the recent observed drought
trend in the West. At the time of publication of the NCA, even
before the last 2 years of extreme drought in California, tree
ring data was already indicating that the region might be
experiencing its driest period in 800 years. Similarly, the NCA3
projects that heavy downpours are expected to increase in many
regions, with precipitation events in general becoming less
frequent but more intense. This trend has already been observed
in regions such as the Midwest, Northeast, and upper Great
Plains. Meanwhile, the NRC Climate Stabilization Targets
assessment found that the area burned by wildfire is expected to
grow by 2 to 4 times for 1 °C (1.8 °F) of warming. For 3 °C of
warming, the assessment found that 9 out of 10 summers would be
warmer than all but the 5 percent of warmest summers today,
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leading to increased frequency, duration, and intensity of heat
waves. Extrapolations by the NCA also indicate that Arctic sea
ice in summer may essentially disappear by mid-century.
Retreating snow and ice, and emissions of carbon dioxide and
methane released from thawing permafrost, will also amplify
future warming.
Since the 2009 Endangerment Finding, the USGCRP NCA3, and
multiple NRC assessments have projected future rates of sea
level rise that are 40 percent larger to more than twice as
large as the previous estimates from the 2007 IPCC 4th Assessment
Report due in part to improved understanding of the future rate
of melt of the Antarctic and Greenland Ice sheets. The NRC Sea
Level Rise assessment projects a global sea level rise of 0.5 to
1.4 meters (1.6 to 4.6 feet) by 2100, the NRC National Security
Implications assessment suggests that “the Department of the
Navy should expect roughly 0.4 to 2 meters [1.3 to 6.6 feet]
global average sea-level rise by 2100,”34 and the NRC Climate
Stabilization Targets assessment states that an increase of 3°C
will lead to a sea level rise of 0.5 to 1 meter (1.6 to 3.3
feet) by 2100.

These assessments continue to recognize that

there is uncertainty inherent in accounting for ice sheet
processes. Additionally, local sea level rise can differ from

34

NRC, 2011: National Security Implications of Climate Change
for U.S. Naval Forces. The National Academies Press, p. 28.
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the global total depending on various factors: the east coast of
the U.S. in particular is expected to see higher rates of sea
level rise than the global average. For comparison, the NCA3
states that “five million Americans and hundreds of billions of
dollars of property are located in areas that are less than four
feet above the local high-tide level,” and the NCA3 finds that
“[c]oastal infrastructure, including roads, rail lines, energy
infrastructure, airports, port facilities, and military bases,
are increasingly at risk from sea level rise and damaging storm
surges.”35 Also, because of the inertia of the oceans, sea level
rise will continue for centuries after GHG concentrations have
stabilized (though more slowly than it would have otherwise).
Additionally, there is a threshold temperature above which the
Greenland ice sheet will be committed to inevitable melting:
according to the NCA, some recent research has suggested that
even present day CO2 levels could be sufficient to exceed that
threshold.
In general, climate change impacts are expected to be
unevenly distributed across different regions of the U.S. and
have a greater impact on certain populations, such as indigenous
peoples and the poor. The NCA3 finds climate change impacts such

35

Melillo, Jerry M., Terese (T.C.) Richmond, and Gary W. Yohe,
Eds., 2014: Climate Change Impacts in the United States: The
Third National Climate Assessment. U.S. Global Change Research
Program, p. 9.
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as the rapid pace of temperature rise, coastal erosion and
inundation related to sea level rise and storms, ice and snow
melt, and permafrost thaw are affecting indigenous people in the
U.S. Particularly in Alaska, critical infrastructure and
traditional livelihoods are threatened by climate change and,
“[i]n parts of Alaska, Louisiana, the Pacific Islands, and other
coastal locations, climate change impacts (through erosion and
inundation) are so severe that some communities are already
relocating from historical homelands to which their traditions
and cultural identities are tied.”36

The IPCC AR5 notes,

“Climate-related hazards exacerbate other stressors, often with
negative outcomes for livelihoods, especially for people living
in poverty (high confidence).

Climate-related hazards affect

poor people’s lives directly through impacts on livelihoods,
reductions in crop yields, or destruction of homes and
indirectly through, for example, increased food prices and food
insecurity.”37

36

Melillo, Jerry M., Terese (T.C.) Richmond, and Gary W. Yohe,
Eds., 2014: Climate Change Impacts in the United States: The
Third National Climate Assessment. U.S. Global Change Research
Program, p. 17.
37 IPCC, 2014: Climate Change 2014: Impacts, Adaptation, and
Vulnerability. Part A: Global and Sectoral Aspects. Contribution
of Working Group II to the Fifth Assessment Report of the
Intergovernmental Panel on Climate Change [Field, C.B., V.R.
Barros, D.J. Dokken, K.J. Mach, M.D. Mastrandrea, T.E. Bilir, M.
Chatterjee, K.L. Ebi, Y.O. Estrada, R.C. Genova, B. Girma, E.S.
Kissel, A.N. Levy, S. MacCracken, P.R. Mastrandrea, and L.L.
White (eds.)]. Cambridge University Press, p. 796.
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Carbon dioxide in particular has unique impacts on ocean
ecosystems. The NRC Climate Stabilization Targets assessment
found that coral bleaching will increase due both to warming and
ocean acidification. Ocean surface waters have already become 30
percent more acidic over the past 250 years due to absorption of
CO2 from the atmosphere. According to the NCA3, this
acidification will reduce the ability of organisms such as
corals, krill, oysters, clams, and crabs to survive, grow, and
reproduce. The NRC Understanding Earth's Deep Past assessment
notes four of the five major coral reef crises of the past 500
million years were caused by acidification and warming that
followed GHG increases of similar magnitude to the emissions
increases expected over the next hundred years. The NRC Abrupt
Impacts assessment specifically highlighted similarities between
the projections for future acidification and warming and the
extinction at the end of the Permian which resulted in the loss
of an estimated 90 percent of known species. Similarly, the NRC
Ocean Acidification assessment finds that “[t]he chemistry of
the ocean is changing at an unprecedented rate and magnitude due
to anthropogenic carbon dioxide emissions; the rate of change
exceeds any known to have occurred for at least the past

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hundreds of thousands of years.”38 The assessment notes that the
full range of consequences is still unknown, but the risks
“threaten coral reefs, fisheries, protected species, and other
natural resources of value to society.”39
Events outside the U.S., as also pointed out in the 2009
Endangerment Finding, will also have relevant consequences. The
NRC Climate and Social Stress assessment concluded that it is
prudent to expect that some climate events “will produce
consequences that exceed the capacity of the affected societies
or global systems to manage and that have global security
implications serious enough to compel international response.”
The NRC National Security Implications assessment recommends
preparing for increased needs for humanitarian aid; responding
to the effects of climate change in geopolitical hotspots,
including possible mass migrations; and addressing changing
security needs in the Arctic as sea ice retreats.
In addition to future impacts, the NCA3 emphasizes that
climate change driven by human emissions of GHGs is already
happening now and it is happening in the U.S. According to the
IPCC AR5 and the NCA3, there are a number of climate-related
changes that have been observed recently, and these changes are

38

NRC, 2010: Ocean Acidification: A National Strategy to Meet
the Challenges of a Changing Ocean. The National Academies
Press, p. 5.
39 Ibid.
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projected to accelerate in the future. The planet warmed about
0.85 °C (1.5 °F) from 1880 to 2012. It is extremely likely (>95
percent probability) that human influence was the dominant cause
of the observed warming since the mid-20th century, and likely
(>66 percent probability) that human influence has more than
doubled the probability of occurrence of heat waves in some
locations. In the Northern Hemisphere, the last 30 years were
likely the warmest 30 year period of the last 1400 years. U.S.
average temperatures have similarly increased by 1.3 to 1.9
degrees F since 1895, with most of that increase occurring since
1970. Global sea levels rose 0.19 m (7.5 inches) from 1901 to
2010. Contributing to this rise was the warming of the oceans
and melting of land ice. It is likely that 275 gigatons per year
of ice melted from land glaciers (not including ice sheets)
since 1993, and that the rate of loss of ice from the Greenland
and Antarctic ice sheets increased substantially in recent
years, to 215 gigatons per year and 147 gigatons per year
respectively since 2002. For context, 360 gigatons of ice melt
is sufficient to cause global sea levels to rise 1 mm. Annual
mean Arctic sea ice has been declining at 3.5 to 4.1 percent per
decade, and Northern Hemisphere snow cover extent has decreased
at about 1.6 percent per decade for March and 11.7 percent per
decade for June. Permafrost temperatures have increased in most
regions since the 1980s, by up to 3 °C (5.4 °F) in parts of
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Northern Alaska. Winter storm frequency and intensity have both
increased in the Northern Hemisphere. The NCA3 states that the
increases in the severity or frequency of some types of extreme
weather and climate events in recent decades can affect energy
production and delivery, causing supply disruptions, and
compromise other essential infrastructure such as water and
transportation systems.
In addition to the changes documented in the assessment
literature, there have been other climate milestones of note. In
2009, the year of the Endangerment Finding, the average
concentration of CO2 as measured on top of Mauna Loa was 387
parts per million, far above preindustrial concentrations of
about 280 parts per million.40 The average concentration in 2013,
the last full year before this rule was proposed, was 396 parts
per million. The average concentration in 2014 was 399 parts per
million. And the monthly concentration in April of 2014 was 401
parts per million, the first time a monthly average has exceeded
400 parts per million since record keeping began at Mauna Loa in
1958, and for at least the past 800,000 years.41 Arctic sea ice
has continued to decline, with September of 2012 marking a new
record low in terms of Arctic sea ice extent, 40 percent below

40ftp://aftp.cmdl.noaa.gov/products/trends/co2/co2_annmean_mlo.tx

t.
41

http://www.esrl.noaa.gov/gmd/ccgg/trends/.

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the 1979-2000 median. Sea level has continued to rise at a rate
of 3.2 mm per year (1.3 inches/decade) since satellite
observations started in 1993, more than twice the average rate
of rise in the 20th century prior to 1993.42 And 2014 was the
warmest year globally in the modern global surface temperature
record, going back to 1880; this now means 19 of the 20 warmest
years have occurred in the past 20 years, and except for 1998,
the ten warmest years on record have occurred since 2002.43 The
first months of 2015 have also been some of the warmest on
record.
These assessments and observed changes make it clear that
reducing emissions of GHGs across the globe is necessary in
order to avoid the worst impacts of climate change, and
underscore the urgency of reducing emissions now. The NRC
Committee on America’s Climate Choices listed a number of
reasons “why it is imprudent to delay actions that at least
begin the process of substantially reducing emissions.”44 For
example:


The faster emissions are reduced, the lower the risks
posed by climate change. Delays in reducing emissions
could commit the planet to a wide range of adverse
impacts, especially if the sensitivity of the climate to
GHGs is on the higher end of the estimated range.

42

Blunden, J., and D. S. Arndt, Eds., 2014: State of the Climate
in 2013. Bull. Amer. Meteor. Soc., 95 (7), S1-S238.
43 http://www.ncdc.noaa.gov/sotc/global/2014/13.
44 NRC, 2011: America’s Climate Choices, The National Academies
Press.
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

Waiting for unacceptable impacts to occur before taking
action is imprudent because the effects of GHG emissions
do not fully manifest themselves for decades and, once
manifest, many of these changes will persist for hundreds
or even thousands of years.



In the committee’s judgment, the risks associated with
doing business as usual are a much greater concern than
the risks associated with engaging in strong response
efforts.

4. Observed and Projected U.S. Regional Changes
The NCA3 assessed the climate impacts in 8 regions of the
U.S., noting that changes in physical climate parameters such as
temperatures, precipitation, and sea ice retreat were already
having impacts on forests, water supplies, ecosystems, flooding,
heat waves, and air quality. Moreover, the NCA3 found that
future warming is projected to be much larger than recent
observed variations in temperature, with precipitation likely to
increase in the northern states, decrease in the southern
states, and with the heaviest precipitation events projected to
increase everywhere.
In the Northeast, temperatures increased almost 2 °F from
1895 to 2011, precipitation increased by about 5 inches (10
percent), and sea level rise of about a foot has led to an
increase in coastal flooding. The 70 percent increase in the
amount of rainfall falling in the 1 percent of the most intense

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events is a larger increase in extreme precipitation than
experienced in any other U.S. region.
In the future, if emissions continue increasing, the
Northeast is expected to experience 4.5 to 10 °F of warming by
the 2080s. This will lead to more heat waves, coastal and river
flooding, and intense precipitation events. The southern portion
of the region is projected to see 60 additional days per year
above 90 °F by mid-century. Sea levels in the Northeast are
expected to increase faster than the global average because of
subsidence, and changing ocean currents may further increase the
rate of sea level rise. Specific vulnerabilities highlighted by
the NCA include large urban populations particularly vulnerable
to climate-related heat waves and poor air quality episodes,
prevalence of climate sensitive vector-borne diseases like Lyme
and West Nile Virus, usage of combined sewer systems that may
lead to untreated water being released into local water bodies
after climate-related heavy precipitation events, and 1.6
million people living within the 100-year coastal flood zone who
are expected to experience more frequent floods due to sea level
rise and tropical-storm induced storm-surge. The NCA also
highlighted infrastructure vulnerable to inundation in coastal
metropolitan areas, potential agricultural impacts from
increased rain in the spring delaying planting or damaging crops
or increased heat in the summer leading to decreased yields and
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increased water demand, and shifts in ecosystems leading to
declines in iconic species in some regions, such as cod and
lobster south of Cape Cod.
In the Southeast, average annual temperature during the
last century cycled between warm and cool periods. A warm peak
occurred during the 1930s and 1940s followed by a cool period
and temperatures then increased again from 1970 to the present
by an average of 2°F. There have been increasing numbers of days
above 95°F and nights above 75°F, and decreasing numbers of
extremely cold days since 1970. Daily and five-day rainfall
intensities have also increased, and summers have been either
increasingly dry or extremely wet. Louisiana has already lost
1,880 square miles of land in the last 80 years due to sea level
rise and other contributing factors.
The Southeast is exceptionally vulnerable to sea level
rise, extreme heat events, hurricanes, and decreased water
availability. Major consequences of further warming include
significant increases in the number of hot days (95°F or above)
and decreases in freezing events, as well as exacerbated groundlevel ozone in urban areas. Although projected warming for some
parts of the region by the year 2100 are generally smaller than
for other regions of the U.S., projected warming for interior
states of the region are larger than coastal regions by 1°F to
2°F. Projections further suggest that globally there will be
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fewer tropical storms, but that they will be more intense, with
more Category 4 and 5 storms. The NCA identified New Orleans,
Miami, Tampa, Charleston, and Virginia Beach as being specific
cities that are at risk due to sea level rise, with homes and
infrastructure increasingly prone to flooding. Additional
impacts of sea level rise are expected for coastal highways,
wetlands, fresh water supplies, and energy infrastructure.
In the Northwest, temperatures increased by about 1.3oF
between 1895 and 2011. A small average increase in precipitation
was observed over this time period. However, warming
temperatures have caused increased rainfall relative to
snowfall, which has altered water availability from snowpack
across parts of the region. Snowpack in the Northwest is an
important freshwater source for the region. More precipitation
falling as rain instead of snow has reduced the snowpack, and
warmer springs have corresponded to earlier snowpack melting and
reduced streamflows during summer months. Drier conditions have
increased the extent of wildfires in the region.
Average annual temperatures are projected to increase by
3.3oF to 9.7oF by the end of the century (depending on future
global GHG emissions), with the greatest warming is expected
during the summer. Continued increases in global GHG emissions
are projected to result in up to a 30 percent decrease in summer
precipitation. Earlier snowpack melt and lower summer stream
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flows are expected by the end of the century and will affect
drinking water supplies, agriculture, ecosystems, and hydropower
production. Warmer waters are expected to increase disease and
mortality in important fish species, including Chinook and
sockeye salmon. Ocean acidification also threatens species such
as oysters, with the Northwest coastal waters already being some
of the most acidified worldwide due to coastal upwelling and
other local factors. Forest pests are expected to spread and
wildfires burn larger areas. Other high-elevation ecosystems are
projected to be lost because they can no longer survive the
climatic conditions. Low lying coastal areas, including the
cities of Seattle and Olympia, will experience heightened risks
of sea level rise, erosion, seawater inundation and damage to
infrastructure and coastal ecosystems.
In Alaska, temperatures have changed faster than anywhere
else in the U.S. Annual temperatures increased by about 3 °F in
the past 60 years. Warming in the winter has been even greater,
rising by an average of 6 °F. Arctic sea ice is thinning and
shrinking in area, with the summer minimum ice extent now
covering only half the area it did when satellite records began
in 1979. Glaciers in Alaska are melting at some of the fastest
rates on Earth. Permafrost soils are also warming and beginning
to thaw. Drier conditions have contributed to more large
wildfires in the last 10 years than in any previous decade since
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the 1940s, when recordkeeping began. Climate change impacts are
harming the health, safety and livelihoods of Native Alaskan
communities.
By the end of this century, continued increases in GHG
emissions are expected to increase temperatures by 10 to 12 °F
in the northernmost parts of Alaska, by 8 to 10 °F in the
interior, and by 6 to 8 °F across the rest of the state. These
increases will exacerbate ongoing arctic sea ice loss, glacial
melt, permafrost thaw and increased wildfire, and threaten
humans, ecosystems, and infrastructure. Precipitation is
expected to increase to varying degrees across the state,
however warmer air temperatures and a longer growing season are
expected to result in drier conditions. Native Alaskans are
expected to experience declines in economically, nutritionally,
and culturally important wildlife and plant species. Health
threats will also increase, including loss of clean water,
saltwater intrusion, sewage contamination from thawing
permafrost, and northward extension of diseases. Wildfires will
increasingly pose threats to human health as a result of smoke
and direct contact. Areas underlain by ice-rich permafrost
across the state are likely to experience ground subsidence and
extensive damage to infrastructure as the permafrost thaws.
Important ecosystems will continue to be affected. Surface
waters and wetlands that are drying provide breeding habitat for
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millions of waterfowl and shorebirds that winter in the lower 48
states. Warmer ocean temperatures, acidification, and declining
sea ice will contribute to changes in the location and
availability of commercially and culturally important marine
fish.
In the Southwest, temperatures are now about 2 °F higher
than the past century, and are already the warmest that region
has experienced in at least 600 years. The NCA notes that there
is evidence that climate-change induced warming on top of recent
drought has influenced tree mortality, wildfire frequency and
area, and forest insect outbreaks. Sea levels have risen about 7
or 8 inches in this region, contributing to inundation of
Highway 101 and backup of seawater into sewage systems in the
San Francisco area.
Projections indicate that the Southwest will warm an
additional 5.5 to 9.5 °F over the next century if emissions
continue to increase. Winter snowpack in the Southwest is
projected to decline (consistent with the record lows from this
past winter), reducing the reliability of surface water supplies
for cities, agriculture, cooling for power plants, and
ecosystems. Sea level rise along the California coast will
worsen coastal erosion, increase flooding risk for coastal
highways, bridges, and low-lying airports, pose a threat to
groundwater supplies in coastal cities such as Los Angeles, and
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increase vulnerability to floods for hundreds of thousands of
residents in coastal areas. Climate change will also have
impacts on the high-value specialty crops grown in the region as
a drier climate will increase demands for irrigation, more
frequent heat waves will reduce yields, and decreased winter
chills may impair fruit and nut production for trees in
California. Increased drought, higher temperatures, and bark
beetle outbreaks are likely to contribute to continued increases
in wildfires. The highly urbanized population of the Southwest
is vulnerable to heat waves and water supply disruptions, which
can be exacerbated in cases where high use of air conditioning
triggers energy system failures.
The rate of warming in the Midwest has markedly accelerated
over the past few decades. Temperatures rose by more than 1.5 °F
from 1900 to 2010, but between 1980 and 2010 the rate of warming
was three times faster than from 1900 through 2010.
Precipitation generally increased over the last century, with
much of the increase driven by intensification of the heaviest
rainfalls. Several types of extreme weather events in the
Midwest (e.g., heat waves and flooding) have already increased
in frequency and/or intensity due to climate change.
In the future, if emissions continue increasing, the
Midwest is expected to experience 5.6 to 8.5 °F of warming by
the 2080s, leading to more heat waves. Though projections of
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changes in total precipitation vary across the regions, more
precipitation is expected to fall in the form of heavy downpours
across the entire region, leading to an increase in flooding.
Specific vulnerabilities highlighted by the NCA include longterm decreases in agricultural productivity, changes in the
composition of the region’s forests, increased public health
threats from heat waves and degraded air and water quality,
negative impacts on transportation and other infrastructure
associated with extreme rainfall events and flooding, and risks
to the Great Lakes including shifts in invasive species,
increases in harmful algal blooms, and declining beach health.
High temperatures (more than 100 °F in the Southern Plains
and more than 95 °F in the Northern Plains) are projected to
occur much more frequently by mid-century. Increases in extreme
heat will increase heat stress for residents, energy demand for
air conditioning, and water losses. North Dakota’s increase in
annual temperatures over the past 130 years is the fastest in
the contiguous U.S., mainly driven by warming winters. Specific
vulnerabilities highlighted by the NCA include increased demand
for water and energy, changes to crop growth cycles and
agricultural practices, and negative impacts on local plant and
animal species from habitat fragmentation, wildfires, and
changes in the timing of flowering or pest patterns. Communities
that are already the most vulnerable to weather and climate
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extremes will be stressed even further by more frequent extreme
events occurring within an already highly variable climate
system.
In Hawaii, other Pacific islands, and the Caribbean, rising
air and ocean temperatures, shifting rainfall patterns, changing
frequencies and intensities of storms and drought, decreasing
baseflow in streams, rising sea levels, and changing ocean
chemistry will affect ecosystems on land and in the oceans, as
well as local communities, livelihoods, and cultures. Low
islands are particularly at risk.
Rising sea levels, coupled with high water levels caused by
tropical and extra-tropical storms, will incrementally increase
coastal flooding and erosion, damaging coastal ecosystems,
infrastructure, and agriculture, and negatively affecting
tourism. Ocean temperatures in the Pacific region exhibit strong
year-to-year and decadal fluctuations, but since the 1950s, they
have exhibited a warming trend, with temperatures from the
surface to a depth of 660 feet rising by as much as 3.6°F. As a
result of current sea level rise, the coastline of Puerto Rico
around Rincón is being eroded at a rate of 3.3 feet per year.
Freshwater supplies are already constrained and will become more
limited on many islands. Saltwater intrusion associated with sea
level rise will reduce the quantity and quality of freshwater in
coastal aquifers, especially on low islands. In areas where
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precipitation does not increase, freshwater supplies will be
adversely affected as air temperature rises.
Warmer oceans are leading to increased coral bleaching
events and disease outbreaks in coral reefs, as well as changed
distribution patterns of tuna fisheries. Ocean acidification
will reduce coral growth and health. Warming and acidification,
combined with existing stresses, will strongly affect coral reef
fish communities. For Hawaii and the Pacific islands, future sea
surface temperatures are projected to increase 2.3°F by 2055 and
4.7°F by 2090 under a scenario that assumes continued increases
in emissions. Ocean acidification is also taking place in the
region, which adds to ecosystem stress from increasing
temperatures. Ocean acidity has increased by about 30 percent
since the pre-industrial era and is projected to further
increase by 37 percent to 50 percent from present levels by
2100.
The NCA also discussed impacts that occur along the coasts
and in the oceans adjacent to many regions, and noted that other
impacts occur across regions and landscapes in ways that do not
follow political boundaries.
B. GHG Emissions from Fossil Fuel-fired EGUs45

45

The emission data presented in this section of the preamble
(Section II.B) are in metric tons, in keeping with reporting
requirements for the GHGRP and the U.S. GHG Inventory. Note that
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Fossil fuel-fired electric utility generating units (EGUs)
are by far the largest emitters of GHGs among stationary sources
in the U.S., primarily in the form of CO2, and among fossil fuelfired EGUs, coal-fired units are by far the largest emitters.
This section describes the amounts of these emissions and places
these amounts in the context of the U.S. Inventory of Greenhouse
Gas Emissions and Sinks46 (the U.S. GHG Inventory).
The EPA implements a separate program under 40 CFR Part 98
called the Greenhouse Gas Reporting Program47 (GHGRP) that
requires emitting facilities over threshold amounts of GHGs to
report their emissions to the EPA annually. Using data from the
GHGRP, this section also places emissions from fossil fuel-fired
EGUs in the context of the total emissions reported to the GHGRP
from facilities in the other largest-emitting industries.
The EPA prepares the official U.S. GHG Inventory to comply
with commitments under the United Nations Framework Convention
on Climate Change (UNFCCC). This inventory, which includes
recent trends, is organized by industrial sectors. It provides

the mass-based state goals presented in section VII of this
preamble, and discussed elsewhere in this preamble, are
presented in short tons.
46 “Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990 –
2013”, Report EPA 430-R-15-004, United States Environmental
Protection Agency, April 15, 2015.
http://epa.gov/climatechange/ghgemissions/usinventoryreport.html
47 U.S. EPA Greenhouse Gas Reporting Program Dataset, see
http://www.epa.gov/ghgreporting/ghgdata/reportingdatasets.html.
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the information in Table 3 below, which presents total U.S.
anthropogenic emissions and sinks48 of GHGs, including CO2
emissions, for the years 1990, 2005 and 2013.
Table 3. U.S. GHG Emissions and Sinks by Sector (million metric
tons carbon dioxide equivalent (MMT CO2 Eq.))49
SECTOR

1990

2005

5,290.5

6,273.6

5,636.6

Industrial Processes
and Product Use

342.1

367.4

359.1

Agriculture

448.7

494.5

515.7

13.8

25.5

23.3

206.0

189.2

138.3

Total Emissions

6,301.1

7,350.2

6,673.0

Land Use, Land-Use
Change and Forestry
(Sinks)

(775.8)

(911.9)

(881.7)

Net Emissions (Sources
and Sinks)

5,525.2

6,438.3

5,791.2

Energy50

Land Use, Land-Use
Change and Forestry
Waste

2013

48

Sinks are a physical unit or process that stores GHGs, such as
forests or underground or deep sea reservoirs of carbon dioxide.
49 From Table ES-4 of “Inventory of U.S. Greenhouse Gas Emissions
and Sinks: 1990 – 2013”, Report EPA 430-R-15-004, U.S.
Environmental Protection Agency, April 15, 2015.
http://epa.gov/climatechange/ghgemissions/usinventoryreport.html
50 The energy sector includes all greenhouse gases resulting from
stationary and mobile energy activities, including fuel
combustion and fugitive fuel emissions.
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Total fossil energy-related CO2 emissions (including both
stationary and mobile sources) are the largest contributor to
total U.S. GHG emissions, representing 77.3 percent of total
2013 GHG emissions.51 In 2013, fossil fuel combustion by the
utility power sector –- entities that burn fossil fuel and whose
primary business is the generation of electricity –- accounted
for 38.3 percent of all energy-related CO2 emissions.52 Table 4
below presents total CO2 emissions from fossil fuel-fired EGUs,
for years 1990, 2005 and 2013.
Table 4. U.S. GHG Emissions from Generation of Electricity from
Combustion of Fossil Fuels (MMT CO2)53
GHG EMISSIONS
Total CO2 from fossil fuelfired EGUs
- from coal
- from natural gas
- from petroleum

1990

2005

2013

1,820.8

2,400.9

2,039.8

1,547.6

1,983.8

1,575.0

175.3

318.8

441.9

97.5

97.9

22.4

51

From Table ES-2 “Inventory of U.S. Greenhouse Gas Emissions
and Sinks: 1990 – 2013”, Report EPA 430-R-15-004, United States
Environmental Protection Agency, April 15, 2015.
http://epa.gov/climatechange/ghgemissions/usinventoryreport.html
.
52 From Table 3-1 “Inventory of U.S. Greenhouse Gas Emissions and
Sinks: 1990 – 2013”, Report EPA 430-R-15-004, United States
Environmental Protection Agency, April 15, 2015.
http://epa.gov/climatechange/ghgemissions/usinventoryreport.html
53 From Table 3-5 “Inventory of U.S. Greenhouse Gas Emissions and
Sinks: 1990 – 2013”, Report EPA 430-R-15-004, United States
Environmental Protection Agency, April 15 2015.
http://epa.gov/climatechange/ghgemissions/usinventoryreport.html
.
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In addition to preparing the official U.S. GHG Inventory to
present comprehensive total U.S. GHG emissions and comply with
commitments under the UNFCCC, the EPA collects detailed GHG
emissions data from the largest emitting facilities in the U.S.
through its Greenhouse Gas Reporting Program (GHGRP). Data
collected by the GHGRP from large stationary sources in the
industrial sector show that the utility power sector emits far
greater CO2 emissions than any other industrial sector. Table 5
below presents total GHG emissions in 2013 for the largest
emitting industrial sectors as reported to the GHGRP. As shown
in Table 4 and Table 5, respectively, CO2 emissions from fossil
fuel-fired EGUs are nearly three times as large as the total
reported GHG emissions from the next ten largest emitting
industrial sectors in the GHGRP database combined.
Table 5. Direct GHG Emissions Reported to GHGRP by Largest
Emitting Industrial Sectors (MMT CO2e)54
Industrial Sector
Petroleum Refineries
Onshore Oil & Gas Production
Municipal Solid Waste Landfills
Iron & Steel Production
Cement Production
Natural Gas Processing Plants
Petrochemical Production
Hydrogen Production
Underground Coal Mines
Food Processing Facilities

2013
176.7
94.8
93.0
84.2
62.8
59.0
52.7
41.9
39.8
30.8

54

U.S. EPA Greenhouse Gas Reporting Program Dataset as of August
18, 2014. http://ghgdata.epa.gov/ghgp/main.do.
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C. Challenges in Controlling Carbon Dioxide Emissions
Carbon dioxide is a unique air pollutant and controlling it
presents unique challenges. CO2 is emitted in enormous
quantities, and those quantities, coupled with the fact that CO2
is relatively unreactive, make it much more difficult to mitigate
by measures or technologies that are typically utilized within
an existing power plant. Measures that may be used to limit CO2
emissions would include efficiency improvements, which have
thermodynamic limitations and carbon capture and sequestration
(CCS), which is energy resource intensive.
Unlike other air pollutants which are results of trace
impurities in the fuel, products of incomplete or inefficient
combustion, or combustion byproducts, CO2 is an inherent product
of clean, efficient combustion of fossil fuels, and therefore is
an unavoidable product generated in enormous quantities, far
greater than any other air pollutant.55 In fact, CO2 is emitted
in far greater quantities than all other air pollutants
combined. Total emissions of all non-GHG air pollutants in the
U.S., from all sources, in 2013, were 121 million metric

55

Lackner et al., “Comparative Impacts of Fossil Fuels and
Alternative Energy Sources”, Issues in Environmental Science and
Technology (2010).
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tons.56,57 As noted above, total emissions of CO2 from coal-fired
power plants alone – the largest stationary source emitter --

56

This includes NAAQS and HAPs, based on the following table:
2013 tons
Pollutant
Reference
(million short tons)
Trends file
CO
69.758
(http://www.epa.gov/ttn
chie1/trends/)
NOX
13.072
“
PM10
20.651
“
SO2
5.098
“
VOC
17.471
“
NH3
4.221
“
2011 NEI version 2
(http://www.epa.gov/ttn
HAPS
3.641
/chief/net/2011inventor
y.html)
Total
133.912

 

It should be noted that PM2.5 is included in the amounts for PM10.
Lead, another NAAQS pollutant, is emitted in the amounts of
approximately 1,000 tons per year, and, in light of that
relatively small quantity, was excluded from this analysis.
Ammonia (NH3) is included because it is a precursor to PM2.5
secondary formation. Note that one short ton is equivalent to
0.907185 metric ton.
57 In addition, emissions of non-CO
2 GHGs totaled 1.168 billion
metric tons of carbon-dioxide equivalents (CO2e) in 2013. See
Table ES-2, Executive Summary, 1990-2013 Inventory of U.S.
Greenhouse Gas Emissions and Sinks.
http://www.epa.gov/climatechange/Downloads/ghgemissions/US-GHGInventory-2015-Chapter-Executive-Summary.pdf.
This includes emissions of methane, nitrous oxide, and
fluorinated GHGs (hydrofluorocarbons, perfluorocarbons, sulfur
hexafluoride, and nitrogen trifluoride). In the total, the
emissions of each non-CO2 GHG have been translated from metric
tons of that gas into metric tons of CO2e by multiplying the
metric tons of the gas by the global warming potential (GWP) of
the gas. (The GWP of a gas is a measure of the ability of one
kilogram of that gas to trap heat in earth’s atmosphere compared
to one kilogram of CO2.)
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were 1.575 billion metric tons in that year,58 and total
emissions of CO2 from all sources were 5.5 billion metric
tons.59,60 Carbon makes up the majority of the mass of coal and
other fossil fuels, and for every ton of carbon burned, more
than 3 tons of CO2 is produced.61 In addition, unlike many of the
other air pollutants that react with sunlight or chemicals in
the atmosphere, or are rained out or deposited on surfaces, CO2
is relatively unreactive and difficult to remove directly from
the atmosphere.62,63
CO2’s huge quantities and lack of reactivity make it
challenging to remove from the smokestack. Retrofitted equipment

58

From Table 3-5 “Inventory of U.S. Greenhouse Gas Emissions and
Sinks: 1990 – 2013”, Report EPA 430-R-15-004, United States
Environmental Protection Agency, April 15, 2015.
http://epa.gov/climatechange/ghgemissions/usinventoryreport.html
.
59 U.S. EPA, Greenhouse Gas Inventory Data Explorer,
http://www.epa.gov/climatechange/ghgemissions/inventoryexplorer/
#allsectors/allgas/gas/current.
60 As another point of comparison, except for carbon dioxide, SO
2
and NOx are the largest air pollutant emissions from coal-fired
power plants. Over the past decade, U.S. power plants have
emitted more than 200 times as much CO2 as they have emitted SO2
and NOx. See de Gouw et al., “Reduced emissions of CO2, NOx, and
SO2 from U.S. power plants owing to switch from coal to natural
gas with combined cycle technology,” Earth’s Future (2014).
61 Each atom of carbon in the fuel combines with 2 atoms of
oxygen in the air.
62 Seinfeld J. and Pandis S., Atmospheric Chemistry and Physics:
From Air Pollution to Climate Change (1998).
63 The fact that CO
2 is unreactive means that it is primarily
removed from the atmosphere by dissolving in oceans or by being
converted into biomass by plants. Herzog, H., “Scaling up carbon
dioxide capture and storage: From megatons to gigatons”, Energy
Economics (2011).
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 Page 139 of 1560
is required to capture the CO2 before transporting it to a
storage site. However, the scale of infrastructure required to
directly mitigate CO2 emissions from existing EGUs through CCS
can be quite large and difficult to integrate into the existing
fossil fuel infrastructure. These CCS techniques are discussed
in more depth elsewhere in the preamble for this rule and for
the section 111(b) rule for new sources that accompanies this
rule.
The properties of CO2 can be contrasted with those of a
number of other pollutants which have more accessible mitigation
options. For example, the NAAQS pollutants – which generally are
emitted in the largest quantities of any of the other air
pollutants, except for CO2 – each have more accessible mitigation
options. Sulfur dioxide (SO2) is the result of a contaminant in
the fuel, and, as a result, it can be reduced by using lowsulfur coal or by using flue-gas desulfurization (FGD)
technologies. Emissions of NOx can be mitigated relatively easily
using combustion control techniques (e.g., low-NOx burners) and
by using downstream controls such as selective catalytic
reduction (SCR) and selective non-catalytic reduction (SNCR)
technologies. PM can be effectively mitigated using fabric
filters, PM scrubbers, or electrostatic precipitators. Lead is
part of particulate matter emissions and is controlled through
the same devices. Carbon monoxide and VOCs are the products of
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 Page 140 of 1560
incomplete combustion and can therefore be abated by more
efficient combustion conditions, and can also be destroyed in
the smokestack by the use of oxidation catalysts which complete
the combustion process. Many air toxics are VOCs, such as
polyaromatic hydrocarbons, and therefore can be abated in the
same ways just described. But in every case, these pollutants
can be controlled at the source much more readily than CO2
primarily because of the comparatively lower quantities that are
produced, and also due to other attributes such as relatively
greater reactivity and solubility.
D. The Utility Power Sector
1. A brief history
The modern American electricity system is one of the
greatest engineering achievements of the past 100 years. Since
the invention of the incandescent light bulb in the 1870s,64
electricity has become one of the major foundations for modern
American life. Beginning with the first power station in New
York City in 1882, each power station initially served a
discrete set of consumers, resulting in small and localized
electricity systems.65 During the early 1900s, smaller systems

64

Regulatory Assistance Project (RAP), Electricity Regulation in
the US: A Guide, at 1 (2011), available at
http://www.raponline.org/document/download/id/645.
65 Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 2-4 (2d ed. 2010).
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consolidated, allowing generation resources to be shared over
larger areas. Interconnecting systems have reduced generation
investment costs and improved reliability.66 Local and state
governments initially regulated these growing electricity
systems with federal regulation coming later in response to
public concerns about rising electricity costs.67
Initially, states had broad authority to regulate public
utilities, but gradually federal regulation increased. In 1920,
Congress passed the Federal Water Power Act, creating the
Federal Power Commission (FPC) and providing for the licensing
of hydroelectric facilities on U.S. government lands and
navigable waters of the U.S.68 During this time period, the U.S.
Supreme Court found that state authority to regulate public
utilities is limited, holding that the Commerce Clause does not

66

Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 5-6 (2d ed. 2010). Investment in
electric generation is extremely capital intensive, with
generation potentially accounting for 65 percent of customer
costs. If these costs can be spread to more customers, then
this can reduce the amount that each individual customer pays.
Federal Energy Regulatory Commission, Energy Primer: A Handbook
of Energy Market Basics, at 38 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
67 Burn, An Energy Journal, The Electricity Grid: A History,
available at http://burnanenergyjournal.com/the-electric-grid-ahistory/ (last visited Mar. 9, 2015).
68 The FPC became an independent Commission in 1930. United
States Government Manual 1945: First Edition, at 486, available
at http://www.ibiblio.org/hyperwar/ATO/USGM/FPC.html.
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allow state regulation to directly burden interstate commerce.69
For example, in Public Utilities Commission of Rhode Island v.
Attleboro Steam & Electric Company, Rhode Island sought to
regulate the electricity rates that a Rhode Island generator was
charging to a company in Massachusetts that resold the
electricity to Attleboro, Massachusetts.70 The Supreme Court
found that Rhode Island’s regulation was impermissible because
it imposed a "direct burden upon interstate commerce."71 The
Supreme Court held that this kind of interstate transaction was
not subject to state regulation. However, because Congress had
not yet passed legislation to make these types of transactions
subject to federal regulation, this became known as the
"Attleboro gap" in regulation. In 1935, Congress passed the
Federal Power Act (FPA), giving the FPC jurisdiction over “the
transmission of electric energy in interstate commerce" and "the
sale of electric energy at wholesale in interstate commerce."72
Under FPA section 205, the FPC was tasked with ensuring that
rates for jurisdictional services are just, reasonable, and not

69

New York v. Federal Energy Regulatory Commission, 535 U.S. 1,
5 (2002) (citation omitted).
70 Public Utils. Comm'n of Rhode Island v. Attleboro Steam &
Elec. Co., 273 U.S. 83 (1927).
71 Public Utils. Comm'n of Rhode Island v. Attleboro Steam &
Elec. Co., 273 U.S. 83, 89 (1927).
72 16 U.S.C. § 824(b)(1).
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unduly discriminatory or preferential.73 FPA section 206
authorized the FPC to determine, after a hearing upon its own
motion or in response to a complaint filed at the Commission,
whether jurisdictional rates are just, reasonable, and not
unduly discriminatory or preferential.74 In 1938, Congress passed
the Natural Gas Act (NGA), giving the FPC jurisdiction over the
transmission or sale of natural gas in interstate commerce.75 The
NGA also gave the FPC the jurisdiction to “grant certificates
allowing construction and operation of facilities used in
interstate gas transmission and authorizing the provision of
services.”76 In 1977, the FPC became FERC after Congress passed
the Department of Energy Organization Act.
By the 1930s, regulated electric utilities that provided
the major components of the electrical system - generation,
transmission, and distribution - were common.77 These regulated
monopolies are referred to as vertically-integrated utilities.

73

16 U.S.C. § 824d.
16 U.S.C. § 824e.
75 Energy Information Administration, Natural Gas Act of 1938,
available at
http://www.eia.gov/oil_gas/natural_gas/analysis_publications/ngm
ajorleg/ngact1938.html.
76 Energy Information Administration, Natural Gas Act of 1938,
available at
http://www.eia.gov/oil_gas/natural_gas/analysis_publications/ngm
ajorleg/ngact1938.html.
77 Burn, An Energy Journal, The Electricity Grid: A History,
available at http://burnanenergyjournal.com/the-electric-grid-ahistory/(last visited Mar. 9, 2015).
74

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 Page 144 of 1560
As utilities built larger and larger electric generation
plants, the cost per unit to generate electricity decreased.78
However, these larger plants were extremely capital intensive
for any one company to fund.79 Some neighboring utilities solved
this issue by agreeing to share electricity reserves when
needed.80 These utilities began building larger transmission
lines to deliver power in times when large generators
experienced outages.81 Eventually, some utilities that were in
reserve sharing agreements formed electric power pools to
balance electric load over a larger area. Participating
utilities gave control over scheduling and dispatch of their
electric generation units to a system operator.82 Some power
pools evolved into today’s RTOs and ISOs.
In the past, electric utilities generally operated as state
regulated monopolies, supplying end-use customers with

78

Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 38 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
79 Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 38 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
80 Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 38 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
81 Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 38 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
82 Shively, B, Ferrare, J, Understanding Today’s Electricity
Business, Enerdynamics, at 94 (2012).
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generation, distribution, and transmission service.83 However,
the ability of electric utilities to operate as natural
monopolies came with consumer protection safeguards.84 “In
exchange for a franchised, monopoly service area, utilities
accept an obligation to serve – meaning there must be adequate
supply to meet customers’ needs regardless of the cost.”85 Under
this obligation to serve, the utility agreed to provide service
to any customer located within its service jurisdiction.
On both a federal and state level, competition has entered
the electricity sector to varying degrees in the last few
decades.86 In the early 1990s, some states began to consider

83

Maryland Department of Natural Resources, Maryland Power
Plants and the Environment: A Review of the Impacts of Power
Plants and Transmission Lines on Maryland’s Natural Resources,
at 2-5 (2006).
84 Pacific Power, Utility Regulation, at 1, available at
https://www.pacificpower.net/content/dam/pacific_power/doc/About
_Us/Newsroom/Media_Resources/Regulation.PP.08.pdf.
85 Pacific Power, Utility Regulation, at 1, available at
https://www.pacificpower.net/content/dam/pacific_power/doc/About
_Us/Newsroom/Media_Resources/Regulation.PP.08.pdf.
86 For example, in 1978, Congress passed the Public Utilities
Regulatory Policies Act (PURPA) which allowed non-utility owned
power plants to sell electricity. Burn, An Energy Journal, The
Electricity Grid: A History, available at
http://burnanenergyjournal.com/the-electric-grid-a-history/
(last visited Mar. 9, 2015). PURPA, the Energy Policy Act of
1992 (EPAct 1992), and the Energy Policy Act of 2005 (EPAct
2005) “promoted competition by lowering entry barriers and
increasing transmission access.” The Electric Energy Market
Competition Task Force, Report to Congress on Competition in
Wholesale and Retail Markets for Electric Energy, at 2,
available at http://www.ferc.gov/legal/fed-sta/ene-polact/epact-final-rpt.pdf (last visited Mar. 20, 2015).
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allowing competition to enter retail electric service.87 Federal
and state efforts to allow competition in the electric utility
industry have resulted in independent power producers (IPPs)88
producing approximately 37 percent of net generation in 2013.89
Electric utilities in some states remain vertically integrated
without retail competition from IPPs. Today, there are over
3,000 public, private, and cooperative utilities in the U.S.90
These utilities include both investor-owned utilities91 and
consumer-owned utilities.92

87

The Electric Energy Market Competition Task Force, Report to
Congress on Competition in Wholesale and Retail Markets for
Electric Energy, at 2, available at
http://www.ferc.gov/legal/fed-sta/ene-pol-act/epact-finalrpt.pdf (last visited Mar. 20, 2015).
88 These entities are also referred to as merchant generators.
89 Energy Information Administration, Electric Power Annual,
Table 1.1 Total Electric Power Summary Statistics, 2013 and 2012
(2015), available at
http://www.eia.gov/electricity/annual/html/epa_01_01.html.
90 Regulatory Assistance Project (RAP), Electricity Regulation in
the US: A Guide, at 9 (2011), available at
http://www.raponline.org/document/download/id/645.
91 Investor-owned utilities are private companies that are
financed by a combination of shareholder equity and bondholder
debt. Regulatory Assistance Project (RAP), Electricity
Regulation in the US: A Guide, at 9 (2011), available at
http://www.raponline.org/document/download/id/645.
92 Consumer-owned utilities include municipal utilities, public
utility districts, cooperatives, and a variety of other entities
such as irrigation districts. Regulatory Assistance Project
(RAP), Electricity Regulation in the US: A Guide, at 9-10
(2011), available at
http://www.raponline.org/document/download/id/645.
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Over time, the grid slowly evolved into a complex,
interconnected transmission system that allows electric
generators to produce electricity that is then fed onto
transmission lines at high voltages.93 These larger transmission
lines are able to access generation that is located more
remotely, with transmission lines crossing many miles, including
state borders.94 Closer to end users, electricity is transformed

93

Peter Fox-Penner, Electric Utility Restructuring: A Guide to
the Competitive Era, Public Utility Reports, Inc., at 5, 34
(1997). “The extent of the power system’s short-run physical
interdependence is remarkable, if not entirely unique. No other
large, multi-stage industry is required to keep every single
producer in a region – whether or not owned by the same company
– in immediate synchronization with all other producers.” Id. at
34. “At an early date, those providing electric power recognized
that peak use for one system often occurred at a different time
from peak use in other systems. They also recognized that
equipment failures occurred at different times in various
systems. Analyses showed significant economic benefits from
interconnecting systems to provide mutual assistance; the
investment required for generating capacity could be reduced and
reliability could be improved. This lead [sic] to the
development of local, then regional, and subsequently three
transmission grids that covered the U.S. and parts of Canada.”
Casazza, J. and Delea, F., Understanding Electric Power Systems,
IEEE Press, at 5-6 (2d ed. 2010).
94 Burn, An Energy Journal, The Electricity Grid: A History,
available at http://burnanenergyjournal.com/the-electric-grid-ahistory/ (last visited Mar. 9, 2015). Because of the ease and
low cost of converting voltages in an alternating current (AC)
system from one level to another, the bulk power system is
predominantly an AC system rather than a direct current (DC)
system. In an AC system, electricity cannot be controlled like a
gas or liquid by utilizing a valve in a pipe. Instead, absent
the presence of expensive control devices, electricity flows
freely along all available paths, according to the laws of
physics. U.S.-Canada Power System Outage Task Force, Final
Report on the August 14, 2003 Blackout in the United States and
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into a lower voltage that is transported across localized
transmission lines to homes and businesses.95 Localized
transmission lines make up the distribution system. These three
components of the electricity system - generation, transmission,
and distribution - are closely related and must work in
coordination to deliver electricity from the point of generation
to the point of consumption. This interconnectedness is a
fundamental aspect of the nation’s electricity system, requiring
a complicated integration of all components of the system to
balance supply and demand and a federal, state, and local
regulatory network to oversee the physically interconnected
network. Facilities planned and constructed in one segment can
impact facilities and operations in other segments and vice
versa.
The North American electric grid has developed into a
large, interconnected system.96 Electricity from a diverse set of
generation resources such as natural gas, nuclear, coal, and

Canada: Causes and Recommendations, at 6 (Apr. 2004), available
at http://www.ferc.gov/industries/electric/indusact/reliability/blackout/ch1-3.pdf.
95 Peter Fox-Penner, Electric Utility Restructuring: A Guide to
the Competitive Era, Public Utility Reports, Inc., at 5 (1997).
96 U.S.-Canada Power System Outage Task Force, Final Report on
the August 14, 2003 Blackout in the United States and Canada:
Causes and Recommendations, at 5 (Apr. 2004), available at
http://www.ferc.gov/industries/electric/indusact/reliability/blackout/ch1-3.pdf.
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renewables is distributed over high-voltage transmission lines
divided across the continental U.S. into three synchronous
interconnections – the Eastern Interconnection, Western
Interconnection, and the Texas Interconnection.97 These three
synchronous systems each act like a single machine.98 Diverse
resources generate electricity that is transmitted and
distributed through a complex system of interconnected
components to industrial, business, and residential consumers.

97

Regulatory Assistance Project (RAP), Electricity Regulation in
the US: A Guide, 2011, at 1, available at
http://www.raponline.org/document/download/id/645.
98 Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 159 (2d ed. 2010). In an amicus brief to
the Supreme Court, a group of electrical engineers, economists,
and physicists specializing in electricity explained, “Energy is
transmitted, not electrons. Energy transmission is accomplished
through the propagation of an electromagnetic wave. The
electrons merely oscillate in place, but the energy – the
electromagnetic wave – moves at the speed of light. The
energized electrons making the lightbulb in a house glow are not
the same electrons that were induced to oscillate in the
generator back at the power plant. . . . Energy flowing onto a
power network or grid energizes the entire grid, and consumers
then draw undifferentiated energy from that grid. A networked
grid flexes, and electric current flows, in conformity with
physical laws, and those laws do not notice, let alone conform
to, political boundaries. . . . The path taken by electric
energy is the path of least resistance . . . or, more
accurately, the paths of least resistance. . . . If a generator
on the grid increases its output, the current flowing from the
generator on all paths on the grid increases. These increases
affect the energy flowing into each point in the network, which
in turn leads to compensating and corresponding changes in the
energy flows out of each point.” Brief Amicus Curiae of
Electrical Engineers, Energy Economists and Physicists in
Support of Respondents at 2, 8-9, 11, New York v. FERC, 535 U.S.
1 (2001) (No. 00-568).
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Unlike other industries where sources make operational decisions
independently, the utility power sector is unique in that
electricity system resources operate in a complex,
interconnected grid system that is physically interconnected and
operated on an integrated basis across large regions.
Additionally, a federal, state, and local regulatory network
oversees policies and practices that are applied to how the
system is designed and operates. In this interconnected system,
system operators must ensure that the amount of electricity
available is precisely matched with the amount needed in real
time. System operators have a number of resources potentially
available to meet electricity demand, including electricity
generated by electric generation units such as coal, nuclear,
renewables, and natural gas, as well as demand-side resources99,
such as EE100 and demand response.101 Generation, outages, and

99

“Measures using demand-side resources comprise actions taken
on the customer’s side of the meter to change the amount and/or
timing of electricity use in ways that will provide benefits to
the electricity supply system.” David Crossley, Regulatory
Assistance Project (RAP), Effective Mechanisms to Increase the
Use of Demand-Side Resources, at 9 (2013), available at
www.raponline.org.
100 Energy efficiency is using less energy to provide the same or
greater level of service. Demand-side energy efficiency refers
to an extensive array of technologies, practices and measures
that are applied throughout all sectors of the economy to reduce
energy demand while providing the same, and sometimes better,
level and quality of service.
101 Demand response involves “[c]hanges in electric usage by
demand-side resources from their normal consumption patterns in
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transmission changes in one part of the synchronous grid can
affect the entire interconnected grid.102 The interconnection is
such that “[i]f a generator is lost in New York City, its affect
is felt in Georgia, Florida, Minneapolis, St. Louis, and New
Orleans.”103 The U.S. Supreme Court has similarly recognized the
interconnected nature of the electricity grid.104

response to changes in the price of electricity over time, or to
incentive payments designed to induce lower electricity use at
times of high wholesale market prices or when system reliability
is jeopardized.” Federal Energy Regulatory Commission, Reports
on Demand Response & Advanced Metering, (Dec. 23, 2014),
available at http://www.ferc.gov/industries/electric/indusact/demand-response/dem-res-adv-metering.asp.
102 Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 159 (2d ed. 2010).
103 Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 160 (2d ed. 2010).
104 Federal Power Comm’n v. Florida Power & Light Co., 404 U.S.
453, at 460 (1972) (quoting a Federal Power Commission hearing
examiner, "`If a housewife in Atlanta on the Georgia system
turns on a light, every generator on Florida’s system almost
instantly is caused to produce some quantity of additional
electric energy which serves to maintain the balance in the
interconnected system between generation and load.’”) (citation
omitted). See also New York v. FERC, 535 U.S. 1, at 7 (2002)
(stating that “any electricity that enters the grid immediately
becomes a part of a vast pool of energy that is constantly
moving in interstate commerce.”) (citation omitted). In Federal
Power Comm’n v. Southern California Edison Co., 376 U.S. 205
(1964), the Supreme Court found that a sale for resale of
electricity from Southern California Edison to the City of
Colton, which took place solely in California, was under Federal
Power Commission jurisdiction because some of the electricity
that Southern California Edison marketed came from out of state.
The Supreme Court stated that, “`federal jurisdiction was to
follow the flow of electric energy, an engineering and
scientific, rather than a legalistic or governmental, test.’”
Id. at 210 (quoting Connecticut Light & Power Co. v. Federal
Power Commission, 324 U.S. 515, 529 (1945) (emphasis omitted)).
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Today, federal, state, and local entities regulate
electricity providers.105 Overlaid on the physical electricity
network is a regulatory network that has developed over the last
century or more. This regulatory network “plays a vital role in
the functioning of all other networks, sometimes providing
specific rules for functioning while at other times providing
restraints within which their operation must be conducted.”106
This unique regulatory network results in an electricity grid
that is both physically interconnected and connected through a
network of regulation on the local, state, and federal levels.
This regulation seeks to reconcile the fact that electricity is
a public good with the fact that facilities providing that
electricity are privately owned.107 While this regulation began
on the state and local levels, federal regulation of the
electricity system increased over time. With the passage of the
EPAct 1992 and the EPAct 2005, the federal government’s role in
electricity regulation greatly increased.108 “The role of the
regulator now includes support for the development of open and

105

Casazza, J.
Systems, IEEE
106
Casazza, J.
Systems, IEEE
107
Casazza, J.
Systems, IEEE
108
Casazza, J.
Systems, IEEE

and Delea, F., Understanding
Press, at 214 (2d ed. 2010).
and Delea, F., Understanding
Press, at 213 (2d ed. 2010).
and Delea, F., Understanding
Press, at 213 (2d ed. 2010).
and Delea, F., Understanding
Press, at 214 (2d ed. 2010).

Electric Power
Electric Power
Electric Power
Electric Power

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fair wholesale electric markets, ensuring equal access to the
transmission system and more hands-on oversight and control of
the planning and operating rules for the industry.”109
2. Electric system dispatch
System operators typically dispatch the electric system
through a process known as Security Constrained Economic
Dispatch.110 Security Constrained Economic Dispatch has two
components – economic generation of generation facilities and
ensuring that the electric system remains reliable.111
Electricity demand varies across geography and time in response
to numerous conditions, such that electric generators are
constantly responding to changes in the most reliable and costeffective manner possible. The cost of operating electric
generation varies based on a number of factors, such as fuel and
generator efficiency.

109

Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 214 (2d ed. 2010).
110 Economic Dispatch: Concepts, Practices and Issues, FERC Staff
Presentation to the Joint Board for the Study of Economic
Dispatch, Palm Springs, California (Nov. 13, 2005).
111 Federal Energy Regulatory Commission, Security Constrained
Economic Dispatch: Definitions, Practices, Issues and
Recommendations: A Report to Congress (July 31, 2006). The
Energy Policy Act of 2005 defined economic dispatch as “the
operation of generation facilities to produce energy at the
lowest cost to reliably serve consumers, recognizing any
operational limits of generation and transmission facilities.”
Energy Policy Act of 2005, Pub. L. No. 109-58, 119 Stat. 594
(2005), section 1234(b).
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The decision to dispatch any particular electric generator
depends upon the relative operating cost, or marginal cost, of
generating electricity to meet the last increment of electric
demand. Fuel is one common variable cost – especially for
fossil-fueled generators. Coal plants will often have
considerable variable costs associated with running pollution
controls.112 Renewables, hydroelectric, and nuclear have little
to no variable costs. If electricity demand decreases or
additional generation becomes available on the system, this
impacts how the system operator will dispatch the system. EGUs
using technologies with relatively low variable costs, such as
nuclear units and RE, are for economic reasons generally
operated at their maximum output whenever they are available.
When lower cost units are available to run, higher variable cost
units, such as fossil-fuel generators, are generally the first
to be displaced.
In states with cost-of-service regulation of verticallyintegrated utilities, the utilities themselves form the
balancing authorities who determine dispatch based upon the
lowest marginal cost. These utilities sometimes arrange to buy
and sell electricity with other balancing authorities. RTOs and

112

Variable costs also include costs associated with operation
and maintenance and costs of operating a pollution control
and/or emission allowance charges.
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ISOs coordinate, control, and monitor electricity transmission
systems to ensure cost-effective and reliable delivery of power,
and they are independent from market participants.
3. Reliability considerations
The reliability of the electric system has long been a
focus of the electric industry and regulators. Industry
developed a voluntary organization in the early 1960s that
assisted with bulk power system coordination in the U.S. and
Canada.113 In 1965, the northeastern U.S. and southeastern
Ontario, Canada experienced the largest power blackout to date,
impacting 30 million people.114 In response to the 1965 blackout
and a Federal Power Commission recommendation,115 industry
developed the National Electric Reliability Council (NERC) and
nine reliability councils. The organization later became known
as the North American Electric Reliability Council to recognize

113

North American Electric Reliability Corporation, History of
NERC, at 1 (2013), available at
http://www.nerc.com/AboutNERC/Documents/History%20AUG13.pdf.
114 Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 39 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
115 The Federal Power Commission, a precursor to FERC,
recommended “the formation of a council on power coordination
made up of representatives from each of the nation’s regional
coordinating organizations, to exchange and disseminate
information and to review, discuss and assist in resolving
interregional coordination matters.” North American Electric
Reliability Corporation, History of NERC, at 1 (2013), available
at http://www.nerc.com/AboutNERC/Documents/History%20AUG13.pdf.
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Canada’s participation.116 The North American Electric
Reliability Council became the North American Electric
Reliability Corporation in 2007.117
In August 2003, North America experienced its worst
blackout to date creating an outage in the Midwest, Northeast,
and Ontario, Canada.118 This blackout was massive in scale
impacting an area with an estimated 50 million people and 61,800
megawatts of electric load.119 The U.S. and Canada formed a joint
task force to investigate the causes of the blackout and made
recommendations to avoid similar outages in the future. One of
the task force’s major recommendations was that the U.S.
Congress should pass legislation making electric reliability
standards mandatory and enforceable.120

116

North American Electric Reliability Corporation, History of
NERC, at 2 (2013), available at
http://www.nerc.com/AboutNERC/Documents/History%20AUG13.pdf.
117 North American Electric Reliability Corporation, History of
NERC, at 4 (2013), available at
http://www.nerc.com/AboutNERC/Documents/History%20AUG13.pdf.
118 North American Electric Reliability Corporation, History of
NERC, at 3 (2013), available at
http://www.nerc.com/AboutNERC/Documents/History%20AUG13.pdf.
119 U.S.-Canada Power System Outage Task Force, Final Report on
the August 14, 2003 Blackout in the United States and Canada:
Causes and Recommendations, at 1 (Apr. 2004), available at
http://www.ferc.gov/industries/electric/indusact/reliability/blackout/ch1-3.pdf. The outage impacted areas
within Ohio, Michigan, Pennsylvania, New York, Vermont,
Massachusetts, Connecticut, New Jersey, and the Canadian
province of Ontario. Id.
120 U.S.-Canada Power System Outage Task Force, Final Report on
the August 14, 2003 Blackout in the United States and Canada:
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Congress responded to this recommendation in EPAct 2005,
adding a new section 215 to the Federal Power Act making
reliability standards mandatory and enforceable and authorizing
the creation of a new Electric Reliability Organization (ERO).
Under this new system, FERC certifies an entity as the ERO. The
ERO develops reliability standards, which are subject to FERC
review and approval. Once FERC approves reliability standards
the ERO may enforce those standards or FERC can do so
independently.121 In 2006, the Federal Energy Regulatory
Commission (FERC) certified NERC as the ERO.122 “NERC develops
and enforces Reliability Standards; monitors the Bulk-Power
System; assesses adequacy annually via a 10-year forecast and
winter and summer forecasts; audits owners, operators and users
for preparedness; and educates and trains industry personnel.”123

Causes and Recommendations, at 2 (Apr. 2004), available at
http://www.ferc.gov/industries/electric/indusact/reliability/blackout/ch1-3.pdf.
121 Mandatory Reliability Standards for the Bulk-Power System,
Order No. 693, 118 FERC ¶ 61,218, at P 3 (2007) (citing 16
U.S.C. 824o(e)(3)).
122 Rules Concerning Certification of the Electric Reliability
Organization; and Procedures for the Establishment, Approval,
and Enforcement of Electric Reliability Standards, Order No.
672, 114 FERC ¶ 61,104 (2006).
123 North American Electric Reliability Corporation, Frequently
Asked Questions, at 2 (Aug. 2013), available at
http://www.nerc.com/AboutNERC/Documents/NERC%20FAQs%20AUG13.pdf.
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The U.S., Canada, and part of Mexico are divided up into
eight reliability regional entities.124 These regional entities
include Florida Reliability Coordinating Council (FRCC), Midwest
Reliability Organization (MRO), Northeast Power Coordinating
Council (NPCC), Reliability First Corporation (RFC), SERC
Reliability Corporation (SERC), Southwest Power Pool, RE (SPP),
Texas Reliability Entity (TRE), and Western Electricity
Coordinating Council (WECC).125 Regional entity members come from
all segments of the electric industry.126 NERC delegates
authority, with FERC approval, to these regional entities to
enforce reliability standards, both national and regional
reliability standards, and engage in other standards-related
duties delegated to them by NERC.127 NERC ensures that there is a

124

Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 49-50 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
125 Federal Energy Regulatory Commission, Energy Primer: A
Handbook of Energy Market Basics, at 50 (2012), available at
http://www.ferc.gov/market-oversight/guide/energy-primer.pdf.
126 North American Electric Reliability Corporation, Key Players,
available at
http://www.nerc.com/AboutNERC/keyplayers/Pages/default.aspx
(last visited Mar. 12, 2015). “The members of the regional
entities come from all segments of the electric industry:
investor-owned utilities; federal power agencies; rural electric
cooperatives; state, municipal and provincial utilities;
independent power producers; power marketers; and end-use
customers.” Id.
127 North American Electric Reliability Corporation, Frequently
Asked Questions, at 5 (2013), available at
http://www.nerc.com/AboutNERC/Documents/NERC%20FAQs%20AUG13.pdf.
For example, a regional entity may propose reliability
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consistency of application of delegated functions with
appropriate regional flexibility.128 NERC divides the country
into assessment areas and annually analyzes the reliability,
adequacy, and associated risks that may affect the upcoming
summer, winter, and long-term, 10-year period. Multiple other
entities such as FERC, the Department of Energy, state public
utility commissions, ISOs/RTOs129, and other planning authorities
also consider the reliability of the electric system. There are

standards, including regional variances or regional reliability
standards required to maintain and enhance electric service
reliability, adequacy, and security in the region. See, e.g.,
Amended and Restated Delegation Agreement Between North American
Reliability Corporation and Midwest Reliability Organization,
Bylaws of the Midwest Reliability Organization, Inc., Section
2.2 (2012), available at
http://www.nerc.com/FilingsOrders/us/Regional%20Delegation%20Agr
eements%20DL/MRO_RDA_Effective_20130612.pdf.
128 North American Electric Reliability Corporation, Frequently
Asked Questions, at 5 (2013), available at
http://www.nerc.com/AboutNERC/Documents/NERC%20FAQs%20AUG13.pdf.
129 ISOs/RTOs plan for system needs by “effectively managing the
load forecasting, transmission planning, and system and resource
planning functions.” For example, the New York Independent
System Operator (NYISO) conducts reliability planning studies,
which “are used to assess current reliability needs based on
user trends and historical energy use.” NYISO, Planning Studies,
available at
http://www.nyiso.com/public/markets_operations/services/planning
/planning_studies/index.jsp. See also PJM, Reliability
Assessments, available at https://www.pjm.com/planning/rtepdevelopment/reliability-assessments.aspx (stating that the PJM
“Regional Transmission Expansion Planning (RTEP) process
includes the development of periodic reliability assessments to
address specific system reliability issues in addition to the
ongoing expansion planning process for the interconnection
process of generation and merchant transmission.”).
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numerous remedies that can be utilized to solve a potential
reliability problem, including long-term planning, transmission
system upgrades, installation of new generating capacity, demand
response, and other demand side actions.
4. Modern electric system trends
Today, the electricity sector is undergoing a period of
intense change. Fossil fuels – such as coal, natural gas, and
oil – have historically provided a large percentage of
electricity in the U.S., along with nuclear power, with smaller
amounts provided by other types of generation, including
renewables such as wind, solar, and hydroelectric power. Coal
provided the largest percentage of the fossil fuel generation.130
In recent years, the nation has seen a sizeable increase in
renewable generation such as wind and solar, as well as a shift
from coal to natural gas.131 In 2013, fossil fuels supplied 67
percent of U.S. electricity,132 but the amount of renewable

130

U.S. Energy Information Administration, “Table 7.2b
Electricity Net Generation: Electric Power Sector” data from
Monthly Energy Review May 2015, available at
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf (last
visited May 26, 2015).
131 U.S. Energy Information Administration, “Table 7.2b
Electricity Net Generation: Electric Power Sector” data from
Monthly Energy Review May 2015, release data April 25, 2014,
available at
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf (last
visited May 26, 2015).
132 U.S. Energy Information Administration, “Table 7.2b
Electricity Net Generation: Electric Power Sector” data from
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generation capacity continued to grow.133 From 2007 to 2014, use
of lower- and zero-carbon energy sources such as wind and solar
grew, while other major energy sources such as coal and
petroleum generally experienced declines.134 Renewable
electricity generation, including from large hydro-electric
projects, grew from 8 percent to 13 percent over that time
period.135 Between 2000 and 2013, approximately 90 percent of new
power generation capacity built in the U.S. came in the form of
natural gas or RE facilities.136 In 2015, the U.S. Energy

Monthly Energy Review May 2015, release data April 25, 2014,
available at
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf (last
visited May 26, 2015).
133 Based on Table 6.3 (New Utility Scale Generating Units by
Operating Company, Plant, Month, and Year) of the U.S. Energy
Information Administration (EIA) Electric Power Monthly, data
for December 2013, for the following REsources: solar, wind,
hydro, geothermal, landfill gas, and biomass. Available at:
http://
www.eia.gov/electricity/monthly/epm_table_grapher.cfm?t=epmt_6_0
3.
134 U.S. Energy Information Administration, “Table 7.2b
Electricity Net Generation: Electric Power Sector” data from
Monthly Energy Review May 2015, available at
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf (last
visited May 26, 2015).
135 Bloomberg New Energy Finance and the Business Council for
Sustainable Energy, 2015 Factbook: Sustainable Energy in
America, at 16 (2015), available at
http://www.bcse.org/images/2015%20Sustainable%20Energy%20in%20Am
erica%20Factbook.pdf. Bloomberg gave projections for 2014
values, accounting for seasonality, based on latest monthly
values from EIA (data available through October 2014).
136 Energy Information Administration, Electricity: Form EIA-860
detailed data (Feb. 17, 2015), available at
http://www.eia.gov/electricity/data/eia860/.
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Information Administration (EIA) projected the need for 28.4 GW
of additional base load or intermediate load generation capacity
through 2020.137 The vast majority of this new electric capacity
(20.4 GW) is already under development (under construction or in
advanced planning), with approximately 0.7 GW of new coal-fired
capacity, 5.5 GW of new nuclear capacity, and 14.2 GW of new
NGCC capacity already in development.
While the change in the resource mix has accelerated in
recent years, wind, solar, other renewables, and EEresources
have been reliably participating in the electric sector for a
number of years. This rapid development of non-fossil fuel
resources is occurring as much of the existing power generation
fleet in the U.S. is aging and in need of modernization and
replacement. In 2025, the average age of the coal-fired
generating fleet is projected to be 49 years old, and 20 percent
of those units would be more than 60 years old if they remain in
operation at that time. In its 2013 Report Card for America’s
Infrastructure, the American Society for Civil Engineers noted
that “America relies on an aging electrical grid and pipeline

137

EIA, Annual Energy Outlook for 2015 with Projections to 2040,
Final Release, available at
http://www.eia.gov/forecasts/AEO/pdf/0383(2015).pdf. The AEO
numbers include projects that are under development and modelprojected nuclear, coal, and NGCC projects.

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distribution systems, some of which originated in the 1880s.”138
While there has been an increased investment in electric
transmission infrastructure since 2005, the report also found
that “ongoing permitting issues, weather events, and limited
maintenance have contributed to an increasing number of failures
and power interruptions.”139 However, innovative technologies
have increasingly entered the electric energy space, helping to
provide new answers to how to meet the electricity needs of the
nation. These new technologies can enable the nation to answer
not just questions as to how to reliably meet electricity
demand, but also how to meet electricity demand reliably and
cost-effectively with the lowest possible emissions and the
greatest efficiency.
Natural gas has a long history of meeting electricity
demand in the U.S., with a rapidly growing role as domestic
supplies of natural gas have dramatically increased. Natural gas
net generation increased by approximately 32 percent between
2005 and 2014.140 In 2014, natural gas accounted for

138

American Society for Civil Engineers, 2013 Report Card
America’s Infrastructure (2013), available at
http://www.infrastructurereportcard.org/energy/.
139 American Society for Civil Engineers, 2013 Report Card
America’s Infrastructure (2013), available at
http://www.infrastructurereportcard.org/energy/.
140 U.S. Energy Information Administration (EIA), Electric
Monthly: Table 1.1 Net Generation by Energy Source: Total
Sectors), 2005-February 2015 (2015), available at

for

for

Power
(All

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approximately 27 percent of net generation.141 EIA projects that
this demand growth will continue with its Annual Energy Outlook
2015 (AEO 2015) Reference case forecasting that natural gas will
produce 31 percent of U.S. electric generation in 2040.142
Renewable sources of electric generation also have a
history of meeting electricity demand in the U.S. and are
expected to have an increasing role going forward. A series of
energy crises provided the impetus for RE development in the
early 1970s. The OPEC oil embargo in 1973 and oil crisis of 1979
caused oil price spikes, more frequent energy shortages, and
significantly affected the national and global economy. In 1978,
partly in response to fuel security concerns, Congress passed
the Public Utilities Regulatory Policies Act (PURPA) which
required local electric utilities to buy power from qualifying

http://www.eia.gov/electricity/monthly/epm_table_grapher.cfm?t=e
pmt_1_1 (last visited May 26, 2015).
141 Id.
142 U.S. Energy Information Administration (EIA), Annual Energy
Outlook 2015 with Projections to 2040, at 24-25 (2015),
available at
http://www.eia.gov/forecasts/aeo/pdf/0383(2015).pdf. According
to the EIA, the reference case assumes, “Real gross domestic
product (GDP) grows at an average annual rate of 2.4% from 2013
to 2040, under the assumption that current laws and regulations
remain generally unchanged throughout the projection period.
North Sea Brent crude oil prices rise to $141/barrel (bbl) (2013
dollars) in 2040.” Id. at 1. The EIA provides complete
projection tables for the reference case in Appendix A of its
report.
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facilities (QFs).143 QFs were either cogeneration facilities144 or
small generation resources that use renewables such as wind,
solar, biomass, geothermal, or hydroelectric power as their
primary fuels.145 Through PURPA, Congress supported the
development of more RE generation in the U.S.

States have also

taken a significant lead in requiring the development of
renewable resources. In particular, a number of states have
adopted renewable portfolio standards (RPS). As of 2013, 29
states and the District of Columbia have enforceable RPS or
similar laws.146
Use of RE continues to grow rapidly in the U.S. In 2013,
electricity generated from renewable technologies, including
conventional hydropower, represented 13 percent of total U.S.
electricity, up from 9 percent in 2005.147 In 2013, U.S. non-

143

Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 220-221 (2d ed. 2010).
144 Cogeneration facilities utilize a single source of fuel to
produce both electricity and another form of energy such as heat
or steam. Casazza, J. and Delea, F., Understanding Electric
Power Systems, IEEE Press, at 220-221 (2d ed. 2010).
145 Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 220-221 (2d ed. 2010).
146 U.S. Energy Information Administration (EIA), Annual Energy
Outlook 2014 with Projections to 2040, at LR-5 (2014), available
at http://www.eia.gov/forecasts/aeo/pdf/0383(2014).pdf (last
visited May 26, 2015).
147 Energy Information Administration, Annual Energy Outlook 2015
with Projections to 2040, at ES-6 (2014) and Energy Information
Administration, Monthly Energy Review, May 2015, Table 7.2b,
available at
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf.
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hydro RE capacity for the total electric power industry exceeded
80,000 MW, reflecting a fivefold increase in just 15 years.148 In
particular, there has been substantial growth in the wind and
photovoltaic (PV) markets in the past decade. Since 2009, U.S.
wind generation has tripled and solar generation has grown
twenty-fold.149
The global market for RE is projected to grow to $460
billion per year by 2030.150 RE growth is further encouraged by
the significant amount of existing natural resources that can
support RE production in the U.S.151 In the Energy Information
Administration’s Annual Energy Outlook 2015, RE generation grows
substantially from 2013 to 2040 in the reference case and all
alternative cases.152 In the reference case, RE generation

148

Non-hydro RE capacity for the total electric power industry

was more than 16,000 megawatts (MW) in 1998. Energy Information
Administration, 1990-2013 Existing Nameplate and Net Summer
Capacity by Energy Source Producer Type and State (EIA-860),
available at http://www.eia.gov/electricity/data/state/.
149 Energy Information Administration, Monthly Energy Review, May
2015, Table 7.2b, available at
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf.
150
“Global Renewable Energy Market Outlook.” Bloomberg New Energy
Finance (Nov. 16, 2011), available at
http://bnef.com/WhitePapers/download/53.
151
Lopez et al., NREL, ‘‘U.S. Renewable Energy
Technical Potentials: A GIS-Based Analysis,’’ (July 2012).
152 Energy Information Administration, Annual Energy Outlook 2015
with Projections to 2040, at 25 (2014), available at
http://www.eia.gov/forecasts/aeo/pdf/0383(2015).pdf.
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increases by more than 70 percent from 2013 to 2040 and accounts
for over one-third of new generation capacity.153
Price pressures caused by oil embargoes in the 1970s also
brought the issues of conservation and EE to the forefront of
U.S. energy policy.154 This trend continued in the early 1990s.
EE has been utilized to meet energy demand to varying levels
since that time. As of April 2014, 25 states155 have “enacted
long-term (3+ years), binding energy savings targets, or energy

153

Energy Information Administration, Annual Energy Outlook 2015
with Projections to 2040, at ES-6 (2015), available at
http://www.eia.gov/forecasts/aeo/pdf/0383(2015).pdf (last
visited May 27, 2015).
154 Edison Electric Institute, Making a Business of Energy
Efficiency: Sustainable Business Models for Utilities, at 1
(2007), available at
http://www.eei.org/whatwedo/PublicPolicyAdvocacy/StateRegulation
/Documents/Making_Business_Energy_Efficiency.pdf. Congress
passed legislation in the 1970s that jumpstarted energy
efficiency in the U.S. For example, President Ford signed the
Energy Policy and Conservation Act (EPCA) of 1975 – the first
law on the issue. EPCA authorized the Federal Energy
Administration (FEA) to “develop energy conservation contingency
plans, established vehicle fuel economy standards, and
authorized the creation of efficiency standards for major
household appliances.” Alliance to Save Energy, History of
Energy Efficiency, at 6 (2013) (citing Anders, “The Federal
Energy Administration,” 5; Energy Policy and Conservation Act,
S. 622, 94th Cong. (1975-1976)), available at
https://www.ase.org/sites/ase.org/files/resources/Media%20browse
r/ee_commission_history_report_2-1-13.pdf.
155 American Council for an Energy-Efficient Economy, State
Energy Efficiency Resource Standards (EERS) (2014), available at
http://aceee.org/files/pdf/policy-brief/eers-04-2014.pdf. ACEEE
did not include Indiana (EERS eliminated), Delaware (EERS
pending), Florida (programs funded at levels far below what is
necessary to meet targets), Utah, or Virginia (voluntary
standards) in its calculation.
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efficiency resource standards (EERS).”156 Funding for EE programs
has grown rapidly in recent years, with budgets for electric
efficiency programs totaling $5.9 billion in 2012.157
Advancements and innovation in power sector technologies
provide the opportunity to address CO2 emission levels at
affected power plants while at the same time improving the
overall power system in the U.S. by lowering the carbon
intensity of power generation, and ensuring a reliable supply of
power at a reasonable cost.
E. Clean Air Act Regulations for Power Plants
In this section, we provide a general description of major
CAA regulations for power plants. We refer to these in later
sections of this preamble.
1. Title IV Acid Rain Program
The EPA’s Acid Rain Program, established in 1990 under
Title IV of the CAA, addresses the presence of acidic compounds
and their precursors (i.e., SO2 and NOx), in the atmosphere by
targeting “the principal sources” of these pollutants through an

156

American Council for an Energy-Efficient Economy, State
Energy Efficiency Resource Standards (EERS) (2014), available at
http://aceee.org/files/pdf/policy-brief/eers-04-2014.pdf.
157 American Council for an Energy-Efficient Economy, The 2013
State Energy Efficiency Scorecard, at 17 (Nov. 2013), available
at
http://aceee.org/sites/default/files/publications/researchreport
s/e13k.pdf.
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SO2 cap-and-trade program for fossil-fuel fired power plants and
through a technology based NOx emission limit for certain utility
boilers. Altogether, Title IV was designed to achieve reductions
of ten million tons of annual SO2 emissions, and, in combination
with other provisions of the CAA, two million tons of annual NOx
emissions.158
The SO2 cap-and-trade program was implemented in two phases.
The first phase, beginning in 1995, targeted one-hundred and ten
named power plants, including specific generator units at each
plant, requiring the plants to reduce their cumulative emissions
to a specific level.159 Under certain conditions, the owner or
operator of a named power plant could reassign an affected
unit’s reduction requirement to another unit and/or request an
extension of two years for meeting the requirement.160 Congress
also established an energy conservation and RE reserve from
which up to 300,000 allowances could be allocated for qualified
energy conservation measures or qualified RE.161
The second phase, beginning in 2000, expanded coverage to
more than 2,000 generating units and set a national cap at 8.90

158
159
160
161

42
42
42
42

U.S.C.
U.S.C.
U.S.C.
U.S.C.

§
§
§
§

7651(b).
7651c (Table A).
7651c(b) and (d).
7651c(f) and (g).

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million tons.162 Generally, allowances were allocated at a rate
of 1.2 lbs./mmBtu multiplied by the unit’s baseline and divided
by 2000.163 However, bonus allowances could be awarded to certain
units.
Title IV also required the EPA to hold or sponsor annual
auctions and sales of allowances for a small portion of the
total allowances allocated each year. This ensured that some
allowances would be directly available for new sources,
including independent power production facilities.164
The provisions of the EPA’s Acid Rain Program are
implemented through permits issued under the EPA’s Title V
Operating Permit Program.165 In accordance with Title IV,
moreover, each Title V permit application must include a
compliance plan for the affected source that details how that
source expects to meet the requirements of Title IV.166
2. Transport rulemakings

162

U.S. Dept. of Energy, Energy Information Administration, “The
Effects of Title IV of the Clean Air Act Amendments of 1990 on
Electric Utilities: An Update,” p. vii. (March 1997).
163 See 42 U.S.C. § 7651d.
164 42 U.S.C. § 7651o.
165 42 U.S.C. § 7651g.
166 Such plans may simply state that the owner or operator
expects to hold sufficient allowances or, in the case of
alternative compliance methods, must provide a “comprehensive
description of the schedule and means by which the unit will
rely on one or more alternative methods of compliance in the
manner and time authorized under [Title IV].” 42 U.S.C. §
7651g(b).
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CAA section 110(a)(2)(D)(i)(I), the “Good Neighbor
Provision,” requires SIPs to prohibit emissions that “contribute
significantly to nonattainment . . . or interfere with
maintenance” of the NAAQS in any other state.167 If the EPA finds
that a state has failed to submit an approvable SIP, the EPA
must issue a federal implementation plan (FIP) to prohibit those
emissions “at any time” within the next two years.168
In three major rulemakings — the NOx SIP Call,169 the Clean
Air Interstate Rule (CAIR),170 and the Cross State Air Pollution
Rule (CSAPR)171 — the EPA has attempted to delineate the scope of
the Good Neighbor Provision. These rulemakings have several
features in common. Although the Good Neighbor Provision does
not speak specifically about EGUs, in all three rulemakings, the
EPA set state emission “budgets” for upwind states based in part
on emissions reductions achievable by EGUs through application
of cost-effective controls. Each rule also adopted a phased
approach to reducing emissions with both interim and final
goals.
a. NOx SIP Call. In 1998, the EPA promulgated the NOx SIP Call,
which required 23 upwind states to reduce emissions of NOx that

167

42 U.S.C. § 7410(a)(2)(D)(i)(I).
EPA v. EME Homer City Generation, L.P., 134 S. Ct. 1584,
1600–01 (2014) (citing 42 U.S.C. § 7410(c)).
169 63 FR 57356 (Oct. 27, 1998).
170 70 FR 25162 (May 12, 2005).
171 76 FR 48208 (Aug. 8, 2011).
168

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would impact downwind areas with ozone problems.

The EPA

determined emission reduction requirements based on reductions
achievable through “highly cost-effective” controls—i.e.,
controls that would cost on average no more than $2,000 per ton
of emissions reduced.172

The EPA determined that a uniform

emission rate on large EGUs coupled with a cap-and-trade program
was one such set of highly cost-effective controls.173
Accordingly, the EPA established an interstate cap-and-trade
program—the NOx Budget Trading Program—as a mechanism for states
to reduce emissions from EGUs and other sources in a highly
cost-effective manner.

The D.C. Circuit upheld the NOx SIP Call

in most significant respects, including its use of costs to
apportion emission reduction responsibilities.174
b. Clean Air Interstate Rule (CAIR). In 2005, the EPA
promulgated CAIR, which required 28 upwind states to reduce
emissions of NOx and SO2 that would impact downwind areas with
projected nonattainment and maintenance problems for ozone and
PM2.5. The EPA determined emission reduction requirements based
on “controls that are known to be highly cost effective for

172

63 FR at 57377–78.
63 FR at 57377–78. In addition to EGUs, the NOx SIP Call also
set budgets based on highly cost-effective emission reductions
from certain other large sources. Id.
174 Michigan v. EPA, 213 F.3d 663 (D.C. Cir. 2000).
173

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EGUs.”175 The EPA established cap-and-trade programs for sources
of NOx and SO2 in states that chose to participate in the trading
programs via their SIPs and for states ultimately subject to a
FIP.176 As relevant here, the D.C. Circuit remanded CAIR in North
Carolina v. EPA due to in part the structure of its interstate
trading provisions and the way in which EPA applied the costeffective standard, but kept the rule in place while the EPA
developed an acceptable substitute.177
c. Cross-state Air Pollution Rule (CSAPR). In 2011, the EPA
promulgated CSAPR, which required 27 upwind states to reduce
emissions of NOx and SO2 that would impact downwind areas with
projected nonattainment and maintenance problems for ozone and
PM2.5. The EPA determined emission reduction requirements based
in part on the reductions achievable at certain cost thresholds
by EGUs in each state, with certain provisions developed to
account for the need to ensure reliability of the electric
generating system.178 In the same action establishing these
emission reduction requirements, the EPA promulgated FIPs that
subjected states to trading programs developed to achieve the

175

70 FR at 25163.
70 FR at 25273–75; 71 FR 25328 (April 28, 2006).
177 531 F.3d 896, 917–22 (D.C. Cir. 2008), modified on rehearing
550 F.3d 1176, 1178 (D.C. Cir. 2008).
178 76 FR at 48270.
The EPA adopted this approach in part to
comport with the D.C. Circuit’s opinion in North Carolina v. EPA
remanding CAIR. Id. at 48270–71.
176

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necessary reductions within each state.179 The U.S. Supreme Court
upheld the EPA’s use of cost to set emission reduction
requirements, as well as its authority to issue the FIPs.180
3. Clean Air Mercury Rule
On March 15, 2005, the EPA issued a rule to control mercury
(Hg) emissions from new and existing fossil fuel-fired power
plants under CAA section 111(b) and (d). The rule, known as the
Clean Air Mercury Rule (CAMR), established, in relevant part, a
nationwide cap-and-trade program under CAA section 111(d), which
was designed to complement the cap-and-trade program for SO2 and
NOx emissions under the Clean Air Interstate Rule (CAIR),
discussed above.181 Though CAMR was later vacated by the D.C.
Circuit on account of the EPA’s flawed CAA section 112 delisting
rule, the court declined to reach the merits of the EPA’s
interpretation of CAA section 111(d).182 Accordingly, CAMR
continues to be an informative model for a cap-and-trade program
under CAA section 111(d).
The cap-and-trade program in CAMR was designed to take
effect in two phases: in 2010, the cap was set at 38 tons of
mercury per year, and in 2018, the cap would be lowered to 15

179

76 FR at 48209–16.
EPA v. EME Homer City Generation, L.P., 134 S. Ct. 1584
(2014).
181 See 70 FR 28606 (May 18, 2005).
182 New Jersey v. EPA, 517 F.3d 574 (D.C. Cir. 2008).
180

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tons per year. The Phase I cap was set at a level reflecting the
co-benefits of CAIR as determined through economic and
environmental modeling.183 For the more stringent Phase II cap,
the EPA projected that sources would “install SCR [selective
catalytic reduction] to meet their SO2 and NOx requirements and
take additional steps to address the remaining Hg reduction
requirements under CAA section 111, including adding Hg-specific
control technologies (model applies ACI [activated carbon
injection]), additional scrubbers and SCR, dispatch changes, and
coal switching.”184 Based on this analysis, EPA determined that
the BSER “refers to the combination of the cap-and-trade
mechanism and the technology needed to achieve the chosen cap
level.”185
To accompany the nationwide emissions cap, the EPA also
assigned a statewide emissions budget for mercury. Pursuant to
CAA section 111(d), states would be required to submit plans to
the EPA “detailing the controls that will be implemented to meet
its specified budget for reductions from coal-fired Utility

183

70 FR 28606, at 28617. The EPA’s projections under CAIR
showed a significant number of affected sources would install
scrubbers for SO2 and selective catalytic reduction for NOx on
coal-fired power plants, which had the co-benefit of capturing
mercury emissions. Id. at 28619.
184 70 FR 28606, at 28619.
185 70 FR 28606, at 28620.
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Units.”186 Of course, states were “not required to adopt and
implement” the emission trading program, “but they [were]
required to be in compliance with their statewide Hg emission
budget.”187
4. Mercury Air Toxics Rule
On February 16, 2012, the EPA issued the MATS rule (77 FR
9304) to reduce emissions of toxic air pollutants from new and
existing coal- and oil-fired EGUs. The MATS rule will reduce
emissions of heavy metals, including mercury, arsenic, chromium,
and nickel; and acid gases, including hydrochloric acid and
hydrofluoric acid. These toxic air pollutants, also known as
hazardous air pollutants or air toxics, are known to cause, or
suspected of causing, nervous system damage, cancer, and other
serious health effects. The MATS rule will also reduce SO2 and
fine particle pollution, which will reduce particle
concentrations in the air and prevent thousands of premature
deaths and tens of thousands of heart attacks, bronchitis cases
and asthma episodes.
New or reconstructed EGUs (i.e., sources that commence
construction or reconstruction after May 3, 2011) subject to the

186

70 FR 28606, at 28621.
70 FR 28606, at 28621. That said, states could “require
reductions beyond those required by the [s]tate budget.” Id. at
28621.
187

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MATS rule are required to comply by April 16, 2012 or upon
startup, whichever is later.
Existing sources subject to the MATS rule were required to
begin meeting the rule’s requirements on April 16, 2015.
Controls that will achieve the MATS performance standards are
being installed on many units. Certain units, especially those
that operate infrequently, may be considered not worth investing
in given today’s electricity market, and are closing. The final
MATS rule provided a foundation on which states and other
permitting authorities could rely in granting an additional,
fourth year for compliance provided for by the CAA. States
report that these fourth year extensions are being granted. In
addition, the EPA issued an enforcement policy that provides a
clear pathway for reliability-critical units to receive an
administrative order that includes a compliance schedule of up
to an additional year, if it is needed to ensure electricity
reliability.
Following promulgation of the MATS rule, industry, states
and environmental organizations challenged many aspects of the
EPA's threshold determination that regulation of EGUs is
"appropriate and necessary" and the final standards regulating
hazardous air pollutants from EGUs. The U.S. Court of Appeals
for the D.C. Circuit upheld all aspects of the MATS rule. White
Stallion Energy Center v. EPA, 748 F.3d 1222 (D.C. Cir.
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2014). In Michigan v. EPA, case no. 14-46, the U.S. Supreme
Court reversed the portion of the D.C. Circuit decisionfinding
the EPA was not required to consider cost when determining
whether regulation of EGUs was "appropriate" pursuant to section
112(n)(1). The Supreme Court considered only the narrow question
of whether the EPA erred in not considering cost when making
this threshold determination. The Court’s decision did not
disturb any of the other holdings of the D.C. Circuit.

The

Court remanded the case to the D.C. Circuit for further
proceedings, and the MATS rule remains in place at this time.
5. Regional Haze Rule
Under CAA section 169A, Congress “declare[d] as a national
goal the prevention of any future, and the remedying of any
existing, impairment of visibility” in national parks and
wilderness areas that results from anthropogenic emissions.188 To
achieve this goal, Congress directed the EPA to promulgate
regulations directing states to submit SIPs that “contain such
emission limits, schedules of compliance and other measures as
may be necessary to make reasonable progress toward meeting the
national goal . . . .”189 One such measure that Congress deemed
necessary to make reasonable progress was a requirement that
certain older stationary sources that cause or contribute to

188
189

42 U.S.C. § 7491(a)(1).
42 U.S.C. § 7491(b)(2).

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visibility impairment “procure, install, and operate, as
expeditiously as practicable . . . the best available retrofit
technology,” more commonly referred to as BART.190 When
determining BART for large fossil-fuel fired utility power
plants, Congress required states to adhere to guidelines to be
promulgated by the EPA.191 As with other SIP-based programs, the
EPA is required to issue a FIP within two years if a state fails
to submit a regional haze SIP or if the EPA disapproves such SIP
in whole or in part.192
In 1999, the EPA promulgated the Regional Haze Rule to
satisfy Congress’ mandate that EPA promulgate regulations
directing states to address visibility impairment.193 Among other
things, the Regional Haze Rule allows states to satisfy the
Act’s BART requirement either by adopting source-specific
emission limitations or by adopting alternatives, such as
emissions-trading programs, that achieve greater reasonable
progress than would source-specific BART.194 The Ninth Circuit
and D.C. Circuit have both upheld the EPA’s interpretation that
CAA section 169A(b)(2) allows for BART alternatives in lieu of

190
191
192
193
194

42
42
42
64
40

U.S.C. § 7491(b)(2)(A).
U.S.C. § 7491(b)(2).
U.S.C. §§ 7410(c); 7491(b)(2)(A).
FR 35714 (July 1, 1999) (codified at 40 CFR 51.308-309).
CFR 51.308(e)(1) & (2).

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source-specific BART.195 In 2005, the EPA promulgated BART
Guidelines to assist states in determining which sources are
subject to BART and what emission limitations to impose at those
sources.196
The Regional Haze Rule set a goal of achieving natural
visibility conditions by 2064 and requires states to revise
their regional haze SIPs every ten years.197 The first planning
period, which ends in 2018, focused heavily on the BART
requirement. States (or the EPA in the case of FIPs) made
numerous source-specific BART determinations, and developed
several BART alternatives, for utility power plants. For the
next planning period, states will need to determine whether
additional controls are necessary at these plants (and others
that were not subject to BART) in order to make reasonable
progress towards the national visibility goal.198
F. Congressional Awareness of Climate Change in the Context of
the Clean Air Act Amendments199

195

See Utility Air Regulatory Grp. v. EPA, 471 F.3d 1333 (D.C.
Cir. 2006); Ctr. for Econ. Dev. v. EPA, 398 F.3d 653 (D.C. Cir.
2005); Cent. Ariz. Water Dist. v. EPA, 990 F.2d 1531 (9th Cir.
1993).
196 70 FR 39104 (July 6, 2005) (codified at 40 CFR pt. 51, app.
Y).
197 See 40 CFR 51.308(d)(1)(i)(B), (f).
198 See 42 U.S.C. § 7491(b)(2); 40 CFR 51.308(d)(3).
199 The following discussion is not meant to be exhaustive. There
are many other instances outside the context of the CAA, before
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During its deliberations on the 1970 Clean Air Act
Amendments, Congress learned that ongoing pollution, including
from manmade carbon dioxide, could “threaten irreversible
atmospheric and climatic changes.”200 At that time, Congress
heard the views of scientists that carbon dioxide emissions
tended to increase global temperatures, but that there was
uncertainty as to the extent to which those increases would be
offset by the decreases in temperatures brought about by
emissions of particulates. President Nixon’s Council on
Environmental Quality (CEQ) reported that “the addition of
particulates and carbon dioxide in the atmosphere could have
dramatic and long-term effects on world climate.”201 The CEQ’s
First Annual Report, which was transmitted to Congress, devoted
a chapter to “Man’s Inadvertent Modification of Weather and
Climate.”202 Moreover, Charles Johnson, Jr., Administrator of the

and after 1970, when Congress discussed or was presented with
evidence on climate change.
200 Sen. Scott, S. Debate on S. 4358 (Sept. 21, 1970), 1970 CAA
Legis. Hist. at 349.
201 Council on Environmental Quality, “The First Annual Report of
the Council on Environmental Quality,” p. 110 (Aug. 1970)
(recognizing also that “[man] can increase the carbon dioxide
content of the atmosphere by burning fossil fuels” and
postulating that an increase in the earth’s average temperature
by about 2º to 3º F “could in a period of decades, lead to the
start of substantial melting of ice caps and flooding of coastal
regions.”).
202 Council on Environmental Quality, “The First Annual Report of
the Council on Environmental Quality,” p. 93-104 (Aug. 1970)
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Consumer Protection and Environmental Health Service, testified
before the House Subcommittee on Public Health that “the carbon
dioxide balance might result in the heating up of the atmosphere
whereas the reduction of the radiant energy through particulate
matter released to the atmosphere might cause reduction in
radiation that reaches the earth.”203 Administrator Johnson
explained that the Nixon Administration was “concerned ... that
neither of these things happen” and that they were “watching
carefully the kind of prognosis, the kind of calculations that
the scientists make to look at the continuous balance between
heat and cooling of the total earth’s atmosphere.”204 He
concluded that “[w]hat we are trying to do, however, in terms of
our air pollution effort should have a very salutary effect on
either of these.”205

Testimony of Charles Johnson, Jr., Administrator of the
Consumer Protection and Environmental Health Service
(Administration Testimony), Hearing of the House Subcommittee on
Public Health and Welfare (Mar. 16, 1970), 1970 CAA Legis. Hist.
at 1381.
204 Testimony of Charles Johnson, Jr., Administrator of the
Consumer Protection and Environmental Health Service
(Administration Testimony), Hearing of the House Subcommittee on
Public Health and Welfare (Mar. 16, 1970), 1970 CAA Legis. Hist.
at 1381.
205 Testimony of Charles Johnson, Jr., Administrator of the
Consumer Protection and Environmental Health Service
(Administration Testimony), Hearing of the House Subcommittee on
Public Health and Welfare (Mar. 16, 1970), 1970 CAA Legis. Hist.
at 1381.
203

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Scientific reports on climatic change continued to gain
traction in Congress through the mid-1970s, including while
Congress was considering the 1977 CAA Amendments. However,
uncertainty continued as to whether the increased warming
brought about by carbon dioxide emissions would be offset by
cooling brought about by particulate emissions.206 Congress
ordered, as part of the 1977 CAA Amendments, the National
Oceanic and Atmospheric Administration to research and monitor
the stratosphere “for the purpose of early detection of changes
in the stratosphere and climatic effects of such changes.”207
Between the 1977 and 1990 Clean Air Act Amendments,
scientific uncertainty yielded to the predominant view that
global warming “was likely to dominate on time scales that would

For instance, while scientists, such as Stephen Schneider of
the National Center for Atmospheric Research, testified that
“manmade pollutants will affect the climate,” they believed that
we would “see a general cooling of the Earth’s atmosphere.” Rep.
Scheuer, H. Debates on H.R. 10498 (Sept. 15, 1976), 1977 CAA
Legis. Hist. at 6477. Additionally, the Department of
Transportation’s climatic impact assessment program and the
Climatic Impact Committee of the National Research Council,
National Academies of Science and Engineering both reported that
“warming or cooling” could occur. Id. at 6476. See also Sen.
Bumpers, S. Debates on S. 3219 (August 3, 1976), 1977 CAA Legis.
Hist. at 5368 (inserting “Summary of Statements Received [in the
Subcommittee on the Environment and the Atmosphere] from
Professional Societies for the Hearings on Effects of Chronic
Pollution” into the record, which noted that “there is near
unamity [sic] that carbon dioxide concentrations in the
atmosphere are increasing rapidly.”).
207 “Clean Air Act Amendments of 1977,” § 125, 91 Stat. at 728.
206

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be significant to human societies.”208 In fact, as part of the
1990 Clean Air Act Amendments, Congress specifically required
the EPA to collect data on carbon dioxide emissions –- the most
significant of the GHGs -- from all sources subject to the newly
enacted operating permit program under Title V.209 Although
Congress did not require the EPA to take immediate action to
address climate change, Congress did identify certain tools that
were particularly helpful in addressing climate change in the
utility power sector. The Senate report discussing the acid rain
provisions of Title IV noted that some of the measures that
would reduce coal-fired power plant emissions of the precursors
to acid rain would also reduce those facilities’ emissions of
CO2. The report stated:
Energy efficiency is a crucial tool for controlling
the emissions of carbon dioxide, the gas chiefly
responsible for the intensification of the atmospheric
‘greenhouse effect.’ In the last several years, the
Committee has received extensive scientific testimony
that increases in the human-caused emissions of carbon
dioxide and other greenhouse gases will lead to
catastrophic shocks in the global climate system.
Accordingly, new title IV shapes an acid rain
reduction policy that encourages energy efficiency and

208

Peterson, Thomas C., William M. Connolley, and John Fleck,
“The Myth of the 1970s Global Cooling Scientific Consensus,”
Bulletin of the American Meteorological Society, p. 1326
(September 2008), available at
http://journals.ametsoc.org/doi/pdf/10.1175/2008BAMS2370.1.
209 “Clean Air Act Amendments of 1990,” § 820, 104 Stat. at 2699.
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other policies aimed at controlling greenhouse
gases.210
Similarly, Title IV provisions to encourage RE were justified
because “renewables not only significantly curtail sulfur
dioxide emissions, but they emit little or no nitrogen oxides
and carbon dioxide”.211
G. International Agreements and Actions
In this final rule, the U.S. is taking action to limit GHGs
from one of its largest emission sources. Climate change is a
global problem, and the U.S. is not alone in taking action to
address it. The United Nations Framework Convention on Climate
Change (UNFCCC)212 is the international treaty under which
countries (called “Parties”) cooperatively consider what can be
done to limit anthropogenic climate change213 and adapt to

210

Sen. Chaffe, S. Debate on S. 1630 (Jan. 24, 1990), 1990 CAA
Legis. Hist. at 8662.
211 Additional Views of Rep. Markey and Rep. Moorhead, H.R. Rep.
No. 101-490, at 674 (May 17, 1990).
212 http://unfccc.int/2860.php
213 Article 2, Objective, The ultimate objective of this
Convention and any related legal instruments that the Conference
of the Parties may adopt is to achieve, in accordance with the
relevant provisions of the Convention, stabilization of
greenhouse gas concentrations in the atmosphere at a level that
would prevent dangerous anthropogenic interference with the
climate system. Such a level should be achieved within a time
frame sufficient to allow ecosystems to adapt naturally to
climate change, to ensure that food production is not threatened
and to enable economic development to proceed in a sustainable
manner.
http://unfccc.int/files/essential_background/convention/backgrou
nd/application/pdf/convention_text_with_annexes_english_for_post
ing.pdf
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climate change impacts. Currently, there are 195 Parties to the
UNFCCC, including the U.S. The Conference of the Parties (COP)
meets annually and is currently considering commitments
countries can make to limit emissions after 2020. The 2015 COP
will be in Paris and is expected to represent an historic step
for climate change mitigation. The Parties to the UNFCC will
meet to establish a climate agreement that applies to all
countries and focuses on reducing GHG emissions. Such an outcome
would send a beneficial signal to the markets and civil society
about global action to address climate change.
Many countries have announced their intended post-2020
commitments already, and other countries are expected to do so
before December. In April 2015, the U.S.announced its commitment
to reduce GHG emissions 26-28 percent below 2005 levels by
2025.214
As Parties to both the UNFCCC and the Kyoto Protocol215, the
European Union (EU) and member countries have taken aggressive
action to reduce GHG emissions.216 EU initiatives to reduce GHG
emissions include the EU Emissions Trading System, legislation

214

United States Cover Note to Intended Nationally Determined
Contribution (INDC). Available online at:
http://www4.unfccc.int/submissions/INDC/Published%20Documents/Un
ited%20States%20of%20America/1/U.S.%20Cover%20Note%20INDC%20and%
20Accompanying%20Information.pdf.
215 http://unfccc.int/kyoto_protocol/items/2830.php.
216 http://ec.europa.eu/clima/policies/brief/eu/index_en.htm.
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to increase the adoption of RE sources, strengthened EE targets,
vehicle emission standards, and support for the development of
CCS technology for use by the power sector and other industrial
sources. In 2009, the EU announced its “20-20-20 targets,”
including a 20 percent reduction in GHG emissions from 1990
levels by 2020, an increase of 20 percent in the share of energy
consumption produced by renewable resources, and a 20 percent
improvement in EE. In March 2015, the EU announced its
commitment to reduce domestic GHG emissions by at least 40% from
1990 levels by 2030.
Recently, China has also agreed to take action to address
climate change. In November 2014, in a joint announcement by
President Obama and China’s President Xi, China pledged to
curtail GHG emissions, with emissions peaking in 2030 and then
declining thereafter, and to increase the share of energy from
non-carbon sources (solar, wind, hydropower, nuclear) to 20
percent by 2030.
Mexico is committed to reduce unconditionally 25 percent of
its emissions of GHGs and short-lived climate pollutants (below
business as usual) for the year 2030. This commitment implies a
22 percent reduction of GHG emissions and a 51 percent reduction
of black carbon emissions.
Brazil has reduced its net CO2 emissions more than any other
country through a historic effort to slow forest loss. The
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deforestation rate in Brazil in 2014 was roughly 75 percent
below the average for 1996 to 2005.217   
Together, countries that have already announced their
intended post-2020 commitments, including the U.S., China,
European Union, Mexico, Russian Federation and Brazil, make up a
large majority of global emissions.
President Obama’s Climate Action Plan contains a number of
policies and programs that are intended to cut carbon pollution
that causes climate change and affects public health. The Clean
Power Plan is a key component of the plan, addressing the
nation’s largest source of emissions in a comprehensive manner.
Collectively, these policies will help spark business
innovation, result in cleaner forms of energy, create jobs, and
cut dependence on foreign oil. They also demonstrate to the rest
of the world that the U.S.is contributing its share of the
global effort that is needed to address climate change.218

This

demonstration encourages other major economies to take on
similar contributions, which is critical given the global impact

217

http://www.nature.com/news/stopping-deforestation-battle-forthe-amazon-1.17223
218 President Obama stated, in announcing the Climate Action
Plan:
“The actions I’ve announced today should send a strong
signal to the world that America intends to take bold
action to reduce carbon pollution. We will continue to lead
by the power of our example, because that’s what the United
States of America has always done.” President Obama,
Climate Action Plan speech, Georgetown University, 2013.
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of GHG emissions. The State Department Special Envoy for Climate
Change Todd Stern, the lead U.S. climate change negotiator,
noted the connection between domestic and international action
to address climate change in his speech at Yale University on
October 14, 2014:
“This mobilization of American effort matters. Enormously. It
matters because the United States is the biggest economy and
largest historic emitter of greenhouse gases. Because, here,
as in so many areas, we feel a responsibility to lead. And
because here, as in so many areas, we find that American
commitment is indispensable to effective international action.
And make no mistake – other countries see what we are doing
and are taking note. As I travel the world and meet with my
counterparts, the palpable engagement of President Obama and
his team has put us in a stronger, more credible position than
ever before.”
This final rule demonstrates to other countries that the
U.S. is taking action to limit GHG emissions from its largest
emission sources, in line with our international commitments.
The impact of GHGs is global, and U.S. action to reduce GHG
emissions complements and encourages ongoing programs and
efforts in other countries.
H. Legislative and Regulatory Background for CAA Section 111
In the final days of December 1970, Congress enacted
sweeping changes to the Air Quality Act of 1967 to confront an
“environmental crisis.”219 The Air Quality Act—which expanded

219

Sen. Muskie, S. Debate on S. 4358 (Sept. 21, 1970), 1970 CAA
Legis. Hist. at 224.
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federal air pollution control efforts after the enactment of the
Clean Air Act of 1963—prioritized the adoption of ambient air
standards but failed to target stationary sources of air
pollution. As a result, “[c]ities up and down the east coast
were living under clouds of smoke and daily air pollution
alerts.”220 In fact, “[o]ver 200 million tons of contaminants ...
spilled into the air” each year.221 The 1970 CAA Amendments were
designed to face this crisis “with urgency and in candor.”222
For the most part, Congress gave EPA and the states
flexible tools to implement the CAA. This is best exhibited by
the newly enacted programs regulating stationary sources. For
these sources, Congress crafted a three-legged regime upon which
the regulation of stationary sources was intended to sit.
The first prong—CAA sections 107-110—addressed what are
commonly referred to as criteria pollutants, “the presence of
which in the ambient air results from numerous or diverse mobile
or stationary sources” and are determined to have “an adverse

220

Sen. Muskie, S. Consideration of H.R. Conf. Rep. No. 91-1783
(Dec. 18, 1970), 1970 CAA Legis. Hist.pa at 123.
221 Sen. Muskie, S. Debate on S. 4358 (Sept. 21, 1970), 1970 CAA
Legis. Hist. at 224. These pollutants fell into five main
classes of pollutants: carbon monoxide, particulates, sulfur
oxides, hydrocarbons, and nitrogen oxides. See Sen. Boggs, id.
at 244.
222 Sen. Muskie, S. Consideration of H.R. Conf. Rep. No. 91-1783
(Dec. 18, 1970), 1970 CAA Legis. Hist. at 123.
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effect on public health or welfare”.223 Under these provisions,
states would have the primary responsibility for assuring air
quality within their entire geographic area but would submit
plans to the Administrator for “implementation, maintenance, and
enforcement” of national ambient air quality standards. These
plans would include “emission limitations, schedules, and
timetables for compliance ... and such other measures as may be
necessary to insure attainment and maintenance” of the national
ambient air quality standards.224
The second prong—CAA section 111—addressed pollutants on a
source category-wide basis. Under CAA section 111(b), the EPA
lists source categories which “contribute significantly to air
pollution which causes or contributes to the endangerment of
public health or welfare,” And then establishes “standards of
performance” for the new sources in the listed category.225 For
existing sources in a listed source category, CAA section 111(d)
set out procedures for the establishment of federally

223

“Clean Air Act Amendments of 1970,” Pub. L. 91-604, § 4, 84
Stat. 1676, 1678 (Dec. 31, 1970). The “adverse effect” criterion
was later amended to refer to pollutants “which may reasonably
be anticipated to endanger public health or welfare”. See 42
U.S.C. § 7408(a)(1)(A). Similar language is also used under the
current CAA section 111. See 42 U.S.C. § 7411(b)(1)(A).
224 “Clean Air Act Amendments of 1970,” § 4, 84 Stat. at 1680.
225 “Clean Air Act Amendments of 1970,” § 4, 84 Stat. at 1684.
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enforceable “emission standards” of any pollutant not otherwise
controlled under the CAA’s SIP provisions or CAA section 112.
Lastly, the third prong—CAA section 112—addressed hazardous
air pollutants through the establishment of national “emission
standards” at a level which “provides an ample margin of safety
to protect the public health”.226 All new or modified sources of
any hazardous air pollutant would be required to meet these
emission standards. Existing sources were required to meet the
same standards or would be shut down unless they obtained a
temporary EPA waiver or Presidential exemption.227
At its inception, CAA section 111 was intended to bear a
significant weight under this three-legged regime. Indeed, by
1977, the EPA had promulgated six times as many performance
standards under CAA section 111 than emission standards under
CAA section 112.228 That said, states, including Texas and New
Jersey, levied “substantial criticisms” against the EPA for not
moving rapidly enough.229 Accordingly, the 1977 CAA Amendments
were designed to “provide a greater role for the [s]tates in
standards setting under the [CAA],” “protect [s]tates from
‘environmental blackmail’ as they attempt to regulate mobile and

226
227
228
229

“Clean Air Act Amendments of
“Clean Air Act Amendments of
H.R. Rep. No. 95-294, at 194
H.R. Rep. No. 95-294, at 194

1970,” §
1970,” §
(May 12,
(May 12,

4, 84 Stat. at 1685.
4, 84 Stat. at 1685.
1977).
1977).

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competitive industries,” and lastly “provide a check on the
Administrator’s inaction or failure to control emissions
adequately.”230
At bottom, CAA section 111 rests on the definition of a
standard of performance under CAA section 111(a)(1), which reads
nearly the same now as it did when it was first adopted in the
1970 CAA Amendments. In 1970, Congress defined standard of
performance—a term which had not previously appeared in the CAA—
as
a standard for emissions of air pollutants which reflects
the degree of emission limitation achievable through the
application of the best system of emission reduction which
(taking into account the cost of achieving such reduction)
the Administrator determines has been adequately
demonstrated.231
Despite significant changes to this definition in 1977, Congress
reversed course in 1990 and largely reinstated the original
definition.232 As presently defined, the term applies to the
regulation of new and existing sources under CAA sections 111(b)
and (d).233

230

H.R. Rep. No. 95-294, at 195 (May 12, 1977).
“Clean Air Act Amendments of 1970,” § 4, 84 Stat. at 1683.
232 “Clean Air Act Amendments of 1990,” Pub. L. 101-549, § 403,
104 Stat. 2399, 2631 (Nov. 15, 1990) (retaining only the
obligation to account for “any nonair quality health and
environmental impact and energy requirements” that was added in
1977).
233 As CAA section 111(d) was originally adopted, state plans
would have established “emission standards” instead of
“standards of performance.” This distinction was later abandoned
231

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The level of control reflected in the definition is
generally referred to as the “best system of emission
reduction,” or the BSER. The BSER, however, is not further
defined, and only appeared after conference between the House
and Senate in late 1970, and was neither discussed in the
conference report nor openly debated in either chamber.
Nevertheless, the originating bills from both houses shed light
on its construction.
The BSER grew out of proposed language in two bills, which,
for the first time, targeted air pollution from stationary
sources. The House bill sought to establish national emission
standards to “prevent and control ... emissions [of nonhazardous pollutants] to the fullest extent compatible with the
available technology and economic feasibility”.234 The House also
proposed to prohibit the construction or operation of new
sources of “extremely hazardous” pollutants.235 The Senate bill,
on the other hand, authorized “Federal standards of
performance,” which would “reflect the greatest degree of
emission control which the Secretary [later, the Administrator]
determines to be achievable through application of the latest

in 1977 and the same term is used in both CAA sections 111(b)
and (d).
234 H.R. 17255, 91st Cong. § 5 (1970).
235 H.R. 17255, 91st Cong. § 5 (1970).
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available control technology, processes, operating methods, or
other alternatives.”236 The Senate also would have authorized
“national emission standards” for hazardous air pollution and
other “selected air pollution agents.”237
After conference, CAA section 111 emerged as one of the
CAA’s three programs for regulating stationary sources. In
defining the newly formed “standards of performance,” Congress
appeared to merge the various “means of preventing and
controlling air pollution” under the Senate bill with the
consideration of costs that was central to the House bill into
the BSER. At the time, however, this definition only applied to
new sources under CAA section 111(b).
To regulate existing sources, Congress collapsed section
114 of the Senate bill into CAA section 111(d).238 Section 114 of
the Senate bill established emission standards for “selected air
pollution agents,” and was intended to bridge the gap between
criteria pollutants and hazardous air pollutants. As proposed,

236

S. 4358, 91st Cong. § 6 (1970) (emphasis added). The breadth
of the Senate bill is further emphasized in the conference
report, which explains that a standard of performance “refers to
the degree of emission control which can be achieved through
process changes, operation changes, direct emission control, or
other methods” and also includes “other means of preventing or
controlling air pollution.” S. Rep. No. 91-1196, at 15-16 (Sept.
17, 1970).
237 S. 4358, 91st Cong. § 6 (1970).
238 The House bill did not provide for the direct regulation of
existing sources.
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the Senate identified fourteen substances for regulation under
section 114 and only four substances for regulation under Senate
bill 4358, section 115, the predecessor of CAA section 112.239
As adopted, CAA section 111(d) requires states to submit
plans to the Administrator establishing “emission standards” for
certain existing sources of air pollutants that were not
otherwise regulated as criteria pollutants or hazardous air
pollutants. This ensured that there would be “no gaps in control
activities pertaining to stationary source emissions that pose
any significant danger to public health or welfare.”240
The term “emission standards,” however, was not expressly
defined in the 1970 CAA Amendments (save for purposes of citizen
suit enforcement) even though the term was also used under the
CAA’s SIP provisions and CAA section 112.241 That said, under the
newly enacted “ambient air quality and emission standards”
sections, Congress directed the EPA to provide states with
information “on air pollution control techniques,” including
data on “available technology and alternative methods of
prevention and control of air pollution” and on “alternative

239

See S. Rep. No. 91-1196, at 18 and 20 (Sept. 17, 1970).
S. Rep. No. 91-1196, at 20 (Sept. 17, 1970) (discussing the
relationship between sections 114 (addressing emission standards
for “selected air pollution agents”) and 115 (addressing
hazardous air pollutants) of the Senate bill).
241 See “Clean Air Act Amendments of 1970,” § 12, 84 Stat. at
1706.
240

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fuels, processes, and operating methods which will result in
elimination or significant reduction of emissions.”242 Similarly,
the Administrator would “issue information on pollution control
techniques for air pollutants” in conjunction with establishing
emission standards under CAA section 112. However, analogous
text is absent from CAA section 111(d).
After the enactment of the 1970 CAA Amendments, the EPA
proposed standards of performance for an “initial list of five
stationary source categories which contribute significantly to
air pollution” in August 1971.243 The first category listed was
for fossil-fuel fired steam generators, for which EPA proposed
and promulgated standards for particulate matter, SO2, and NOx.244
Several years later, the EPA proposed its implementing
regulations for CAA section 111(d).245 These regulations were
finalized in November 1975, and provided for the publication of

242

“Clean Air Act Amendments of 1970,” § 4, 84 Stat. at 1679.
“Standards of Performance for New Stationary Sources:
Proposed Standards for Five Categories,” 36 FR 15704 (Aug. 17,
1971). See “Clean Air Act Amendments of 1970,” § 4, 84 Stat. at
1684 (requiring the Administrator to publish a list of
categories of stationary sources within 90 days of the enactment
of the 1970 CAA Amendments).
244 36 FR at 15704-706; and “Standards of Performance for New
Stationary Sources,” 36 FR 24876, 24879 (Dec. 23, 1971).
245 See “State Plans for the Control of Existing Facilities,” 39
FR 36102 (Oct. 7, 1974).
243

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emission guidelines.246 The first emission guidelines were
proposed in May 1976 and finalized in March 1977.247
Despite these first steps taken under CAA sections 111(b)
and (d), Congress revisited the CAA in 1977 to address growing
concerns with the nation’s response to the 1973 oil embargo
(noted above), to respond to new environmental problems such as
stratospheric ozone depletion, and to resolve other issues
associated with implementing the 1970 CAA Amendments.248 Most
notably, an increase in coal use as a result of the oil crisis
meant that “vigorous and effective control” of air emissions was

246

See “State Plans for the Control of Certain Pollutants from
Existing Facilities,” 40 FR 53340 (Nov. 17, 1975).
247 See “Phosphate Fertilizer Plants; Draft Guideline Document;
Availability,” 41 FR 19585 (May 12, 1976); and “Phosphate
Fertilizer Plants; Final Guideline Document Availability,” 42 FR
12022 (Mar. 1, 1977)
248 For example, Congress recognized that many air pollutants had
not been regulated despite “mounting evidence” that these
pollutants “are associated with serious health hazards”. H.R.
Rep. No. 94-1175, 22 (May, 15, 1976). Because EPA “failed to
promulgate regulations to institute adequate control measures,”
Congress ordered EPA to regulate four specific pollutants that
had “been found to be cancer-causing or cancer-promoting”. Id.
at 23. This directive, reflected in CAA section 122,
specifically added radioactive pollutants, cadmium, arsenic, and
polycyclic organic matter “under the various provisions of the
Clean Air Act and allows their regulation as criteria pollutants
under ambient air quality standards, as hazardous air
pollutants, or under new source performance standards, as
appropriate.” H.R. Conf. Rep. No. 95-564, 142 (Aug. 3, 1977),
1977 CAA Legis. Hist. at 522. At the same time, Congress made
sure that these commands would have no effect on the
Administrator’s discretion to address “any substance (whether or
not enumerated [under CAA section 122(a))” under CAA sections
108, 112, or 111. 42 U.S.C. § 7422(b).
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“even more urgent.”249 Thus, to curb the projected surge in air
emissions, Congress enacted several new provisions to the CAA.
These new provisions include the prevention of significant
deterioration (PSD) program, visibility protections, and
requirements for nonattainment areas.250
Congress also made significant changes to CAA section 111.
For example, Congress amended the definition of a standard of
performance (including by requiring the consideration of “nonair
quality health and environmental impact and energy
requirements”), authorized alternative (e.g., work practice or
design) standards in limited circumstances, provided states with
authority to petition the Administrator for new or revised (and
more stringent) standards, and imposed a strict regulatory
schedule for establishing standards of performance for
categories of major stationary sources that had not yet been
listed.251
The 1977 definition for a standard of performance required
“all new sources to meet emission standards based on the
reductions achievable through the use of the ‘best technological

249

See Statement of EPA Administrator Costle, S. Hearings
272, S. 273, S. 977, and S. 1469 (Apr. 5, 7, May 25, June
30, 1977), 1977 CAA Legis. Hist. at 3532.
250 See “Clean Air Act Amendments of 1977,” Pub. L. 95-95,
127-129, 91 Stat. 685 (Aug. 7, 1977).
251 “Clean Air Act Amendments of 1977,” § 109, 91 Stat. at

on S.
24 and
§§
697.

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system of continuous emission reduction.’”252 For fossil-fuel
fired stationary sources, Congress further required a percentage
reduction in emissions from the use of fuels.253 Together, this
was designed to “force new sources to burn high-sulfur fuel thus
freeing low-sulfur fuel for use in existing sources where it is
harder to control emissions and where low-sulfur fuel is needed
for compliance.”254
Congress also clarified that with respect to CAA section
111(d), standards of performance (now applicable in lieu of
emission standards) “would be based on the best available means
(not necessarily technological)”.255 This was intended to
distinguish existing source standards from new source standards,
for which “the requirement for [the BSER] has been more narrowly
redefined as best technological system of continuous emission

252

H.R. Rep. No. 95-294, at 192 (May 12, 1977). Congress
separately defined “technological system of continuous emission
reduction” as “(A) a technological process for production or
operation by any source which is inherently low-polluting or
nonpolluting, or (B) technological system for continuous
reduction of the pollution generated by a source before such
pollution is emitted into the ambient air, including
precombustion cleaning or treatment of fuels.” “Clean Air Act
Amendments of 1977,” § 109, 91 Stat. at 700; see also 42 U.S.C.
§ 7411(a)(7).
253 “Clean Air Act Amendments of 1977,” § 109, 91 Stat. at 700.
254 “New Stationary Sources Performance Standards; Electric
Utility Steam Generating Units,” 44 FR 33580, 33581-82 (June 11,
1979).
255 H.R. Rep. No. 95-294, at 195 (May 12, 1977).
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reduction.”256 Additionally, Congress clarified that states could
consider “the remaining useful life” of a source when applying a
standard of performance to a particular existing source.257
In the twenty years since the 1970 CAA Amendments and in
spite of the refinements of the 1977 CAA Amendments, “many of
the Nation’s most important air pollution problems [had] failed
to improve or [had] grown more serious.”258 Indeed, in 1988,
President George Bush said that “‘progress has not come quickly
enough and much remains to be done.’”259 This time, with the 1990
CAA Amendments, Congress substantially overhauled the CAA. In
particular, Congress again added to the NAAQS program,
completely revised CAA section 112, added a new title to target
existing fossil fuel-fired stationary sources and address
growing concerns with acid rain, imported an operating permit
modeled off the Clean Water Act, and established a phase out of
certain ozone depleting substances.
All told, however, there was minimal debate on changes to
CAA section 111. In fact, the only discussion centered on the
repeal of the percentage reduction requirement, which became

256

Sen. Muskie, S. Consideration of the H.R. Conf. Rep. No. 95564 (Aug. 4, 1977), 1977 CAA Legis. Hist. at 353.
257 This concept was already reflected in the EPA’s CAA section
111(d) implementing regulations under 40 CFR 60.24(f). See 40 FR
53340, 53347 (Nov. 17, 1975).
258 H.R. Rep. No. 101-490, at 144 (May 17, 1990).
259 H.R. Rep. No. 101-490, at 144 (May 17, 1990).
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seen as unduly restrictive. Accordingly, Congress reverted the
definition of “standard of performance” to the definition agreed
to in the 1970 CAA Amendments, but retained the requirement to
consider nonair quality environmental impacts and energy
requirements added in 1977.260 However, the repeal would only
apply so long as the SO2 cap under CAA section 403(e) of the
newly established acid rain program remained in effect.261
Lastly, Congress instructed the EPA to revise its new source
performance standards for SO2 emissions from fossil fuel-fired
power plants but required that the revised emission rate be no
less stringent than before.262
I. Statutory and Regulatory Requirements
Clean Air Act section 111, which Congress enacted as part
of the 1970 Clean Air Act Amendments, establishes mechanisms for
controlling emissions of air pollutants from stationary sources.
This provision requires the EPA to promulgate a list of
categories of stationary sources that the Administrator, in his
or her judgment, finds “causes, or contributes significantly to,
air pollution which may reasonably be anticipated to endanger

260

Congress also updated the regulatory schedule that was added
in the 1977 CAA Amendments to reflect the newly enacted 1990 CAA
Amendments. See “Clean Air Act Amendments of 1990,” § 108, 104
Stat. 2467.
261 “Clean Air Act Amendments of 1990,” § 403, 104 Stat. at 2631.
262 “Clean Air Act Amendments of 1990,” § 301, 104 Stat. at 2631.
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public health or welfare.”263 The EPA has listed more than 60
stationary source categories under this provision.264 Once the
EPA lists a source category, the EPA must, under CAA section
111(b)(1)(B), establish “standards of performance” for emissions
of air pollutants from new sources in the source categories.265
These standards are known as new source performance standards
(NSPS), and they are national requirements that apply directly
to the sources subject to them.
When the EPA establishes NSPS for new sources in a
particular source category, the EPA is also required, under CAA
section 111(d)(1), to prescribe regulations for states to submit
plans regulating existing sources in that source category for
any air pollutant that, in general, is not regulated under the
CAA section 109 requirements for the NAAQS or regulated under
the CAA section 112 requirements for HAP. CAA section 111(d)’s
mechanism for regulating existing sources differs from the one
that CAA section 111(b) provides for new sources because CAA
section 111(d) contemplates states submitting plans that
establish “standards of performance” for the affected sources
and that contain other measures to implement and enforce those
standards.

263
264
265

CAA section 111(b)(1)(A).
See 40 CFR 60 subparts Cb – OOOO.
CAA section 111(b)(1)(B), 111(a)(1).

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“Standards of performance” are defined under CAA section
111(a)(1) as standards for emissions that reflect the emission
limitation achievable from the “best system of emission
reduction,” considering costs and other factors, that
“the Administrator determines has been adequately demonstrated.”
CAA section 111(d)(1) grants states the authority, in applying a
standard of performance to a particular source, to take into
account the source’s remaining useful life or other factors.
Under CAA section 111(d), a state must submit its plan to the
EPA for approval, and the EPA must approve the state plan if it
is “satisfactory.”266 If a state does not submit a plan, or if
the EPA does not approve a state’s plan, then the EPA must
establish a plan for that state.267 Once a state receives the
EPA’s approval of its plan, the provisions in the plan become
federally enforceable against the entity responsible for
noncompliance, in the same manner as the provisions of an
approved SIP under the Act.
Section 302(d) of the CAA defines the term “state” to
include the Commonwealth of Puerto Rico, the Virgin Islands,
Guam, American Samoa and the Commonwealth of the Northern
Mariana Islands. While 40 CFR part 60 contains a separate
definition of “state” at § 60.2, this definition expands on,

266
267

CAA section 111(d)(2)(A).
CAA section 111(d)(2)(A).

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rather than narrows, the definition in section 302(d) of the
CAA. The introductory language to 40 CFR 60.2 provides: “The
terms in this part are defined in the Act or in this section as
follows.” Section 60.2 defines “State” as “all non-Federal
authorities, including local agencies, interstate associations,
and State-wide programs that have been delegated authority to
implement: (1) the provisions of this part and/or (2) the permit
program established under part 70 of this chapter. The term
State shall have its conventional meaning where clear from the
context.” The EPA believes that the last sentence refers to the
conventional meaning of “state” under the CAA. Thus, the EPA
believes the term “state” as used in the emission guidelines is
most reasonably interpreted as including the meaning ascribed to
that term in section 302(d) of the CAA, which expressly includes
U.S. territories.
Section 301(d)(A) of the CAA recognizes that the American
Indian tribes are sovereign Nations and authorizes the EPA to
“treat tribes as States under this Act”. The Tribal Authority
Rule (63 Federal Register 7254, February 12, 1998) identifies
that EPA will treat tribes in a manner similar to states for all
of the CAA provisions with the exception of, among other things,
specific plan submittal and implementation deadlines under the
CAA. As a result, though they operate as part of the
interconnected system of electricity production and
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distribution, affected EGUs located in Indian country would not
be encompassed within a state’s CAA section 111(d) plan.
Instead, an Indian tribe with one or more affected EGUs located
in its area of Indian country268 will have the opportunity, but
not the obligation, to apply for eligibility to develop and
implement a CAA section 111(d) plan. The Indian tribe would need
to be approved by the EPA as eligible to develop and implement a
CAA section 111(d) plan following the procedure set forth in 40
CFR part 49. Once a tribe is approved as eligible for that
purpose, it would be treated in the same manner as a state, and
references in the emission guidelines to states would refer
equally to the tribe. The EPA notes that, while tribes have the
opportunity to apply for eligibility to administer CAA programs,
they are not required to do so. Further, the EPA has established
procedures in 40 CFR part 49 (see particularly 40 CFR 49.7(c))
that permit eligible tribes to request approval of reasonably
severable partial program elements. Those procedures are
applicable here.
In these final emission guidelines, the term “state”

268

The EPA is aware of at least four affected sources located in
Indian Country: two on Navajo lands – the Navajo Generating
Station and the Four Corners Generating Station; one on Ute
lands – the Bonanza Generating Station; and one on Fort Mojave
lands, the South Point Energy Center. The affected EGUs at the
first three plants are coal-fired EGUs. The fourth affected EGU
is an NGCC facility.
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encompasses the 50 states and the District of Columbia, U.S.
territories, and any Indian tribe that has been approved by the
EPA pursuant to 40 CFR 49.9 as to develop and implement a CAA
section 111(d) plan.
The EPA issued regulations implementing CAA section 111(d)
in 1975,269 and has revised them in the years since.270 (We refer
to the regulations generally as the implementing regulations.)
These regulations provide that, in promulgating requirements for
sources under CAA section 111(d), the EPA first develops
regulations known as “emission guidelines,” which establish
binding requirements that states must address when they develop
their plans.271 The implementing regulations also establish
timetables for state and EPA action: states must submit state
plans within 9 months of the EPA’s issuance of the guidelines,272
and the EPA must take final action on the state plans within 4
months of the due date for those plans,273 although the EPA has
authority to extend those deadlines.274 In this rulemaking, the

269

“State Plans for the Control of Certain Pollutants from
Existing Facilities,” 40 FR 53340 (Nov. 17, 1975).
270 The most recent amendment was in 77 FR 9304 (Feb. 16, 2012).
271 40 CFR 60.22. In the 1975 rulemaking, the EPA explained that
it used the term “emission guidelines” – instead of emissions
limitations – to make clear that guidelines would not be binding
requirements applicable to the sources, but instead are
“criteria for judging the adequacy of State plans.” 40 FR at
53343.
272 40 CFR 60.23(a)(1).
273 40 CFR 60.27(b).
274 See 40 CFR 60.27(a).
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EPA is following the requirements of the implementing
regulations, and is not re-opening them, except that the EPA is
extending the timetables, as described below.
Over the last forty years, under CAA section 111(d), the
agency has regulated four pollutants from five source categories
(i.e., sulfuric acid plants (acid mist), phosphate fertilizer
plants (fluorides), primary aluminum plants (fluorides), Kraft
pulp plants (total reduced sulfur), and municipal solid waste
landfills (landfill gases)).275 In addition, the agency has
regulated additional pollutants under CAA section 111(d) in
conjunction with CAA section 129.276 The agency has not
previously regulated CO2 or any other GHGs under CAA section
111(d).
The EPA’s previous CAA section 111(d) actions were
necessarily geared toward the pollutants and industries
regulated. Similarly, in this rulemaking, in defining CAA

275

See “Phosphate Fertilizer Plants; Final Guideline Document
Availability,” 42 FR 12022 (Mar. 1, 1977); “Standards of
Performance for New Stationary Sources; Emission Guideline for
Sulfuric Acid Mist,” 42 FR 55796 (Oct. 18, 1977); “Kraft Pulp
Mills, Notice of Availability of Final Guideline Document,” 44
FR 29828 (May 22, 1979); “Primary Aluminum Plants; Availability
of Final Guideline Document,” 45 FR 26294 (Apr. 17, 1980);
“Standards of Performance for New Stationary Sources and
Guidelines for Control of Existing Sources: Municipal Solid
Waste Landfills, Final Rule,” 61 FR 9905 (Mar. 12, 1996).
276 See, e.g., “Standards of Performance for New Stationary
Sources and Emission Guidelines for Existing Sources: Sewage
Sludge Incineration Units, Final Rule,” 76 FR 15372 (Mar. 21,
2011).
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section 111(d) emission guidelines for the states and
determining the BSER, the EPA believes that taking into account
the particular characteristics of carbon pollution, the
interconnected nature of the power sector and the manner in
which EGUs are currently operated is warranted. Specifically,
the operators themselves treat increments of generation as
interchangeable between and among sources in a way that creates
options for relying on varying utilization levels, lowering
carbon generation, and reducing demand as components of the
overall method for reducing CO2 emissions. Doing so results in a
broader, forward-thinking approach to the design of programs to
yield critical CO2 reductions that improve the overall power
system by lowering the carbon intensity of power generation,
while offering continued reliability and cost-effectiveness.
These opportunities exist in the utility power sector in ways
that were not relevant or available for other industries for
which the EPA has established CAA section 111(d) emission
guidelines.277

277

See “Phosphate Fertilizer Plants; Final Guideline Document
Availability,” 42 FR 12022 (Mar. 1, 1977); “Standards of
Performance for New Stationary Sources; Emission Guideline for
Sulfuric Acid Mist,” 42 FR 55796 (Oct. 18, 1977); “Kraft Pulp
Mills, Notice of Availability of Final Guideline Document,” 44
FR 29828 (May 22, 1979); “Primary Aluminum Plants; Availability
of Final Guideline Document,” 45 FR 26294 (Apr. 17, 1980);
“Standards of Performance for New Stationary Sources and
Guidelines for Control of Existing Sources: Municipal Solid
Waste Landfills, Final Rule,” 61 FR 9905 (Mar. 12, 1996).

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In this action, the EPA is promulgating emission guidelines
for states to follow in developing their CAA section 111(d)
plans to reduce emissions of CO2 from the utility power sector.
J. Clean Power Plan Proposal and Supplemental Proposal
On June 18, 2014, the EPA proposed emission guidelines for
states to follow in developing plans to address GHG emissions
from existing fossil fuel-fired electric generating units
(EGUs). Specifically, the EPA proposed rate-based goals for CO2
emissions for each state with existing fossil fuel-fired EGUs,
as well as guidelines for plans to achieve those goals. On
November 4, 2014, the EPA published a supplemental proposal that
proposed emission rate-based goals for CO2 emissions for U.S.
territories and areas of Indian country with existing fossil
fuel-fired EGUs. In the supplemental proposal, the EPA also
solicited comment on authorizing jurisdictions (including any
states, territories and areas of Indian country) without
existing fossil fuel-fired EGUs subject to the proposed emission
guidelines to partner with jurisdictions (including any states)
that do have existing fossil fuel-fired EGUs subject to the
proposed emission guidelines in developing multi-jurisdictional
plans. The EPA also solicited comment on the treatment of RE,
demand-side EE and other new low- or zero-emitting electricity
generation across international boundaries in a state plan.

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The EPA also issued two notices after the June 18, 2014
proposal. On October 30, 2014, the EPA published a notice of
data availability (NODA) in which the agency provided additional
information on several topics raised by stakeholders and
solicited comment on the information presented. The notice
covered three topic areas: 1) the emission reduction compliance
trajectories created by the interim goal for 2020 to 2029, 2)
certain aspects of the building block methodology, and 3) the
way state-specific CO2 goals are calculated.
In a separate action, the EPA published a notice regarding
potential methods for determining the mass that is equivalent to
an emission rate-based CO2 goal (79 FR 67406; November 13, 2014).
With the notice, the EPA also made available, in the docket for
this rulemaking, a technical support document (TSD) that
provided two examples of how a state, U.S. territory or tribe
could translate a rate-based CO2 goal to total metric tons of CO2
(a mass-based equivalent).
K. Stakeholder Outreach and Consultations
Following the direction in the Presidential Memorandum to
the Administrator (June 25, 2013),278 the EPA engaged in
extensive and vigorous outreach to stakeholders and the general

278

Presidential Memorandum – Power Sector Carbon Pollution
Standards, June 25, 2013. http://www.whitehouse.gov/the-pressoffice/2013/06/25/presidential-memorandum-power-sector-carbonpollution-standards.
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public at every stage of development of this rule. Our outreach
has included direct engagement with the energy and environment
officials in states, tribes, and a full range of stakeholders
including leaders in the utility power sector, labor leaders,
non-governmental organizations, other federal agencies, other
experts, community groups and members of the public. The EPA
participated in more than 300 meetings before the rule was
proposed and more than 300 after the proposal.
Throughout the rulemaking process, the agency has
encouraged, organized, and participated in hundreds of meetings
about CAA section 111(d) and reducing carbon pollution from
existing power plants. The agency’s outreach prior to proposal,
as well as during the public comment period, was designed to
solicit policy ideas,279 concerns, and technical information. The
agency received 4.3 million comments about all aspects of the
proposed rule and thousands of people participated in the
agency’s public hearings, webinars, listening sessions,280
teleconferences and meetings held all across the country.

279

The EPA received more than 2,000 emails offering input into
the development of these guidelines through email and a webbased form. These emails and other materials provided to the EPA
are posted on line as part of a non-regulatory docket, EPA
Docket ID No. EPA-HQ-OAR-2014-0020, at www.regulations.gov.
280 Summaries of the 11 public listening sessions in 2013 are
available at www.regulations.gov at EPA Docket ID No. EPA-HQOAR-2014-0020.
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Our engagement has brought together a variety of states and
stakeholders to discuss a wide range of issues related to the
utility power sector and the development of emission guidelines
under CAA section 111(d). The meetings were attended by the EPA
Regional Administrators, other senior managers and staff who
have been instrumental in the development of the rule and will
play key roles in developing and implementing it.
This outreach process has produced a wealth of information
which has informed this rule significantly. The pre-proposal
outreach efforts far exceeded what is required of the agency in
the normal course of a rulemaking process, and the EPA expects
that the dialogue with states and stakeholders will continue
after the rule is finalized. The EPA recognizes the importance
of working with all stakeholders, and in particular with the
states, to ensure a clear and common understanding of the role
the states will play in addressing carbon pollution from power
plants. We firmly believe that our outreach has resulted in a
more workable rule that will achieve the statutory goals and has
enhanced the likelihood of timely and successful achievement of
the carbon reduction goals, given the critical importance and
urgency of the concrete action.
The EPA has given stakeholder comments careful
consideration and, as a result, this final rule includes
features that are responsive to many stakeholder concerns.
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1. Public hearings
More than 2,700 people attended the public hearings
sessions held in Atlanta, Denver, Pittsburgh, and Washington,
DC. More than 1,300 people spoke at the public hearings.
Additionally, about 100 people attended the public hearing held
in Phoenix, Arizona, on the November 4, 2014 supplemental
proposal. Speakers at the public hearings included Members of
Congress, other public officials, industry representatives,
faith-based organizations, unions, environmental groups,
community groups, students, public health groups, energy groups,
academia and concerned citizens.
Participants shared a range of perspectives. Many were
concerned with the impacts of climate change on their health and
on future generations, others were worried about the impact of
regulations on the economy. Their support for the agency’s
efforts varied.
2. State officials
Since fall 2013, the agency has provided multiple
opportunities for the states to inform this rulemaking.
Administrator McCarthy has engaged with governors from states
with a variety of interests in the rulemaking. Other senior
agency officials have engaged with every branch and major agency
of state government - including state legislators, attorneys

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general, state energy, environment, and utility officials, and
governors' staff.
On several occasions, state environmental commissioners met
with senior agency officials to provide comments on the Clean
Power Plan. The EPA organized, encouraged and attended meetings
with states to discuss multi-state planning efforts. States have
come together with several collaborative groups to discuss ways
to work together to make the Clean Power Plan more affordable.
The EPA has participated in and supported the states in these
discussions. Because of the interconnectedness of the power
sector, and the fact that electricity generated at power plants
crosses state lines; states, utilities and ratepayers may
benefit from states working together to implement the
requirements of this rulemaking. The meetings provided state
leaders, including governors, environmental commissioners,
energy officers, public utility commissioners, and air
directors, opportunities to engage with the EPA officials. In
addition, the states submitted public comments from several
agencies within each state. The wealth of comments and input
from states was important in developing the final rulemaking.
Agency officials listened to ideas, concerns and details
from states, including from states with a wide range of
experience in reducing carbon pollution from power plants. The
EPA reached out to all 50 states to engage with both
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environmental and energy departments at all levels of
government. As an example, a three-part webinar series in
June/July 2014 for the states and tribes offered an interactive
format for technical staff at the EPA and in the states/tribes
to exchange ideas and ask clarifying question. The webinars were
then posted online so other stakeholders could view them. A few
weeks after the postings, the EPA organized follow-up conference
calls with stakeholder groups. Also, the EPA hosted scores of
technical meetings between states and the EPA in the weeks and
months after the rule was proposed.
Additionally, the EPA organized “hub” calls; these
teleconferences brought all of the states in a given EPA region
together to discuss technical and interstate aspects of the
proposal. These exchanges helped provide the stakeholders with
the information they needed to comment on the proposal
effectively. The EPA also held a series of webinars with state
environmental associations and their members on a series of
technical issues.
The agency has collected policy papers and comment letters
from states with overarching energy goals and technical details
on the states’ utility power sector. EPA leadership and staff
also participated in webinars and meetings with state and tribal
officials hosted by collaborative groups and trade associations.
After the comment period closed, and based on our meetings over
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the last year, as well as written comments on the proposal and
NODA, the EPA analyzed information about data errors that needed
to be addressed for the final rule. In February and March 2015,
we reached out to particular states to clarify ambiguous or
unclear information that was submitted to the EPA related to
NEEDS and eGRID data. The EPA contacted particular states to
clarify the technical comments or concerns to ensure that any
changes we make are accurate and appropriate.
To help prepare for implementation of this rule, the agency
initiated several outreach activities to assist with state
planning efforts. The agency participated in meetings organized
by the National Association of State Energy Officials (NASEO),
the National Association of Regulatory Utility Commissioners
(NARUC), and the National Association of Clean Air Agencies
(NACAA) (the “3N” groups). Meeting participants discussed issues
related to EE and RE.
To help state officials prepare for the planning process
that will take place in the states, the EPA presented a webinar
on February 24, 2015. This webinar provided an update on
training plans and further connection with states in the
implementation process. Forty-nine states, the District of
Columbia, and 14 tribes were represented at this webinar. The
EPA is developing a state plan electronic collection system to
receive, track, and store state submittals of plans and reports.
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The EPA plans to use an integrated project team to solicit
stakeholder input on the system during development. The team
membership, including state representatives, will bring together
the business and technology skills required to construct a
successful product and promote transparency in the EPA’s
implementation of the rule.
To help identify training needs for the final Clean Power
Plan, the agency reached out to a number of state and local
organizations such as the Central State Air Resources Agencies
and other such regional air agencies. The EPA’s outreach on
training has included sharing the plans with the states and
incorporating changes to the training topics based on the
states’ needs. The EPA training plan includes a wide variety of
topics such as basic training on the electric power sector as
well as specific pollution control strategies to reduce carbon
emissions from power plants. In particular, the states requested
training on how to use programs such as combined heat and power,
EE and RE to reduce carbon emissions. The EPA will continue to
work with states to tailor training activities to their needs.
The agency has engaged, and will continue to engage with
states, territories, Washington, D.C., and tribes after the
rulemaking process and throughout implementation.
3. Tribal officials

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The EPA conducted significant outreach to and consultation
with tribes. Tribes are not required to, but may, develop or
adopt Clean Air Act programs. The EPA is aware of four
facilities with affected EGUs located in Indian country: the
South Point Energy Center, in Fort Mojave Indian country,
geographically located within Arizona; the Navajo Generating
Station, in Navajo Indian country, geographically located within
Arizona; the Four Corners Power Plant, in Navajo Indian country,
geographically located within New Mexico; and the Bonanza Power
Plant, in Ute Indian country, geographically located within
Utah. The EPA offered consultation to the leaders of the tribes
on whose lands these facilities are located as well as all of
the federally recognized tribes to ensure that they had the
opportunity to have meaningful and timely input into this rule.
Section III (“Stakeholder Outreach and Conclusions”) of the June
18, 2014 proposal documents the EPA’s extensive outreach efforts
to tribal officials prior to that proposal, including an
informational webinar, outreach meeting, teleconferences with
tribal officials and the National Tribal Air Association (NTAA),
and letters offering consultation. Additional outreach to tribal
officials conducted by the EPA prior to the November 4, 2014
supplemental proposal is discussed in Section II.D (“Additional
Outreach and Consultation”) of the supplemental proposal. The
additional outreach for the supplemental proposal included
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consultations with all three tribes that have affected EGUs on
their lands, as well as several other tribes that requested
consultation, and also additional teleconferences with the NTAA.
After issuing the supplemental proposal, the EPA offered an
additional consultation to the leaders of all federally
recognized tribes. The EPA held an informational meeting open to
all tribes and also held consultations with the Navajo Nation,
Fort McDowell Yavapai Nation, Fort Mojave Tribe, Ak-Chin Indian
Community, and Hope Tribe on November 18, 2014. The EPA held a
consultation with the Ute Tribe of the Uintah and Ouray
Reservation on December 16, 2014, and a consultation with the
Gila River Indian Community on January 15, 2015. The EPA held a
public hearing on the supplemental proposal on November 19,
2014, in Phoenix, Arizona. On April 28, 2015, the EPA held an
additional consultation with the Navajo Nation.
Tribes were interested in the impact of this rule on other
ongoing regulatory actions at the affected EGUs, such as
permitting or requirements for the best available retrofit
technology (BART). Tribes also noted that it was important to
allow RE projects on tribal lands to contribute toward meeting
state goals. Some tribes indicated an interest in being involved
in the development of implementation plans for areas of Indian
country. Additional detail regarding the EPA’s outreach to

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tribes and comments and recommendations from tribes can be found
in Section X.F of this preamble.
4. U.S. territories
The EPA has met with individual U.S. territories and
affected EGUs in U.S. territories during the rulemaking process.
On July 22, 2014, the EPA met with representatives from the
Puerto Rico Environmental Quality Board, the Puerto Rico
Electric Power Authority, the Governor’s Office, and the Office
of Energy, Puerto Rico. On September 8, 2014, the EPA held a
meeting with representatives from the Guam Environmental
Protection Agency (GEPA) and the Guam Power Authority and, on
February 18, 2015, the EPA met again with representatives from
GEPA.
5. Industry representatives
Agency officials have engaged with industry leaders and
representatives from trade associations in many one-on-one and
national meetings. Many meetings occurred at the EPA
headquarters and in the EPA’s Regional Offices and some were
sponsored by stakeholder groups. Because the focus of the rule
is on the utility power sector, many of the meetings with
industry have been with utilities and industry representatives
directly related to the utility power sector. The agency has
also met with energy industries such as coal and natural gas
interests, as well as companies that offer new technology to
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prevent or reduce carbon pollution, including companies that
have expertise in RE and EE. Other meetings have been held with
representatives of energy intensive industries, such as the iron
and steel and aluminum industries, to help understand the issues
related to large industrial users of electricity.
6. Electric utility representatives
Agency officials participated in many meetings with
utilities and their associations to discuss all aspects of the
proposed guidelines. We have met with all types of companies
that produce electricity, including private utilities or
investor owned utilities. Public utilities and cooperative
utilities were also part of in-depth conversations about CAA
section 111(d) with EPA officials.
The conversations included meetings with the EPA
headquarters and regional offices. State officials were included
in many of the meetings. Meetings with utility associations and
groups of utilities were held with key EPA officials. The
meetings covered technical, policy and legal topics of interest
and utilities expressed a wide variety of support and concerns
about CAA section 111(d).
7. Electricity grid operators
The EPA had a number of conversations with the ISOs and
RTOs to discuss the rule and issues related to grid operations
and reliability. EPA staff met with the ISO/RTO Council on
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several occasions to collect their ideas. The EPA regional
offices also met with the ISOs and RTOs in their regions. System
operators have offered suggestions in using regional approaches
to implement CAA section 111(d) while maintaining reliable,
affordable electricity.
8. Representatives from community and non-governmental
organizations
Agency officials engaged with community groups representing
vulnerable communities, and faith-based groups, among others,
during the outreach effort. In response to a request from
communities, the EPA held a day-long training on the Clean Power
Plan on October 30, 2014, in Washington D.C. At this meeting,
the EPA met with a number of environmental groups to provide
information on how the agency plans on reducing carbon pollution
from existing power plants using CAA section 111(d).
Many environmental organizations discussed the need for
reducing carbon pollution. Meetings were technical, policy and
legal in nature and many groups discussed specific state
policies that are already in place to reduce carbon pollution in
the states.
A number of organizations representing religious groups
have reached out to the EPA on several occasions to discuss
their concerns and ideas regarding this rule. Many members of
faith communities attended the four public hearings.
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Public health groups discussed the need for protection of
children’s health from harmful air pollution. Doctors and health
care providers discussed the link between reducing carbon
pollution and air pollution and public health. Consumer groups
representing advocates for low income electricity customers
discussed the need for affordable electricity. They talked about
reducing electricity prices for consumers through EE and lowcost carbon reductions.
In winter/spring 2015, EPA continued to offer webinars and
teleconferences for community groups on the rulemaking.
9. Environmental Justice Organizations
Agency officials engaged with environmental justice groups
representing communities of color, low-income communities and
others during the outreach effort. Agency officials also engaged
with the EPA’s National Environmental Justice Advisory Council
(NEJAC) members in September 2013. The NEJAC is composed of
stakeholders, including environmental justice leaders and other
leaders from state and local government and the private sector.
Additionally, the agency conducted a community call on February
26, 2015, and on February 27, 2015, the EPA conducted a follow
up webinar for participants in an October 30, 2014 training
session. The EPA also held a webinar for communities on the
Clean Air Act (CAA) and section 111(d) of the CAA on April 2,
2015. The agency, in partnership with FERC and DOE, held two
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additional webinars for communities on the electricity grid and
on energy markets on June 11, 2015, and July 9, 2015.
During the EPA’s extensive outreach conducted before and
after proposal, the EPA has heard a variety of issues raised by
environmental justice communities. Communities expressed the
desire for the agency to conduct an environmental justice (EJ)
analysis and to require that states in the development of their
state plans conduct one as well. Additionally, they asked that
the agency require that states engage with communities in the
development of their state plans and that the agency conduct
meaningful involvement with communities, throughout the whole
rulemaking process, including the implementation phase.
Furthermore, communities stressed the importance of low-income
and communities of color receiving the benefits of this
rulemaking and being protected from being adversely impacted by
this rulemaking.
The purpose of this rule is to substantially reduce
emissions of CO2, a key contributor to climate change, which
adversely and disproportionately affects vulnerable and
disadvantaged communities in the U.S. and around the world. In
addition, the rule will result in substantial reductions of
conventional air pollutants, providing immediate public health
benefits to the communities where the facilities are located and
for many miles around. The EPA is committed to ensuring that all
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Americans benefit from the public health and other benefits that
this rule will bring. Further discussion of the impacts of this
rule on vulnerable communities and actions that the EPA is
taking to address concerns cited by communities is available in
Sections IX and XII.J of this preamble.
10. Labor
Senior agency officials met with a number of labor union
representatives about reducing carbon pollution using CAA
section 111(d). Those unions included: the United Mine Workers
of America; the Sheet Metal, Air, Rail and Transportation Union
(SMART); the International Brotherhood of Boilermakers, Iron
Ship Builders, Blacksmiths, Forgers and Helpers (IBB); United
Association of Journeymen and Apprentices of the Plumbing and
Pipe Fitting Industry of the United States and Canada; the
International Brotherhood of Electrical Workers (IBEW): and the
Utility Workers Union of America. In addition, agency leaders
met with the Presidents of several unions and the President of
the American Federation of Labor-Congress of Industrial
Organizations (AFL-CIO) at the AFL-CIO headquarters.
EPA officials attended meetings sponsored by labor unions
to give presentations and engage in discussions about reducing
carbon pollution using CAA section 111(d). These included
meetings sponsored by the IBB and the IBEW.
11. Other federal agencies and independent agencies
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Throughout the development of the rulemaking, the EPA
consulted with other federal agencies with relevant expertise.
For example, the EPA met with managers from the U.S. Department
of Agriculture’s (USDA’s) Rural Utility Service to discuss the
rule and potential effects on affected EGUs in rural areas and
how USDA programs could interact with affected EGUs during rule
implementation.
The U.S. Department of Energy (DOE) was a frequent source
of expertise on the proposed and final rule. EPA management and
staff had numerous meetings with management and staff at DOE on
a range of topics, including the effectiveness and costs of
energy generation technologies, and EE.
DOE provided technical assistance relating to RE and
demand-side EE, including RE and demand-side EE cost and
performance data and, for RE, information on the feasibility of
deploying and reliably integrating increased RE generation.
Further, EPA and DOE staff discussed emission measurement and
verification (EM&V) strategies.
The EPA also consulted with DOE on electric reliability
issues. EPA staff and managers met and spoke with DOE staff and
managers throughout the development of the proposed and final
rules on topic related to electric system reliability.
EPA officials worked closely with DOE and Federal Energy
Regulatory Commission (FERC) officials to ensure, to the
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greatest extent possible, that actions taken by states and
affected EGUs to comply with the final rule mitigate potential
electric system reliability issues. Senior EPA officials met
with each of the FERC Commissioners and EPA staff had frequent
contact with FERC staff throughout the development the rule.
FERC held four technical conferences to discuss implications of
compliance approaches to the rule for electric reliability. EPA
staff attended the four conferences and EPA leadership spoke at
all of them. The EPA, DOE, and FERC will continue to work
together to ensure electric grid reliability in the development
and implementation of state plans.
L. Comments on the Proposal
The Administrator signed the proposed emission guidelines
on June 2, 2014, and, on the same day, the EPA made this version
available to the public at http://www.epa.gov/cleanpowerplan/.
The 120-day public comment period on the proposal began on June
18, 2014, the day of publication of the proposal in the Federal
Register. On September 18, 2014, in response to requests from
stakeholders, the EPA extended the comment period by 45 days, to
December 1, 2014, giving stakeholders over 165 days to review
and comment upon the proposal. Stakeholders also had the
opportunity to comment on the NODA, as well as the notice and
TSD regarding potential methods for determining the mass that is
equivalent to an emission rate-based CO2 goal, through December
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1, 2014. The EPA offered a separate 45-day comment period for
the November 4, 2014 supplemental proposal, and that comment
period closed on December 19, 2014.
The EPA received more than 4.2 million comments on the
proposed carbon pollution emission guidelines from a range of
stakeholders that included, including state environmental and
energy officials, local government officials, tribal officials,
public utility commissioners, system operators, utilities,
public interest advocates, and members of the public. The agency
received comments on many aspects of the proposal and many
suggestions for changes that would address issues of concern.
III. Rule Requirements and Legal Basis
A. Summary of Rule Requirements
The EPA is establishing emission guidelines for states to
use in developing plans to address GHG emissions from existing
fossil fuel-fired electric generating units. The emission
guidelines are based on the EPA’s determination of the “best
system of emission reduction ... adequately demonstrated” (BSER)
and include source category-specific CO2 emission performance
rates, state-specific goals, requirements for state plan
components, and requirements for the process and timing for
state plan submittal and compliance.
Under CAA section 111(d), the states must establish
standards of performance that reflect the degree of emission
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limitation achievable through the application of the “best
system of emission reduction” that, taking into account the cost
of achieving such reduction and any non-air quality health and
environmental impact and energy requirements, the Administrator
determines has been adequately demonstrated.
The EPA has determined that the BSER is the combination of
emission rate improvements and limitations on overall emissions
at affected EGUs that can be accomplished through the following
three sets of measures or building blocks:
1. Improving heat rate at affected coal-fired steam
EGUs.
2.

Substituting increased generation from lower-

emitting existing natural gas combined cycle units for
reduced generation from higher-emitting affected steam
generating units.
3. Substituting increased generation from new zeroemitting RE generating capacity for reduced generation
from affected fossil fuel-fired generating units.

Consistent with CAA section 111(d) and other rules
promulgated under this section, the EPA is taking a traditional,
performance-based approach to establishing emission guidelines
for affected sources and applying the BSER to two source
subcategories of existing fossil fuel-fired EGUs -- fossil fuelThis document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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fired electric utility steam generating units and stationary
combustion turbines. The EPA is finalizing source subcategoryspecific emission performance rates that reflect the EPA’s
application of the BSER. For fossil fuel-fired steam generating
units, we are finalizing a performance rate of 1,305 lb CO2/MWh.
For stationary combustion turbines, we are finalizing a
performance rate of 771 lb CO2/MWh. The EPA has also translated
the source subcategory-specific CO2 emission performance rates
into equivalent statewide rate-based and mass-based CO2 goals and
is providing those as an option for states to use.
Under CAA section 111(d), each state must develop, adopt,
and then submit its plan to the EPA. For its CAA section 111(d)
plan, a state will determine whether to apply these emission
performance rates to each affected EGU, individually or
together, or to take an alternative approach and meet either an
equivalent statewide rate-based goal or an equivalent statewide
mass-based goal, as provided by the EPA in this rulemaking.
States with one or more affected EGUs will be required to
develop and implement plans that set emission standards for
affected EGUs. The CAA section 111(d) emission guidelines that
the EPA is promulgating in this action apply to only the 48
contiguous states and any Indian tribe that has been approved by
the EPA pursuant to 40 CFR 49.9 as eligible to develop and

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implement a CAA section 111(d) plan..281Because Vermont and the
District of Columbia do not have affected EGUs, they will not be
required to submit a state plan. Because the EPA does not
possess all of the information and analytical tools needed to
quantify the BSER for the two non-contiguous states with
otherwise affected EGUs (Alaska and Hawaii) and the two U.S.
territories with otherwise affected EGUs (Guam and Puerto Rico),
these emission guidelines do not apply to those areas, and those
areas will not be required to submit state plans on the schedule
required by this final action.
In developing its CAA section 111(d) plan, a state will
have the option of choosing from two different approaches: 1) an
“emission standards” approach, or 2) a “state measures”
approach. With an emission standards approach, a state will
apply all requirements for achieving the subcategory-specific CO2
emission performance rates or the state-specific CO2 emission
goal to affected EGUs in the form of federally enforceable

281

In the case of a tribe that has one or more affected EGUs in
its area of Indian country, the tribe has the opportunity, but
not the obligation, to establish a CO2 emission standard for each
affected EGU located in its area of Indian country and a CAA
section 111(d) plan for its area of Indian country. If the tribe
chooses to establish its own plan, it must seek and obtain
authority from the EPA to do so pursuant to 40 CFR 49.9. If it
chooses not to seek this authority, the EPA has the
responsibility to determine whether it is necessary or
appropriate, in order to protect air quality, to establish a CAA
section 111(d) plan for an area of Indian country where affected
EGUs are located.
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emission standards. With a state measures approach, a state plan
would be comprised, at least in part, of measures implemented by
the state that are not included as federally enforceable
components of the plan, along with a backstop of federally
enforceable emission standards for affected EGUs that would
apply in the event the plan does not achieve its anticipated
level of CO2 emission performance.
The EPA is requiring states to make their final plan
submittals by September 6, 2016, or to make an initial submittal
by this date in order to obtain an extension for making their
final plan submittals no later than September 6, 2018, which is
3 years from the signature date of the rule. In order to receive
an extension, states, in the initial submittal, must address
three required components sufficiently to demonstrate that a
state is able to undertake steps and processes necessary to
timely submit a final plan by the extended date of September 6,
2018. The first required component is identification of final
plan approach or approaches under consideration, including a
description of progress made to date. The second required
component is an appropriate explanation for why the state
requires additional time to submit a final plan beyond September
6, 2016. The third required component for states to address in
the initial submittal is a demonstration of how they have been
engaging with the public, including vulnerable communities, and
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a description of how they intend to meaningfully engage with
community stakeholders during the additional time (if an
extension is granted) for development of the final plan.
Affected EGUs must achieve the final emission performance
rates or equivalent state goals by 2030 and maintain that level
thereafter. The EPA is establishing an eight-year interim period
over which states must achieve the full required reductions to
meet the CO2 performance rates, and this begins in 2022. This
eight-year interim period from 2022 through 2029, is separated
into three steps, 2022-2024, 2025-2027, and 2028-2029, each
associated with its own interim CO2 emission performance rates
that states must meet, as explained in Section VI of this
preamble.
For the final emission guidelines, the EPA is revising
the list of components required in a final state plan
submittal to reflect: 1) components required for all state
plan submittals; 2) components required for the emission
standards approach; and 3) components required for the
state measures approach. The revised list of components
also reflects the approvability criteria, which are no
longer separate from the state plan submittal components.
All state plans must include the following components:
•
•

Description of the plan approach and geographic scope
Identification of the state’s CO2 interim period goal (for
2022-2029), interim steps (interim step goal 1 for 2022-

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2024; interim step goal 2 for 2025-2027; interim step goal
3 for 2028-2029) and final CO2 emission goal of 2030 and
beyond
Demonstration that the plan submittal is projected to
achieve the state’s CO2 emission goal282
State recordkeeping and reporting requirements
Certification of hearing on state plan
Supporting documentation

•
•
•
•

Also, in all state plans, as part of the supporting
documentation, a state must include a description of how they
considered reliability in developing its state plan.
State plan submittals using the emission standards approach
must also include:




Identification of each affected EGU; identification of
federally enforceable emission standards for the affected
EGUs; and monitoring, recordkeeping and reporting
requirements.
Demonstrations that each emission standard will result in
reductions that are quantifiable, non-duplicative,
permanent, verifiable, and enforceable.
State plan submittals using the state measures approach

must also include:




Identification of each affected EGU; identification of
federally enforceable emission standards for affected EGUs
(if applicable); identification of backstop of federally
enforceable emission standards; and monitoring,
recordkeeping and reporting requirements.
Identification of each state measure and demonstration that
each state measure will result in reductions that are
quantifiable, non-duplicative, permanent, verifiable, and
enforceable.

282

A state that chooses to set emission standards that are
identical to the emission performance rates for both the interim
period and in 2030 and beyond need not identify interim state
goals nor include a separate demonstration that its plan will
achieve the state goals.
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In addition to these requirements, each state plan must follow
the EPA implementing regulations at 40 CFR 60.23.
If a state with affected EGUs does not submit a plan or if
the EPA does not approve a state’s plan, then under CAA section
111(d)(2)(A), the EPA must establish a plan for that state. A
state that has no affected EGUs must document this in a formal
negative declaration submitted to the EPA by September 6, 2016.
In the case of a tribe that has one or more affected EGUs in its
area of Indian country,283 the tribe has the opportunity, but not
the obligation, to establish a CAA section 111(d) plan for its
area of Indian country. If a tribe with one or more affected
EGUs located in its area of Indian country does not submit a
plan or does not receive EPA approval of a submitted plan, the
EPA has the responsibility to establish a CAA section 111(d)
plan for that area if it determines that such a plan is
necessary or appropriate.
During implementation of its approved state plan, each
state must demonstrate to the EPA that its affected EGUs are

283

The EPA is aware of at least four affected EGUs located in
Indian country: two on Navajo lands, the Navajo Generating
Station and the Four Corners Power Plant; one on Ute lands, the
Bonanza Power Plant; and one on Fort Mojave lands, the South
Point Energy Center. The affected EGUs at the first three plants
are coal-fired EGUs. The fourth affected EGU is an NGCC
facility.

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meeting the interim and final performance requirements included
in this final rule through monitoring and reporting
requirements. State plan requirements and flexibilities are
described more fully in Section VIII of this preamble.
B. Brief Summary of Legal Basis
This rule is consistent with the requirements of CAA
section 111(d) and the implementing regulations.284 As an initial
matter, the EPA reasonably interprets the provisions identifying
which air pollutants are covered under CAA section 111(d) to
authorize the EPA to regulate CO2 from fossil fuel-fired EGUs. In
addition, the EPA recognizes that CAA section 111(d) applies to
sources that, if they were new sources, would be covered under a
CAA section 111(b) rule. Concurrently with this rule, the EPA is
finalizing a CAA section 111(b) rulemaking establishing

Under CAA section 111(d), there is no requirement that the EPA
make a finding that the emissions from existing sources that are
the subject of regulation cause or contribute significantly to
air pollution which may reasonably be anticipated to endanger
public health or welfare. As predicates to promulgating
regulations under CAA section 111(d) for existing sources, the
EPA must make endangerment and cause-or-contribute-significantly
findings for emissions from the source category, and the EPA
must promulgate regulations for new sources in the source
category. In the CAA section 111(b) rule for CO2 emissions for
new affected EGUs that the EPA is promulgating concurrently with
this rule, the EPA discusses the endangerment and cause-orcontribute-significantly findings and explains why the EPA has
already made them for the affected EGU source categories so that
the EPA is not required to make them for CO2 emissions from
affected EGUs, and, in the alternative, why, if the EPA were
required to make those findings, it was making them in that
rulemaking.
284

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standards of performance for CO2 emissions from new fossil fuelfired EGUs, from modified fossil fuel-fired EGUs, and from
reconstructed fossil fuel-fired EGUs, and any of those sets of
section 111(b) standards of performance provides the requisite
predicate for this rulemaking.
A key step in promulgating requirements under CAA section
111(d)(1) is determining the “best system of emission reduction
which ... the Administrator determines has been adequately
demonstrated” (BSER) under CAA section 111(a)(1). It is clear by
the terms of section 111(a)(1) and the implementing regulations
for section 111(d) that the EPA is authorized to determine the
BSER;285 accordingly, in this rulemaking, the EPA is determining
the BSER.
The EPA is finalizing the BSER for fossil fuel-fired EGUs
based on building blocks 1, 2, and 3. Building block 1 includes
operational improvements and equipment upgrades that the coalfired steam-generating EGUs in the state may undertake to
improve their heat rate. It qualifies as part of the BSER
because it improves the carbon intensity of the affected EGUs in
generating electricity through actions the affected sources may
undertake that are adequately demonstrated and whose cost is
“reasonable.” Building blocks 2 and 3 include increases in low-

The EPA is not re-opening that interpretation in this
rulemaking.
285

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or zero-emitting generation which substitute for generation from
the affected EGUs and thereby reduce CO2 emissions from those
sources. All of these measures are components of a “system of
emission reduction” for the affected EGUs because they entail
actions that the affected EGUs may themselves undertake that
have the effect of reducing their emissions. Further, these
measures meet the criteria in CAA section 111(a)(1) and the case
law for the “best” system of emission reduction that is
“adequately demonstrated” because they achieve the appropriate
level of reductions, their cost is “reasonable,” they do not
have adverse non-air quality health and environmental impacts or
impose adverse energy requirements, and they are each wellestablished among affected EGUs. It should be emphasized that
these measures are consistent with current trends in the
electricity sector.
Building blocks 2 and 3 may be implemented through a set of
measures, including reduced generation from the fossil fuelfired EGUs. These measures do not, however, reduce the amount of
electricity that can be sold or that is available to end users.
In addition, states should be expected to allow their affected
EGUs to trade rate-based emission credits or mass-based emission
allowances (trading) because trading is well-established for
this industry and has the effect of focusing costs on the
affected EGUs for which reducing emissions is most costThis document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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effective. Because trading facilitates implementation of the
building blocks and may help to optimize cost-effectiveness,
trading is a method of implementing the BSER as well.
As a result, an affected EGU has a set of choices for
achieving its emission standards. For example, an affected coalfired steam generating unit can achieve a rate-based standard
through a set of actions that implement the building block 1
measures and that implement the building block 2 and 3 measures
through a set of actions that range from purchasing full or
partial interest in existing NGCC or new RE assets to purchasing
ERCs that represent the environmental attributes of increased
NGCC generation or new renewable generation. In addition, the
affected EGU may reduce its generation and thereby reduce the
extent that it needs to implement the building blocks. The
affected EGU may also purchase rate-based emission credits from
other affected EGUs. If the state chooses to impose a mass-based
emission standard, the coal-fired steam generating unit may
implement building block 1 measures, purchase mass-based
emission allowances from other affected EGUs, or reduce its
generation. In light of the available sources of lower- and
zero-emitting replacement generation, this approach would
achieve an appropriate level of emission reductions and maintain
the reliability of the electricity system.

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With the promulgation of the emission guidelines, each
state must develop and submit a plan to achieve the CO2 emission
performance rates established by the EPA or the equivalent
statewide rate-based or mass-based goal provided by the EPA in
this rule. The EPA interprets CAA section 111(d) to allow states
to establish standards of performance and provide for their
implementation and enforcement through either the “emission
standards” or the “state measures” plan type. In the case of the
“emission standards” plan type, the emission standards establish
standards of performance, and the other components of the plan
provide for their implementation and enforcement. In the case of
the “state measures” plan type, –the state submits a plan that
relies upon measures that are only enforceable as a matter of
state law that will, in conjunction with any emission standards
on affected EGUs, result in the achievement of the applicable
performance rates or state goals by the affected EGUs. Under the
state measures plan type, states must also submit a federally
enforceable backstop and a mechanism that would trigger
implementation of the backstop; therefore, in a state measures
plan, the standards of performance take the form of the
backstop, the trigger mechanism provides for the implementation
of such backstop, and the other required components of the plan
provide for implementation and enforcement of the standards of
performance.
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These two types of state plans and their respective
approaches, which could be implemented on a single-state or
multi-state basis, allow states to meet the statutory
requirements of section 111(d) while accommodating the wide
range of regulatory requirements and other programs that states
have deployed or will deploy in the electricity sector that
reduce CO2 emissions from affected EGUs. It should be noted that
both state plan types allow the state flexibility in assigning
the emission performance obligations to its affected EGUs in the
form of standards of performance as long as the required
emission performance level is met. Both plan types harness the
efficiencies of emission reduction opportunities in the
interconnected electricity system and are fully consistent with
the principles of cooperative federalism that underlie the Clean
Air Act generally and CAA section 111(d) particularly. That is,
both plan types achieve the emission performance requirements
through the vehicle of a state plan, and provide each state
significant flexibility to take local circumstances and state
policy goals into account in determining how to reduce emissions
from its affected sources, as long as the plan meets minimum
federal requirements.
Both state plan types, and the standards of performance for
the affected EGUs that the states will establish through the
state plan process, are consistent with the applicable CAA
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section 111 provisions. A state has discretion in determining
the appropriate measures to rely upon for its plan. The state
may adopt measures that assure the achievement of the requisite
CO2 emission performance rate or state goal by the affected EGUs,
and is not limited to the measures that the EPA identifies as
part of the BSER.
In this rulemaking, the EPA establishes reasonable
deadlines for state plan submission. Under CAA section
111(d)(1), state plans must “provide for implementation and
enforcement” of the standards of performance, and under CAA
section 111(d)(2), the state plans must be “satisfactory” for
the EPA to approve them. In this rulemaking, the EPA is
finalizing the criteria that the state plans must meet under
these requirements.
The EPA discusses its legal interpretation in more detail
in other parts of this preamble and provides additional
information about certain issues in the Legal Memorandum
included in the docket for this rulemaking.

IV.

Authority for this Rulemaking, Definition of Affected
Sources, and Treatment of Source Categories

A. EPA’s Authority under CAA Section 111(d)
EPA’s authority for this rule is CAA section 111(d). CAA
section 111(d) provides that the EPA will promulgate regulations
under which each state will establish standards of performance
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for existing sources for any air pollutant that meets two
criteria. First, CAA section 111(d) applies to air pollutants
that are not regulated as a criteria pollutant under section 108
or as a hazardous air pollutant (HAP) under CAA section 112. 42
U.S.C. 7411(d)(1)(A)(i).286 Second, section 111(d) applies only
to air pollutants for which the existing source would be
regulated under section 111 if it were a new source. 42 U.S.C.
7411(d)(1)(A)(ii). Here, carbon dioxide (CO2) meets both
criteria: (1) it is not a criteria pollutant regulated under
section 108 nor a HAP regulated under CAA section 112, and (2)
CO2 emissions from new power plants (including newly constructed,
modified and reconstructed power plants) are regulated under the
CAA section 111(b) rule that is being finalized along with this
rule.
B. CAA Section 112 Exclusion to CAA Section 111(d) Authority
CAA section 111(d) contains an exclusion that limits the
regulation under CAA section 111(d) of air pollutants that are
regulated under CAA section 112. 42 U.S.C. 7411(d)(1)(A)(i).
This “Section 112 Exclusion” in CAA section 111(d) was the
subject of a significant number of comments based on two
differing amendments to this exclusion enacted in the 1990 CAA

Section 111(d) might be read to apply to HAP under certain
circumstances. However, because carbon dioxide is not a HAP,
this issue does not need to be resolved in the context of this
rule.
286

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Amendments. As discussed in more detail below, the House and the
Senate each initially passed different amendments to the Section
112 Exclusion and both amendments were ultimately passed by both
houses and signed into law. In 2005, in connection with the
Clean Air Mercury Rule (CAMR), the EPA discussed the agency’s
interpretation of the Section 112 Exclusion in light of these
two differing amendments and concluded that the two amendments
were in conflict and that the provision should be read as
follows to give both amendments meaning: where a source category
has been regulated under CAA section 112, a CAA section 111(d)
standard of performance cannot be established to address any HAP
listed under CAA section 112(b) that may be emitted from that
particular source category. See 70 FR 15994, 16029-32 (March 29,
2005).
In June 2014, the EPA presented this previous
interpretation as part of the proposal and requested comment on
it. The EPA received numerous comments on its previous
interpretation, including comments on the proper interpretation
and effect of each of the two differing amendments, and whether
the Section 112 Exclusion should be read to mean that the EPA’s
regulation of HAP from power plants under CAA section 112 bars
the EPA from establishing CAA section 111(d) regulations
covering CO2 emissions from power plants. In particular, many
comments focused on two specific issues.

First, some commenters

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-- including some industry and state commenters that had
previously endorsed the EPA’s interpretation of the Section 112
Exclusion in other contexts287 -- argued that the EPA’s 2005
interpretation was in error because it allowed the regulation of
certain pollutants from source categories under CAA section
111(d) when those source categories were also regulated for
different pollutants under CAA section 112.

Second, some

commenters argued that the EPA’s previous interpretation of the
House amendment (as originally represented in 2005 at 70 FR at
16029-30) was in error because it improperly read that amendment
as focusing on whether a source category was regulated under CAA
section 112 rather than on whether the air pollutant was
regulated under CAA section 112, and that improper reading lead
to an interpretation that was inconsistent with the structure
and purpose of the CAA.
In light of the comments, the EPA has reconsidered its
previous interpretation of the Section 112 Exclusion and, in

For example, in the CAMR litigation (State of New Jersey v.
EPA, No. 05-1097 (D.C. Cir.), the joint brief filed by a group
of intervenors and an amicus (including six states and the West
Virginia Department of Environmental Protection, and Utility Air
Regulatory Group and nine other industry entities) stated that
the EPA had interpreted section 111(d) in light of the two
different amendments and that the EPA’s interpretation was “a
reasoned way to reconcile the conflicting language and the Court
should defer to the EPA’s interpretation.” Joint Brief of State
Respondent-Intervenors, Industry Respondent-Intervernors, and
State Amicus, filed May 18, 2007, at 25.
287

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particular, considered whether the exclusion precludes the
regulation under CAA section 111(d) of CO2 from power plants
given that power plants are regulated for certain HAP under CAA
section 112. On this issue, the EPA has concluded that the two
differing amendments are not properly read as conflicting.
Instead, the House amendment and the Senate Amendment should
each be read to mean the same in the context presented by this
rule: that the Section 112 Exclusion does not bar the regulation
under CAA section 111(d) of non-HAP from a source category,
regardless of whether that source category is subject to
standards for HAP under CAA section 112. In reaching this
conclusion, the EPA has revised its previous interpretation of
the House amendment, as discussed below.
1. Structure of the CAA and Pre-1990 Section 112 Exclusion
The Clean Air Act sets out a comprehensive scheme for air
pollution control, addressing three general categories of
pollutants emitted from stationary sources: (1) criteria
pollutants (which are addressed in sections 108-110); (2)
hazardous pollutants (which are addressed under section 112);
and (3) “pollutants that are (or may be) harmful to public
health or welfare but are not or cannot be controlled under
sections 108-110 or 112.” 40 FR 53340 (Nov. 17, 1975).
Six “criteria” pollutants are regulated under sections 108110. These are pollutants that the Administrator has concluded
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“cause or contribute to air pollution which may reasonably be
anticipated to endanger public health or welfare;” “the presence
of which in the ambient air results from numerous and diverse
mobile or stationary sources;” and for which the Administrator
has issued, or plans to issue, “air quality criteria.

42 U.S.C.

§7408(a)(1). Once the EPA issues air quality criteria for such
pollutants, the Administrator must propose primary National
Ambient Air Quality Standards (NAAQS) for them, set at levels
“requisite to protect the public health” with an “adequate
margin of safety.” 42 U.S.C. § 7409(a)-(b). States must then
adopt plans for implementing NAAQS. 42 U.S.C. § 7410.
Hazardous air pollutants (HAP) are regulated under CAA
section 112 and include the pollutants listed by Congress in
section 112(b)(1) and other pollutants that the EPA lists under
sections 112(b)(2) and (b)(3). CAA section 112 further provides
that the EPA will publish and revise a list of “major” and
“area” source categories of HAP, and then establish emissions
standards for (HAP) emitted by sources within each listed
category. 42 U.S.C. § 7412(c)(1) & (2).
CAA section 111, 42 U.S.C. § 7411, is the third part of the
CAA’s structure for regulating stationary sources. Section 111
has two main components. First, section 111(b) requires the EPA
to promulgate federal “standards of performance” addressing new
stationary sources that cause or contribute significantly to
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“air pollution which may reasonably be anticipated to endanger
public health or welfare.” 42 U.S.C. § 7411(b)(1)(A). Once the
EPA has set new source standards addressing emissions of a
particular pollutant under CAA section 111(b), CAA section
111(d) provides that the EPA will promulgate regulations
requiring states to establish standards of performance for
existing stationary sources of the same pollutant. 42 U.S.C. §
7411(d)(1).
Together, the criteria pollutant/NAAQS provisions in
sections 108-110, the hazardous air pollutant provisions in
section 112, and performance standard provisions in section 111
constitute a comprehensive scheme to regulate air pollutants
with “no gaps in control activities pertaining to stationary
source emissions that pose any significant danger to public
health or welfare.” S. Rep. No. 91-1196, at 20 (1970).

288

The specific role of CAA section 111(d) in this structure
can be seen in CAA subsection 111(d)(1)(A)(i), which provides
that regulation under CAA section 111(d) is intended to cover
pollutants that are not regulated under either the criteria
pollutant/NAAQS provisions or the HAP regulated under section
112.

Prior to 1990, this limitation was laid out in plain

In subsequent CAA amendments, Congress has maintained this
three-part scheme, but supplemented it with the Preservation of
Significant Deterioration (PSD) program, the Acid Rain Program
and the Regional Haze program.
288

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language, which stated that CAA section 111(d) regulation
applied to “any air pollutant… for which air quality criteria
have not been issued or which is not included on a list
published under section [108(a)] or [112(b)(1)(A)].” This plain
language demonstrated that section 111(d) is designed to
regulate pollutants from existing sources that fall in the gap
not covered by the criteria pollutant provisions or the
hazardous air pollutant provisions.
This gap-filling purpose can be seen in the early
legislative history of the CAA. As originally enacted in the
1970 CAA, the precursor to CAA section 111 (which was originally
section 114) was described as covering pollutants that would not
be controlled by the criteria pollutant provisions or the
hazardous air pollutant provisions. See S. Committee Rep. to
accompany S. 4358 (Sept. 17, 1970), 1970 CAA Legis. Hist. at 420
(“It should be noted that the emission standards for pollutants
which cannot be considered hazardous (as defined in section 115
[which later became section 112]) could be established under
section 114 [later, section 111]. Thus, there should be no gaps
in control activities pertaining to stationary source emissions
that pose any significant danger to public health or welfare.”);
Statement by S. Muskie, S. Debate on S. 4358 (Sept. 21, 1970),
1970 CAA Legis. Hist. at 227 (“[T]he bill [in section 114]
provides the Secretary with the authority to set emission
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standards for selected pollutants which cannot be controlled
through the ambient air quality standards and which are not
hazardous substances.”).
2. The 1990 Amendments to the Section 112 Exclusion
The Act was amended extensively in 1990. Among other
things, Congress sought to accelerate the EPA’s regulation of
hazardous pollutants under section 112. To that end, Congress
established a lengthy list of HAP; set criteria for listing
“source categories” of such pollutants; and required the EPA to
establish standards for each listed source category’s hazardous
pollutant emissions. 42 U.S.C. § 7412(b), (c) and (d). In the
course of overhauling the regulation of (HAP) under section 112,
Congress needed to edit section 111(d)’s reference to section
112(b)(1)(A), which was to be eliminated as part of the
revisions to section 112.
To address the obsolete cross-reference to section
7412(b)(1)(A), Congress passed two differing amendments – one
from the Senate and one from the House – that were never
reconciled in conference.

The Senate amendment replaced the

cross reference to old section 112(b)(1)(A) with a crossreference to new section 112. Pub. L. No. 101-549, § 302(a), 104
Stat. 2399, 2574 (1990). The House amendment replaced the crossreference with the phrase “emitted from a source category which
is regulated under section [112].” Pub. L. No. 101-549, §
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108(g), 104 Stat. 2399, 2467 (1990).289

Both amendments were

enacted into law, and thus both are part of the current CAA. To
determine how this provision is properly applied in light of the
two differing amendments, we first look at the Senate amendment,
then at the House amendment, then discuss how the two amendments
are properly read together.
3. The Senate Amendment is Clear and Unambiguous

289

Originally, when the House bill to amend the CAA was
introduced in January 1989, it focused on amendments to control
HAP. Of particular note, the amendments to section 112 included
a provision that excluded regulation under section 112 of “[a]ny
air pollutant which is included on the list under section
108(a), or which is regulated for a source category under
section 111(d).” H.R. 4, § 2 (Jan. 3, 1989), 1990 CAA Legist.
Hist. at 4046. In other words, the Section 112 Exclusion in
section 111(d) that was ultimately contained in the House
amendment was originally crafted as what might be called a
“Section 111(d) Exclusion” in section 112. This is significant
because the “source category” phrasing in the original January
1989 text with respect to section 111(d) makes sense, whereas
the “source category” phrasing in the 1990 House amendment does
not. When referring to the scope of what is regulated under
section 111(d), it makes sense to frame that scope with respect
to source categories, because section 111 regulation begins with
the identification of source categories under section
111(b)(1)(A). By contrast, regulation under section 112 begins
with the identification of HAP under section 112(b); the listing
of source categories under section 112(c) is secondary to the
listing of HAP. From this history, and in light of this
difference between the scope of what is regulated in sections
111 and 112, it is reasonable to conclude that the “source
category” phrasing is a legacy from the original 1989 bill—that
is, when converting the 1989 text into the Section 112 Exclusion
that we see in the 1990 House amendment, the legislative
drafters continued to use phrasing based on “source category”
notwithstanding that this phrasing created a mismatch with the
way that the scope of section 112 regulation is determined.
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Unlike the ambiguous amendment to CAA section 111(d) in the
House amendment (discussed below), the Senate amendment is
straightforward and unambiguous. It maintained the pre-1990
meaning of the Section 112 Exclusion by simply substituting
“section 112(b)” for the prior cross-reference to “section
112(b)(1)(A).” Pub. L. No. 101-549, § 302(a), 104 Stat. 2399,
2574 (1990). So amended, section 111(d) mandates that the EPA
require states to submit plans establishing standards for “any
air pollutant . . . which is not included on a list published
under section [108(a)] or section [112(b)].” Thus, the Section
112 Exclusion resulting from the Senate amendment would preclude
section 111(d) regulation of HAP emission but would not preclude
section 111(d) regulation of CO2 emissions from power plants
notwithstanding that power plants are also regulated for HAP
under CAA section 112.
Some commenters have argued that the Senate amendment
should be given no effect, because only the House amendment is
shown in the U.S. Code, and because the Senate amendments
appeared under the heading “conforming amendments,” and for
various other reasons. The EPA disagrees. The Senate amendment,
like the House amendment, was enacted into law as part of the
1990 CAA amendments, and must be given effect.
First, that the U.S. Code only reflects the House amendment
does not change the fact that both amendments were signed into
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law as part of the 1990 Amendments, as shown in the Statutes at
Large. Pub. L. No. 101-549, §§ 108(g) and 302(a), 104 Stat.
2399, 2467, 2574 (1990). Where there is a conflict between the
U.S. Code and the Statutes at Large, the latter controls. See 1
U.S.C. §§ 112 & 204(a); Stephan v. United States, 319 U.S. 423,
426 (1943) (“the Code cannot prevail over the Statutes at Large
when the two are inconsistent”); Five Flags Pipe Line Co. v.
Dep’t of Transp., 854 F.2d 1438, 1440 (D.C. Cir. 1988) (“[W]here
the language of the Statutes at Large conflicts with the
language in the United States Code that has not been enacted
into positive law, the language of the Statutes at Large
controls.”).
Second, the “conforming” label is irrelevant. A
“conforming” amendment may be either substantive or nonsubstantive.

Burgess v. United States, 553 U.S. 124, 135

(2008). And while the House Amendment contains more words, it
also qualifies as a “conforming amendment” under the definition
in the Senate Legislative Drafting Manual, Section 126(b)(2)
(defining “conforming amendments” as those “necessitated by the
substantive amendments of provisions of the bill”). Here, both
the House and Senate amendments were “necessitated by” Congress’
revisions to section 112 in the 1990 CAA Amendment, which
included the deletion of old section 112(b)(1)(A). Thus, the
House’s amendment is no less “conforming” than the Senate’s, and
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the heading under which it was enacted (“Miscellaneous
Guidance”) does not suggest any more importance than “Conforming
Amendments.” In any event, courts gives full effect to
conforming amendments, see Washington Hosp. Ctr. v. Bowen, 795
F.2d 139, 149 (D.C. Cir. 1986), and so neither the Senate
Amendment nor the House amendment can be ignored.
Third, the legislative history of the Senate amendment
supports the conclusion that the substitution of the updated
cross-reference was not a mindless, ministerial decision, but
reflected a decision to choose an update of the cross reference
instead of the text that was inserted into the Section 112
Exclusion by the House amendment. In mid-1989, the House and
Senate introduced identical bills (H.R. 3030 and S. 1490,
respectively) to provide for “miscellaneous” changes to the CAA.
In both the Senate and House bills as they were introduced in
mid-1989, the Section 112 Exclusion was to be amended by taking
out “or 112(b)(1)(A)” and inserting “or emitted from a source
category which is regulated under section 112.” H.R. 3030, as
introduced, 101st Cong. § 108 (Jul. 27, 1989); S. 1490, as
introduced, 101st Cong. § 108 (Aug. 3, 1989). See 1990 CAA
Legis. Hist. at 3857 (noting that H.R. 3030 and S.1490, as
introduced, were the same). Although S. 1490 was identical to
H.R. 3030 when they were introduced, the Senate reported a
vastly different bill (S.1630) at the end of 1989. See S. 1630,
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as reported (Dec. 20, 1989), 1990 CAA Legis. Hist. at 7906. As
reported and eventually passed, S. 1630 did not contain the text
in the House amendment (“or emitted from a source category which
is regulated under section 112”) and instead contained the
substitution of cross references (changing “section
112(b)(1)(A)” to “section 112(b)”). See S. 1630, as reported,
101st Cong. § 305, 1990 CAA Legis. Hist. at 8153; S. 1630, as
passed, § 305 (Apr. 3, 1990), 1990 CAA Legis. Hist. at 4534.
Though the EPA is not aware of any statements in the legislative
history that expressly explain the Senate’s intent in making
these changes to the Senate bill, the sequence itself supports
the conclusion that the Senate’s substitution reflects a
decision to retain the pre-1990 approach of using a crossreference to 112(b) to define the scope of the Section 112
Exclusion. Whether the difference in approach between the final
Senate amendment in S.1630 and the House amendment in H.R. 3030
creates a substantive difference or are simply two different
means of achieving the same end depends on what interpretation
one gives to the text in the House amendment, which we turn to
next.
4. The House amendment
a.

The House amendment is ambiguous. Before looking at the

specific text of the House amendment, it is helpful to review
some principles of statutory interpretation.

First, statutory

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interpretation begins with the text, but does not end there. As
the D.C. Circuit Court has explained, “[t]he literal language of
a provision taken out of context cannot provide conclusive proof
of congressional intent.” Bell Atlantic Telephone Cos. v.
F.C.C., 131 F.3d 1044, 1047 (D.C. Cir. 1977).

See King v.

Burwell, 2015 U.S. LEXIS 4248, *19(“[O]ftentimes the ‘meaning—or
ambiguity—of certain words or phrases may only become evident
when placed in context.’ Brown & Williamson, 529 U. S., at 132,
120 S. Ct. 1291, 146 L. Ed. 2d 121. So when deciding whether the
language is plain, we must read the words ‘in their context and
with a view to their place in the overall statutory scheme.’
Id., at 133, 120 S. Ct. 1291, 146 L. Ed. 2d 121 (internal
quotation marks omitted). Our duty, after all, is ‘to construe
statutes, not isolated provisions.’ Graham County Soil and Water
Conservation Dist. v. United States ex rel. Wilson, 559 U. S.
280, 290, 130 S. Ct. 1396, 176 L. Ed. 2d 225 (2010) (internal
quotation marks omitted).”). In addition, statutes should not be
given a “hyperliteral” reading that is contrary to established
canons of statutory construction and common sense. See RadLAX
Gateway Hotel v. Amalgamated Bank, 132 S.Ct. 2065, 20, 2070-71
(2012), 2070-71 (2012).
Further, a proper reading of statutory text “must employ all the
tools of statutory interpretation, including text, structure,
purpose, and legislative history.” Loving v. I.R.S., 742 F.3d
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1013, 1016 (D.C. Cir. 2014) (internal quotation omitted). See,
also, Robinson v. Shell Oil Co., 519 U.S. 337, 341 (1997)
(statutory interpretation involves consideration of “the
language itself, the specific context in which that language is
used, and the broader context of the statute as a whole.”).
Moreover, one principle of statutory construction that has
particular application here is that provisions in a statute
should be read to be consistent, rather than conflicting, if
possible. This principle was discussed in the recent case of
Scialabba v. Cuellar De Osorio, 134 S. Ct. 2191, 2214
(concurring opinion by Chief Justice Roberts and Justice
Scalia), 2219-2220 (dissent by Justices Sotomayor, Breyer and
Thomas)(2014). As Justice Sotomayor wrote (at 134 S. Ct. at
2220):
“We do not lightly presume that Congress has legislated in selfcontradicting terms. See A. Scalia & B. Garner, Reading Law: The
Interpretation of Legal Texts 180 (2012) (“The provisions of a
text should be interpreted in a way that renders them
compatible, not contradictory. . . . [T]here can be no
justification for needlessly rendering provisions in conflict if
they can be interpreted harmoniously”). . . . Thus, time and
again we have stressed our duty to “fit, if possible, all parts
[of a statute] into [a] harmonious whole.” FTC v. Mandel
Brothers, Inc., 359 U.S. 385, 389, 79 S. Ct. 818, 3 L. Ed. 2d
893 (1959); see also Morton v. Mancari, 417 U.S. 535, 551, 94 S.
Ct. 2474, 41 L. Ed. 2d 290 (1974) (when two provisions “are
capable of co-existence, it is the duty of the courts . . . to
regard each as effective”). In reviewing an agency’s
construction of a statute, courts “must,” we have emphasized,
“interpret the statute ‘as a . . . coherent regulatory scheme’”
rather than an internally inconsistent muddle, at war with
itself and defective from the day it was written. Brown &

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Williamson, 529 U.S., at 133, 120 S. Ct. 1291, 146 L. Ed. 2d
121.
As amended by the House, CAA section 111(d)(1)(A)(i) limits
CAA section 111(d) to any air pollutant “for which air quality
criteria have not been issued or which is not included on a list
published under section 7408(a) of this title or emitted from a
source category which is regulated under section 7412 of this
title . . .”

This statutory text is ambiguous and subject to

numerous possible readings.
First, the text of the House-amended version of CAA section
111(d) could be read literally as authorizing the regulation of
any pollutant that is not a criteria pollutant. This reading
arises if one focuses on the use of “or” to join the three
clauses:
The Administrator shall prescribe regulations . . . under
which each State shall submit to the Administrator a plan
which establishes standards of performance for any existing
source for any air pollutant [1] for which air quality
criteria have not been issued or [2] which is not included
on a list published under section 7408(a) of this title or
[3] emitted from a source category which is regulated under
section 7412 of this title . . . .
42 U.S.C. § 7411(d)(1) (emphasis and internal numbering added).
Because the text contains the conjunction “or” rather than “and”
between the three clauses, a literal reading could read the
three clauses as alternatives, rather than requirements to be
imposed simultaneously. In other words, a literal reading of the
language of section 111(d) provides that the Administrator may
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require states to establish standards for an air pollutant so
long as either air quality criteria have not been established
for that pollutant, or one of the remaining criteria is met. If
this reading were applied to determine whether the EPA may
promulgate section 111(d) regulations for CO2 from power plants,
the result would be that CO2 from power plants coule be regulated
under section 111(b) because air quality criteria have not been
issued for CO2 and therefore whether CO2 or power plants are
regulated under section 112 would be irrelevant. This reading,
however, is not a reasonable reading of the statute because,
among other reasons, it gives little or no meaning to the
limitation covering (HAP) that are regulated under CAA section
112 and thus is contrary to both the CAA’s comprehensive scheme
created by the three sets of provisions (under which CAA section
111 is not intended to duplicate the regulation of pollutants
regulated under section112) and the principle of statutory
construction that text should not be construed such that a
provision does not have effect.
A second reading of CAA section 111(d) as revised by the
House amendment focuses on the lack of a negative before the
third clause. That is, unlike the first and second clauses that
each contain negative phrases (either “has not been issued” or
“which is not included”), the third clause does not. One could
presume that the negative from the second clause was intended to
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carry over, implicitly inserting another “which is not” before
“emitted from a source category which is regulated under section
[112].”

But that is a presumption, and not the plain language

of the statute. The text as amended by the House says that the
EPA “shall” prescribe regulations for “any air pollutant . . .
emitted from a source category which is regulated under section
[112].” 42 U.S.C. § 7411(d)(1). Thus, CAA section
111(d)(1)(A)(i) could be read as providing for the regulation of
emissions of pollutants if they are emitted from a source
category that is regulated under CAA section 112. Like the first
reading discussed above, this reading would authorize the
regulation of CO2 emissions from existing power plants under CAA
section 111(d). But, this second reading is not reasonable
because it would provide for the regulation of a source’s HAP
emissions under CAA section 111(d) when those same emissions
were also subject to standards under CAA section 112. Thus, this
reading would be contrary to Congress’s intent that CAA section
111(d) regulation fill the gap between the other programs by
covering pollutants that the other programs do not, but not
duplicate the regulation of pollutants that the other programs
cover.
If one does presume that the “which is not” phrase is
intended to carry over to the third clause, then CAA section
111(d) regulation under the House amendment would be limited to
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“any air pollutant…which is not… emitted from a source category
which is regulated under section [112].”

Even with this

presumption, however, the House amendment contains further
ambiguities with respect to the phrases “a source category” and
“regulated under section 112,” and how those phrases are used
within the structure of the provision limiting what air
pollutants may be regulated under CAA section 111(d).
The phrase “regulated under section 112” is ambiguous.

As

the Supreme Court has explained in the context of other statutes
using a variation of the word “regulate,” an agency must
consider what is being regulated.

See Rush Prudential HMO, Inc.

v. Moran, 536 U.S. 355, 366 (2002) (It is necessary to “pars[e]
. . . the ‘what’” of the term “regulates.”); UNUM Life Ins. Co.
of Am. v. Ward, 526 U.S. 358, 363 (1999) (the term “‘regulates
insurance’ . . . requires interpretation, for [its] meaning is
not plain.”).

Here, one possible reading is that the phase

modifies the words “a source category” without regard to what
pollutants are regulated under section 112, which then presents
the issue of what meaning to give to the phrase “a source
category.”
Under this reading, and assuming the phrase “a source
category” is read to mean the particular source category, the
House amendment would preclude the regulation under CAA section
111(d) of a specific source category for any pollutant if that
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source category has been regulated for any HAP under CAA section
112.290 The effect of this reading would be to preclude the
regulation of CO2 from power plants under CAA section 111(d)
because power plants have been regulated for (HAP) under CAA
section 112. This is the interpretation that the EPA applied to
the House amendment in connection with the CAMR rule in 2005,
when looking at the question of whether HAP can be regulated
under CAA section 111(d) for a source category that is not
regulated for HAP under section 112, and some commentors have
advocated for this interpretation here. But, after considering
all of the comments and reconsidering this interpretation, the
EPA has concluded that this interpretation of the House
amendment is not a reasonable reading because it would disrupt
the comprehensive scheme for regulating existing sources created
by the three sets of provisions covering criteria pollutants,
(HAP) and the other pollutants that fall outside of those two
programs and frustrate the role that section 111 is intended to

290

“A source category” could also be interpreted to mean “any
source category.” Under this interpretation, CAA 111(d)
regulation would be limited to air pollutants that are not
emitted by any source category for which the EPA has issued
standards for HAP under CAA section 112. This interpretation is
not reasonable because it would effectively read CAA 111(d) out
of the statute. Given the extensive list of source categories
regulated under CAA 112 and the breadth of pollutants emitted by
those categories collectively, literally all air pollutants
would be barred from CAA 111(d) regulation under this
interpretation.
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play.291 Specifically, under this interpretation, the EPA could
not regulate a source category’s emissions of HAP under CAA
section 112, and then promulgate regulations for other
pollutants from that source category under CAA section 111(d).292
There is no reason to conclude that the House amendment was
intended to abandon the existing structure and relationship
between the three programs in this way.

Indeed, Congress

expressly provided that regulation under CAA section 112 was not
to “diminish or replace the requirements of” the EPA’s
regulation of non-hazardous pollutants under section 7411. See
42 U.S.C. § 7412(d)(7).

Further, consistent with CAA section

112’s direction that EPA list “all categories and subcategories
of major sources and area [aka, non-major] sources” of HAP and
then establish CAA section 112 standards for those categories

291

In assessing any interpretation of section 111(d), EPA must
consider how the three main programs set forth in the CAA work
together. See UARG, 134 S. Ct. at 2442 (a “reasonable statutory
interpretation must account for . . . the broader context of the
statute as a whole”) (quotation omitted).
292 Supporters of this interpretation have noted that the EPA
could regulate power plants under both CAA section 111(d) and
CAA section 112 if it regulated under section 111(d) first,
before the Section 112 Exclusion is triggered. But that argument
actually further demonstrates another reason why this
interpretation is unreasonable. There is no basis for concluding
that Congress intended to mandate that section 111(d) regulation
occur first, nor is there any logical reason why the need to
regulate under section 111(d) should be dependent on the timing
of such regulation in relation to CAA 112 regulation of that
source category.
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and subcategories, 42 U.S.C. §§ 7412(c)(1) and (c)(2), the EPA
has listed and regulated over 140 categories of sources under
CAA section 112. Thus, this reading would eviscerate the EPA’s
authority under section 111(d) and prevent it from serving as
the gap-filling provision within the comprehensive scheme of the
CAA as Congress intended.293 In short, it is not reasonable to
interpret the Section 112 Exclusion in section 111(d) to mean
that the existence of CAA section 112 standards covering
hazardous pollutants from a source category would entirely

293

Some commenters have stated that EPA could choose to regulate
both HAP and non-HAP under section 111(d), and thus could
regulate HAP without creating a gap. But this presumes that
Congress intended EPA to have the choice of declining to
regulate a section 112-listed source category for HAP under
section 112, which is inconsistent with the mandatory language
in section 112. See, e.g., section 112(d)(1)(“The Administrator
shall promulgate regulations establishing emissions standards
for each category or subcategory of major sources and area
sources of hazardous air pollutants listed for regulation
pursuant to subsection (c) of this section in accordance with
the schedules provided in subsections (c) and (e) of this
section.”). Moreover, given the prescriptive language that
Congress added into section 112 concerning how to set standards
for HAP, see section 112(d)(2) and (d)(3), it is unreasonable to
conclude that Congress intended that the EPA could simply choose
to ignore the provisions in section 112 and instead regulate HAP
for a section 112 listed source category under section 111(d).
Further, some supporters of this interpretation have
suggested that EPA could regulate CO2 under section 112. But this
suggestion fails to consider that sources emitting HAP are major
sources if they emit 10 tons of any HAP. See CAA section
112(a)(1). Thus, if CO2 were regulated as a HAP, and because
emissions of CO2 tend to be many times greater than emissions of
other pollutants, a huge number of smaller sources would become
regulated for the first time under the CAA.
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eliminate regulation of non-hazardous emissions from that source
category under section 111(d).294
b.

The EPA’s Interpretation of the House Amendment. Having

concluded that the interpretations discussed above are not
reasonable, the EPA now turns to what it has concluded is the
best, and sole reasonable, interpretation of the House amendment
as it applies to the issue here.
The EPA’s interpretation of the House amendment as applied
to the issue presented in this rule is that the Section 112
Exclusion excludes the regulation of HAP under CAA section 112
if the source category at issue is regulated under CAA section
112, but does not exclude the regulation of other pollutants,
regardless of whether that source category is subject to CAA
section 112 standards. This interpretation reads the phrase
“regulated under section 112” as modifying the words “source
category” (as does the interpretation discussed above) but also

294

Even if one were to determine that this interpretation were
the proper reading of the House amendment that would not be the
end of the analysis. Instead, that reading would create a
conflict between the Senate amendment and the House amendment
that would need to be resolved. In that event, the proper
resolution of a conflict between the two amendments would be the
analysis and conclusion discussed in the Proposed Rule’s legal
memorandum (discussing EPA’s analysis in the CAMR rule at 70 FR
15994, 16029-32): The two amendments must be read together so as
to give some effect to each amendment and they are properly read
together to provide that, where a source category is regulated
under section 112, the EPA may not establish regulations
covering the HAP emissions from that source category under
section 111(d).
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recognizes that the phrase “regulated under section 112” refers
only to the regulation of HAP emissions. In other words, the
EPA’s interpretation recognizes that source categories
“regulated under section 112” are not regulated by CAA section
112 with respect to all pollutants, but only with respect to
HAP. Thus, it is reasonable to interpret the House amendment of
the Section 112 Exclusion as only excluding the regulation of
HAP emissions under CAA section 111(d) and only when that source
category is regulated under CAA section 112. We note that this
interpretation of the House amendment alone is the same as the
2005 CAMR interpretation of the two amendments combined: where a
source category has been regulated under CAA section 112, a CAA
section 111(d) standard of performance cannot be established to
address any HAP listed under CAA section 112(b) that may be
emitted from that particular source category. See 70 FR 15994,
16029-30 (March 29, 2005).
There are a number of reasons why the EPA’s interpretation
is reasonable and avoids the issues discussed above.
First, the EPA’s interpretation reads the House amendment
to the Section 112 Exclusion as determining the scope of what
air pollutants are to be regulated under CAA section 111(d), as
opposed to creating a wholesale exclusion for source categories.
The other text in subsections 111(d)(1)(A)(i) and (ii) modify
the phrase “any air pollutant.” Thus, reading the Section 112
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Exclusion to also address the question of what air pollutants
may be regulated under CAA section 111(d) is consistent with the
overall structure and focus of CAA section 111(d)(1)(A).
Second, the EPA’s interpretation furthers – rather than
undermines – the purpose of CAA section 111(d) within the longstanding structure of the CAA. That is, this interpretation
supports the comprehensive structure for regulating various
pollutants from existing sources under the criteria
pollutant/NAAQS program under sections 108-110, the HAP program
under section 112, and other pollutants under section 111(d),
and avoids creating a gap in that structure. See King v. Burwell,
2015 U.S. LEXIS 4248, *28 (2015)(“A provision that may seem
ambiguous in isolation is often clarified by the remainder of
the statutory scheme . . . because only one of the permissible
meanings produces a substantive effect that is compatible with
the rest of the law.”) (quoting United Sav. Assn. of Tex. v.
Timbers of Inwood Forest Associates, Ltd., 484 U. S. 365, 371,
108 S. Ct. 626, 98 L. Ed. 2d 740 (1988)”)
Third, by avoiding the creation of gaps in the statutory
structure, the EPA’s interpretation is consistent with the
legislative history demonstrating that Congress’s intent in the
1990 CAA Amendments was to expand the EPA’s regulatory authority
across the board, compelling the agency to regulate more

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pollutants, under more programs, more quickly.295 Conversely, the
EPA is aware of no statement in the legislative history
indicating that Congress simultaneously sought to restrict the
EPA’s authority under CAA section 111(d) or to create gaps in
the comprehensive structure of the statute. If Congress had
intended this amendment to make such a change, one would expect
to see some indication of that in the legislative history.
Fourth, when applied in the context of this rule, the EPA’s
interpretation of the House amendment is consistent with the
Senate amendment. Thus, this interpretation avoids creating a
conflict within the statute. See discussion above of Scialabba,
134 S. Ct. 2191 at 2220 (citing and quoting, among other
authorities, A. Scalia & B. Garner, Reading Law: The

See S. Rep. No. 101-228 at 133 (“There is now a broad
consensus that the program to regulate hazardous air pollutants
. . . should be restructured to provide the EPA with authority
to regulate industrial and area sources of air pollution . . .
in the near term”), reprinted in 5 A Legislative History of the
Clean Air Act Amendments of 1990 (“Legis. Hist.”) 8338, 8473
(Comm. Print 1993); S. Rep. No. 101-228 at 14 (“The bill gives
significant authority to the Administrator in order to overcome
the deficiencies in [the NAAQS program]”) & 123 (“Experience
with the mobile source provisions in Title II of the Act has
shown that the enforcement authorities . . . need to be
strengthened and broadened . . .”), reprinted in 5 Legis. Hist.
at 8354, 8463; H.R. Rep. No. 101-952 at 336-36, 340, 345 & 347
(discussing enhancements to Act’s motor vehicle provisions, the
EPA’s new authority to promulgate chemical accident prevention
regulations, the enactment of the Title V permit program, and
enhancements to the EPA’s enforcement authority), reprinted in 5
Legis. Hist. at 1786, 1790, 1795, & 1997.
295

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Interpretation of Legal Texts 180 (2012) (“The provisions of a
text should be interpreted in a way that renders them
compatible, not contradictory. . . . [T]here can be no
justification for needlessly rendering provisions in conflict if
they can be interpreted harmoniously”)).
In sum, when this interpretation of the House amendment is
applied in the context of this rule, the result is that the EPA
may promulgate CAA section 111(d) regulations covering carbon
dioxide emissions from existing power plants notwithstanding
that power plants are regulated for their HAP emissions under
CAA section 112.
5. The Two Amendments Are Easily Reconciled And Can Be Given Full
Effect
Given that both the House and Senate amendments should be
read individually as having the same meaning in the context
presented in this rule, giving each amendment full effect is
straight-forward: the Section 112 Exclusion in section 111(d)
does not foreclose the regulation of non-HAP from a source
category regardless of whether that source category is also
regulated under CAA section 112. As applied here, the EPA has
the authority to promulgate CAA section 111(d) regulations for
CO2 from power plants notwithstanding that power plants are
regulated for HAP under CAA section 112.
C. Authority to Regulate EGUs
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In a separate, concurrent action, the EPA is also
finalizing a CAA section 111(b) rulemaking that regulates CO2
emissions from new, modified, and reconstructed EGUs. The
promulgation of these standards provides the requisite predicate
for applicability of CAA section 111(d).
CAA section 111(d)(1) requires the EPA to promulgate
regulations under which states must submit state plans
regulating “any existing source” of certain pollutants “to which
a standard of performance would apply if such existing source
were a new source.” A “new source” is “any stationary source,
the construction or modification of which is commenced after the
publication of regulations (or, if earlier, proposed
regulations) prescribing a standard of performance under [CAA
section 111] which will be applicable to such source.” It should
be noted that these provisions make clear that a “new source”
includes one that undertakes either new construction or a
modification. It should also be noted that the EPA’s
implementing regulations define “construction” to include
“reconstruction,” which the implementing regulations go on to
define as the replacement of components of an existing facility
to an extent that (i) the fixed capital cost of the new
components exceeds 50 percent of the fixed capital cost that
would be required to construct a comparable entirely new

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facility, and (ii) it is technologically and economically
feasible to meet the applicable standards.
Under CAA section 111(d)(1), in order for existing sources
to become subject to that provision, the EPA must promulgate
standards of performance under CAA section 111(b) to which, if
the existing sources were new sources, they would be subject.
Those standards of performance may include standards for sources
that undertake new construction, modifications, or
reconstructions.
The EPA is finalizing a rulemaking under CAA section 111(b)
for CO2 emissions from affected EGUs concurrently with this CAA
section 111(d) rulemaking, which will provide the requisite
predicate for applicability of CAA section 111(d).296
D. Definition of Affected Sources
For the emission guidelines, an affected EGU is any fossil
fuel-fired electric utility steam generating unit (i.e., utility
boiler or integrated gasification combined cycle (IGCC) unit) or
stationary combustion turbine that was in operation or had

In the past, the EPA has issued standards of performance under
section 111(b) and emission guidelines under section 111(d)
simultaneously. See “Standards of Performance for new Stationary
Sources and Guidelines for Control of Existing Sources:
Municipal Solid Waste Landfills – Final Rule,” 61 FR 9905 (March
12, 1996).
296

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commenced construction as of January 8, 2014,297 and that meets
the following criteria, which differ depending on the type of
unit. To be an affected EGU, such a unit, if it is a fossil
fuel-fired electric utility steam generating unit (i.e., a
utility boiler or IGCC unit), must serve a generator capable of
selling greater than 25 MW to a utility power distribution
system and have a base load rating greater than 260 GJ/h (250
MMBtu/h) heat input of fossil fuel (either alone or in
combination with any other fuel). If such a unit is a stationary
combustion turbine, the unit must meet the definition of a
combined cycle or combined heat and power combustion turbine,
serve a generator capable of selling greater than 25 MW to a
utility power distribution system, and have a base load rating
of greater than 260 GJ/h (250 MMBtu/h).
When considering and understanding applicability, the
following definitions may be helpful. Simple cycle combustion
turbine means any stationary combustion turbine which does not
recover heat from the combustion turbine engine exhaust gases
for purposes other than enhancing the performance of the
stationary combustion turbine itself. Combined cycle combustion

Under Section 111(a) of the CAA, determination of affected
sources is based on the date that the EPA proposes action on
such sources. January 8, 2014 is the date the proposed GHG
standards of performance for new fossil fuel-fired EGUs were
published in the Federal Register (79 FR 1430).
297

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turbine means any stationary combustion turbine which recovers
heat from the combustion turbine engine exhaust gases to
generate steam that is used to create additional electric power
output in a steam turbine. Combined heat and power (CHP)
combustion turbine means any stationary combustion turbine which
recovers heat from the combustion turbine engine exhaust gases
to heat water or another medium, generate steam for useful
purposes other than exclusively for additional electric
generation, or directly uses the heat in the exhaust gases for a
useful purpose. 
We note that certain affected EGUs are exempt from
inclusion in a state plan. Affected EGUs that may be excluded
from a state’s plan are (1) those units that are subject to
subpart TTTT as a result of commencing modification or
reconstruction; (2) steam generating units or IGCC units that
are currently and always have been subject to a federally
enforceable permit limiting net-electric sales to one-third or
less of its potential electric output or 219,000 MWh or less on
an annual basis; (3) non-fossil units (i.e., units that are
capable of combusting 50 percent or more non-fossil fuel) that
have historically limited the use of fossil fuels to 10 percent
or less of the annual capacity factor or are subject to a
federally enforceable permit limiting fossil fuel use to 10
percent or less of the annual capacity factor; (4) stationary
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combustion turbines that are not capable of combusting natural
gas (i.e., not connected to a natural gas pipeline); (5)
combined heat and power units that are subject to a federally
enforceable permit limiting, or have historically limited,
annual net electric sales to a utility power distribution system
to the product of the design efficiency and the potential
electric output or 219,000 MWh (whichever is greater) or less;
(6) units that serve a generator along with other steam
generating unit(s), IGCC(s), or stationary combustion turbine(s)
where the effective generation capacity (determined based on a
prorated output of the base load rating of each steam generating
unit, IGCC, or stationary combustion turbine) is 25 MW or less;
(7) municipal waste combustor unit subject to subpart Eb of Part
60; or (8) commercial or industrial solid waste incineration
units that are subject to subpart CCCC of Part 60.
The rationale for applicability of this final rule is
multi-fold. We had proposed that affected EGUs were those
existing fossil fuel-fired EGUs that met the applicability
criteria for coverage under the final GHG standards for new
fossil fuel-fired EGUs being promulgated under section 111(b).
However, we are finalizing that States need not include certain
units that would otherwise meet the CAA section 111(b)
applicability in this CAA section 111(d) emission guidelines.
These include simple cycle turbines, certain non-fossil units,
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and certain combined heat and power units. The final 111(b)
standards include applicability criteria for simple cycle
combustion turbines, for reasons relating to implementation and
minimizing emissions from all future combustion turbines.
However, for the following reasons none of the building blocks
would result in emission reductions from simple cycle turbines
so we are not requiring that States including them in their CAA
section 111(d) plans.
First, even more than combined cycle units, simple cycle
units have limited opportunities, compared to steam generating
units, to reduce their heat rate. Most combustion turbines
likely already follow the manufacturer’s recommended regular
preventive/restorative maintenance for both reliable and
efficiency reasons. These regularly scheduled maintenance
practices are highly effective methods to maintain heat rates,
and additional fleet-wide reductions from simple cycle
combustion turbines are likely less than 2 percent. In addition,
while approximately one-fifth of overall fossil fuel-fired
capacity (GW) consists of simple cycle turbines, these units
historically have operated at capacity factors of less than 5
percent and only provide about 1 percent of the fossil fuelfired generation (GWh). Combustion turbine capacity can
therefore only contribute CO2 emissions amounting to
approximately 2 percent of total coal-steam CO2 emissions. Any
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single-digit percentage reduction in combustion turbine heat
rates would therefore provide less than 1 percent reduction in
total fossil-fired CO2 emissions.
Further, we are not aware of an approach to estimate any
limited opportunities that existing simple cycle turbines may
have to reduce their heat rate. Similar to coal-steam EGUs, we
do not have the unit-specific detailed design information on
existing individual simple cycle combustion turbines that is
necessary for a detailed assessment of the heat rate improvement
potential via best practices and upgrades for each unit. While
the EPA could conduct a “variability analysis” of simple cycle
historical hourly heat rate data (as was done for coal-steam
EGUs), the various simple cycle models in use and the
historically lower capacity factors of the simple cycle fleet
(less run time per start, and more part load operation) would
require a simple cycle analysis that includes more complexity
and likely more uncertainty than in the coal-steam analysis.
Therefore, we do not consider it feasible to estimate potential
reductions due to heat rate improvements from simple cycle
turbines, and even if it were, we have concluded those
reductions would be negligible compared to the reductions from
steam generating units. Hence, we do not consider building block
1 as practically applicable to simple cycle units.

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Second, the vast majority of simple cycle turbines serve a
specific need – providing power during periods of peak electric
demand (i.e., peaking units). The existing block of simple cycle
turbines are the only units that are able to start fast enough
and ramp to full load quickly enough to serve as peaking units.
If these units were to be used under building block 2 to
displace higher emitting coal-fired units, they would no longer
be available to serve as peaking units. Therefore, building
block 2 could not be applied to simple cycle combustion turbines
without jeopardizing grid reliability.
Third, many commenters on the CAA section 111(b) proposal
stated that simple cycle turbines will be used to provide backup
power to intermittent renewable sources of power such as wind
and solar. Consequently, adding additional generation from
intermittent renewable sources has the potential to actually
increase emissions from simple cycle turbines. Therefore,
applying building block 3 based on the capacity of simple cycle
turbines would not result in emission reductions from simple
cycle combustion turbines. Finally, the EPA expects existing
simple cycle turbines to continue to operate as they
historically have operated, as peaking units. Including simple
cycle turbines in CAA section 111(d) applicability would impact
the numerical value of state goals, but it would not impact the

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stringency of the plans. Such inclusion would increase burden
but result in no environmental benefit.
Additionally, under CAA section 111(b) final applicability
criteria, new dedicated non-fossil and industrial CHP units are
not affected sources if they include permit restrictions on the
amount of fossil fuel they burn and the amount of electricity
they sell. Such units historically have had no regulatory
mandate to include permit requirements limiting the use of
fossil fuel or electric sales. We are exempting them from
inclusion in CAA section 111(d) state plans in the interest of
consistency with CAA section 111(b) and based on their
historical fuel use and electric sales.
We discuss changes in applicability of units in relation to
state plans in Section VIII of this preamble.
E. Combined Categories and Codification in the Code of Federal
Regulations
In this rulemaking, the EPA is combining the listing of
sources from the two existing source categories for the affected
EGUs, as listed in 40 CFR subpart Da and 40 CFR subpart KKKK,
into a single location, 40 CFR subpart UUUU, for purposes of
addressing the CO2 emissions from existing affected EGUs. The EPA
is also codifying all of the requirements for the affected EGUs
in a new subpart UUUU of 40 CFR part 60 and including all GHG
emission guidelines for the affected sources – fossil fuel–fired
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electric utility steam generating units, as well as stationary
combustion turbines -- in that newly created subpart.298
We believe that combining the emission guidelines for
affected sources into a new subpart UUUU is appropriate because
the emission guidelines the EPA is establishing do not vary by
type of source. Combining the listing of sources into one
location, subpart UUUU, will facilitate implementation of CO2
mitigation measures, such as shifting generation from higher to
lower-carbon intensity generation among existing sources (e.g.,
shifting from utility boilers to NGCC units), and emission
trading among sources in the source category.
As discussed in the January 8, 2014 proposal for the CAA
section 111(b) standards for GHG emissions from EGUs (79 FR
1430), in 1971 the EPA listed fossil fuel-fired steam generating
boilers as a new category subject to section 111 rulemaking, and
in 1979 the EPA listed fossil fuel-fired combustion turbines as
a new category subject to the CAA section 111 rulemaking. In the
ensuing years, the EPA has promulgated standards of performance
for the two categories and codified those standards, at various
times, in 40 CFR part 60 subparts D, Da, GG, and KKKK.
In the January 8, 2014 proposal, the EPA proposed separate
standards of performance for new sources in the two categories

The EPA is not codifying any of the requirements of this
rulemaking in subparts Da or KKKK.
298

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and proposed codifying the standards in the same Da and KKKK
subparts that currently contain the standards of performance for
conventional pollutants from those sources. In addition, the EPA
co-proposed combining the two categories into a single category
solely for purposes of the CO2 emissions from new construction of
affected EGUs, and codifying the proposed requirements in a new
40 CFR part 60 subpart TTTT. For the final standards of
performance for new construction of affected EGUs, the EPA is
codifying the final requirements in a new 40 CFR part 60 subpart
TTTT.
In this rulemaking, the EPA is combining the two listed source
categories into a single source category for purposes of the
emission guidelines for the CO2 emissions from existing affected
EGUs. Because the two source categories are pre-existing and the
EPA would not be subjecting any additional sources to
regulation, the combined source category is not considered a new
source category that the EPA must list under CAA section
111(b)(1)(A). As a result, this final rule does not list a new
source category under section 111(a)(1)(A), nor does this final
rule revise either of the two source categories – fossil fuel–
fired electric utility steam generating units and stationary
combustion turbines – that the EPA has already listed under that
provision. Thus, the EPA is not required to make a finding that
the combined source category causes or contributes significantly
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to air pollution which may reasonably be anticipated to endanger
public health or welfare.
V. The Best System of Emission Reduction and Associated Building
Blocks
In the June 2014 proposal, the EPA proposed to determine
that the best system of emission reduction adequately
demonstrated (BSER) for reducing CO2 emissions from existing EGUs
was a combination of measures –- (1) increasing the operational
efficiency of existing coal-fired steam EGUs, (2) substituting
increased generation at existing NGCC units for generation at
existing steam EGUs, (3) substituting generation from low- and
zero-carbon generating capacity for generation at existing
fossil fuel-fired EGUs, and (4) increasing demand-side EEto
reduce the amount of fossil fuel-fired generation –- which we
categorized as four “building blocks.” As an alternative to the
proposed building blocks 2, 3, and 4, the EPA also identified
reduced generation in the amount of those building blocks as
part of the BSER. These measures are not the only approaches
EGUs can take to reduce CO2, but are those that the EPA felt best
met the statutory criteria. We solicited comment on all aspects
of our BSER determination, including a broad array of other
approaches. We have considered thoroughly the extensive comments
submitted on a variety of topics related to the BSER and the
individual building blocks, along with our own continued
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analysis, and we are finalizing the BSER based on the first
three building blocks, with certain refinements.
Consistent with the approach taken in the proposed rule, in
determining the BSER we have taken account of the unique
characteristics of CO2 pollution, particularly its global nature,
huge quantities, and the limited means for controlling it; and
the unique characteristics of the source category, particularly
the exceptional degree of interconnectedness among individual
affected EGUs and the longstanding practice of coordinating
planning and operations across multiple sources, reflecting the
fact that each EGU’s function is interdependent with the
function of other EGUs. Each building block is a proven approach
for reducing emissions from the affected source category that is
appropriate in this pollutant- and industry-specific context.
The BSER also encompasses a variety of measures or actions that
individual affected EGUs could take to implement the building
blocks, including (i) direct investment in efficiency
improvements and in lower- and zero-carbon generation, (ii)
cross-investment in these activities through mechanisms such as
emissions trading approaches, where the state-established
standards of performance to which sources are subject
incorporate such approaches, and (iii) reduction of highercarbon generation.

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With attention to emission reduction costs, electricity
rates, and the importance of ensuring continued reliability of
electricity supplies, the individual building blocks and the
overall BSER have been defined not at the maximum possible
degree of stringency but at a reasonable degree of stringency
designed to appropriately balance consideration of the various
BSER factors. Additional, non-building block-specific aspects of
the BSER quantification methodology discussed below are
similarly mindful of these considerations. This approach to
determination of the BSER provides compliance headroom that
ensures that the emission limitations reflecting the BSER are
achievable by the source category, but nevertheless, as required
by the CAA, will result in meaningful reductions in CO2 emissions
from this sector. The wide range of actions encompassed in the
building blocks, and a further wide range of possible emissionsreducing actions not included in the BSER but nevertheless
available to help with compliance, ensure that those emission
limitations are achievable by individual affected EGUs as well.
The final BSER incorporates certain changes from the
proposed rule, reflecting the EPA’s consideration of comments
responding to the approaches outlined in the proposal and our
own further analysis. The principal changes are the exclusion
from the BSER of emission reductions achievable through demandside EE and through nuclear generation; a revised approach to
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determination of emission reductions achievable through
increased RE generation; a consistent approach to determination
of emission reductions achievable through all the building
blocks that better reflects the regional nature of the
electricity system and entails separate analyses for the
Eastern, Western, and Texas Interconnections; and a revised
interim goal period of 2022 to 2029 (instead of the proposed
interim period of 2020 to 2029). These changes to the BSER and
the building blocks are discussed in more detail later in this
section of the preamble.
Also, to address concerns identified in the proposal and
the October 30, 2014 Notice of Data Availability and in response
to associated comments, in the final rule we have represented
the emission limitations achievable through the BSER in the form
of uniform CO2 emission performance rates for each of two
affected source subcategories: steam generating units and
stationary combustion turbines. However, like the proposed rule,
the final rule also provides weighted-average state-specific
goals that a state may choose as an alternative method for
complying with its obligation to set standards of performance
for its affected EGUs -– an alternative, that is, to adopting
the nationwide subcategory-based CO2 emission performance rates
as the standard of performance for its affected EGUs. The
reformulation of the emission limitations as uniform CO2 emission
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performance rates is discussed in this section and in section VI
of the preamble, and the relation of the performance rates to
the state-specific goals and states’ section 111(d) plan options
is discussed in sections VII and VIII of the preamble.
Section V.A. describes our determination of the final BSER,
including a discussion of the associated emissions performance
level, and provides the rationale for our determination. In
section V.B. we address certain legal issues in greater detail,
including key issues raised in comments. Sections V.C. through
V.E. contain more detailed discussions of the three individual
building blocks included in the final BSER. Further information
can be found in the GHG Mitigation Measures TSD for the CPP
Final Rule, the CO2 Emission Performance Rate and Goal
Computation TSD for the CPP Final Rule, the Response to Comments
document, and, about certain topics, the Legal Memorandum for
the Clean Power Plan Final Rule, all of which are available in
the docket.
A. The Best System of Emission Reduction
This section sets forth our determination of the BSER for
reducing CO2 emissions from existing EGUs, including a discussion
of the associated emissions performance level, and the rationale
for that determination. In section V.A.1., we describe the legal
framework for determination of the BSER in general. Section
V.A.2. summarizes the determination of the BSER for this rule.
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In section V.A.3., we discuss changes from the proposal. Section
V.A.4. provides more detail on our determination of the BSER,
including our determinations regarding the individual elements
of the BSER, as applied to the two subcategories of fossil steam
units and combustion turbines. In section V.A.5., we explain the
specific actions that individual affected EGUs in the two
subcategories may take to implement the building blocks and
thereby achieve the EPA-identified source subcategory-specific
emission performance rates that, in turn, form the basis for the
standards of performance that states must set. Because these
actions implement the building blocks, they may be understood as
part of the BSER. In this discussion, we recognize that states
can choose to set sources’ standards of performance in different
forms and that the form of the standard affects how various
types of actions can be used to comply with the standard. In
section V.A.6., we discuss the substantial compliance
flexibility provided by additional measures, not included in the
BSER, that individual affected EGUs can use to achieve their
standards of performance. Finally, section V.A.7. addresses the
severability of the building blocks.
1. Legal requirements for BSER in the emission guidelines
a. Introduction. In the June 2014 proposal for this rule, we
described the principal legal requirements for standards of
performance under CAA section 111(d)(1) and (a)(1). We based our
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description in part on our discussion of the legal requirements
for standards of performance under CAA section 111(b) and
(a)(1), which we included in the January 2014 proposal for
standards of performance for CO2 emissions from new fossil fuelfired EGUs. In the latter proposal, we noted that the D.C.
Circuit has handed down numerous decisions that interpret CAA
section 111(a)(1), including its component elements, and we
reviewed that case law in detail.299
We received comments on our proposed interpretation, and in
light of those comments, in this final rule, we are clarifying
our interpretation in certain respects. We discuss our
interpretation below.300
b. CAA requirements and court interpretation.301 Section

299

79 FR 1430, 1462 (January 8, 2014).
We also discuss our interpretation of the requirements for
standards of performance and the BSER under section 111(b), for
new sources, in the section 111(b) rulemaking that the EPA is
finalizing simultaneously with this rule and in the Legal
Memorandum for this rule. Our interpretations of these
requirements in the two rules are generally consistent except to
the extent that they reflect distinctions between new and
existing sources. For example, as discussed in the section
111(b) rule, the legislative history indicates that Congress
intended that the BSER for new industrial facilities, which were
expected to have lengthy useful lives, would include the most
advanced pollution controls available, but Congress had a
broader conception of the BSER for existing facilities.
301 Our interpretation of the CAA provisions at issue is guided
by Chevron U.S.A. Inc. v. NRDC, 467 U.S. 837, 842-43 (1984). In
Chevron, the U.S. Supreme Court set out a two-step process for
agency interpretation of statutory requirements: the agency
must, at step 1, determine whether Congress’s intent as to the
300

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111(d)(1) directs the EPA to promulgate regulations establishing
a section 110-like procedure under which states submit state
plans that establish “standards of performance” for emissions of
certain air pollutants from sources which, if they were new
sources, would be regulated under section 111(b), and that
implement and enforce those standards of performance.
The term “standard of performance” is defined to mean—
a standard for emissions of air pollutants which reflects
the degree of emission limitation achievable through the
application of the best system of emission reduction which
(taking into account the cost of achieving such reduction
and any nonair quality health and environmental impact and
energy requirements) the Administrator determines has been
adequately demonstrated.
Section 111(a)(1).
These provisions authorize the EPA to determine the BSER
for the affected sources and, based on the BSER, to establish
emission guidelines that identify the minimum amount of emission
limitation that a state, in its state plan, must impose on its
sources through standards of performance. Consistent with these
CAA requirements, the EPA’s regulations require that the EPA’s
guidelines reflect-the degree of emission reduction achievable through the
application of the best system of emission reduction which
specific matter at issue is clear, and, if so, the agency must
give effect to that intent. If congressional intent is not
clear, then, at step 2, the agency has discretion to fashion an
interpretation that is a reasonable construction of the statute.

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(taking into account the cost of such reduction) the
Administrator has determined has been adequately
demonstrated.302
The EPA’s approach in this rulemaking is to determine the
BSER on a source subcategory-wide basis, to determine the
emission limitation that results from applying the BSER to the
sources in the subcategory, and then to establish emission
guidelines for the states that incorporate those emission
limitations. The EPA expresses these emission limitations in the
form of emission performance rates, and they must be achievable
by the source subcategory through the application of the BSER.
Following the EPA’s promulgation of emission guidelines,
each state must determine the standards of performance for its
sources, which the EPA’s regulations call “designated
facilities.”303 A state has broad discretion in doing so. CAA
section 111(d)(1) requires the EPA’s regulations to “permit the
State in applying a standard of performance to any particular
source ... to take into consideration, among other factors, the
remaining useful life of the ... source....”304 In addition,

302

40 CFR 60.21(e). This definition was promulgated as part of
the EPA’s CAA 111(d) implementing regulations and was not
updated to reflect the textual changes adopted by Congress in
1977. That said, Congress recognized that those changes “merely
make[] explicit what was implicit in the previous language.”
H.R. Rep. No. 95-294, at 190 (May 12, 1977).
303 40 CFR 60.24(b)(3).
304 The EPA’s regulations, promulgated prior to enactment of the
“remaining useful life” provision of section 111(d)(1), provide:
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under CAA section 116, the state is authorized to set a standard
of performance for any particular source that is more stringent
than the emission limit contained in the EPA’s emission
guidelines.305 Thus, for any particular source, a state may apply
a standard of performance that is either more stringent or less
stringent than the performance level in the emission guidelines,
as long as, in total, the state’s sources achieve at least the
same degree of emission limitation as included in the EPA’s
emission guidelines. The states must include the standards of
performance in their state plans and submit the plans to the EPA
for review.306 Under CAA section 111(d)(2)(A), the EPA approves
state plans as long as they are “satisfactory.”
As noted in the January 2014 proposal and discussed in more
detail above under section II.G, Congress first included the

“Unless otherwise specified in the applicable subpart on a caseby-case basis for particular designated facilities, or classes
of facilities, States may provide for the application of less
stringent emission standards or longer compliance schedules than
those otherwise required” by the corresponding emission
guideline. 40 CFR 60.24(f). Some of the factors that a state may
consider for this case-by-case analysis include the “cost of
control resulting from plant age, location, or basic process
design” and the “physical impossibility of installing necessary
control equipment,” among other factors “that make application
of a less stringent standard or final compliance time
significantly more reasonable.” Id.
305 In addition, CAA section 116 authorizes the state to set
standards of performance for all of its sources that, together,
are more stringent than the EPA’s emission guidelines.
306 40 CFR 60.23.
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definition of “standard of performance” when enacting CAA
section 111 in the 1970 Clean Air Act Amendments (CAAA), amended
it in the 1977 CAAA, and then amended it again in the 1990 CAAA
to largely restore the definition as it read in the 1970 CAAA.
It is in the legislative history for the 1970 and 1977 CAAA that
Congress primarily addressed the definition as it read at those
times and that legislative history provides guidance in
interpreting this provision.307 In addition, although the D.C.

307

In the 1970 CAAA, Congress defined “standard of performance,”
under §111(a)(1), as:
a standard for emissions of air pollutants which
reflects the degree of emission limitation achievable
through the application of the best system of emission
reduction which (taking into account the cost of
achieving such reduction) the Administrator determines
has been adequately demonstrated.
In the 1977 CAAA, Congress revised the definition to
distinguish among different types of sources, and to require
that for fossil fuel-fired sources, the standard (i) be based
on, in lieu of the “best system of emission reduction ...
adequately demonstrated,” the “best technological system of
continuous emission reduction ... adequately demonstrated;” and
(ii) require a percentage reduction in emissions. In addition,
in the 1977 CAAA, Congress expanded the parenthetical
requirement that the Administrator consider the cost of
achieving the reduction to also require the Administrator to
consider “any nonair quality health and environment impact and
energy requirements.”
In the 1990 CAAA, Congress again revised the definition,
this time repealing the requirements that the standard of
performance be based on the best technological system and
achieve a percentage reduction in emissions, and replacing those
provisions with the terms used in the 1970 CAAA version of
§111(a)(1) that the standard of performance be based on the
“best system of emission reduction ... adequately demonstrated.”
This 1990 CAAA version is the current definition, which is
applicable at present. Even so, because parts of the definition
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Circuit has never reviewed a section 111(d) rulemaking, the
Court has reviewed section 111(b) rulemakings on numerous
occasions during the past 40 years, handing down decisions dated
from 1973 to 2011,308 through which the Court has developed a
body of case law that interprets the term “standard of
performance.”
c. Key elements of interpretation. The emission guidelines
promulgated by the Administrator must include emission
limitations that are “achievable” by the source category by
application of a “system of emission reduction” that is
“adequately demonstrated” and that the EPA determines to be the
“best,” “taking into account” the factors of “cost … nonair
quality health and environmental impact and energy
requirements.” The D.C. Circuit has stated that in determining
the “best” system, the EPA must also take into account “the
amount of air pollution”309 reduced and the role of

as it read under the 1977 CAAA were retained in the 1990 CAAA,
the explanation in the 1977 CAAA legislative history, and the
interpretation in the case law, of those parts of the definition
in the case law remain relevant to the definition as it reads
today.
308 Portland Cement Ass’n v. Ruckelshaus, 486 F.2d 375 (D.C. Cir.
1973); Essex Chemical Corp. v. Ruckelshaus, 486 F.2d 427, (D.C.
Cir. 1973); Portland Cement Ass’n v. EPA, 665 F.3d 177 (D.C.
Cir. 2011). See also Delaware v. EPA, No. 13-1093 (D.C. Cir. May
1, 2015).
309 See Sierra Club v. Costle, 657 F.2d 298, 326 (D.C. Cir.
1981).
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“technological innovation.”310 The Court has emphasized that the
EPA has discretion in weighing those various factors.311,

312

Our overall approach to determining the BSER and emission
guidelines, which incorporates the various elements, is as
follows: In developing an emission guideline, we generally
engage in an analytical approach that is similar to what we
conduct under CAA section 111(b) for new sources. First, we
identify “system[s] of emission reduction” that have been
“adequately demonstrated” for a particular source category.
Second, we determine the “best” of these systems after
evaluating the amount of reductions, costs, any nonair health
and environmental impacts, energy requirements, and, in the
alternative, the advancement of technology (that is, we apply a

310

See Sierra Club v. Costle, 657 F.2d at 347.
See Lignite Energy Council v. EPA, 198 F.3d 930, 933 (D.C.
Cir. 1999).
312 Although CAA section 111(a)(1) may be read to state that the
factors enumerated in the parenthetical are part of the
“adequately demonstrated” determination, the D.C. Circuit’s case
law appears to treat them as part of the “best” determination.
See Sierra Club v. Costle, 657 F.2d at 330 (recognizing that CAA
section 111 gives the EPA authority “when determining the best
technological system to weigh cost, energy, and environmental
impacts”). Nevertheless, it does not appear that those two
approaches would lead to different outcomes. See, e.g., Lignite
Energy Council v. EPA, 198 F.3d 930, 933 (D.C. Cir. 1999)
(rejecting challenge to the EPA’s cost assessment of the “best
demonstrated system”). In this rule, the EPA treats the factors
as part of the “best” determination, but, as noted, even if the
factors were part of the “adequately demonstrated”
determination, our analysis and outcome would be the same.
311

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formulation of the BSER with the above noted factors, and then,
in the alternative, we apply a formulation of the BSER with
those same factors plus the advancement of technology). And
third, we select an achievable emission limit –- here, the
emission performance rates -- based on the BSER.313 In contrast
to subsection (b), however, subsection (d)(1) assigns to the
states, not the EPA, the obligation of setting standards of
performance for the affected sources. As discussed below in the
following subsection, in examining the range of reasonable
options for states to consider in setting standards of
performance under these guidelines, we identified a number of
considerations, including the interconnected operations of the
affected sources and the characteristics of the CO2 pollutant.
The remainder of this subsection discusses the various
elements in our general analytical approach.
(1) System of emission reduction.
As we discuss below, the CAA does not define the phrase
“system of emission reduction.” The ordinary, everyday meaning
of “system” is a set of things or parts forming a complex whole;
a set of principles or procedures according to which something

313

See, e.g., Oil and Natural Gas Sector: New Source Performance
Standards and National Emission Standards for Hazardous Air
pollutants Reviews, 77 FR 49490, 49494 (Aug. 16, 2012)
(describing the three-step analysis in setting a standard of
performance).
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is done; an organized scheme or method; and a group of
interacting, interrelated, or interdependent elements.314 With
this definition, the phrase “system of emission reduction” takes
a broad meaning: a set of measures that work together to reduce
emissions. The EPA interprets this phrase to carry an important
limitation: because the emission guidelines for the existing
sources must reflect “the degree of emission limitation
achievable through the application of the best system of
emission reduction … adequately demonstrated,” the system must
be limited to measures that can be implemented -– “appl[ied]” -by the sources themselves, that is, as a practical matter, by
actions taken by the owners or operators of the sources. As we
discuss below, this definition is sufficiently broad to include
the building blocks.
(2) “Adequately demonstrated.”
Under section 111(a)(1), in order for a “system of emission
reduction” to serve as the basis for an “achievable” emission
limitation, the Administrator must determine that the system is

314

Oxford Dictionary of English (3rd ed.) (2010), available at
http://www.oxforddictionaries.com/us/definition/american_english
/system; see also American Heritage Dictionary (5th ed.) (2013),
available at
http://www.yourdictionary.com/system#americanheritage; and The
American College Dictionary (C.L. Barnhart, ed. 1970) (“an
assemblage or combination of things or parts forming a complex
or unitary whole”).
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“adequately demonstrated.” This means, according to the D.C.
Circuit, that the system is “one which has been shown to be
reasonably reliable, reasonably efficient, and which can
reasonably be expected to serve the interests of pollution
control without becoming exorbitantly costly in an economic or
environmental way.”315 It does not mean that the system “must be
in actual routine use somewhere.”316 Rather, the Court has said,
“[t]he Administrator may make a projection based on existing
technology, though that projection is subject to the restraints
of reasonableness and cannot be based on ‘crystal ball’
inquiry.”317 Similarly, the EPA may “hold the industry to a
standard of improved design and operational advances, so long as
there is substantial evidence that such improvements are
feasible.”318 Ultimately, the analysis “is partially dependent on
‘lead time,’” that is, “the time in which the technology will
have to be available.”319 Unlike for CAA section 111(b) standards
that are applicable immediately after the effective date of

315

Essex Chem. Corp. v. Ruckelshaus, 486 F.2d 427, 433 (D.C.
Cir. 1973), cert. denied, 416 U.S. 969 (1974).
316 Portland Cement Ass’n v. Ruckelshaus, 486 F.2d 375, 391 (D.C.
Cir. 1973) (citations omitted) (discussing the Senate and House
bills and reports from which the language in CAA section 111
grew).
317 Portland Cement Ass’n v. Ruckelshaus, 486 F.2d 375, 391 (D.C.
Cir. 1973) (citations omitted).
318 Sierra Club v. Costle, 657 F.2d 298, 364 (1981).
319 Portland Cement Ass’n v. Ruckelshaus, 486 F.2d 375, 391 (D.C.
Cir. 1973) (citations omitted).
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their promulgation, under CAA section 111(e), compliance with
CAA section 111(d) standards may be set sometime in the future.
This is due, in part, to the period of time for states to submit
state plans and for the EPA to act on them.
(3) “Best.”
In determining which adequately demonstrated system of
emission reduction is the “best,” the EPA considers the
following factors:
(a) Costs.
Under CAA section 111(a)(1), the EPA is required to take
into account “the cost of achieving” the required emission
reductions. As described in the January 2014 proposal,320 in
several cases the D.C. Circuit has elaborated on this cost
factor and formulated the cost standard in various ways, stating
that the EPA may not adopt a standard the cost of which would be
“exorbitant,”321 “greater than the industry could bear and
survive,”322 “excessive,”323 or “unreasonable.”324 These
formulations appear to be synonymous, and for convenience, in
this rulemaking, we will use reasonableness as the standard, so

320

79 FR 1430, 1464 (January 8, 2014).
Lignite Energy Council v. EPA, 198 F.3d 930, 933 (D.C. Cir.
1999).
322 Portland Cement Ass’n v. EPA, 513 F.2d 506, 508 (D.C. Cir.
1975).
323 Sierra Club v. Costle, 657 F.2d 298, 343 (D.C. Cir. 1981).
324 Sierra Club v. Costle, 657 F.2d 298, 343 (D.C. Cir. 1981).
321

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that a control technology may be considered the “best system of
emission reduction ... adequately demonstrated” if its costs are
reasonable, but cannot be considered the best system if its
costs are unreasonable.325,

326

The D.C. Circuit has repeatedly upheld the EPA’s
consideration of cost in reviewing standards of performance. In

325

These cost formulations are consistent with the legislative
history of section 111. The 1977 House Committee Report noted:
In the [1970] Congress [sic: Congress’s] view, it was
only right that the costs of applying best practicable
control technology be considered by the owner of a
large new source of pollution as a normal and proper
expense of doing business.
1977 House Committee Report at 184. Similarly, the 1970 Senate
Committee Report stated:
The implicit consideration of economic factors in
determining whether technology is “available” should
not affect the usefulness of this section. The
overriding purpose of this section would be to prevent
new air pollution problems, and toward that end,
maximum feasible control of new sources at the time of
their construction is seen by the committee as the
most effective and, in the long run, the least
expensive approach.
S. Comm. Rep. No. 91-1196 at 16.
326 We received comments that we do not have authority to revise
the cost standard as established in the case law, e.g.,
“exorbitant,” “excessive,” etc., to a “reasonableness” standard
that the commenters considered less protective of the
environment. We agree that we do not have authority to revise
the cost standard as established in the case law, and we are not
attempting to do so here. Rather, our description of the cost
standard as “reasonableness” is intended to be a convenient term
for referring to the cost standard as established in the case
law.
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several cases, the Court upheld standards that entailed
significant costs, consistent with Congress’s view that “the
costs of applying best practicable control technology be
considered by the owner of a large new source of pollution as a
normal and proper expense of doing business.”327 See Essex
Chemical Corp. v. Ruckelshaus, 486 F.2d 427, 440 (D.C. Cir.
1973);328 Portland Cement Association v. Ruckelshaus, 486 F.2d
375, 387-88 (D.C. Cir. 1973); Sierra Club v. Costle, 657 F.2d
298, 313 (D.C. Cir. 1981) (upholding standard imposing controls
on SO2 emissions from coal-fired power plants when the “cost of
the new controls ... is substantial”).329
As discussed below, the EPA may consider costs on both a
source-specific basis and a sector-wide, regional, or nationwide
basis.
(b) Non-air health and environmental impacts.
Under CAA section 111(a)(1), the EPA is required to take

327

1977 House Committee Report at 184.
The costs for these standards were described in the
rulemakings. See 36 FR 24876 (December 23, 1971), 37 FR 5767,
5769 (March 21, 1972).
329 Indeed, in upholding the EPA’s consideration of costs under
other provisions requiring consideration of cost, courts have
also noted the substantial discretion delegated to the EPA to
weigh cost considerations with other factors. Chemical Mfr’s
Ass’n v. EPA, 870 F. 2d 177, 251 (5th Cir. 1989); Association of
Iron and Steel Inst. v. EPA, 526 F. 2d 1027, 1054 (3d Cir.
1975); Ass’n of Pacific Fisheries v. EPA, 615 F. 2d 794, 808
(9th Cir. 1980).
328

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into account “any nonair quality health and environmental
impact” in determining the BSER. As the D.C. Circuit has
explained, this requirement makes explicit that a system cannot
be “best” if it does more harm than good due to cross-media
environmental impacts.330
(c) Energy considerations.
Under CAA section 111(a)(1), the EPA is required to take
into account “energy requirements.” As discussed below, the EPA
may consider energy requirements on both a source-specific basis
and a sector-wide, region-wide, or nationwide basis. Considered
on a source-specific basis, “energy requirements” entails, for
example, the impact, if any, of the system of emission reduction
on the source’s own energy needs.
(d) Amount of emissions reductions.
In the proposed rulemakings for this rule and the
associated section 111(b) rule, we noted that although the
definition of “standard of performance” does not by its terms
identify the amount of emissions from the category of sources or
the amount of emission reductions achieved as factors the EPA
must consider in determining the “best system of emission
reduction,” the D.C. Circuit has stated that the EPA must do so.

330

Portland Cement v. EPA, 486 F. 2d at 384; Sierra Club v.
Costle, 657 F. 2d at 331; see also Essex Chemical Corp. v.
Ruckelshaus, 486 F. 2d at 439 (remanding standard to consider
solid waste disposal implications of the BSER determination).
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See Sierra Club v. Costle, 657 F.2d 298, 326 (D.C. Cir. 1981)
(“we can think of no sensible interpretation of the statutory
words “best ... system” which would not incorporate the amount
of air pollution as a relevant factor to be weighed when
determining the optimal standard for controlling …
emissions”).331 The fact that the purpose of a “system of
emission reduction” is to reduce emissions, and that the term
itself explicitly incorporates the concept of reducing
emissions, supports the Court’s view that in determining whether
a “system of emission reduction” is the “best,” the EPA must
consider the amount of emission reductions that the system would
yield. Even if the EPA were not required to consider the amount
of emission reductions, the EPA has the discretion to do so, on
grounds that either the term “system of emission reduction” or
the term “best” may reasonably be read to allow that discretion.
(e) Sector- or nationwide component of factors in
determining the BSER.

331

Sierra Club v. Costle, 657 F.2d 298 (D.C. Cir. 1981) was
governed by the 1977 CAAA version of the definition of “standard
of performance,” which revised the phrase “best system of
emission reduction” to read, “best technological system of
continuous emission reduction.” As noted above, the 1990 CAAA
deleted “technological” and “continuous” and thereby returned
the phrase to how it read under the 1970 CAAA. The court’s
interpretation of the 1977 CAAA phrase in Sierra Club v. Costle
to require consideration of the amount of air emissions remains
valid for the 1990 CAAA phrase “best system of emission
reduction.”
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As discussed in the January 2014 proposal for the section
111(b) rulemaking and the proposal for this rulemaking, another
component of the D.C. Circuit’s interpretations of CAA section
111 is that the EPA may consider the various factors it is
required to consider on a national or regional level and over
time, and not only on a plant-specific level at the time of the
rulemaking.332 The D.C. Circuit based this interpretation – which
it made in the 1981 Sierra Club v. Costle case, which concerned
the NSPS for new power plants -- on a review of the legislative
history, stating,
[T]he Reports from both Houses on the Senate and House
bills illustrate very clearly that Congress itself was
using a long-term lens with a broad focus on future
costs, environmental and energy effects of different
technological systems when it discussed section 111.333
The Court has upheld EPA rules that the EPA “justified ... in
terms of the policies of the Act,” including balancing long-term
national and regional impacts:
The standard reflects a balance in environmental,
economic, and energy consideration by being
sufficiently stringent to bring about substantial
reductions in SO2 emissions (3 million tons in 1995)
yet does so at reasonable costs without significant
energy penalties.... By achieving a balanced coal
demand within the utility sector and by promoting the
development of less expensive SO2 control technology,
the final standard will expand environmentally
332

79 FR 1430, 1465 (January 8, 2014) (citing Sierra Club v.
Costle, 657 F.2d at 351).
333 Sierra Club v. Costle, 657 F.2d at 331 (citations omitted)
(citing legislative history).
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acceptable energy supplies to existing power plants
and industrial sources.
By substantially reducing SO2 emissions, the standard
will enhance the potential for long term economic
growth at both the national and regional levels.334
In this rule, the EPA is considering costs and energy
implications on the basis of (i) their source-specific
impacts and (ii) a sector-wide, regional, or national
basis, both separately and in combination with each other.
(4) Achievability of the emission limitation in the
emission guidelines.
Before discussing the requirement under section 111(d) that
the emission limitation in the emission guidelines must be
“achievable,” it is useful to discuss the comparable requirement
under section 111(b) for new sources. For new sources, CAA
section 111(b)(1)(B) and (a)(1) provides that the EPA must
establish “standards of performance,” which are standards for
emissions that reflect the degree of emission limitation that is
“achievable” through the application of the BSER. According to
the D.C. Circuit, a standard of performance is “achievable” if a
technology can reasonably be projected to be available to an

334

Sierra Club v. Costle, 657 F.2d at 327-28 (quoting 44 FR at
33583/3-33584/1). In the January 2014 proposal, we explained
that although the D.C. Circuit decided Sierra Club v. Costle
before the Chevron case was decided in 1984, the D.C. Circuit’s
decision could be justified under either Chevron step 1 or 2. 79
FR 1430, 1466 (January 8, 2014).
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individual source at the time it is constructed that will allow
it to meet the standard.335 Moreover, according to the Court,
”[a]n achievable standard is one which is within the realm of
the adequately demonstrated system’s efficiency and which, while
not at a level that is purely theoretical or experimental, need
not necessarily be routinely achieved within the industry prior
to its adoption.”336 To be achievable, a standard “must be
capable of being met under most adverse conditions which can
reasonably be expected to recur and which are not or cannot be
taken into account in determining the ‘costs’ of compliance.”337
To show a standard is achievable, the EPA must “(1) identify
variable conditions that might contribute to the amount of
expected emissions, and (2) establish that the test data relied
on by the agency are representative of potential industry-wide
performance, given the range of variables that affect the
achievability of the standard.”338

335

Sierra Club v. Costle, 657 F.2d 298, 364, n. 276 (D.C. Cir.
1981).
336 Essex Chem. Corp. v. Ruckelshaus, 486 F.2d 427, 433-34 (D.C.
Cir. 1973), cert. denied, 416 U.S. 969 (1974).
337 Nat’l Lime Ass’n v. EPA, 627 F.2d 416, 433, n.46 (D.C. Cir.
1980).
338 Sierra Club v. Costle, 657 F.2d 298, 377 (D.C. Cir. 1981)
(citing Nat’l Lime Ass’n v. EPA, 627 F.2d 416 (D.C. Cir. 1980).
In considering the representativeness of the source tested, the
EPA may consider such variables as the “‘feedstock, operation,
size and age’ of the source.” Nat’l Lime Ass’n v. EPA, 627 F.2d
416, 433 (D.C. Cir. 1980). Moreover, it may be sufficient to
“generalize from a sample of one when one is the only available
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The D.C. Circuit established these standards for
achievability in cases concerning CAA section 111(b) new source
standards of performance. There is no case law under CAA section
111(d). Assuming that those standards for achievability apply
under section 111(d), in this rulemaking, we are taking a
similar approach for the emission limitation that the EPA
identifies in the emission guidelines. For existing sources,
section 111(d)(1) requires the EPA to establish requirements for
state plans that, in turn, must include “standards of
performance.” Through long-standing regulations339 and consistent
practice, the EPA has interpreted this provision to require the
EPA to promulgate emission guidelines that determine the BSER
for a source category and that identify the amount of emission
limitation achievable by application of the BSER.
The EPA has promulgated these emission guidelines on the
basis that the existing sources can achieve the limitation, even
though the state retains discretion to apply standards of
performance to individual sources that are more or less
stringent.
(a) Technical feasibility.
As indicated in the proposed rulemakings for this rule and

sample, or when that one is shown to be representative of the
regulated industry along relevant parameters.” Nat’l Lime Ass’n
v. EPA, 627 F.2d 416, 434, n.52 (D.C. Cir. 1980).
339 40 CFR 60.21(e).
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the associated section 111(b) rule, the requirement that the
emission limitation in the emission guidelines be “achievable”
based on the “best system of emission reduction ... adequately
demonstrated” indicates that the technology or other measures
that the EPA identifies as the BSER must be technically
feasible. See 79 FR 1430, 1463 (January 8, 2014). At least in
some cases, in determining whether the emission limitation is
achievable, it is useful to analyze the technical feasibility of
the system of emission reduction, and we do so in this
rulemaking.
(5) Expanded use and development of technology.
The D.C. Circuit has long held that Congress intended for
CAA section 111 to create incentives for new technology and
therefore that the EPA is required to consider technological
innovation as one of the factors in determining the “best system
of emission reduction.” See Sierra Club v. Costle, 657 F.2d at
346-47. The Court has grounded its reading in the statutory
text.340 In addition, the Court’s interpretation finds firm

340

Sierra Club v. Costle, 657 F. 2d at 346 (“Our interpretation
of section 111(a) is that the mandated balancing of cost,
energy, and nonair quality health and environmental factors
embraces consideration of technological innovation as part of
that balance. The statutory factors which EPA must weigh are
broadly defined and include within their ambit subfactors such
as technological innovation.”).
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support in the legislative history.341 The legislative history
identifies three different ways that Congress designed CAA
section 111 to authorize standards of performance that promote
technological improvement: (i) the development of technology
that may be treated as the “best system of emission reduction …
adequately demonstrated;” under section 111(a)(1);342 (ii) the
expanded use of the best demonstrated technology;343 and (iii)
the development of emerging technology.344 Even if the EPA were
not required to consider technological innovation as part of its
determination of the BSER, it would be reasonable for the EPA to
consider it, either because technological innovation may be
considered an element of the term “best,” or because the term
“best system of emission reduction” is ambiguous as to whether

341

See S. Rep. No. 91-1196 at 16 (1970) (“Standards of
performance should provide an incentive for industries to work
toward constant improvement in techniques for preventing and
controlling emissions from stationary sources”); S. Rep. No. 95127 at 17 (1977) (cited in Sierra Club v. Costle, 657 F.2d at
346 n. 174) (“The section 111 Standards of Performance ...
sought to assure the use of available technology and to
stimulate the development of new technology”).
342 See Portland Cement Ass’n v.Ruckelshaus, 486 F.2d 375, 391
(D.C. Cir. 1973) (the best system of emission reduction must
“look[] toward what may fairly be projected for the regulated
future, rather than the state of the art at present”).
343 See 1970 Senate Committee Report No. 91-1196 at 15 (“The
maximum use of available means of preventing and controlling air
pollution is essential to the elimination of new pollution
problems”).
344 See Sierra Club v. Costle, 657 F.2d at 351 (upholding a
standard of performance designed to promote the use of an
emerging technology).
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technological innovation may be considered, and it is reasonable
for the EPA to interpret it to authorize consideration of
technological innovation in light of Congress’s emphasis on
technological innovation.
In any event, as discussed below, the EPA may justify the
control measures identified in this rule as the BSER even
without considering the factor of incentivizing technological
innovation or development.
(6) EPA discretion.
The D.C. Circuit has made clear that the EPA has broad
discretion in determining the appropriate standard of
performance under the definition in CAA section 111(a)(1),
quoted above. Specifically, in Sierra Club v. Costle, 657 F.2d
298 (D.C. Cir. 1981), the Court explained that “section 111(a)
explicitly instructs the EPA to balance multiple concerns when
promulgating a NSPS,”345 and emphasized that “[t]he text gives
the EPA broad discretion to weigh different factors in setting
the standard.”346 In Lignite Energy Council v. EPA, 198 F.3d 930
(D.C. Cir. 1999), the Court reiterated:
Because section 111 does not set forth the weight that
345

Sierra Club v. Costle, 657 F.2d at 319.
Sierra Club v. Costle, 657 F.2d at 321; see also New York v.
Reilly, 969 F. 2d at 1150 (because Congress did not assign the
specific weight the Administrator should assign to the statutory
elements, “the Administrator is free to exercise [her]
discretion” in promulgating an NSPS).

346

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should be assigned to each of these factors, we have
granted the agency a great degree of discretion in
balancing them…. EPA's choice [of the ‘best system’]
will be sustained unless the environmental or economic
costs of using the technology are exorbitant…. EPA
[has] considerable discretion under section 111.347
d. Approach to the source category and subcategorizing. Section
111 requires the EPA first to list source categories that may
reasonably be expected to endanger public health or welfare and
then to regulate new sources within each such source category.
Section 111(b)(2) grants the EPA discretion whether to
“distinguish among classes, types, and sizes within categories
of new sources for the purpose of establishing [new source]
standards,” which we refer to as “subcategorizing.” Section
111(d)(1), in conjunction with section 111(a)(1), simply
requires the EPA to determine the BSER, does not prescribe the
method for doing so, and is silent as to whether the EPA may
subcategorize. The EPA interprets this provision to authorize
the EPA to exercise discretion as to whether and, if so, how to

347

Lignite Energy Council v. EPA, 198 F.3d 930, 933 (D.C. Cir.
1999) (paragraphing revised for convenience). See New York v.
Reilly, 969 F.2d 1147, 1150 (D.C. Cir. 1992) (“Because Congress
did not assign the specific weight the Administrator should
accord each of these factors, the Administrator is free to
exercise his discretion in this area.”); see also NRDC v. EPA,
25 F.3d 1063, 1071 (D.C. Cir. 1994) (EPA did not err in its
final balancing because “neither RCRA nor EPA’s regulations
purports to assign any particular weight to the factors listed
in subsection (a)(3). That being the case, the Administrator was
free to emphasize or deemphasize particular factors, constrained
only by the requirements of reasoned agency decisionmaking.”).

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subcategorize. In addition, the regulations under CAA section
111(d) provide -The Administrator will specify different emission
guidelines or compliance times or both for different
sizes, types, and classes of designated facilities
when costs of the control, physical limitations,
geographical location, or similar factors make
subcategorization appropriate.348
As with any of its own regulations, the EPA has authority
to interpret or revise these regulations.
Of course, regardless of whether the EPA subcategorizes
within a source category for purposes of determining the BSER
and the emissions performance level for the emission guideline,
as part of its section 111(d) plan, a state retains great
flexibility in assigning standards of performance to its
affected EGUs. Thus, the state may, if it wishes, impose
different emission reduction obligations on different sources,
as long as the overall level of emission limitation is at least
as stringent as the emission guidelines.
2. The BSER for this Rule -– Overview
a. Summary. This section describes the EPA’s overall approach to
establishing the BSER. This rule, promulgated under CAA section
111(d), establishes emission guidelines for states to use in
establishing standards of performance for affected EGUs, and the
BSER is the central determination that the EPA must make in

348

40 CFR 60.22(b)(5).

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formulating the guidelines. In order to establish the BSER we
have considered the subcategory of the steam affected EGUs as a
whole, and the subcategory of the combustion turbine affected
EGUs as a whole, and have identified the BSER for each
subcategory as the measures that the sources, viewed together
and operating under the standards of performance established for
them by the states, can implement to reduce their emissions to
an appropriate amount, and that meet the other requirements for
the BSER including, for example, cost reasonableness.349 After
identifying the BSER in this manner, the EPA determines the
performance levels –- in this case, the CO2 emission performance
rates –- for the steam generators and for the combustion
turbines.
In establishing the BSER the EPA also considered the set of
actions that an EGU, operating under a standard of performance
established by its state, may take to achieve the applicable
performance rate, if the state adopts that rate as the standard
of performance and applies it to the EGUs in its jurisdiction,
or to achieve the equivalent mass-based limit, and that meet the

349

In this rulemaking, our determination that the costs are
reasonable means that the costs meet the cost standard in the
case law no matter how that standard is articulated, that is,
whether the cost standard is articulated through the terms that
the case law uses, e.g., “exorbitant,” “excessive,” etc., or
through the term we use for convenience, “reasonableness”.
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other requirements for the BSER. These actions implement the
BSER and may therefore be understood as part of the BSER.
An example illustrating the relationship between the
measures determined to constitute the BSER for the source
category and the actions that may be undertaken by individual
sources that are therefore also part of the BSER is the
substitution of zero-emitting generation for CO2-emitting
generation. This measure involves two distinct actions:
increasing the amount of zero-emitting generation and reducing
the amount of CO2-emitting generation. From the perspective of
the source category, the two actions are halves of a single
balanced endeavor, but from the perspective of any individual
affected EGU, the two actions are separable, and a particular
affected EGU may decide to implement either or both of the
actions. Further, an individual source may choose to invest
directly in actions at its own facility or an affiliated
facility or to cross-invest in actions at other facilities on
the interconnected electricity system.
To reiterate the overall context for the BSER: in this
rule, the EPA determined the BSER, and applied it to the
category of affected EGUs to determine the performance levels –that is, the CO2 emission performance rates -- for steam
generators and for combustion turbines. States must impose
standards of performance on their sources that implement the CO2
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emission performance rates, or, as an alternative method of
compliance, in total, achieve the equivalent emissions
performance level that the CO2 emission performance rates would
achieve if applied directly to each source as the standard or
emissions limitation it must meet.350 Each state has flexibility
in how it assigns the emission limitations to its affected EGUs
–- and in fact, the state can be more stringent than the
guidelines require –- but one of the state’s choices is to
convert the CO2 emission performance rates into standards of
performance –- which may incorporate emissions trading –- for
each of its affected EGUs. If a state does so, then the affected
EGUs may achieve their emission limits by taking the actions
that qualify as the BSER. Since the BSER and, in this case its
constituent elements, reflect the criteria of reasonable cost
and other BSER criteria, the BSER assures that there is at least
one pathway –- the CO2 emission performance rates -- for the
state and its affected EGUs to take that achieves the requisite
level of emission reductions, while, again, assuring that the
affected EGUs can achieve those emission limits at reasonable
cost and consistent with the other factors for the BSER.

350

The approaches that states may take in their plans are
discussed in section VIII.
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This section describes the EPA’s process and basis for
determining the BSER for the purpose of determining the CO2
emission performance rates.351 The EPA is identifying the BSER as
a well-established set of measures that have been used by EGUs
for many years to achieve various business and policy purposes,
and have been used in recent years for the specific purpose of
reducing EGUs’ CO2 emissions, and that are appropriate for carbon
pollution (given its global nature and large quantities, and the
limited means to control it) and afforded by the highly
integrated nature of the utility power sector. We evaluated
these measures with a view to the states’ obligation to
establish standards of performance and included in our BSER
determination consideration of the range of options available
for states to employ in establishing those standards of
performance. These measures include: (i) improving heat rate at
existing coal-fired steam EGUs on average by a specified
percentage (building block 1); (ii) substituting increased
generation from existing NGCC units for reduced generation at
existing steam EGUs in specified amounts (building block 2); and
(iii) substituting increased generation from new zero-emitting
RE generating capacity for reduced generation at existing fossil

351

Other sections in this preamble describe how EPA calculated
the CO2 emission performance rates based on the BSER.
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fuel-fired EGUs in specified amounts (building block 3). It
should be noted that building block 2 incorporates reduced
generation from steam EGUs and building block 3 incorporates
reduced generation from all fossil fuel-fired EGUs.352 Further,
as discussed below, given the global nature of carbon pollution
and the highly integrated utility power sector, each of the
building blocks incorporates various mechanisms for facilitating
cross-investment by individual affected EGUs in emission rate
improvements or emission reduction activities at other locations
on the interconnected electricity system. The range of
mechanisms includes bilateral investment of various kinds; the
issuance and acquisition of ERCsrepresenting the emissionsreducing effects of specific activities, where available under
state plans; and more general emissions trading using rate-based
credits or mass-based allowances (as discussed in section
V.A.2.f. below), where the affected EGUs are operating under
standards of performance that incorporate emissions trading.353
The set of measures identified as the BSER for the source
category encompasses a menu of actions that are part of the BSER
and that individual affected EGUs may implement in different

352

The building block measures are not designed to reduce
electricity generation overall; they are focused on maintaining
the same level of electricity generation, but through less
polluting processes.
353 Conditions for the use of these mechanisms under various
state plans are discussed in section VIII.
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amounts and combinations in order to achieve their emission
limits at reasonable cost. This menu includes actions that: (i)
affected steam EGUs can implement to improve their heat rates;
(ii) affected steam EGUs can implement to increase generation
from lower-emitting existing NGCC units in specified amounts;
(iii) all affected EGUs can implement to increase generation
from new low- or zero-carbon generation sources in specified
amounts; (iv) all affected EGUs can implement to reduce their
generation in specified amounts; and (v) all affected EGUs
operating under a standard of performance that incorporates
emissions trading can implement by means of purchasing ratebased emission credits or mass-based emission allowances from
other affected EGUs, since the effect of the purchase would be
the same as achieving the other listed actions through direct
means.354
Importantly, affected EGUs also have available numerous
other measures that are not included in the BSER but that could
materially help the EGUs achieve their emission limits and
thereby provide compliance flexibility. Examples include, among
numerous other approaches, investment in demand-side EE, cofiring with natural gas (for coal-fired steam EGUs), and
investment in new generating units using low- or zero-carbon

354

Again, conditions for the use of these mechanisms under
various state plans are discussed in section VIII.
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generating technologies other than those that are part of
building block 3.
b. The EPA’s review of measures for determining the BSER. The
EPA described in the proposal for this rule the analytical
process by which the EPA determined the BSER for this source
category. The EPA is finalizing large parts of that analysis,
but the EPA is also refining that analysis as informed by the
information and data discussed by commenters and our further
evaluation. What follows is the EPA’s final determination.
As described in the proposal, to determine the BSER, the
EPA began by considering the characteristics of CO2 pollution and
the utility power sector. Not surprisingly, whenever the EPA
begins the regulatory process under section 111, it initially
undertakes these same inquiries and then proceeds to fashion the
rule to fit the industry. For example, in 1979, the EPA
finalized new standards of performance to limit emissions of SO2
from new, modified, and reconstructed EGUs.355 In assessing the

355

The need for new standards was due in part to findings that
in 1976, steam electric generating units were responsible for
“65 percent of the SO2 ... emissions on a national basis.” 44 FR
33580, 33587 (June 11, 1979). The EPA explained that [u]nder the
current performance standards for power plants, national SO2
emissions are projected to increase approximately 17 percent
between 1975 and 1995. Impacts will be more dramatic on a
regional basis.” Id. Thus, “[o]n January 27, 1977, EPA announced
that it had initiated a study to review the technological,
economic, and other factors needed to determine to what extent
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final SO2 standard, the EPA carried out extensive analyses of a
range of alternative SO2 standards “to identify environmental,
economic, and energy impacts associated with each of the
alternatives considered at the national and regional levels.”356
In identifying the best system underlying the final standard,
the EPA evaluated “coal cleaning and the relative economics of
FGD [flue gas desulfurization] and coal cleaning” together as
the “best demonstrated system for SO2 emission reduction.”357 The
EPA also took into account the unique features of power
transmission along the interconnected grid and the unique
commercial relationships that rely on those features.358
Similarly, in 1996, the EPA finalized section 111(b)
standards and 111(d) emission guidelines to ensure that certain
municipal solid waste (MSW) landfills controlled landfill gases

the SO2 standard for fossil-fuel-fired steam generators should be
revised.” Id. at 33587-33588.
356 44 FR 33580, 33582 (June 11, 1979).
357 44 FR 33580, 33593. The EPA considered an investigation by
the U.S. Department of the Interior regarding the amount of
sulfur that could be removed from various coals by physical coal
cleaning. Id. at 33593.
358 See 44 FR 33580, 33597-33600 (taking into account “the amount
of power that could be purchased from neighboring interconnected
utility companies” and noting that “[a]lmost all electric
utility generating units in the United States are electrically
interconnected through power transmission lines and switching
stations” and that “load can usually be shifted to other
electric generating units”).
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to the level achievable through application of the BSER.359 EPA’s
identification of this BSER was critically influenced by the
“unique emission pattern of landfills.”360 Unlike “typical
stationary source[s],” which only generate emissions while in
operation, MSW landfills can “continue to generate and emit a
significant quantity of emissions” long after the facility has
closed or otherwise stopped accepting waste.361 In recognition of
this salient and unique characteristic of landfills, the EPA set
the BSER based on an emission-reducing system of gas collection
and control that remained in place as long as emissions remained
above a certain threshold -- even after the regulated landfill
had permanently closed.362 The EPA acknowledged that for some
landfills, it could take 50 to 100 years for emissions to drop
below the cutoff.363

359

61 FR 9905, 9905 (March 12, 1996). In the rule, the EPA
referred to the BSER for both new and existing MSW landfills as
“the best demonstrated system of continuous emission reduction,”
as well as the “BDT”—short for “best demonstrated technology.”
See, e.g., id. at 9905–07, 9913–14.
360 61 FR 9905, 9908; see 56 FR 24468, 24478 (May 30, 1991)
(explaining at proposal that because landfill-gas emission rates
“gradually increase” from zero after the landfill opens, and
“gradually decrease” from peak emissions after closure, the
EPA’s identification of the BSER for landfills inherently
requires a determination of “when controls systems must be
installed and when they may be removed”).
361 See U.S. EPA, Municipal Solid Waste Landfills, Volume 1:
Summary of the Requirements for the New Source Performance
Standards and Emission Guidelines for Municipal Solid Waste
Landfills, Docket No. EPA-453R/96-004 at 1-3 (February 1999).
362 61 FR 9905, 9907–08.
363 61 FR 9905, 9908.
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For this rule, we discuss at length in the proposed rule
and in section II above the unique characteristics of CO2
pollution. The salient facts include the global nature of CO2,
which makes the specific location of emission reductions
unimportant; the enormous quantities of CO2 emitted by the
utility power sector, coupled with the fact that CO2 is
relatively unreactive, which make CO2 much more difficult to
mitigate by measures or technologies that are typically utilized
within an existing power plant; the need to make large
reductions of CO2 in order to protect human health and the
environment; and the fact that the utility power sector is the
single largest source category by a considerable margin.
We also discuss at length in the proposal and in section II
above the unique characteristics of the utility power sector.
Topics of that discussion include the physical properties of
electricity and the integrated nature of the electricity system.
Here, we reiterate and emphasize that the utility power sector
is unique in the extent to which it must balance supply and
demand on a real-time basis, with limited electricity storage
capacity to act as a buffer. In turn, the need for real-time
synchronization across each interconnection has led to a
uniquely high degree of coordination and interdependence in both
planning and real-time system operation among the owners and
operators of the facilities comprised within each of the three
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large electrical interconnections covering the contiguous 48
states. Given these unique characteristics, it is not surprising
that the North American power system has been characterized as a
“complex machine.”364 The core function of providing reliable
electricity service is carried out not by individual electricity
generating units but by the complex machine as a whole.
Important subsidiary functions such as management of costs and
management of environmental impacts are also carried out to a
great extent on a multi-unit basis rather than an individualunit basis. Generation from one generating unit can be and
routinely is substituted for generation from another generating
unit in order to keep the complex machine operating while
observing the machine’s technical, environmental, and other
constraints and managing its costs.
The EPA also reviewed broad trends within the utility power
sector.365 It is evident that, in the recent past, coal-fired
electricity generation has been reduced, and projected future
trends are for continued reduction. By the same token, loweremitting NGCC generation and renewable generation have
increased, and projected future trends are for continued

364

S. Massoud Amin, “Securing the Electricity Grid,” The Bridge,
Spring 2010, at 13, 14; Phillip F. Schewe, The Grid: A Journey
Through the Heart of Our Electrified World 1 (2007).
365 These trends are discussed in more detail in sections V.D.
and V.E. below.
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increases.366 A survey of integrated resource plans (IRPs),
included in the docket, shows that fossil fuel-fired EGUs are
taking actions to reduce emissions of both non-GHG air
pollutants and GHGs.367 Some fossil fuel-fired EGUs are investing
in lower- or zero-emitting generation. In fact, our review
indicates that the great majority of fossil fuel-fired
generators surveyed are including new RE resources in their
planning. In addition, some fossil fuel-fired EGUs are using
those measures to replace their higher-emitting generation. Some
fossil fuel-fired generators appear to be reducing their higheremitting generation without fully replacing it themselves. These
measures in aggregate result in the replacement of higheremitting generation with lower- or zero-emitting generation,
reflecting the integrated nature of the electricity system.
The EPA examined state and company programs intended at
least in part to reduce CO2 from fossil fuel-fired power plants.
These programs include GHG performance standards established by
states including California, New York, Oregon, and Washington;
utility planning approaches carried out by companies in Colorado
and Minnesota; and renewable portfolio standards (RPS)

366

Demand-side energy efficiency measures have also increased,
and the projected future trends are for continued increase.
367 See memo entitled “Review of Electric Utility Integrated
Resource Plans” (May 7, 2015) available in the docket.
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established in more than 25 states.368 They also include marketbased initiatives, such as RGGI and the GHG emissions trading
program established by the California Global Warming Solutions
Act, and conservation and demand reduction programs.
We also examined federal legislative and regulatory
programs, as well as state programs currently in operation, that
address pollutants other than CO2 emitted by the power sector.
These programs include, among others, the CAA Title IV program
to reduce SO2 and NOX, the MATS program to reduce mercury and air
toxic emissions, and the CSAPR program to reduce SO2 and NOX.369
This analysis demonstrated that, among other measures, the
application of control technology, fuel-switching, and
improvements in the operational efficiency of EGUs all resulted
in reductions in a range of pollutants. These programs also
demonstrate that replacement of higher-emitting generation with
lower-emitting generation -- including generation shifts between
coal-fired EGUs and natural gas-fired EGUs and generation shifts
between fossil fuel-fired EGUs and RE generation –- also reduces
emissions. Some of these programs also include emissions trading
among the power plants.
In this rule, when evaluating the types and amounts of
measures that the source category can take to reduce CO2

368
369

See 79 FR 34848-34850.
Many of these programs are discussed in section II.

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emissions, we have appropriately taken into account the global
nature of the pollutant and the high degree to which each
individual affected EGU is integrated into a “complex machine”
that makes it possible for generation from one generating unit
to be replaced with generation from another generating unit for
the purpose of reducing generation from CO2–emitting generating
units. We have also taken into account the trends away from
higher-carbon generation toward lower- and zero-carbon
generation. These factors strongly support consideration of
emission reduction approaches that focus on the machine as a
whole –- that is, the overall source category –- by shifting
generation from dirtier to cleaner sources in addition to
emission reduction approaches that focus on improving the
emission rates of individual sources.
The factors just discussed that support consideration of
emission reduction measures at the source-category level
likewise strongly support consideration of mechanisms such as
emissions trading approaches, especially since, as discussed in
section VIII, the states will have every opportunity to design
their section 111(d) plans to allow the affected EGUs in their
respective jurisdictions to employ emissions trading approaches
to achieve the standards of performance established in those
plans. In short, as discussed in more detail in section V.A.2.f.
below, it is entirely feasible for states to establish standards
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of performance that incorporate emissions trading, and it is
reasonable to expect that states will do so. These approaches
lower overall costs, add flexibility, and make it easier for
individual sources to address pollution control objectives. To
the extent that the purchase of an emissions credit or allowance
represents the purchase of surplus emission reductions by an
emitting source, emissions trading represents, in effect, the
investment in pollution control by the purchasing source,
notwithstanding that the control activity may be occurring at
another source. As noted above, the utility power sector has a
long history of using the “complex machine” to address
objectives and constraints of various kinds. When afforded the
opportunity to address environmental objectives on a multi-unit
basis, the industry has done so. Congress and the EPA have
selected emissions trading approaches when addressing regional
pollution from the utility power sector contributing to problems
such as acid precipitation and interstate transport of ozone and
particulate matter. Similarly, states have selected market-based
approaches for their own programs to address regional and global
pollutants. The industry has readily adapted to that form of
regulation, taking advantage of the flexibility and
incorporating those programs into the planning and operation of
the “machine.” Further reinforcing our conclusion that reliance
on trading is appropriate is the extensive interest in using
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such mechanisms that states and utilities demonstrated through
their formal comments and in discussions during the outreach
process. The role of emissions trading is discussed further in
section V.A.2.f. below.
This entire review has made clear that there are numerous
measures that, alone or in various combinations, merit analysis
for inclusion in the BSER. The review has also made clear that
the unique characteristics of CO2 pollution and the unique,
interconnected and interdependent manner in which affected EGUs
and other generating sources operate within the electricity
sector make certain types of measures and mechanisms available
and appropriate for consideration as the BSER for this rule that
would not be appropriate for other pollutants and other
industrial sectors. For purposes of this discussion, the
measures can be categorized in terms of the essential
characteristics of the four building blocks described in the
proposal: measures that (i) reduce the CO2 emission rate at the
unit; (ii) substitute generation from existing lower-emitting
fossil fuel-fired units for generation from higher-emitting
fossil fuel-fired units; (iii) substitute generation from new
low- or zero-emitting generating capacity, especially RE, for
generation from fossil fuel-fired units; and (iv) increase
demand-side EE to avoid generation from fossil fuel-fired units.
In the proposal, we described our evaluations of various
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measures in each of these categories. In this rule, with the
benefit of comments, we have refined our evaluation of which
specific measures should comprise the first three building
blocks, and, for reasons discussed below, we have determined
that the fourth building block, demand-side EE, should not be
included in the BSER in these guidelines.
The measures are discussed more fully below, but it should
be noted here that because of the integrated nature of the
utility power sector -- in which individual EGUs’ operations
intrinsically depend on the operations of other generators -coupled with the sector’s high degree of planning and
reliability safeguards, the measures in the second and third
categories (which involve generation shifts to lower- and zeroemitting sources) may occur through several different actions
from the perspective of an individual source, all of which are
equivalent from the perspective of the source category as a
whole. First, a higher-emitting fossil unit may invest in
cleaner generation without reducing its own generation, which,
in the presence of requirements for the source category as a
whole to reduce CO2 emissions, would result in less demand for,
and therefore reductions in generation by, other higher-emitting
units. Second, a higher-emitting fossil unit may reduce its
generation, which, in the presence of requirements for the
source category as a whole to reduce CO2 emissions, would result
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in increased demand for, and therefore increased amounts of,
cleaner generation. Third, a higher-emitting fossil unit may do
both of these things, directly replacing part of its generation
with investments in lower- or zero-emitting generation. In
addition, for measures in all of the categories, multiple
mechanisms exist by which an individual affected EGU may make
these investments, ranging from bilateral investments, to
purchase of credits representing the emissions-reducing benefits
of specific activities, to purchase of general rate-based
emissions credits or mass-based emission allowances. As
discussed below, mechanisms involving tradable credits or
allowances are well within the realm of consideration for the
standards of performance states can choose to apply to their
EGUs and hence, are entirely appropriate for EPA to consider in
evaluating these measures in the course of making its BSER
determination.
c. State establishment of standards of performance and source
compliance. Before identifying in detail the measures that the
BSER comprises, it is useful to describe the process by which
the states establish the standards of performance with which the
affected EGUs must comply, and the implications for the sources
that will be operating subject to those standards of
performance. As part of the EPA’s emission guidelines in this
rule, and based on the BSER, the EPA is identifying CO2 emission
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performance rates that reflect the BSER and, pursuant to
subsection 111(d)(1), requiring states to establish standards of
performance for affected EGUs in order to implement those rates.
States, of course, could simply impose those rates on each
affected EGU in their respective jurisdictions, but we are also
offering states alternative approaches to carrying out their
obligations. For purposes of defining these alternatives and
facilitating states’ efforts to formulate compliance plans
encompassing maximum flexibilities, we are aggregating the
performance rates into goals for each state. The state, in turn,
has the option of setting specific standards of performance for
its EGUs such that the emission limitations from the EGUs
operating under those standards of performance together meet the
performance rates or the state goal. To do this, the state must
adopt a plan that establishes the EGUs’ standards of performance
and that implements and enforces those standards.
Each state has significant flexibility in several respects.
For example, as mentioned, a state may impose standards of
performance on its steam EGU sources and on its combustion
turbine sources that simply reflect the respective CO2 emission
performance rates for those subcategories set in the emission
guidelines. Alternatively, a state may impose standards with
differing degrees of stringency on various sources, and, in
fact, may be more stringent overall than its state goal
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requires. In addition –- and most importantly for purposes of
describing the BSER -- a state may set standards of performance
as mass limits (e.g., tons of CO2 per year) rather than as
emission rates (e.g., lbs of CO2 per MWh). Moreover, a state may
make the limits tradable (subject to conditions described in
section VIII below), whether the limits are rate-based or massbased. The form of the emission limits, whether emission rate
limits or mass limits, has implications for what specific
actions that are part of the BSER the individual affected EGUs
may take to achieve those limits as well as what specific nonBSER measures are available to the individual affected EGUs for
compliance flexibility. For example, if an individual source
chooses to adopt building block 3 by both investing in lower- or
zero-emitting generation and reducing its own generation, both
those actions will be accounted for in its emission rate and
both will therefore help the source meet its rate-based limit.
If the same individual source takes the same actions but is
subject to a mass-based limit, the action of reducing its
generation will directly count in helping the source meet its
own mass-based limit but the action of investing in cleaner
generation will not. However, the investment in lower-or zeroemitting generation by that source and other sources
collectively will help the overall source category achieve the
emission limits consistent with the BSER and in doing so will
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make it easier for that source and other sources collectively to
meet their mass-based limits.
In instances where a state establishes standards of
performance that incorporate emissions trading, the tradable
credits or allowances can serve as a medium through which
affected EGUs can invest in any emission reduction measure.
d. Identification of the BSER measures. We now discuss the
evaluation of potential measures for inclusion in the BSER for
the source category as a whole.
(1) Measures that reduce individual affected EGUs’ CO2
emission rates.
As described in the proposal, the measures that the
affected EGUs could implement to improve their CO2 emission rates
include a set of measures that the EPA determined would result
in improvements in heat rate at coal-fired steam EGUs in the
amount of 6 percent on average, and the EPA proposed that this
set of measures qualifies as a component of the BSER. In this
final rule, the EPA concludes that those measures do qualify as
a component of the BSER. However, as described in section V.C.
below, based on responsive comments and further evaluation, the
EPA has refined its approach to quantifying the emission
reductions achievable through heat rate improvements and no
longer includes a separate increment of emission reductions
attributable to equipment upgrades. Also, rather than evaluating
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the emission reductions available from these measures on a
nationwide basis as in the proposal, the EPA has quantified the
emission reductions achievable through building block 1 on a
regional basis, consistent with the EPA’s proposals to better
reflect the regional nature of the interconnected electrical
system and the treatment of the other building blocks in this
final rule. As a result of these refinements, the EPA is
identifying the heat rate improvements achievable by coal-fired
steam EGUs as 4.3 percent for the Eastern Interconnection, 2.1
percent for the Western Interconnection, and 2.3 percent for the
Texas Interconnection. The refinements are based, in significant
part, on the numerous comments we received on our proposed
approaches, especially those from states and utilities.
These heat rate improvement measures include best practices
such as improved staff training, boiler chemical cleaning,
cleaning air preheater coils, and use of various kinds of
software, as well as equipment upgrades such as turbine
overhauls. These are measures that the owner/operator of an
affected coal-fired steam EGU may take that would have the
effect of reducing the amount of CO2 the source emits per MWh. As
a result, these measures would help the source achieve an
emission limit expressed as either an emission rate limit or as
a mass limit. We note again that in the context both of the
integrated electricity system and of available and anticipated
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state approaches to setting standards of performance, emissions
trading approaches could be used as mechanisms through which one
affected EGU could invest in heat rate improvements at another
EGU. We note this aspect below in describing the actions an
individual affected EGU can take to implement the BSER and
discuss it in more detail in section V.A.2.f.
These heat rate improvements are a low-cost option that fit
the criteria for the BSER, except that they lead to only small
emission reductions for the source category.370 Given the
magnitude of the environmental problem and projections by
climate scientists that much larger emission reductions are
needed from fossil fuel-fired EGUs to address climate change,
the EPA looked at additional measures to reduce emission rates.
This reflects our conclusion that, given the availability of
other measures capable of much greater emission reductions, the
emission reductions limited to this set of heat rate improvement
measures would not meet one of the considerations critical to
the BSER determination –- the quantity of emissions reductions

370

As further discussed below, if heat rate improvements at
coal-fired steam EGUs were implemented in isolation, without
other measures to reduce CO2 emissions, the heat rate
improvements could lead to increases in competitiveness and
utilization of the coal-fired EGUs – a so-called “rebound
effect” - causing increases in CO2 emissions that could partially
or even entirely offset the CO2 emission reductions achieved
through the reductions in the amount of CO2 emissions per MWh of
generation.
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resulting from the application of these measures is too small
for these measures to be the BSER by themselves for this source
category.
Specifically, as described in the proposal, the EPA also
considered co-firing (including 100 percent conversion) with
natural gas, a measure that presented itself in part because of
the recent increase in availability and reduction in price of
natural gas, and the industry’s consequent increase in reliance
on natural gas.371 The EPA also considered implementation of
carbon capture and storage (CCS).372 The EPA found that some of
these co-firing and CCS measures are technically feasible and
within price ranges that the EPA has found to be cost effective
in the context of other GHG rules, that a segment of the source
category may implement these measures, and that the resulting
emission reductions could be potentially significant.
However, these co-firing and CCS measures are more
expensive than other available measures for existing sources.
This is because the integrated nature of the electricity system
affords significantly lower cost options, ones that fossil fuelfired power plants throughout the U.S. and in foreign nations
are already using to reduce their CO2 emissions.

371

The EPA further addressed co-firing in the October 30, 2014
Notice of Data Availability. 79 FR 64549-51.
372 CCS is also sometimes referred to as carbon capture and
sequestration.
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The less expensive options include shifting generation to
existing NGCC units -- an option that has become particularly
attractive in light of the increased availability and lower
prices of natural gas -- as well as shifting generation to new
RE generating units. A comparison of the costs of converting an
existing coal-fired boiler to burn 100 percent natural gas
compared to the cost of shifting generation to an existing NGCC
unit illustrates this point. Because an NGCC unit burns natural
gas significantly more efficiently than an affected steam EGU
does, the cost of shifting generation from the steam EGU to an
existing NGCC unit is significantly cheaper in most cases than
more aggressive emission rate reduction measures at the steam
EGU. As a result, as a practical matter, were the EPA to include
co-firing and CCS in the BSER and promulgate performance
standards accordingly, few EGUs would likely comply with their
emission standards through co-firing and CCS; rather, the EGUs
would rely on the lower cost options of substituting lower- or
zero-emitting generation or, as a related matter, reducing
generation.373
The EPA also considered heat rate improvement opportunities
at oil- and gas-fired steam EGUs and NGCC units and found that
the available emission reductions would likely be more expensive

373

Many EGUs would also rely on demand-side energy efficiency
measures.
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or too small to merit consideration as a material component of
the BSER.
Thus, in reviewing the entire range of control options, it
became clear that controlling CO2 from affected EGUs at levels
that are commensurate with the sector’s contribution to GHG
emissions and thus necessary to mitigate the dangers presented
by climate change, could depend in part, but not primarily, on
measures that improve efficiency at the power plants. Rather,
most of the CO2 controls need to come in the form of those other
measures that are available to the utility power sector thanks
specifically to the integrated nature of the electricity system,
and that involve, in one form or another, replacement of higher
emitting generation with lower- or zero-emitting generation.
Although the presence of lower-cost options that achieve
the emission reduction goals mean that the EPA is not
identifying either natural gas co-firing or CCS at coal-fired
steam EGUs, or heat rate improvements at other types of EGUs, as
part of the BSER, those controls remain measures that some
affected EGUs may be expected to implement and that as a result,
will provide reductions that those affected EGUs may rely on to
achieve their emission limits or may sell, through emissions
trading, to other affected EGUs to achieve emission limits (to
the extent permitted under the relevant section 111(d) plans).
Another example of a non-BSER measure that an affected EGU in
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certain circumstances could choose to implement is the
conversion of waste heat from electricity generation into useful
thermal energy. The EPA further discusses the potential use of
these non-BSER measures for compliance flexibility below.
The EPA’s quantification of the CO2 emission reductions
achievable through heat rate improvements as a component of the
BSER (building block 1) is discussed in section V.C. of this
preamble and in the GHG Mitigation Measures TSD for the CPP
Final Rule.
(2) Measures available because of the integrated
electricity system.
To determine the BSER that meets the expectations and
requirements of the CAA, including the achievement of meaningful
reductions of CO2, the EPA turned next to the set of measures
that presented themselves as a result of the fact that the
operations of individual affected EGUs are interdependent on and
integrated with one another and with the overall electricity
system. Those are the measures in the categories represented in
the proposal by building blocks 2, 3, and 4. This section
discusses the components of the BSER that relate to building
blocks 2 and 3, which the EPA is finalizing as components of the
BSER. This section also discusses the measures comprising the
proposed building block 4, which the EPA is not including in the
BSER in this final rule.
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It bears reiterating that the extent to which the
operations of individual affected EGUs are integrated with one
another and with the overall electricity system is a highly
salient and unique attribute of this source category. Because of
this integration, the individual sources in the source category
operate through a network that physically connects them to each
other and to their customers, an interconnectedness that is
essential to their operation under the status quo and by all
indications is projected to be augmented further on a continual
basis in the future to address fundamental objectives of
reliability assurance and cost reduction. This physical
interconnectedness exists to serve a set of interlocking regimes
that, to a substantial extent, determine, if not dictate, any
given EGU’s operations on a nearly moment-to-moment basis. In
analyzing BSER from the perspective of the overall source
category, because the affected EGUs are connected to each other
operationally, a combination of dispatching and investment in
lower- and zero-emitting generation allows the replacement of
higher-emitting generation with lower-emitting and zero-emitting
generation (measures in building blocks 2 and 3), and thereby
reduces emissions while continuing to serve load.
As noted above, substitution of higher-emitting generation
for lower- or zero-emitting generation may include reduced
generation, depending on the specific action taken by the
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individual EGU. Likewise, when incorporated into standards of
performance, emissions trading mechanisms may be readily used
for implementing these building blocks. We discuss these aspects
below in describing the actions that individual sources may take
to implement the building blocks.
(a) Substituting generation from lower-emitting affected
EGUs for reduced generation from higher-emitting affected EGUs.
In the proposal, the EPA observed that substantial CO2
emission reductions could be achieved at reasonable cost by
increasing generation from existing NGCC units and
commensurately reducing generation from steam EGUs. Because NGCC
units produce much less CO2 per MWh of generation than steam EGUs
–- typically less than half as much CO2 as coal-fired steam EGUs,
which account for most generation from steam EGUs –- this
generation shift reduces CO2 emissions. We also noted that
because NGCC units can generate as much as 46 percent more
electricity from a given quantity of natural gas than a steam
unit can, generation shifting from coal-fired steam EGUs to
existing NGCC units is a more cost-effective strategy for
reducing CO2 emissions from the source category than converting
coal-fired steam EGUs to combust natural gas or co-firing coal
and natural gas in steam EGUs. We proposed to find that shifting
generation consistent with a 70 percent target utilization rate

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(based on nameplate capacity) for NGCC units was feasible and
should be a component of the BSER.
As described in section V.D. below, analysis reflecting
consideration of the many comments we received on the EPA’s
proposal with respect to this issue supports the inclusion of
generation shifting from higher-emitting to lower-emitting EGUs
as a component of the BSER. Shifting of generation among EGUs is
an everyday occurrence within the integrated operations of the
utility power sector that is used to ensure that electricity is
provided to meet customer demands in the most economic manner
consistent with system constraints. Generation shifting to
lower-emitting units has been recognized as an approach for
reducing emissions in other EPA rules such as CSAPR.
The EPA’s analysis continues to show that the magnitude of
emission reductions included in the proposed rule from
generation shifting is achievable. In response to our request
for comment on the proposed target utilization rates, some
commenters stated that summer capacity ratings are a more
appropriate basis upon which to compute a target utilization
than nameplate capacity ratings used at proposal. We agree, and
accordingly, using the same data on historical generation as at
proposal, we have reanalyzed feasible NGCC utilization levels
expressed in terms of summer capacity ratings and have found

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that a 75 target utilization rate based on summer capacity
ratings is feasible.
The EPA is finalizing a determination that generation shift
from higher-emitting affected EGUs to lower-emitting affected
EGUs is a component of the BSER (building block 2). Our
quantification of the associated emission reductions is
discussed in section V.D. of this preamble and in the GHG
Mitigation Measures TSD for the CPP Final Rule.
(b) Substituting increased generation from new low- or
zero-carbon generating capacity for reduced generation from
affected EGUs.
Reducing generation from fossil fuel-fired EGUs and
replacing it with generation from lower- or zero-emitting EGUs
is another method for reducing CO2 emissions from the utility
power sector. In the proposal, the EPA identified RE generating
capacity and nuclear generating capacity as potential sources of
lower- or zero-CO2 generation that could replace higher-CO2
generation from affected EGUs.
(i) Increased generation from new RE generating capacity.
The EPA’s survey of trends and actions already being taken
in the utility power sector indicated that RE generating
capacity and generation have grown rapidly in recent years, in
part because of the environmental benefits of shifting away from
fossil fuel-fired generation and in part because of improved
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economics of RE generation relative to fossil fuel-fired
generation. It is clear that increasing the amount of new RE
generating capacity and allowing the increased RE generation to
replace generation from fossil fuel-fired EGUs can reduce CO2
emissions from the affected source category. Accordingly, we
proposed to include replacement of defined quantities of fossil
generation by RE generation in the BSER.
The EPA is finalizing the determination that substitution
of RE generation from new RE generating capacity is a component
of the BSER but, with the benefit of comments responding to the
EPA’s proposals on regionalization and techno-economic analytic
approaches, the EPA has adjusted the approach for determining
the quantities of RE generation. As part of the adjustment in
approach, we have also refocused the quantification solely on
generation from new RE generating capacity rather than total
(new and existing) RE generating capacity as in the proposal.
Our quantification of the RE generation component of the BSER is
discussed in section V.E. of the preamble and in the GHG
Mitigation Measures TSD for the CPP Final Rule.
(ii) Increased and preserved generation from nuclear
generating capacity.
In the June 2014 proposal, the EPA also identified the
replacement of generation from fossil fuel-fired EGUs with
generation from nuclear units as a potential approach for
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reducing CO2 emissions from the affected source category. We
proposed to include two elements of nuclear generation in the
BSER: an element representing projected generation from nuclear
units under construction; and an element representing preserved
generation from existing nuclear generating capacity at risk of
retirement, and we took comment on all aspects of these
proposals.
Like generation from new RE generating capacity, generation
from new nuclear generating capacity can clearly replace fossil
fuel-fired generation and thereby reduce CO2 emissions. However,
there are also important differences between these types of lowor zero-CO2 generation. Investments in new nuclear capacity are
very large capital-intensive investments that require
substantial lead times. By comparison, investments in new RE
generating capacity are individually smaller and require shorter
lead times. Also, important recent trends evidenced in RE
development, such as rapidly growing investment and rapidly
decreasing costs, are not as clearly evidenced in nuclear
generation. We view these factors as distinguishing the underconstruction nuclear units from RE generating capacity,
indicating that the new nuclear capacity is likely of higher
cost and therefore less appropriate for inclusion in the BSER.
Accordingly, as described in section V.A.3., the EPA is not

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finalizing increased generation from under-construction nuclear
capacity as a component of the BSER.
The EPA is likewise not finalizing the proposal to include
a component representing preserved existing nuclear generation
in the BSER. On further consideration, we believe it is
inappropriate to base the BSER on elements that will not reduce
CO2 emissions from affected EGUs below current levels. Existing
nuclear generation helps make existing CO2 emissions lower than
they would otherwise be, but will not further lower CO2 emissions
below current levels. Accordingly, as described in section
V.A.3., the EPA is not finalizing preservation of generation
from existing nuclear capacity as a component of the BSER.
(iii) Generation from new NGCC units.
New NGCC units –- that is, units that had not commenced
construction as of January 8, 2014, the date of publication of
the proposed CO2 standards of performance for new EGUs under
section 111(b) –- are not subject to the standards of
performance that will be established for existing sources under
section 111(d) plans based on the BSER determined in this final
rule. In the June 2014 proposed emission guidelines for existing
EGUs, the EPA solicited comment on whether to include this
measure in the BSER. Commenters raised numerous concerns, and
after consideration of the comments, we are not including
replacement of generation from affected EGUs through the
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construction of new NGCC capacity in the BSER. In this section,
we discuss the reasons for our approach.
The EPA did not include reduced generation from affected
EGUs achieved through construction and operation of new NGCC
capacity in the proposed BSER because we expected that the CO2
emission reductions achieved through such actions would, on
average, be more costly than CO2 emission reductions achieved
through the proposed BSER measures. However, our determination
not to include new construction and operation of new NGCC
capacity in the BSER in this final rule rests primarily on the
achievable magnitude of emission reductions rather than costs.
Unlike emission reductions achieved through the use of any
of the building blocks, emission reductions achieved through the
use of new NGCC capacity require the construction of additional
CO2-emitting generating capacity, a consequence that is
inconsistent with the long-term need to continue reducing CO2
emissions beyond the reductions that will be achieved through
this rule. New generating assets are planned and built for long
lifetimes –- frequently 40 years or more –-that are likely
longer than the expected remaining lifetimes of the steam EGUs
whose CO2 emissions would initially be displaced be the
generation from the new NGCC units. The new capacity is likely
to continue to emit CO2 throughout these longer lifetimes, absent
decisions to retire the units before the end of their planned
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lifetimes or to install CCS technology in the future at
substantial additional cost. Because of the likelihood of CO2
emissions for decades, the overall net emission reductions
achievable through the construction and operation of new NGCC
are less than for the measures including in the BSER, such as
increased generation at existing NGCC capacity, which would be
expected to reach the end of its useful life sooner than new
NGCC capacity, or construction and operation of zero-emitting RE
generating capacity. We view the production of long-term CO2
emissions that otherwise would not be created as inconsistent
with the BSER requirement that we consider the magnitude of
emissions reductions that can be achieved. For this reason, we
are not including replacement of generation from affected EGUs
through the construction and operation of new NGCC capacity in
the final BSER.
Commenters also raised a concern with the interrelation of
section 111(b) and section 111(d). New NGCC capacity is
distinguished from the other non-BSER measures discussed above
by the fact that its CO2 emissions would be subject to the CO2
standards for new EGUs being established under section 111(b).
Section 111 creates an express distinction between the sources
subject to section 111(b) and the sources subject to section
111(d), and commenters expressed concern that to allow section
111(b) sources to play a direct role in setting the BSER under
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section 111(d) would be inconsistent with congressional intent
to treat the two sets of sources separately. Section VIII of
this preamble includes a discussion of ways to address new NGCC
capacity in the context of different types of section 111(d)
plans.
(c) Increasing demand-side EE to avoid generation and
emissions from fossil fuel-fired EGUs.
The final category of approaches for reducing generation
and CO2 emissions from affected EGUs that the EPA considered in
the proposal involves increasing demand-side EE. When demandside EE is increased, energy consumers need less electricity in
order to provide the same level of electricity-dependent
services – e.g., heating, cooling, lighting, and use of motors
and electronic devices. Through the integrated electricity
system, including the connection of customers to affected EGUs
through the electricity grid, reduced demand for electricity, in
turn, leads to reduced generation and reduced CO2 emissions. Our
examination of actions and trends underway in the utility power
sector confirmed that investments in demand-side EE programs are
increasing. We proposed to include avoidance of defined
quantities of fossil fuel-fired generation through increased
demand-side EE as a component of the BSER (proposed building
block 4). However, we also took comment on which building blocks

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should comprise the BSER and on our determination as to whether
each building block met the various statutory factors.
Commenters expressed a wide range of views on the proposed
reliance on demand-side EE in the BSER. Some commenters strongly
supported the proposal, with suggestions for improvements, while
some commenters strongly opposed the proposal and took the
position that it exceeded the EPA’s legal authority. We do not
address the merits of these comments here because, for the
reasons discussed in section V.B.3.c.(8) below, we are not
finalizing the proposal to include avoided generation achieved
through demand-side EE as a component of the BSER. However, we
note that most commenters also supported the use of demand-side
EE for compliance whether or not it is used in determining the
BSER, and we are allowing demand-side EE to be used for that
purpose. (We also emphasize that the emission limitations
reflective of the BSER are achievable even if aggregate
generation is not reduced through demand-side EE.)
(3) Further analysis to quantify the BSER.
While the discussion above summarizes how and why the
components of the BSER were determined in terms of qualitative
characteristics, it still leaves a wide range of potential
stringencies for the BSER. As explained in sections V.C., V.D.,
and V.E. below, discussing building blocks 1, 2, and 3
respectively, the EPA has determined a reasonable level of
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stringency for each of the building blocks rather than the
maximum possible level of stringency. We have taken this
approach in part to ensure that there is “headroom” within the
BSER measures that provides greater assurance of the
achievability of the BSER for the source category and for
individual sources. We believe this approach is permissible
under the CAA. Another aspect of our methodology for computing
the CO2 emission performance rates, further described in section
V.A.3.f. and section VI, is that the CO2 emission performance
rate applicable to a given source subcategory in all three
interconnections reflects the emission rate achievable by that
source subcategory through application of the building blocks in
the interconnection where that achievable emission rate is the
highest (i.e., least stringent).374 This aspect of our
methodology not only ensures that the nationwide CO2 emission
performance rates are achievable by affected EGUs in all three
interconnections but also provides additional headroom within

374

Specifically, the annual CO2 emission performance rates
applicable to steam EGUs in all three interconnections are the
annual emission rates achievable by that subcategory in the
Eastern Interconnection through application of the building
blocks. Similarly, the annual CO2 emission performance rates
applicable to stationary combustion turbines in all three
Interconnections are the annual emission rates achievable by
that subcategory in the Texas Interconnection for years from
2022 to 2026, and in the Eastern Interconnection for years from
2027 to 2030, through application of the building blocks.
Additional information is provided in the CO2 Emission
Performance Rate and State Goal Computation TSD in the docket.
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the BSER for affected EGUs in the two interconnections that did
not set the CO2 emission performance rates ultimately used.
Additional headroom within the BSER is available through the use
of emissions trading approaches, because the final rule does not
limit the use of these mechanisms to sources within the same
interconnections. In fact, in response to proposals that emerged
from the comment record and direct engagement with states and
stakeholders reflecting their strong interest in pursuing multistate approaches, the guidelines include mechanisms for
implementing standards of performance that incorporate
interstate trading, as discussed in section VIII. (In addition,
as further discussed below, the rule also permits section 111(d)
plans to allow the use of non-BSER measures for compliance in
certain circumstances, increasing both compliance flexibility
and the assurance that the emission limitations reflecting
application of the BSER are achievable.)
Further, the sets of measures in each of these individual
building blocks, in the stringency assigned in this rule, meet
the criteria for the BSER. That is, they each achieve the
appropriate level of reductions, are of reasonable cost, do not
impose energy penalties on the affected EGUs and do not result
in non-air quality pollutants, and have acceptable cost and
energy implications on a source-by-source basis and for the
energy sector as a whole. In addition, as explained below, each
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is adequately demonstrated. Importantly, past industry practice
and current trends strongly support each of the building blocks,
as do federal and state pollution control programs that require
or result in similar measures.
For example, all of the measures in building blocks 2 and 3
have been implemented for decades, initially for reasons
unrelated to pollution control, then in recent years in order to
control non-GHG air pollutants, and more recently, for purposes
of CO2-emission control by states and companies. Moreover,
Congress itself recognized in enacting the acid rain provisions
of CAA Title IV that RE measures reduce CO2 from affected EGUs.
In addition, the EPA has relied on the measures in building
blocks 2 and 3 in other rules.
It should also be noted that building blocks 2 and 3 also
meet the criteria for the BSER in combination with one another
and with building block 1, as described below.
e. Actions that individual affected EGUs could take to apply or
implement the building blocks. We now turn to a summary of
measures or actions that individual EGUs could take to apply or
implement the building blocks and that are therefore, in that
sense, part of the BSER.
(1) Improvement in CO2 emission rate at the unit.
An affected EGU may take steps to improve its CO2 emission
rate as discussed above for the source category as a whole. As
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discussed in section V.C., the record makes clear that coalfired steam EGUs can make, and have made, heat rate improvements
to a greater or lesser degree, resulting in reductions in CO2
emissions. The resulting improvement in an EGU’s CO2 emission
rate would help the EGU achieve an emission limit imposed in the
form of an emission rate. If the EGU’s emission limit is imposed
in the form of a mass standard, the heat rate improvement would
also lower the EGU’s mass emissions provided that the EGU held
the amount of its generation constant or increased its
generation by a smaller percentage than the efficiency
improvement. Under a mass-based standard that incorporates
emission trading, an EGU that improves its heat rate would need
fewer emission allowances for each MWh of generation whatever
level of generation it chose to produce.
(2) Actions to implement measures in building blocks 2 and
3.
Viewing the BSER from the perspective of an individual EGU,
there are several ways that affected EGUs can access the
measures in building blocks 2 and 3, thanks to the integrated
nature of the electricity system, coupled with the system’s high
degree of planning and reliability mechanisms. The affected EGUs
can: (a) invest in lower- or zero-emitting generation, which
will lead to reductions in higher-emitting generation at other
units in the integrated system; (b) reduce their generation,
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which in the presence of emission reduction requirements
applicable to the source category as a whole will have the
effect of increasing demand for, and thereby incentivize
investment in, the measures in the building blocks elsewhere in
the integrated system; or (c) both invest in the measures in the
building blocks and reduce their own generation, effectively
replacing their generation with cleaner generation. The
availability of these options is further enhanced where the
individual EGU is operating under a standard of performance that
incorporates emissions trading.
(a) Investment in measures in building blocks 2 and 3.
An affected EGU may take the following actions to invest in
the measures in building blocks 2 and 3: For building block 2,
the owner/operator of a steam EGU may increase generation at an
existing NGCC unit it already owns, or one that it purchases or
invests in. In addition, the owner/operator may, through a
bilateral transaction with an existing NGCC unit, pay the unit
to increase generation, and acquire the CO2-reducing effects of
that increased generation in the form of a credit, as discussed
below.
Similarly, for building block 3, an owner/operator of an
affected EGU may build, or purchase an ownership interest in,
new RE generating capacity and acquire the CO2-reducing effects
of that increased generation. Alternatively, an owner/operator
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may, through bilateral transactions, purchase the CO2-reducing
effects of that increased generation from renewable generation
providers, again, in the form of a credit.
In case of an investment in either building block 2 or
building block 3 by a unit subject to a rate-based form of CO2
performance standard, it would be reasonable for state plans to
authorize affected EGUs to use an approved and validated
instrument such as an “emission rate credit” (ERC) representing
the emissions-reducing benefit of the investment.375
When combined with reduced generation, either at the
affected EGU or elsewhere in the interconnected system, the
types of actions listed above would be fully equivalent to
building blocks 2 and 3 when viewed from the perspective of the
overall source category. Thus, a source could achieve a standard
of performance identical to the applicable CO2 emission
performance rate in the EPA emission guidelines, through
implementation of the actions described above for building
blocks 2 and 3, along with the actions described further above
for building block 1.
The EPA anticipates that in instances where section 111(d)
plans provide for the use of instruments such as ERCs as a
mechanism to facilitate use of these measures, organized markets

375

Criteria for issuance of valid ERCs and for tracking credits
after issuance are discussed in section VIII below.
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will develop so that owner/operators of affected EGUs that have
invested in measures eligible for the issuance of ERCs will be
able to sell those credits and other affected EGUs will be able
to purchase them. Such markets have developed for other
instruments used for emissions trading purposes. For example,
liquid markets for SO2 allowances developed rapidly following the
implementation of Title IV of the 1990 Clean Air Act Amendments
establishing the Acid Rain Program. Members of Congress and
industry had expressed concern during the legislative debate
that the lack of a liquid SO2 allowance market would create
challenges for affected sources that needed to acquire
allowances to meet their compliance obligations. Congress added
statutory provisions to ensure that, should a market not
develop, sources could purchase needed allowances directly from
the EPA. In fact, these provisions went unused because a liquid
market for allowances did develop very quickly. Sources engaged
in allowance transactions directly with other sources as they
sought to lower compliance costs. Market intermediaries offered
services to sources to match allowance buyers and sellers and
helped sources understand their compliance options. Trade
associations worked with members to develop standardized
contracts and other tools to facilitate allowance transactions,

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thereby reducing transaction costs. Similar developments have
occurred in state-level renewable portfolio standard programs.376
If states choose to allow through their section 111(d)
plans mechanisms or standards of performance involving
instruments such as ERCs, the EPA believes that there would be
an ample supply of such credits, for several reasons. First, as
discussed in sections V.D. and V.E., the EPA has established the
stringencies for building blocks 2 and 3 at levels that are
reasonable and not at the maximum achievable levels, providing
headroom for investment in the measures in these building blocks
beyond the amounts reflected in the CO2 emission performance
rates reflecting application of the BSER. In addition, if
emission limits are set at the CO2 emission performance rates,
affected EGUs in two of the three interconnections on average do
not need to implement the building blocks to their full
available extent in order to achieve their emission limits
(because the performance rates for each source category are the
emission rates achievable by that source subcategory through

376

The emergence of markets under the Acid Rain Program and
other environmental programs where trading has been permitted,
as well as state and industry support for the development of
markets under states’ section 111(d) plans, is discussed in a
recent report by the Advanced Energy Economy Institute. AEE
Institute, Markets Drive Innovation – Why History Shows that the
Clean Power Plan Will Stimulate a Robust Industry Response (July
2015), available at https://www.aee.net/aeei/initiatives/epa111d.html#epa-reports-and-white-papers.
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application of the building blocks in the interconnection where
that achievable emission rate is the highest), providing further
opportunities in those interconnections to generate surplus
emission reductions that could be used as the basis for issuance
of ERCs. Further, to the extent that section 111(d) plans take
advantage of the latitude the final guidelines provide for
states to set standards of performance incorporating emissions
trading on an interstate basis among affected EGUs in different
interconnections, all sources can take advantage of the headroom
available in other interconnections. As a result, significant
amounts of existing NGCC capacity and potential for RE remain
available to serve as the basis for issuance of ERCs for all
affected EGUs in both source subcategories to rely on to achieve
their emission limits. Because we recognize the ready
availability to states of standards of performance that
incorporate emissions trading –- and because such standards can
easily encompass interstate trading -- this rule includes by
express design a variety of options that states and utilities
can select to pursue interstate compliance regimes that mirror
the interconnected operation of the electricity system. As a
result, the EPA believes that it is reasonable to anticipate
that a virtually nationwide emissions trading market for
compliance will emerge, and that ERCs will be effectively

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available to any affected EGU wherever located, as long as its
state plan authorizes emissions trading among affected EGUs.377

377

There is a theoretical possibility – which we view as
extremely unlikely – that the affected EGUs in a given state or
group of states that has chosen to pursue a technology-specific
rate-based approach could have insufficient access to ERCs
because of the choices of certain other states to pursue massbased or blended-rate approaches. We view this as very unlikely
in part because of the conservative assumptions used in
calculating the emission reductions available through the
building blocks and the broad availability of non-BSER emission
reduction opportunities, such as energy efficiency, that will
generate ERCs. If such a situation arises, and the state or
states implementing the technology-specific rates does not have,
within the state or states, sufficient ERC-generation potential
to match their compliance requirements, the EPA will work with
the state or states to ensure that there is a mechanism that the
state or states can include in their state plans to allow the
affected EGUs in the state or states to generate additional ERCs
where the state or states can demonstrate that the ERCs do not
represent double-counting under other state programs. One
potential mechanism would be to assume for purposes of
demonstrating compliance with their standards of performance
that the generation replacing any reductions in generation at
those affected EGUs that was not paired with verified ERCs came
from existing NGCC units in other states from which ERCs were not
accessible. In other words, any reductions in fossil steam
generation from 2012 levels in a state or states that was
implementing technology-specific rates that could not be matched
by increases in NGCC generation or by ERCs from zero-emitting
sources, and for which it could be demonstrated that no further
ERCs can be procured, could generate building block 2 ERCs as if
that level of displaced generation were NGCC generation. A
demonstration that no further ERCs are procurable would have to
include demonstrations that the capacity factor of all NGCC
generation in the state or states was expected to be greater
than 75 percent and that further deployment of RE would go
beyond the amounts found available in the BSER. States could
distribute these additional ERCs to ensure compliance by
affected EGUs. Before such ERCs could be created by a state or
states, a framework would have to be submitted to the EPA for
approval including documentation of the levels of fossil steam
and NGCC generation in the state or states, a demonstration that
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It should also be noted that although in a state that sets
emission limits in a rate-based form the measures in building
blocks 2 and 3 can be taken into account directly in
computations to determine whether an individual affected EGU has
achieved its emission limit, in a state that sets emission
limits in a mass-based form these measures are not taken into
account directly in computations to determine whether an
individual affected EGU has achieved its emission limit.
However, by reducing generation and therefore CO2 emissions from
the group of affected EGUs within a region, in a state with
mass-based limits implementation of these measures facilitates
the ability of the individual EGUs within the region to achieve
their limits by choosing to reduce their own generation and
emissions.
(b) Reduced generation.
In addition, the owner/operator of an affected EGU may help
itself meet its emission limit by reducing its generation. If
the owner/operator reduces generation and therefore the amount
of its CO2 emissions, then, if the affected EGU is subject to an
emission rate limit, the owner/operator will need to implement
fewer of the building block measures, e.g., buy fewer ERCs, to
achieve its emission rate; and if the affected EGU is subject to

no further ERCs are accessible, and the total amount of building
block 2 ERCs to be created.
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a mass emission limit, the owner/operator will need fewer mass
allowances. As discussed below, at the levels that the EPA has
selected for the BSER, reduced generation at higher-emitting
EGUs does not decrease the amount of electricity available to
the system and end users because lower-emitting (or zeroemitting) generation will be available from other sources.
An owner/operator may take actions to ensure that it
reduces its generation. For example, it may accept a permit
restriction on the amount of hours that it generates. In
addition or alternatively, it may represent the cost of
additional emission credits or allowances that would be required
due to incremental generation as an additional variable cost
that increases the total variable cost considered when dispatch
decisions are made for the unit.
Because of the integrated nature of the electricity system,
combined with the system’s high degree of planning and
reliability safeguards, as well as the long planning horizon
afforded by this rule, individual affected EGUs can implement
the building blocks by reducing generation to achieve their
emission performance standards.378 Individual affected steam EGUs
can reduce their generation in the amounts of building blocks 2

378

For purposes of this discussion, we assume that coal-fired
steam generators also implement building block 1 measures so
that they will implement the full set of measures needed to
achieve their emission limit.
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and 3, while individual affected NGCC units can reduce their
generation in the amount of building block 3. With emission
limits for the source category as a whole in place, the
resulting reduction in supply of higher-emitting generation will
incentivize additional utilization of existing NGCC capacity,
the resulting reduction in overall fossil fuel-fired generation
will incentivize investment in additional RE generating
capacity, and the integrated system’s response to these
incentives will ensure that there will be sufficient electricity
generated to continue to meet the demand for electricity
services.
(c) Emissions trading.
As described above, viewed from the perspective of the
source category as a whole, it is reasonable for our analysis of
the BSER to include an element of source-category-wide multiunit compliance which could be implemented via a state-set
standard of performance incorporating emissions trading, under
which EGUs could engage in trading of rate-based emission
credits or mass-based emission allowances. By the same token,
viewed from the perspective of an individual EGU, consideration
of the ready availability to states of the opportunity to
establish standards of performance that incorporate emissions
trading is integral to our analysis. Accordingly, our assessment
of the actions available to individual EGUs for achieving
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standards of performance reflecting the BSER includes the
purchase of rate-based emission credits or mass-based emission
allowances, because one of the things an affected EGU can do to
achieve its emission limit is to buy a credit or an allowance
from another affected EGU that has over-complied. The use of
purchased credits or allowances would have to be authorized, of
course, in the purchasing EGUs’ states’ section 111(d) plans and
would have to meet conditions set out for such approaches in
section VIII below. The role of emissions trading in the BSER
analysis is discussed further in section V.A.2.f. below.
f. The role of emissions trading. In making its BSER
determination here, the EPA examined a number of technologies
and emission reduction measures that result in lower levels of
CO2 emissions and evaluated each one on the basis of the several
criteria on which the EPA relies in determining the BSER. In
contrast to section 111(b), however, section 111(d)(1) obliges
the states, not the EPA, to set standards of performance for the
affected EGUs in order to implement the BSER. Accordingly, with
respect to each measure or control strategy under consideration,
the EPA also evaluated whether or not the states could establish
standards of performance for affected EGUs that would allow
those sources to adopt the measure in question. In this case,
the EPA identified a host of factors that persuaded us that
states could –- and, in fact, may be expected to -- establish
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standards of performance that incorporate emissions trading.379
These wide-ranging factors include (i) the global nature of the
air pollutant in question – i.e., CO2; (ii) the transactional
nature of the industry; (iii) the interconnected functioning of
the industry and the coordination of generation resources at the
level of the regional grid; (iv) the extensive experience that
states – and EGUs – already have with emissions trading; and (v)
material in the record demonstrating strong interest on the part
of many states and affected EGUs in using emissions trading to
help meet their obligations.380

379

As an alternative to authorizing trading that would still
provide a degree of multi-unit flexibility, a state could choose
in its state plan to give an owner of multiple affected EGUs
flexibility regarding how the owner distributes any credits or
allowances it acquires among its affected EGUs.
380 Numerous states submitted comments urging the EPA to allow
states to develop trading programs, as suggested in the
proposal, including interstate trading programs. They include,
for example, Alabama (EPA should develop and issue guidelines
that allow options for multi‐state plans and interstate credit
trading programs, comment 23584), California (EPA should provide
flexibility for allowance trading programs to be integrated into
state plans, comment 23433), Hawaii (supports use of emission
credit trading with other entities to achieve compliance,
comment 23121), Massachusetts (EPA should explore possibility of
hosting a third‐party emissions trading bank that can allow
states interested in allowance trading to plug and play in to a
wider, more cost‐effective market, comment 31910), Michigan
(supports emissions trading programs, comment 23987), Minnesota
(develop model trading rule that states could incorporate by
reference as part of plan and automatically be included in
multi-state mass trading program, comment 23987), North Carolina
(EPA should examine a system of banking and trading for energy
efficiency, comment 23542), Oregon (EPA should expand the
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explicit options for multi‐state plans beyond cap‐and-trade,
comment 20678), Washington (supporting trading, comment 22764),
Wisconsin (requesting EPA to develop a national trading program,
Post‐111(d) Proposal Questions to EPA WI Questions for 7/16 Hub
call).
In addition, several groups of states supported trading
programs: Georgetown Climate Center (a group of state
environmental agency leaders, energy agency leaders, and public
utility commissioners from California, Colorado, Connecticut,
Delaware, Illinois, Maine, Maryland, Massachusetts, Minnesota,
New Hampshire, New York, Oregon, Rhode Island, Vermont, and
Washington) (“We believe states should have maximum flexibility
to determine what kinds of collaborations might work for them.
These could include submission of joint plans, standardized
approaches to trading renewable or energy efficiency credits....
We also encourage EPA to help facilitate such interstate
agreements or multi-state collaborations by working with states
to either identify or provide a platform or framework that
states may elect to use for the tracking and trading of avoided
generation or emissions credits due to interstate efficiency or
renewable energy.” comment 23597, at 39-40); RGGI (including
Connecticut, Delaware, Maine, Maryland, Massachusetts, New
Hampshire, New York, Rhode Island, Vermont) (“[E]very serious
proposal to reduce carbon emissions from EGUs, from proposed US
legislation to programs in place in California and Europe, has
identified allowance trading as the best approach.” Comment
22395 at 7-8); Western States Center for New Energy Economy
(including Arizona, California, Colorado, Idaho, Montana,
Nevada, Oregon, South Dakota, Utah, Washington) (“Some degree of
RE and EE credit trading among states may support compliance,
even in the absence of a comprehensive regional plan. Therefore,
EPA should support approaches which allow states flexibility to
allocate credit for these zero-carbon resources, along with
approaches which allow states to reach agreements on the
allocation of carbon liabilities. This includes ensuring that
existing tracking mechanisms for renewable energy in the West,
such as the Western Renewable Energy Generation Information
System (WREGIS), are compatible with the final proposal.”
Comment 21787 at 5); Midcontinent States Environmental and
Energy Regulators (including Arkansas, Illinois, Michigan,
Minnesota Missouri, Wisconsin) (EPA should also provide states
with optional ... systems (or system) for tracking emissions,
allowances, reduction credits, and/or generation attributes that
states may choose to use in their 111(d) plans,” comment 22535
at 3).
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The states’ and EGUs’ interest in emissions trading is
rooted in the well-recognized benefits that trading provides.
The experience of multiple trading programs over many years has
shown that some units can achieve emission reductions at lower
cost than others, and a system that allows for those lower-cost
reductions to be maximized is more cost-effective overall to the
industry and to society. Trading provides an affected EGU other
options besides direct implementation of emission reduction
measures in its own facility or an affiliated facility when
lower-cost emission reduction opportunities exist elsewhere.
Specifically, the affected EGU can cross-invest, that is, invest
in actions at facilities owned by others, in exchange for ratebased emission credits or mass-based emission allowances.

In addition, trading programs were supported by, among
others, a group of Attorneys General from 11 states and the
District of Columbia. Comment 25433 (Attorneys General from New
York, California, Connecticut, Maine, Maryland, Massachusetts,
New Mexico, Oregon, Rhode Island, Vermont, Washington, District
of Columbia, and New York City Corporation Counsel).
Numerous industry commenters also supported trading,
including Alliant Energy Corporate Services, Inc. (comment
22934), Calpine (comment 23167), DTE Energy (comment 24061),
Exelon (comment 23428 and 23155), Michigan Municipal Electric
Association (MMEA) (comment 23297), National Climate Coalition
(comment 22910), Pacific Gas and Electric Company (comment
23198), Western Power Trading Forum (WPTF) (comment 22860).
Environmental advocates also supported trading, including Clean
Air Task Force (comment 22612), Environmental Defense Fund
(comment 23140), Institute for Policy Integrity, New York
University School of Law (comment 23418).

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Through cross-investment, trading allows each affected EGU to
access the control measures that other affected EGUs decide to
implement, which in this case include all the building blocks as
well as other measures.
Accordingly, our analysis of the measures under
consideration in our BSER determination reflected the wellfounded conclusion that it is reasonable for states to
incorporate emissions trading in the standards of performance
they establish for affected EGUs and that many, if not all,
would do so.381
Whether viewed from the perspective of an individual EGU or
the source category as a whole, emissions trading is thus an
integral part of our BSER analysis. Again, we concluded that
this is reasonable given the global nature of the pollutant, the
transactional and interconnected nature of this industry, and
the long history and numerous examples demonstrating that, in
this sector, trading is integral to how regulators have
established, and sources have complied with, environmental and
similar obligations (such as RE standards) when it was
appropriate to do so given the program objective. The

381

As discussed in the Legal Memorandum, the EPA has promulgated
other rulemakings, including the transport rulemakings -- the
NOx SIP Call and CAIR, which required states to submit SIPs, and
CSAPR, which allows SIPs -- on the premise of interstate
emission trading.
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reasonableness is further demonstrated by the numerous comments
(some of which are noted above) from industry, states, and other
stakeholders in this rulemaking that supported allowing states
to adopt trading programs to comply with section 111(d) and
encouraged EPA to facilitate trading across state lines through
the use of trading-ready state plans. The EPA’s reliance on
trading in its BSER determination does not mean, however, that
states are required to establish trading programs (just as
states are not required to implement the building blocks that
comprise BSER). Nor does it mean that trading is the only
transactional approach that we could have considered in setting
the BSER or that states could use to effectuate the building
blocks were they to decide that they did not want to take on the
responsibility of running a trading program. Rather, it is
simply a recognition of the nature of this industry and the long
history of trading as an important regulatory tool in
establishing regulatory regimes for this industry and its
reasonable availability to states in establishing standards of
performance.
As an initial matter, trading is permissible for these
emission guidelines because CO2 is a global pollutant; the
location of its emission does not affect the location of the
environmental harm it causes. For CO2, it is the total amount of
emissions from the source category that matters, not the
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specific emissions from any one EGU. The fact that trading
allows sources to shift emissions from one location to another
does not impede achievement of the environmental goal of
reducing CO2 pollution. In its character as a pollutant whose
impacts extend beyond local areas, CO2 pollution resembles to
some extent the regional SO2 pollution that Congress chose to
address with the emissions trading program enacted in Title IV
of the 1990 CAA Amendments. The argument in support of trading
approaches is even stronger for CO2 pollution, whose adverse
effects are global rather than merely regional like the SO2
emissions contributing to acid precipitation.
Further, as discussed elsewhere in the preamble, the
utility power sector – and the affected EGUs and other
generation assets that it encompasses – has a long history of
working on a coordinated basis to meet operating and
environmental objectives, necessitated and facilitated by the
unique interconnectedness and interdependence of the sector.
That history includes joint dispatch for economic and
reliability purposes, both within large utility systems and in
multi-utility power pools that have evolved into RTOs; joint
power plant ownership arrangements; and long-term and short-term
bilateral power purchase arrangements. More recently, the
sector’s history also includes emissions trading programs
designed by Congress, the EPA, and the states to address
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regional environmental problems and, most recently, climate
change. Examples of such programs are noted below.
Essentially, trading does nothing more than commoditize
compliance, with the following two important results emerging
from that: it reduces the overall costs of controls and spreads
those costs among the entire category of regulated entities
while providing a greater range of options for sources that may
not want to make on-site investments for controlling their
emissions and may prefer to make the same investment, via the
purchase of the tradable compliance instrument, at another
generating source. Building blocks 2 and 3 entail affected EGUs
investing in increased generation from existing NGCC units and
RE. The affected EGUs could do so in any number of ways,
including acquiring ownership interests in existing NGCC or RE
facilities or entering into bilateral transactions with the
owners of existing NGCC facilities or RE sources. As discussed
elsewhere, it is reasonable to expect that these actions can
develop into discrete, tradable commodities (e.g., an ERC) and
that liquid markets will develop, which would reduce transaction
costs and allow an affected EGU to comply with its emission
limits by purchasing discrete units in amounts tailored closely
to its compliance needs. The existence of such tradable
commodities also incentivizes over-compliance by affected EGUs,
which can then sell their over-compliance in the form of ERCs or
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allowances to other affected EGUs. Moreover, as noted elsewhere,
the opportunity to trade is consistent with the EPA’s regional
approach for the building blocks.
By the same token, the opportunity to trade incentivizes
affected EGUs to over-comply with building block 1. Thus, the
opportunity to trade supports the EPA’s assumptions about what
an average affected EGU can achieve with regards to heat rate
improvement even if each and every affected EGU cannot achieve
that level of improvement. In addition, trading incentivizes
affected EGUs to consider low-cost, non-BSER methods to reduce
emissions as well, and, as discussed below, there are numerous
non-BSER methods, ranging from implementation of demand-side EE
programs to natural gas co-firing.
Trading has become an important mechanism for achieving
environmental goals in the electricity sector in part because
trading allows environmental regulators to set an environmental
goal while preserving the ability of the operators of the
affected EGUs to decide the best way to meet it taking account
of the full range of considerations that govern their overall
operations. For example, commenters were concerned that because
of building block 2, the emission guidelines would require state
environmental regulators to make dispatch decisions for the
electricity markets, a role that state environmental regulators
do not currently play. Although building block 2 entails
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substituting existing NGCC generation for steam generation,
implementing the emission limits that are based in part on
building block 2 through a trading program provides the
individual affected EGUs with a great deal of control over their
own generation while the industry as a whole achieves the
environmental goals. For example, individual steam generators
have the option of maintaining their generation as long as they
acquire additional ERCs. Moreover, trading provides a way for
states to set standards of performance that realize the required
emissions reduction without requiring any form of “environmental
dispatch” because, as many existing trading programs have shown,
monetization of the environmental constraint is consistent with
a least-cost dispatch system. Trading also supports the EPA’s
approach to the “remaining useful life” provision in section
111(d)(1) because with trading, an affected EGU with a limited
remaining useful life can avoid the need to implement long-term
emission reduction measures and can instead purchase ERCs or
other tradable instruments, such as mass-based allowances,
thereby allowing the state to meet the requirements of this
rule.
The EPA’s job in issuing these emission guidelines is to
determine the BSER that has been adequately demonstrated and to
set emission limitations that are achievable through the
application of the BSER and implementable through standards of
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performance established by the states. The three building blocks
are the EPA’s determination of what technology is adequately
demonstrated. We also consider trading an integral part of the
BSER analysis because, in addition to being available to states
for incorporation in the standards of performance they set for
affected EGUs, trading has been adequately demonstrated for this
industry in circumstances where systemic rather than unit-level
reductions are central. Congress, the EPA, and state regulators
have established successful environmental programs for this
industry that allow trading of environmental (or similar)
attributes, and trading has been widely used by the industry to
comply with these programs. Examples include the CAA Title IV
Acid Rain Program, the NOX SIP Call (currently referred to as the
NOX Budget Trading Program), the Clean Air Interstate Rule
(CAIR), the Cross-State Air Pollution Rule (CSAPR),382 the
Regional Haze trading programs, the Clean Air Mercury Rule,383

382

For example, in CSAPR, which covered the states in the
eastern half of the U.S., the EPA assumed the existence of
trading across those states in the rule’s cost estimates
contained in the RIA. “Regulatory Impact Analysis for the
Federal Implementation Plans to Reduce Interstate Transport of
Fine Particulate Matter and Ozone in 27 States; Correction of
SIP Approvals for 22 States” 32 (June 2011),
http://www.epa.gov/airtransport/CSAPR/pdfs/FinalRIA.pdf.
In
addition, the rule is being implemented either through federal
implementation plans (FIPs) that authorize interstate emission
trading or SIPs that authorize interstate emissions trading.
383 Although the CAMR trading program never took effect because
the rule was vacated on other grounds, it consisted of a
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RGGI, the trading program established by California AB32, and
the South Coast Air Quality Management District RECLAIM program.
We describe these programs in section II.E. of this preamble. In
addition, we note in the Legal Memorandum accompanying this
preamble that Congress, in enacting the Title IV acid rain
trading program, and the EPA, in promulgating the regulatory
trading programs listed, recognized both the suitability of
trading for the EGU industry and the benefits of trading in
reducing costs, spreading costs to affected EGUs throughout the
sector, and facilitating the ability of affected EGUs to comply
with their emission limits. In addition, as we discuss in
section V.E. of this preamble, many states have adopted RE
standards that promote RE through the trading of renewable
energy certificates (RECs).
Based on this history, it is reasonable for the EPA to
determine that states can establish standards of performance
that incorporate trading and, as a result, for the purpose of
making a BSER determination here to evaluate prospective
emission control measures in light of the availability of
trading. Trading is a regulatory mechanism that works well for

nationwide trading program that the EPA adopted under CAA
section 111(d). Some states declined to allow their sources to
participate in the trading program on the grounds that
nationwide trading was not appropriate for the air pollutant at
issue, mercury, a HAP that caused adverse local impacts.
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this industry. The environmental attributes in the preceding
programs (representing emissions of air pollutants) are
identical to or similar in nature to the environmental attribute
here (CO2 emissions). The markets for RECs show that robust
markets for RE, in particular, already exist.
Given the benefits of trading and the background of multiunit coordination grounded in the nature of the utility power
sector, it is natural for sources and states to look for
opportunities to apply similar coordination to a regional
problem such as reduction of CO2 emissions from the sector. As
noted earlier, the EPA heard this interest expressed during the
outreach process for this rulemaking and saw it reflected in
comments on the proposal. Emissions trading was prominent in
these expressions of interest; while the proposal allowed
trading and encouraged the development of multi-state plans
which would allow the benefits of trading to extend over larger
regions, we heard that interest was even greater in “tradingready” plans that would use trading mechanisms and market-based
coordination, rather than state-to-state coordination, as the
primary means of facilitating multi-unit approaches to
compliance. The general industry and state preference for multiunit compliance approaches makes great sense in the context of
the industry and this pollutant, as does the specific preference
for trading-ready section 111(d) plans, and we have made efforts
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in the final rule to accommodate trading-ready plans as
described in section VIII.
g. Measures that reduce CO2 emissions or CO2 emission rates but
are not included in the BSER. There are numerous other measures
that are available to at least some affected EGUs to help assure
that they can achieve their emission limits, even though the EPA
is not identifying these measures as part of the BSER. These
measures include demand-side EE implementable by affected EGUs;
new or uprated nuclear generation; renewable measures other than
those that are part of building block 3, including distributed
generation solar power and off-shore wind; combined heat and
power and waste heat power; and transmission and distribution
improvements. In addition, a state may implement measures that
yield emission reductions for use in reducing the obligations on
affected EGUs, such as demand-side EE measures not implementable
by affected EGUs, including appliance standards, building codes,
and drinking water or wastewater system efficiency measures. The
availability of these measures further assures that the
appropriate level of emission reductions can be achieved and
that affected EGUs will be able to achieve their emission
limits.
h. Ability of EGUs to implement the BSER. The EPA’s analysis,
based in part on observed decades-long behavior of EGUs, shows
that all types and sizes of affected EGUs in all locations are
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able to undertake the actions described as the BSER, including
investor-owned utilities, merchant generators, rural
cooperatives, municipally-owned utilities, and federal
utilities. Some may need to focus more on certain measures; for
example, an owner of a small generation portfolio consisting of
a single coal-fired steam EGU may need to rely more on crossinvestment approaches, possibly including the purchase of
emission credits or allowances, because of a lack of sufficient
scale to diversify its own portfolio to include NGCC capacity
and RE generating capacity in addition to coal-fired capacity.
As a legal matter, it is not necessary that each affected EGU be
able to implement the BSER, but in any event, in this rule, all
affected EGUs can do so. Since states can reasonably be expected
to establish standards of performance incorporating emissions
trading, affected EGUs may rely on emissions trading approaches
authorized under their states’ section 111(d) plans to, in
effect, invest in building block measures that are physically
implemented at other locations. As discussed above, the EPA’s
quantification of the CO2 emission performance rates in a manner
that provides headroom within the BSER also contributes to the
ability of all affected EGUs to implement the BSER and achieve
emissions limitations consistent with those performance rates.
i. Subcategorization. As noted above, in this rule, we are
treating all fossil fuel-fired EGUs as a single category, and,
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in the emission guidelines that we are promulgating with this
rule, we are treating steam EGUs and combustion turbines as
separate subcategories. We are determining the BSER for steam
EGUs and the BSER for combustion turbines, and applying the BSER
to each subcategory to determine a performance rate for that
subcategory. We are not further subcategorizing among different
types of steam EGUs or combustion turbines. As we discuss below,
this approach is fully consistent with the provisions of section
111(d), which simply require the EPA to determine the BSER, do
not prescribe the method for doing so, and are silent as to
subcategorization. This approach is also fully consistent with
other provisions in section 111, which require the EPA first to
list source categories that may reasonably be expected to
endanger public health or welfare and then to regulate new
sources within each such source category, and which grant the
EPA discretion whether to subcategorize the sources for purposes
of determining the BSER.
As discussed below, each affected EGU can achieve the
performance rate by implementing the BSER, specifically, by
taking a range of actions –- some of which depend on features of
the section 111(d) plan chosen by the state, such as the choice
of rate-based or mass-based standards of performance and the
choice of whether and how to permit emissions trading -including investment in the building blocks, replaced or reduced
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generation, and purchase of emission credits or allowances.
Further, in the case of a rate-based state plan, several other
compliance options not included in the BSER for this rule are
also available to all affected EGUs, including investment in
demand-side EE measures. Such compliance options may also
indirectly help affected EGUs achieve compliance under a massbased plan.
Our approach of subcategorizing between steam EGUs and
combustion turbines is reasonable because building blocks 1 and
2 apply only to steam EGUs. Moreover, our approach of not
further subcategorizing as between different types of steam EGUs
or combustion turbines reflects the reasonable policy that
affected EGUs with higher emission rates should reduce their
emissions by a greater percentage than affected EGUs with lower
emission rates and can do so at a reasonable cost using the
approaches we have identified as the BSER as well as other
available measures.
Of course, a state retains great flexibility in assigning
standards of performance to its affected EGUs and can impose
different emission reduction obligations on its sources, as long
as the overall level of emission limitation is at least as
stringent as the emission guidelines, as discussed below.
3. Changes from proposal

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For the BSER determined in this final rule, based on
consideration of comments responding to a broad array of topics
considered in the proposal, the EPA has adopted certain
modifications to the proposed BSER. In this subsection we
describe the most important modifications, including some that
relate to individual building blocks and some that are more
general. Additional modifications that relate to individual
building blocks are discussed in the respective sections for
those building blocks below (sections V.C. through V.E.).
We note that taken together, the modifications yield
emission reductions requirements that commence more gradually
than the proposed goals but are projected to produce greater
overall annual emission reductions by 2030.384 We also note that
the modifications lead to requirements that are more uniform
across states than the proposed state goals (consistent with the
direction of certain alternatives on which we sought comment in
the proposal), with the final requirements generally becoming
more stringent (compared to the proposal) in states with the

384

For the proposed rule, the EPA projected total CO2 emission
reductions from 2005 levels of 29% in 2025 and 30% in 2030. For
the final rule, the EPA projects total CO2 emissions reductions
from 2005 levels of 28% in 2025 and 32% in 2030. See Regulatory
Impact Analysis for the CPP Proposed Rule, Table 3-6, and
Regulatory Impact Analysis for the CPP Final Rule, Table 3-6,
available in the docket.
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highest 2012 CO2 emission rates and less stringent in states with
lower 2012 CO2 emission rates.
a. Interpretations of CAA section 111. In the June 2014 proposal,
the EPA proposed interpretations of section 111(a)(1) and (d),
and applied these interpretations to existing fossil fuel-fired
EGUs.385 Informed by comments, the EPA has clarified some of
these interpretations, and has developed a more refined
understanding of how some of these interpretations should be
applied. The clarified and more refined interpretations replace
the proposed interpretations.
Two of these points merit mention here. First, the EPA is
clarifying in this rule that the interpretation of “system of
emission reduction” does not include emission reduction measures
that the states have authority to mandate without the affected
EGUs being able to implement the measures themselves (e.g.,
appliance standards or building codes). In the final rule, we
have clarified that the components of the BSER must be
implementable by the affected EGUs, not just by the states, and
we show that all the components of the BSER have been
demonstrated to be achievable on that basis without reliance on
actions that can be accomplished only through government

385

The June 2014 proposal in part referenced proposed
interpretations of section 111(a)(1) that the EPA explained in
the January 2014 proposal to address CO2 emissions from new
fossil fuel-fired EGUs under section 111(b).
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mandates. Further discussion of these points can be found
throughout this section on the BSER and the following sections
on the individual building blocks.
Second, the EPA has adopted a combined interpretation of
sections 111(a)(1) and 111(d) that, compared to the proposal,
better reflects the historical interpretations of section
111(a)(1), which have generally supported emissions standards
that are nationally uniform for sources incorporating a given
technology, and gives less weight to the state-focused character
of section 111(d), which calls for emissions standards to be
implemented through the development of individual state plans.
The proposed state goals were heavily (although not entirely)
dependent on the emission reduction opportunities available to
the EGUs in each individual state, and because the relative
magnitudes of these opportunities varied by state, states with
similar EGU fleet compositions could have faced state goals of
different stringencies, potentially making it difficult for
multiple states to set the same standards of performance for
affected EGUs using the same technologies (assuming the states
were interested in setting standards of performance for their
various affected EGUs in such a manner). Some commenters viewed
this potential result as inconsistent with section 111(a)(1),
inequitable, or both. In response, we took further comment on
these potential disparities in the October 30, 2014 Notice of
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Data Availability. In this final rule, we are obviating those
concerns by assessing the emission reduction opportunities at an
appropriate regional scale, consistent with alternatives on
which we sought comment, and using this regional information to
reformulate the proposed emissions standards as nationally
uniform emissions standards for the emission guidelines.386
National uniformity is consistent with prior section 111
rulemaking and advances a number of other goals central to this
rulemaking. The methodological refinements related to regional
assessment of emission reduction opportunities and the use of
uniform emissions standards by technology subcategory are
further discussed below.
b. Approach to quantification of emission reductions from
increased RE generation. In the June 2014 proposal, the EPA
described two possible approaches for quantifying the amount of
emission reductions achievable from affected EGUs through the
use of RE generation. The proposed approach used information on
state RPS aggregated at a regional level along with historical
RE generation data to project the amount of RE generation used
in quantifying the emission reductions achievable through the

386

Of course, a source in one state may face different
requirements than similar sources in other states, depending on
whether the state adopts the state measures approach or, if it
adopts the emission standards approach, whether it imposes a
mass limit or an emission rate and, if the latter, at what
level.
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BSER. The alternative approach used information on the technical
and market potential for development of renewable resources in
each state to project the RE-related emission reductions. In the
October 30, 2014 Notice of Data Availability, we sought comment
on an additional approach of aggregating the state-level
information to a regional level, as suggested by some
commenters. In this final rule we are adopting a combination of
these approaches that uses historical RE generating capacity
deployment data aggregated to a regional level, supported and
confirmed by projections of market potential developed through a
techno-economic approach.
In the June 2014 proposal, RE generation was also
quantified as generation from total –- that is, existing and new
–- RE generating capacity, a formulation that was consistent
with the formulation of most RPS, which are typically framed in
terms of total rather than incremental generation. In response
to the EPA’s request for comment on this approach, commenters
observed that the approach was inconsistent with the approach
taken for other building blocks, and that generation from RE
generating capacity that already existed as of 2012 should not
be treated as reducing emissions of affected EGUs from 2012
levels. As just noted, we are not using the RPS-based
methodology in the final rule, and we agree with comments that
quantification of RE generation on an incremental basis is both
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more consistent with the treatment of other building blocks and
more consistent with the general principle that the BSER should
comprise incremental measures that will reduce emissions below
existing levels, not measures that are already in place, even if
those in-place measures help current emission levels be lower
than would be the case without the measures. The final rule
therefore defines the RE component of the BSER in terms of
incremental rather than total RE generation.387 Further details
regarding the final rule’s quantification of RE generation are
provided in section V.E. below.
c. Exclusion from the BSER of emission reductions from use of
under-construction or preserved nuclear capacity. In the June
2014 proposal, the EPA included in building block 3 provisions
reflecting the ability for nuclear generation to replace fossil
generation and thereby reduce CO2 emissions at affected EGUs. We
proposed to include in building block 3 the potential generation
from five under-construction nuclear generating units whose
construction had commenced prior to the issuance of the
proposal. In addition, to address the potential that some
currently operating nuclear facilities may shut down prior to

387

Generation from existing RE capacity will continue to make
compliance with mass-based standards easier to achieve by making
the overall amount of fossil fuel-fired generation that is
required to meet the demand for energy services lower than it
would otherwise be, thereby keeping CO2 emissions lower than they
would otherwise be.
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2030, the proposal incorporated into the BSER for each state
with nuclear capacity a projected 5.8 percent reduction in
nuclear generation, based on an estimate of potential nationwide
loss of nuclear generation from existing units. We sought
comment on all aspects of these proposed approaches. While we
recognize the important role nuclear power plants have to play
in providing carbon-free generation in an all-of-the-above
energy system, for this final rule, the BSER does not include
either of the components related to nuclear generation.
The EPA received numerous comments on the proposed BSER
components related to nuclear power. With respect to generation
from under-construction nuclear units, some commenters expressed
strong opposition to the inclusion of this generation in the
BSER and the setting of state goals, stating that inclusion
would result in very stringent state goals for the states where
the units are being built and that the inclusion of the
generation in the goals is premature because the units’ actual
completion dates could be delayed. Commenters also stated that
inclusion of the under-construction nuclear generation in the
BSER would be inequitable because states where the same heavy
investment in zero-CO2 generation was not being made would have
relatively less stringent goals.
With respect to generation from existing nuclear units,
some commenters stated that our method of accounting for
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potential unit shutdowns was flawed, observing that even if the
prediction of a 5.8 percent nationwide loss of nuclear
generation were accurate, the actual shutdowns would occur in a
handful of states, resulting in much larger losses of generation
in those particular states.
Upon consideration of comments and the accompanying data,
the EPA has determined that the BSER should not include either
of the components related to nuclear generation from the
proposal. With respect to nuclear units under construction,
although we believe that other refinements to this final rule
would address commenters’ concerns that goals for the particular
states where the units are located would be overly stringent
either in absolute terms or relative to other states, we also
acknowledge that, in comparison to RE generating technology,
investments in new nuclear units tend to be individually much
larger and to require longer lead times. Also, important recent
trends evidenced in RE development, such as rapidly growing
investment and rapidly decreasing costs, are not as clearly
evidenced in nuclear generation. We view these factors as
distinguishing the under-construction nuclear units from RE
generating capacity, indicating that the new nuclear capacity is
likely of higher cost and therefore less appropriate for
inclusion in the BSER. Excluding the under-construction nuclear
units from the BSER, but allowing emission reductions
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attributable to generation from the units to be used for
compliance as discussed below and in section VIII, will
recognize the CO2 emission reduction benefits achievable through
the significant ongoing commitment required to complete these
major investments.
With respect to existing nuclear units, although again we
believe that other refinements in the final rule would address
the concern about disparate impacts on particular states, we
acknowledge that we lack information on shutdown risk that would
enable us to improve the estimated 5.8 percent factor for
nuclear capacity at risk of retirement. Further, based in part
on comments received on another aspect of the proposal –specifically, the proposed inclusion of existing RE generation
in the goal-setting computations –- we believe that it is
inappropriate to base the BSER in part on the premise that the
preservation of existing low- or zero-carbon generation, as
opposed to the production of incremental, low- or zero-carbon
generation, could reduce CO2 emissions from current levels.
Accordingly, we have determined not to reflect either of the
nuclear elements in the final BSER.
Generation from under-construction or other new nuclear
units and capacity uprates at existing nuclear units would still
be able to help sources meet emission rate-based standards of
performance through the creation and use of credits, as noted in
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section V.A.6.b. and section VIII.K.1.a.(8), and would help
sources meet mass-based standards of performance through reduced
utilization of fossil generating capacity leading to reduced CO2
emissions at affected EGUs. However, consistent with the reasons
just discussed for not reflecting preservation of existing
nuclear capacity in the BSER –- namely, that such preservation
does not actually reduce existing levels of emissions from
affected EGUs –- the rule does not allow preservation of
generation from existing or relicensed nuclear capacity to serve
as the basis for creation of credits that individual affected
EGUs could use for compliance, as further discussed in section
VIII.K.1.a.(8).388
d. Exclusion from the BSER of emission reductions from demandside EE. The June 2014 proposal included demand-side EE measures
in building block 4 as part of the BSER. The EPA took comment on
the attributes of each of the proposed building blocks, and
building block 4 was a topic of considerable controversy among
commenters. While many commenters recognized demand-side EE as
an integral part of the electricity system, emphasized its costeffectiveness as a means of reducing CO2 emissions from the

388

As with generation from existing RE capacity, generation from
existing nuclear capacity will continue to make compliance with
mass-based standards easier to achieve by making the overall
amount of fossil fuel-fired generation that is required to meet
the demand for energy services lower than it would otherwise be,
thereby keeping CO2 emissions lower than they would otherwise be.
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utility power sector, and strongly supported its inclusion in
the BSER, other commenters expressed significant concerns.
As explained in section V.B.3.c.(8) below, our traditional
interpretation and implementation of CAA section 111 has allowed
regulated entities to produce as much of a particular good as
they desire provided that they do so through an appropriately
clean (or low-emitting) process. While building blocks 1, 2, and
3 fall squarely within this paradigm, the proposed building
block 4 does not. In view of this, since the BSER must serve as
the foundation of the emission guidelines, the EPA has not
included demand-side EE as part of the final BSER determination.
It should be noted that commenters also took the position
that the EPA should allow demand-side EE as a means of
compliance with the requirements of this rule, and, as discussed
in section V.A.6.b. and section VIII below, we agree.
e. Consistent regionalized approach to quantification of emission
reductions from all building blocks. In the June 2014 proposal,
the EPA treated each of the building blocks differently with
respect to the regional scale on which the building block was
applied for purposes of assessing the emission reductions
achievable through use of that building block. Building block 1
was quantified at a national scale, identifying a single heat
rate improvement opportunity applicable on average to all coalfired steam EGUs. Building block 2 was quantified at the scale
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of each individual state, considering the amount of generation
that could be shifted from steam EGUs to NGCC units within the
state, although we solicited comment on considering generation
shifts at a broader regional scale. The RE component of building
block 3 was quantified at a regional scale using RPS information
as a proxy for RE development potential, and the regional
results were then applied to each state in the region using the
state’s baseline data; an alternative methodology on which we
requested comment quantified the RE component using a technoeconomic approach on a state-specific basis. In the October 2014
Notice of Data Availability, we requested comment on using a
techno-economic approach to quantify RE generation potential at
a regional scale and took broad comment on strategies for better
aligning the BSER with the regionally interconnected electrical
grid.389 We also solicited comment on the appropriate regional
boundaries or regional structure to facilitate this approach.
For the final rule, with the benefit of comments received
in response to these proposals and alternatives, we have adopted
a consistent regionalized approach to quantification of emission
reductions achievable through all the building blocks. Under
this approach, each of the building blocks is quantified and
applied at the regional level, resulting in the computation for

389

79 FR 64543, 64551-62

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each region of a performance rate for steam EGUs and a
performance rate for NGCC units. For each of the technology
subcategories, we identify the most conservative –- that is, the
least stringent –- of the three regional performance rates. We
then apply these least stringent subcategory-specific
performance rates to the baseline data for the EGU fleet in each
state to establish state goals of consistent stringency across
the country. (Note that the actual state goals vary among states
to reflect the differences in generation mix among states in the
baseline year.) Further description of the steps in this overall
process is contained in the preamble sections addressing the
individual building blocks (sections V.C., V.D., and V.E.), CO2
emission performance rate computation (section VI), and state
goal computation (section VII), as well as the GHG Mitigation
Measures TSD for the CPP Final Rule and the CO2 Emission
Performance Rate and Goal Computation TSD for the CPP Final Rule
available in the docket.
Compared to the more state-focused quantification approach
selected in the proposal, and as recognized in the Notice of
Data Availability, a regionalized approach better reflects the
interconnected system within which interdependent affected EGUs
actually carry out planning and operations in order to meet
electricity demand. We have already discussed the relevance of
the interconnected system and the interdependent operations of
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EGUs as factors supporting consideration of building blocks 2
and 3 as elements of the BSER for this pollutant and this
industry, and these same factors support quantifying the
emission reductions achievable through building blocks 2 and 3
on a regionalized basis. Because it better reflects how the
industry works, a regionalized approach also better represents
the full scope of emission reduction opportunities available to
individual affected EGUs through the normal transactional
processes of the industry, which do not stop at state borders
but rather extend throughout these interconnected regions. With
respect to building block 1, which comprises types of emission
reduction measures that in other rulemakings under CAA section
111 would typically be evaluated on a nationwide basis, for this
rule, as discussed in section V.C. below, we are quantifying the
emission reductions achievable through building block 1 on a
regional basis in order to treat the building blocks
consistently and to ensure that for each region the
quantification of the BSER represents only as much potential
emission reduction from building block 1 as our analysis of
historical data indicates can be achieved on average by the
affected EGUs in that region.
Characterizing and quantifying the measures included in the
BSER on a regional basis rather than a state-limited basis is
also appropriate because states can establish standards of
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performance that incorporate emissions trading, including
trading between and among EGUs operating in different states,
and thus provide EGUs the opportunity to trade. Emissions
trading provides at least one mechanism by which owners of
affected EGUs can access any of the building blocks at other
locations. With emissions trading, an affected EGU whose access
to heat rate improvement opportunities, incremental generation
from existing NGCC units, or generation from new RE generating
capacity is relatively favorable can overcomply with its own
standard of performance and sell rate-based emission credits or
mass-based emission allowances to other affected EGUs. Purchase
of the credits or allowances by the other EGUs represents crossinvestment in the emission reduction opportunities, and such
cross-investment can be carried out on as wide a geographic
scale as trading rules allow.
The regions we have determined to be appropriate for the
regionalized approach in the final rule are the Eastern,
Western, and Texas Interconnections.390 In determining that the
appropriate regional level for quantification of the BSER was
the level of the interconnection, the EPA considered several

390

The Texas Interconnection encompasses the portion of the
Texas electricity system commonly known as ERCOT (for the
Electric Reliability Council of Texas). The state of Texas has
areas within the Eastern and Western Interconnections as well as
the Texas Interconnection.
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factors. First, consistent with our goal of aligning regulation
with the reality of the interconnected electricity system, we
considered the regional scale on which electricity is actually
produced, physically coordinated, and consumed in real time –specifically the Eastern, Western, and Texas Interconnections.
The Bulk Power System (BPS) in the contiguous U.S. (including
adjacent portions of Canada and Mexico) consists of these three
interconnections, which are alternating current (AC) power grids
where power flows freely from generating sources to consuming
loads. These interconnections are separately planned and
operated; they are connected to each other only through lowcapacity direct current (DC) tie lines. Each interconnection is
managed to maintain a single frequency and to maintain stable
voltage levels throughout the interconnection. Physically, each
interconnection functions as a large pool, where all electricity
delivered to the electric grid flows by displacement over all
transmission lines in the interconnection and must be
continually balanced with load to ensure reliable electricity
service to customers throughout each interconnection. “Since
power flows on all transmission paths, it is not uncommon to
find circumstances in which part of a power delivery within one
balancing area flows on transmission lines in adjoining areas,
or part of a power delivery between two balancing areas flows

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over the transmission facilities of a third area.”391 The
interconnections are the “complex machines” within which EGUs
plan, coordinate, and operate, manifesting a degree of both
long-term and real-time interdependence that is unique to this
industry. We concluded that, absent a compelling reason to adopt
a smaller regional scale for evaluation of CO2 emission reduction
opportunities for the electric power sector –- which we have not
found, as discussed below –- the interconnections should be the
regions used for evaluation of the BSER for CO2 emission
reductions from the electric power sector because of the
fundamental characteristics of electricity, the industry’s basic
interconnected physical infrastructure, and the interdependence
of the affected EGUs within each interconnection.
Second, we considered whether the interconnection
subregions for which various planning and operational functions
are carried out by separate institutional actors would represent
more appropriate regions than the entire Interconnnections, and
concluded that they would not. Interconnection planning and
management follows the NERC functional model, which defines
subregional areas and regional entities within each
interconnection for the purposes of balancing generation with
load and ensuring that reliability is maintained. While a

391

Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 188 (2d ed. 2010).

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variety of organizations plan and operate these subregions,
those activities always occur in the context of the
interconnections, and the subregions cannot be operated
autonomously. The need to maintain common frequency and stable
voltage levels throughout the interconnections requires
constantly changing flows of electricity between the planning
and operating subregions within each interconnection.
Because each interconnection is a freely flowing AC grid,
any power generated or consumed flows through the entire
interconnection in real time; as a result of this highly
interconnected nature of the power system, the management of
generation and load on the grid must be carefully maintained.
This management is carried out principally by subregional
entities responsible for the operation of the grid, but this
operation must be coordinated in real time to ensure the
reliability of the system. Regional operators must coordinate
the dispatch of power, not only in their own areas, but also
with the other subregions within the interconnection. Although
this coordination has always been important, grid planning and
management has evolved to be increasingly interconnection-wide,
through the development of larger regional entities, such as
RTO/ISOs, or large-utility dispatch across multiple balancing
areas. As a result, the fact that much of the necessary
coordination for the interconnections is performed regionally on
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a partially decentralized basis (at least in the case of the
Eastern and Western Interconnections) or occurs through the
operation of automated equipment and the physics of the grid
does not render the subregions more relevant than the
interconnections as the ultimate regions within which
electricity supply and demand must balance.
Moreover, some planning and standard setting activities are
undertaken explicitly at the interconnection level. For example,
interconnections also have interconnection reliability operating
limits (IROLs).392 A joint FERC-NERC report on the September 8,
2011 Arizona-Southern California outages outlined the importance
of IROLs.393 The report noted that to ensure the reliable
operation of the bulk power system, entities must identify a
plan for IROLs to avoid cascading outages. “In order to ensure
the reliable operation of the BPS, entities are required to

392

For example, the Eastern Interconnection has Reliability
Standard IRO-006-EAST-1, Transmission Loading Relief Procedure
for the Eastern Interconnection, available at
http://www.nerc.com/files/IRO-006-EAST-1.pdf (providing an
“Interconnection-wide transmission loading relief procedure
(TLR) for the Eastern Interconnection that can be used to
prevent and/or mitigate potential or actual System Operating
Limit (SOL) and Interconnection Reliability Operating Limit
(IROL) exceedances to maintain reliability of the Bulk Electric
System (BES).”).
393 FERC-NERC, Arizona-Southern California Outages on September
8, 2011: Causes and Recommendations (Apr. 2012), available at
http://www.ferc.gov/legal/staff-reports/04-27-2012-ferc-nercreport.pdf.
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identify and plan for IROLs, which are SOLs that, if violated,
can cause instability, uncontrolled separation, and cascading
outages. Once an IROL is identified, system operators are then
required to create plans to mitigate the impact of exceeding
such a limit to maintain system reliability.”394
Congress recognized the significance of the three
interconnections in the American Recovery and Reinvestment Act
of 2009 (Recovery Act) when it provided $80 million in funding
for interconnection-based transmission planning.395 In order to
fulfill this Congressional mandate, DOE and FERC signed a
memorandum of understanding to enumerate their roles “for
activities related to the Resource Assessment and
Interconnection Planning project funded by the American Recovery
and Reinvestment Act of 2009 (Recovery Act). Among the
objectives of the project is to facilitate the development or
strengthening of capabilities in each of the three
interconnections serving the contiguous lower forty-eight
States, to prepare analyses of transmission requirements under a
broad range of alternative futures and develop long-term

394

FERC-NERC, Arizona-Southern California Outages on September
8, 2011: Causes and Recommendations, at 97 (Apr. 2012),
available at http://www.ferc.gov/legal/staff-reports/04-27-2012ferc-nerc-report.pdf.
395 American Reinvestment and Recovery Act of 2009, Title IV,
Public Law 111-5 (2009).
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interconnection-wide transmission plans.”396 DOE issued awards to
five organizations that performed work in the Western, Eastern,
and Texas Interconnections to develop long-term interconnectionwide transmission expansion plans.397
In Order No. 1000, FERC also took a broader regional view
of transmission planning.398 FERC required each public utility
transmission provider to participate in a regional transmission
planning process that produces a regional transmission plan.
FERC also required neighboring transmission planning regions to
coordinate with each other. This interregional coordination
includes identifying methods for evaluating interregional
transmission facilities as well as establishing a common method
or methods of cost allocation for interregional transmission
facilities.
In addition to Congressional, DOE, and FERC recognition of
the importance of the three interconnections, NERC also

396

Memorandum of Understanding Between the U.S. Department of
Energy and the Federal Energy Regulatory Commission, available
at http://www.ferc.gov/legal/mou/mou-doe-ferc.pdf.
397 DOE, Recovery Act Interconnection Transmission Planning,
available at http://energy.gov/oe/services/electricity-policycoordination-and-implementation/transmission-planning/recoveryact.
398 Transmission Planning and Cost Allocation by Transmission
Owning and Operating Public Utilities, Order No. 1000, FERC
Stats. & Regs. ¶ 31,323 (2011), order on reh’g, Order No. 1000A, 139 FERC ¶ 61,132, order on reh’g, Order No. 1000-B, 141 FERC
¶ 61,044 (2012), aff’d sub nom. S.C. Pub. Serv. Auth. v. FERC,
762 F.3d 41 (D.C. Cir. 2014).
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considers them to be significant. NERC Organizational Standards
“are based upon certain Reliability Principles that define the
foundation of reliability for North American bulk electric
systems.”399 These principles take a broad view of electric
system reliability, considering the reliability of
interconnected bulk electric systems. For example, Reliability
Principle 1 states, “Interconnected bulk electric systems shall
be planned and operated in a coordinated manner to perform
reliably under normal and abnormal conditions as defined in the
NERC standards.”400 NERC took a similarly broad view of system
reliability when it delegated its authority to monitor and
enforce mandatory reliability standards to a single Regional
Entity in both the Western and Texas Interconnections (WECC in
the West and the Texas Reliability Entity in the ERCOT region of
Texas).401 Moreover, both WECC and ERCOT have interconnectionwide reliability standards.402 The Eastern Interconnection has

399

NERC, Reliability and Market Interface Principles, at 1,
available at
http://www.nerc.com/pa/Stand/Standards/ReliabilityandMarketInter
facePrinciples.pdf.
400 NERC, Reliability and Market Interface Principles, at 1,
available at
http://www.nerc.com/pa/Stand/Standards/ReliabilityandMarketInter
facePrinciples.pdf.
401 NERC, Key Players, available at
http://www.nerc.com/AboutNERC/keyplayers/Pages/default.aspx.
402 WECC, Standards, available at
https://www.wecc.biz/Standards/Pages/Default.aspx (last visited
July 3, 2015); Texas Reliability Entity, Reliability Standards,
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multiple reliability regions with some differences in standards,
but power flows and reliability are managed through a single
Reliability Coordinator Information System that tracks power
flows for all transmission transactions.403
The importance that Congress, DOE, FERC, and NERC each
place upon the interconnections for electric reliability and
operational issues is another factor supporting our decision to
set the interconnections as the regional boundaries for the
establishment of BSER. The utilization of the three
interconnections for both planning and reliability purposes is a
clear indication of the importance that electricity system
regulators, operators, and industry place upon the
interconnections. Those responsible for the electricity system
recognize the need to ensure that there is a free flow of
electricity throughout each interconnection such that
transmission planning and reliability analysis are occurring at
the interconnection level. Further, this vigilance with respect

available at
http://www.texasre.org/standards_rules/Pages/Default.aspx (last
visited July 3, 2015).
403 The NERC glossary defines the Reliability Coordinator
Information System as the “system that Reliability Coordinators
use to post messages and share operating information in real
time.” NERC, Glossary of Terms Used in Reliability Standards
(Apr. 20, 2009), available at
http://www.eia.gov/electricity/data/eia411/nerc_glossary_2009.pd
f.
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to considering reliability from an interconnection-wide basis
recognizes that each of the interconnections behaves as a single
machine where “outages, generation, transmission changes, and
problems in any one area in the synchronous network can affect
the entire network.”404 By setting the three interconnections as
the regions for purposes of BSER, we are acting consistent with
the way in which planning, reliability, and industry experts
view the electricity system.
An additional factor weighing against the use of planning
or operational subregions of the interconnections as the regions
for our BSER analysis for this rule is that the borders of those
subregions occasionally change as planning and management
functions evolve or as owners of various portions of the grid
change affiliations. This is not a merely theoretical
consideration; numerous ISO/RTO and other regional boundaries
have substantially changed in recent years. For example, in
2012, Duke Energy Ohio and Duke Energy Kentucky integrated into
PJM.405 The following year, in December 2013, Entergy and its six
utility operating companies joined MISO, creating the MISO South

404

Casazza, J. and Delea, F., Understanding Electric Power
Systems, IEEE Press, at 159 (2d ed. 2010).
405 PJM, Duke Energy Ohio, Inc., and Duke Energy Kentucky, Inc.,
Successfully Integrated Into PJM (Jan. 3, 2012), available at
http://www.pjm.com/~/media/about-pjm/newsroom/2012releases/20120103-duke-ohio-and-kentucky-integrate-intopjm.ashx.
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Region.406 The integration of MISO South correspondingly led to
changes in NERC’s regional assessment areas.407 FERC also
recently approved the integration of the Western Areas Power
Administration – Upper Great Plains, Basin Electric Power
Cooperative, and Heartland Consumers Power District into SPP.408
Additionally, PacifiCorp and the CAISO recently began operating
the western Energy Imbalance Market (EIM).409 Other entities such
as NV Energy, Arizona Public Service Co., and Puget Sound Energy
are planning to participate in the EIM in the future.410 The EIM
“creates significant reliability and renewable integration

406

Miso, South Region Integration, available at
https://www.misoenergy.org/WhatWeDo/StrategicInitiatives/Souther
nRegionIntegration/Pages/SouthernRegionIntegration.aspx (noting
that the creation of the MISO South Region “brought over 18,000
miles of transmission, ~50,000 megawatts of generation capacity,
and ~30,000 MW of load into the MISO footprint.”).
407 NERC previously included Entergy and its six operating areas
as part of the SERC Assessment Areas. NERC, 2014 Reliability
Assessment (May 2014). “MISO now coordinates all RTO activities
in the newly combined footprint, consisting of all or parts of
15 states with the integration of Entergy and other MISO South
entities. This transition has led to substantial changes to
MISO’s market dispatch, creating the potential for unanticipated
flows across the following systems: Tennessee Valley Authority
(TVA), Associated Electric Cooperative Inc. (AECI), and Southern
Balancing Authority.” Id. at 7.
408 SPP, FERC approves Integrates System joining SPP (Nov. 12,
2014), available at
http://www.spp.org/publications/FERC%20approves%20IS%20membershi
p.pdf.
409 NREL, Energy Imbalance Market, available at
http://www.nrel.gov/electricity/transmission/energy_imbalance.ht
ml.
410 CAISO, EIM Company Profiles (May 2015), available at
http://www.caiso.com/Documents/EIMCompanyProfiles.pdf.
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benefits for consumers by sharing and economically dispatching a
broad array of resources.”411 This history of changing regional
boundaries leads us to the conclusion that selecting smaller
regional boundaries for purposes of setting the BSER would
merely represent a snapshot of current, changeable regional
boundaries. As we have seen with recent, large-scale changes
regarding ISO/RTO boundaries and NERC reliability assessment
areas, such regions would likely not stand the test of the time,
nor would smaller regional boundaries accurately reflect
electricity flows on the grid. The EPA believes that the
interconnections are the most stable and reasonable regional
boundaries for setting BSER.
Third, we considered whether transmission constraints, and
the fact that the specific locations of generation resources and
loads within each interconnection clearly matter to grid
planning and operations, necessitate evaluation of the emission
reductions available from the building blocks at scales smaller
than the interconnections. We concluded that no reduction in
scale was needed due to such constraints. The same industry
trends that are reflected in the BSER -- the changing
efficiencies and mix of existing fossil EGUs and the development

411

CAISO, Energy Imbalance Market, available at
http://www.caiso.com/informed/pages/stakeholderprocesses/energyi
mbalancemarket.aspx.

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of RE throughout each interconnection -- as well as the
management of the interconnected grid as loads are reduced
through EE, which is not reflected in the final BSER, are
already driving power system development and are being managed
through interconnection-wide planning, coordination and
operations, and will continue to be managed in that manner in
the future with or without this rule. While electricity supply
and demand must be balanced in real time in a manner that
observes all security constraints at that point in time, and key
aspects of that management are carried out at a subregional
scale, the emissions standards established in this rule can be
met over longer timeframes through processes managed at larger
geographic scales, just as they are today. We believe this rule
will reinforce these developments and help provide a secure
basis for moving forward. If a local transmission constraint
requires that for reliability reasons a higher-emitting resource
must operate during a certain period of time in preference to a
lower-emitting resource that would otherwise be the more
economic choice when all costs are considered, nothing in this
rule prevents the higher-emitting source from being operated. If
the same transmission constraint causes the same conditions to
occur frequently, the extra cost associated with finding
alternative ways to reduce emissions will provide an economic
incentive for concerned parties to explore ways to relieve the
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transmission constraint. If relieving the constraint would be
more costly than employing alternative measures to reduce
emissions, the rule allows parties to pursue those alternative
emission reduction measures. Accommodation of intermittent
constraints and evaluation of alternatives for relieving or
working around them have been routine operating and planning
practices within the utility power sector for many years; the
rule will not change these basic economic practices that occur
today. The 2022-29 schedule for the rule’s interim goals and the
2030 schedule for the rule’s final goals allow time for planning
and investment comparable to the sector’s typical planning
horizons.
Finally, the EPA also considered whether the smaller
geographic scales on which affected EGUs may typically engage in
energy and capacity transactions necessitate evaluating the
emission reductions available from the building blocks at scales
smaller than the interconnections, and again concluded that a
smaller scale was not necessary or justified. We first note that
electricity trading occurs today throughout the interconnection
through RTO/ISO markets and active spot markets, often over
large areas such as RTO/ISOs, or managed over large dispatch
areas outside RTOs. These trades result in interconnection-wide
changes in flow that are managed in real time. Moreover, the
exchange of power is not limited to these areas. For example,
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RTOs regularly manage flows between RTOs, and EGUs near the
boundaries of RTOs impact multiple subregions across the
interconnections, so that any subregional boundaries that might
be evaluated for potential relevance as trading region
boundaries will change as conditions and EGU choices change,
while interconnection boundaries will remain stable.
In addition, the final rule permits trading of rate-based
emission credits or mass-based emission allowances. Emission
allowances and other commodities associated with electricity
generation activities, such as RECs, which, again, represent
investments in pollution control measures, are already traded
separately from the underlying electric energy and capacity.
There is no reason that whatever geographic limits may exist for
electricity and capacity transactions by an affected EGU should
also limit the EGU’s transactions for validly issued rate-based
emission credits or mass-based emission allowances. In fact, as
discussed below, the final rule not only allows national trading
without regard to the interconnection boundaries, but also
includes a number of options that readily facilitate states’ and
utilities’ very extensive reliance on emissions trading. It is
appropriate for the rule to take this approach, in part, because
the non-local nature of the impacts of CO2 pollution do not
necessitate geographic constraints, and in the absence of a

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policy reason to constrain the geographic scope of trading, the
largest possible scope is the most efficient scope.
f. Uniform CO2 emission performance rates by technology
subcategory. In conjunction with the refinements to the
interpretations of section 111 reflected in the final rule, the
EPA has refined the methodology for applying the BSER to the
affected EGUs so as to incorporate performance rates that are
uniform across technology subcategories.
Specifically, the final rule establishes a performance rate
of 1305 lbs. per net MWh for all affected steam EGUs nationwide
and a performance rate of 771 lbs. per net MWh for all affected
stationary combustion turbines nationwide. The computations of
these performance rates and the determinations of state goals
reflecting the performance rates are described in sections VI
and VII of the preamble, respectively. As described above, in
its proposed rule and Notice of Data Availability, the EPA
solicited comment on a number of proposals to reflect the
regional nature of the electricity system in the methodology for
quantifying the emission limitations reflective of the BSER. At
the same time, the EPA also consistently emphasized the need for
strategies to ensure the achievability and flexibility of the
established emission limitations and to increase opportunities
for interstate and industry-wide coordination. This modification
is consistent with a number of comments we received in response
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to those proposals. The commenters took the position that the
proposed state goals varied too much among states and
unavoidably implied, or would inevitably result in, states
establishing inconsistent standards of performance for sources
of the same technology type in their respective states, which in
the commenters’ view was not appropriate under section 111.
Having determined to adopt regional alternatives for
computing the emission reductions achievable under each building
block, the EPA has further determined to exercise discretion not
to subcategorize based on the regions, and instead to apply a
nationally uniform CO2 emission performance rate for each source
subcategory. Evaluating the emission reduction opportunities
achievable through application of the BSER on a broad
regionalized basis, which is appropriate for the reasons
discussed above, makes it possible to express the degree of
emission limitation reflecting the BSER as CO2 emission
performance rates that are uniform for all affected EGUs in a
technology subcategory within each region. However, the goals
and strategies embodied in the EPA’s proposed rule are best
effected by setting uniform emission performance rates
nationally and not just regionally, as recognized by commenters
favoring the use of nationally uniform performance rates by
technology subcategory. Nationally uniform emission performance
rates create greater parity among the emission reduction goals
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established for states across the contiguous U.S. and increase
the ability of states and affected EGUs to coordinate emission
reduction strategies, including through the use of emission
trading mechanisms if states choose to allow such mechanisms,
which we consider likely.
Having determined that the performance rates computed on a
regional basis merit consideration as nationally applicable
performance rates, we are also determining that the objectives
of achievability and flexibility would best be met by using the
least stringent of the regional performance rates for the three
interconnections for each technology subcategory as the basis
for nationally uniform performance rates for that technology
subcategory than by using the most stringent of the regional
performance rates.412 Under this approach, the CO2 emission
performance rate reflecting the BSER for all steam EGUs is
uniform across the contiguous U.S., regardless of the state or
interconnection where the steam EGUs are located. While it is
true that steam EGUs in the Western and Texas Interconnections

412

The Eastern, Western, and Texas Interconnections each
encompass large and diverse populations of EGUs with numerous
and diverse opportunities to reduce CO2 emissions through
application of the measures in each of the three building
blocks. Based on these considerations of scale and diversity, we
conclude that each of the interconnections is sufficiently
representative of the source subcategories and emission
reduction opportunities encompassed in the BSER to potentially
serve as the basis for CO2 emission performance rates applicable
to the respective source subcategories on a nationwide basis.
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have opportunities to implement the measures in the building
blocks to a greater extent than the steam EGUs in the Eastern
Interconnection –- for example, under building block 2, they
have relatively greater amounts of incremental NGCC generation
available to replace their generation in all years for which
performance rates were computed -- we do not conclude that this
means that the EGUs in all three interconnections should be
assigned the most stringent CO2 emission performance rate
computed for any of the three regions. Applying nationally the
performance rate computed for the interconnection with the lease
stringent rate ensures that the emission limitations are
achievable by the affected EGUs in all three interconnections.
The use of a common CO2 emission performance rate across all of
the steam EGUs in all three regions also allocates the burdens
of the BSER equally across the steam EGU source subcategory. The
same is true for the combustion turbine source subcategory, even
though, in any year for which emission performance rates are
computed, the combustion turbines in two of the interconnections
have relatively greater opportunities to replace their
generation with generation from new RE generating capacity than
combustion turbines in the third interconnection.413

413

As discussed in section VI and the CO2 Emission Performance
Rate and State Goal Computation TSD, the emission performance
rates for each technology subcategory are computed by region for

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In addition, using the least stringent rate provides
greater “headroom” –- that is, emission reduction opportunities
beyond those reflected in the performance rates –- to affected
EGUs in the interconnections that do not set the nationwide
level. This greater “headroom” provides greater nationwide
compliance flexibility and assurance that the standards set by
the states based on the emission guidelines will be achievable
at reasonable cost and without adverse impacts on reliability.
This is because affected EGUs in the interconnections that do
not set the nationwide level have more opportunities to directly
invest in each of the building blocks in their respective
regions, and affected EGUs in the interconnection that does set
the nationwide level may in effect invest in the opportunities
in the other interconnections through trading. At the same time,
our approach still represents the degree of emission limitation
achievable through use of an appropriately large and diverse set
of emission reduction opportunities and can therefore reasonably

each year from 2022 through 2030, and the region with the least
stringent emission rate for a particular subcategory, whose rate
therefore is used for all three regions, can differ across
years. In the case of the steam EGU subcategory, the nationwide
rate for all years is the rate computed for the Eastern
Interconnection. In the case of the NGCC subcategory, the
nationwide rate is the rate computed for the Texas
Interconnection for the years from 2022 through 2026 and the
rate computed for the Eastern Interconnection for the years from
2027 through 2030.
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be considered the “best” system of emission reduction for each
technology subcategory.
Our approach in this rulemaking thus not only addresses the
comments we received regarding potentially disparate impacts of
the approach presented in the proposal, it is also generally
consistent with the approach we have taken in other NSPS
rulemakings, where standards of performance or emission
guidelines have typically been established at uniform
stringencies for all units in a given source subcategory, and
where once the best system of emission reduction has been
identified, stringencies are generally set based on what is
reasonably achievable using that system.
Providing each state with a state-specific weighted average
rate-based goal allows the state to determine how the emission
reduction requirements should be allocated among the state’s
affected EGUs. We continue to believe that, as in the proposal,
this is an important source of flexibility for states in
developing their section 111(d) plans. Accordingly, in this
final rule we are providing uniform CO2 emission performance
rates for each source subcategory and also translating those
rates to state-specific weighted average rate-based goals. For
additional flexibility, we are also translating the statespecific rate-based goals into state-specific mass-based goals.
Our determinations of the emission performance rates are
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described in section VI below, and our determinations of the
rate-based and mass-based state goals are described in section
VII below.
We note here that the weighted-average state goals reflect
the application of the uniform CO2 emission performance rates for
affected steam EGUs and affected NGCC units to the respective
units in each subcategory in each state. Each state goal
therefore reflects uniform stringency of emission reduction
requirements with respect to affected units in each source
subcategory, but also reflects the EGU fleet composition and
historical generation specific to that particular state.
Compared to the computation approach reflected in the proposed
state goals, the revised approach to quantify the BSER on a
regional basis and to translate the results into nationally
uniform emission performance rates by source subcategory results
in more stringent goals (compared to the proposal) for states
whose generation has historically been most heavily concentrated
at coal-fired steam EGUs. This shift is an expected consequence
of the use of uniform performance rates by source subcategory.
At proposal, these states’ goals reflected artificial
assumptions in the selected goal quantification methodology that
to a considerable extent limited their emission reduction
opportunities based on their states’ borders, and the proposed
goals therefore were less stringent in states which had
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substantial coal generation and little local NGCC capacity. The
final rule more realistically recognizes that emission reduction
opportunities, like other aspects of the interconnected
electricity system, are regional and are not constrained by
state borders. The final rule also reflects the EPA’s emphasis
in the proposal on ensuring the achievability and flexibility of
the emission guidelines and increasing opportunities for
interstate and industry-wide coordination. We consequently apply
the same emission performance rates to coal-fired units in
states with heavy reliance on coal-fueled generation as we do to
coal-fired units in other states, which produces more stringent
state goals than at proposal for the states with the highest
concentrations of coal-fired generation. At the same time, the
final goals for some states are less stringent than their
proposed goals. For example, a goal based on the least stringent
regional rates is less stringent for some states than a goal
based on state-specific emission reduction opportunities would
be. Accordingly, the differences among the final state goals are
generally smaller than the differences among the proposed state
goals. All of the final rate-based state goals are necessarily
in the range bounded by the CO2 emission performance rate for
NGCC units and the CO2 emission performance rate for steam EGUs
because all of the state goals are computed as a weighted

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average of those two performance rates, and this range is
narrower than the range of state goals in the proposal.
The computations of the uniform CO2 emission performance
rates are shown in the CO2 Emission Performance Rate and Goal
Computation TSD for the CPP Final Rule. These uniform emission
performance rates are applicable to the states and areas of
Indian country414 located in the contiguous U.S. that have
affected EGUs.415 We have not in this rule applied the uniform
emission performance rates to Alaska, Hawaii, Puerto Rico, or
Guam -- states and territories that have otherwise affected EGUs
but are isolated from the three major interconnections –- and
will determine how to address the requirements of section 111(d)
with respect to these jurisdictions at a later time. Further
discussion regarding the isolated jurisdictions can be found in
section VII.F. of the preamble.
g. Establishment of a 2022-2029 interim compliance period. The
June 2014 proposal separately quantified emission limitations
applicable to an interim 2020-29 period and to the period
beginning in 2030. The EPA took broad comment on this proposed

414

As explained in section III.A. above, an Indian tribe whose
area of Indian country has affected EGUs will have the
opportunity but not the obligation to seek authority to develop
and implement a section 111(d) plan. If no tribal plan is
approved, the EPA has the responsibility to establish a plan if
it determines that such a plan is necessary or appropriate.
415 As noted earlier, there are currently no affected EGUs in
Vermont or the District of Columbia.
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timing. Although the proposal provided flexibility in the timing
with which emission reductions could be made over the course of
the 2020-2029 period in order to achieve compliance with the
emission limitations applicable to that interim period, many
commenters perceived the start of the period as too soon and
stated that it provided insufficient time for planning and
investments necessary for sources to begin implementation
activities while maintaining reliable electricity supplies.
The EPA has considered these comments and in the final rule
has established an interim compliance period of 2022-2029,
providing two additional years for planning and investment
before the start of compliance. We are persuaded by comments and
by our own further analysis that this timeframe is appropriate
and will, in combination with the glide path of emission
reductions reflected in the final building blocks and the
states’ flexibility to define their own paths of emission
reductions over the interim period (as discussed in section
VIII), provide adequate time for necessary planning and
investment activities. This will enable the final rule’s
requirements to be implemented in an orderly manner while
reliability of electricity supplies is maintained. Further
discussion is provided in the sections of the preamble
addressing the individual building blocks (sections V.C., V.D.,

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and V.E.) and on electricity system reliability (section
VIII.G.2.).
The initial compliance date of 2022, coupled with the fact
that the 2030 standard is phased in over the subsequent eight
years, affords affected EGUs the benefit of having an extended
planning period before they need to incur any significant
obligations. Where needed, states may take the period through
September 2018 to develop their final plans, and affected EGUs
will be able to work with the states during that period to
develop compliance approaches. States will also have the
flexibility to select their own emissions trajectories in such a
way that certain emission reduction measures could be
implemented later in the interim period (again, provided that
their affected EGUs still meet the interim performance rates or
interim goal over the interim period as a whole). As a result,
if the affected EGUs in those states need to incur any expenses
before the adoption of the final state plans, those expenses
need not be more than minimal. It is worth noting that an
earlier state plan submission date provides regulated sources
with more certainty and time to plan for compliance, but has no
effect on the time when compliance must be achieved, as the
mandatory compliance period begins in 2022 for all states. Some
states that already have established programs for limiting CO2
emissions from power plants may adopt and submit to the EPA
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state plans by September 6, 2016. In those states, sources will
already have developed compliance approaches to meet state law
requirements. Other states that submit plans by September 6,
2016, may be expected to work with their affected EGUs to
determine a reasonable compliance approach, in light of the fact
that compliance is not required to begin until 2022. It is also
possible that some states will submit neither final state plans
nor initial submittals by September 6, 2016, and that the EPA
will promulgate federal plans. Sources in those states will have
more than five years to meet their 2022 compliance obligations,
a lengthy period that will afford them the opportunity to plan
before incurring significant expenditures.
These periods of time are consistent with current industry
practice in changing generation or adding new generation. For
example, in June 2015, Alabama Power Company announced plans to
acquire 500 MW of REgeneration over the next six years. This
amount would make up between four and five percent of Alabama
Power’s generation mix.416 In addition, the study of utility IRPs

416

Alabama Power Co., “Petition for a Certificate of Convenience
and Necessity,” submitted to the Alabama Public Service
Commission (June 25, 2015) (petition requests “a certificate of
convenience and necessity for the construction or acquisition of
renewable energy and environmentally specialized generating
resources and the acquisition of rights and the assumption of
payment obligations under power purchase arrangements pertaining
to renewable energy and environmentally specialized generating
resources, together with all transmission facilities, fuel
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placed in the docket for this rulemaking417 shows that sources
are able to replace coal-fired generation with natural-gas fired
generation and add incremental amounts of RE (as well as take
other actions, such as implement demand-side EE programs), on a
gradual basis, after a several-year lead time, over an extended
period, as provided for under the final rule.
h. Refinements to stringency for individual building blocks. For
each individual building block, the EPA has reexamined the data
and assumptions used at proposal in light of comments solicited
and has made a number of refinements in the final rule based on
that information. The refinements are discussed in the preamble
sections for each building block (sections V.C., V.D., and V.E.)
and emission performance rate computation (section VI) and in
the GHG Mitigation Measures TSD for the CPP Final Rule and the
CO2 Emission Performance Rate and Goal Computation TSD for the
CPP Final Rule. As previously noted, viewed in terms of
projected nationwide emission reductions (but not necessarily
with respect to each individual state), these refinements
generally tend to make the interim goals somewhat less stringent

supply and transportation arrangements, appliances,
appurtenances, equipment, acquisitions and commitments necessary
for or incident thereto”) (included in the docket for this
rulemaking). See Swartz, Kristi, “Alabama Power plan would
dramatically boost its renewables portfolio,” E&E Publishing,
July 16, 2015.
417 See memo entitled “Review of Electric Utility Integrated
Resource Plans” (May 7, 2015) available in the docket.
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than at proposal and the 2030 goals somewhat more stringent than
at proposal. In addition to the changes described above, the
refinements include the following:


Use of regional rates ranging from 2.1 percent to 4.3
percent (rather than 6 percent) as the average heat rate
improvement opportunity achievable by steam units under
building block 1.



Use of 75 percent of summer capacity (rather than 70
percent of nameplate capacity) as the target capacity
factor for existing NGCC units under building block 2.



Use of updated information from the National Renewable
Energy Laboratory (NREL) on RE costs and potential, and
revision of the list of quantified RE technologies to
exclude landfill gas under building block 3.

4. Determination of the BSER
In this rule, the EPA is finalizing as the BSER a
combination of building blocks 1, 2, and 3, with refinements as
discussed below. The building blocks constitute the BSER from
the perspective of the source category as a whole. Each building
block can be implemented through standards of performance set by
the states and includes a set of actions that individual sources
can use to achieve the emission limitations reflecting the BSER.
These actions and mechanisms, which include reduced generation

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and emissions trading approaches where the state-set standards
of performance incorporate trading and which may be understood
as part of the BSER, will be discussed below in section V.A.5.
Each of the building blocks consists of measures that the source
category and individual affected EGUs have already demonstrated
the ability to implement. In quantifying the application of each
building block, the EPA has identified reasonable levels of
stringency rather than the maximum possible levels.
As discussed above, one of the modifications being made in
this rule is the establishment of uniform performance rates by
technology subcategory, which enhances the rule’s achievability
and flexibility and facilitates coordination among the states
and across the industry. However, in the first instance, the
emission reductions achievable through use of the building
blocks are being evaluated on a regional basis that reflects the
regional nature of the interconnected electricity system and the
region-wide scope of opportunities available for affected EGUs
to access emission reduction measures. The EPA recognizes that
the emission reduction opportunities under these building blocks
vary by region because of regional differences in the existing
mix of types of fossil fuel-fired EGUs and the available
opportunities to increase low- and zero-carbon generation.
Consequently, in order to achieve uniform performance rates by
technology subcategory, while respecting these regional
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differences in emission reduction opportunities, we have
determined that it is reasonable not to establish the stringency
of the BSER separately by region based on the maximum emission
reduction that would be achievable in that region, but instead
to establish uniform stringency across all regions at a level
that is achievable at reasonable cost in any region. Thus, for
each technology subcategory, the BSER is the combination of the
elements described above at the combined stringency that is
reasonably achievable in the region where the CO2 emission
performance rates determined to be achievable at reasonable cost
by the EGUs in that subcategory through application of the
building blocks were least stringent.418
This approach is consistent with the EPA’s efforts to
enhance the achievability and flexibility of the rule and to
promote interstate and industry coordination and reflects the
regional strategies emphasized in the proposal and the Notice of
Data Availability. It is also consistent with the approach we

418

The determinations of stringency for each source subcategory
were made independently for each year from 2022 through 2030,
and in the case of the NGCC category, the limiting region
changed over time. Thus, for the NGCC category, the uniform CO2
emission performance rate is based on the stringency achievable
in the Texas Interconnection for the years from 2022 through
2026 and the stringency achievable in the Eastern
Interconnection for the years from 2027 through 2030. For the
steam EGU subcategory, the uniform CO2 emission performance rate
is based on the stringency achievable in the Eastern
Interconnection in all years.
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have taken in other NSPS rulemakings, where the degree of
emission limitation achievable through the application of the
BSER for each subcategory of affected sources generally has been
determined not on the basis of what is achievable by the sources
that can reduce emissions most easily, but instead on the basis
of what is reasonably achievable through the application of the
BSER across a range of sources. This approach also provides
compliance headroom –- in addition to the headroom provided by
our approach to setting the stringency for each individual
building block -- for affected EGUs in regions where additional
emission reductions can be achieved at reasonable cost, thereby
promoting nationwide compliance flexibility. Further, because we
are authorizing states to establish standards of performance
that incorporate trading without geographic restrictions, the
opportunity of affected EGUs to engage in emissions trading, to
the extent allowed under the relevant section 111(d) plans,
ensures the availability of additional, lower-cost emission
reduction opportunities in other regions that will also promote
compliance flexibility and reduce compliance costs.
As discussed in section XI of the preamble and the
Regulatory Impact Analysis, application of the BSER determined
as summarized above is projected to result in substantial and
meaningful reductions of CO2 emissions.
Briefly, the elements of the BSER are:
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Building block 1: Improving heat rate at affected coal-fired
steam EGUs in specified percentages.
Building block 2: Substituting increased generation from
existing affected NGCC units for reduced generation from
affected steam EGUs in specified quantities.
Building block 3: Substituting generation from new zero-emitting
RE generating capacity for reduced generation from affected EGUs
in specified quantities.
a. Building block 1. Building block 1 -- improving heat rate at
affected coal-fired steam EGUs -- is a component of the BSER
with respect to coal-fired steam EGUs419 because the measures the
affected EGUs may undertake to achieve heat rate improvements
are technically feasible and of reasonable cost, and perform
well with respect to other factors relevant to a determination
of the “best system of emission reduction ... adequately
demonstrated.” Building block 1 is a “system of emission
reduction” for steam EGUs because owners of these EGUs can take
actions that will improve their heat rates and thereby reduce
their rates of CO2 emissions with respect to generation.

419

For the reasons discussed in the proposal, the EPA is not
determining that heat rate improvements at other types of
affected EGUs, such as NGCC units and oil-fired and natural gasfired steam EGUs, are components of the BSER. However, all types
of affected EGUs would be able to employ heat rate improvements
as measures to help achieve compliance with their assigned
standards of performance.
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The EPA has analyzed the technical feasibility, costs, and
magnitude of CO2 emission reductions achievable through heat rate
improvements at coal-fired steam EGUs based on engineering
studies and on these EGUs’ reported operating and emissions
data. We conclude that taking action to improve heat rates is a
common and well-established practice within the industry that is
capable of achieving meaningful reductions in CO2 emissions at
reasonable cost, although, as discussed earlier, we also
conclude that the quantity of emission reductions achievable
through heat rate improvement measures is insufficient for these
measures alone to constitute the BSER. Specifically, we have
determined that an average heat rate improvement ranging from
2.1 to 4.3 percent by all affected coal-fired EGUs, depending on
the region, is an element of the BSER, based on the inclusion of
those amounts of improvement in the three regions, determined
through our regional analysis. Our analysis and conclusions are
discussed in Section V.C. below and in the GHG Mitigation
Measures TSD for the CPP Final Rule. Additional analysis and
conclusions with respect to cost reasonableness are discussed in
section V.A.4.d. below.
Consideration of other BSER factors also favors a
conclusion that building block 1 is a component of the BSER. For
example, with respect to non-air health and environmental
impacts, heat rate improvements cause fuel to be used more
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efficiently, reducing the volumes of, and therefore the adverse
impacts associated with, disposal of coal combustion solid waste
products. By definition, heat rate improvements do not cause
increases in net energy usage. Although we are justifying
building block 1 as part of the BSER without reference to
technological innovation, we also consider technological
innovation in the alternative, and we note that building block 1
encourages the spread of more advanced technology to EGUs
currently using components with older designs.
As noted in the June 2014 proposal, the EPA is concerned
about the potential “rebound effect” associated with building
block 1 if applied in isolation. More specifically, we noted
that in the context of the integrated electricity system, absent
other incentives to reduce generation and CO2 emissions from
coal-fired EGUs, heat rate improvements and consequent variable
cost reductions at those EGUs would cause them to become more
competitive compared to other EGUs and increase their
generation, leading to smaller overall reductions in CO2
emissions (depending on the CO2 emission rates of the displaced
generating capacity). Unless mitigated, the occurrence of a
rebound effect would reduce the emission reductions achieved by
building block 1, exacerbating the inadequacy of emission
reductions that is the basis for our conclusion that building
block 1 alone would not represent the BSER for this industry.
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However, we believe that our concern about the potential rebound
effect can be readily addressed by ensuring that the BSER also
reflects other CO2 reduction strategies that encourage increases
in generation from lower- or zero-carbon EGUs, thereby allowing
building block 1 to be considered an appropriate part of the
BSER for CO2 emissions at affected EGUs as long as the building
block is applied in combination with other building blocks.
b. Building block 2. Building block 2 –-substituting generation
from less carbon-intensive affected EGUs (specifically NGCC
units that are currently operating or under construction) for
generation from the most carbon-intensive affected EGUs –- is a
component of the BSER for steam EGUs because generation shifts
that will reduce the amount of CO2 emissions at higher-emitting
EGUs and from the source category as a whole are technically
feasible, are of reasonable cost, and perform well with respect
to other factors relevant to a determination of the “best system
of emission reduction ... adequately demonstrated.” Building
block 2 is a “system of emission reduction” for steam EGUs
because incremental generation from existing NGCC units will
result in reduced generation and emissions from steam EGUs, and
owners of steam EGUs can, and many do, invest in incremental
generation from NGCC units through a variety of possible
mechanisms. A steam EGU investing in incremental generation from
NGCC units may choose to reduce its own generation or may
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maintain its generation level and choose to allow the reduction
in generation to occur at other steam EGUs through the
coordinated planning and operation of the interconnected
electricity system. An affected EGU may also invest in emission
reductions from building block 2 through the mechanism of
engaging in emissions trading where the EGU is operating under a
standard of performance that incorporates trading.
The EPA’s analysis and conclusions regarding the technical
feasibility, costs, and magnitude of CO2 emission reductions
achievable at high-emitting EGUs through generation shifts to
lower-emitting affected EGUs are discussed in Section V.D.
below. Additional analysis and conclusions with respect to cost
reasonableness are discussed in section V.A.4.d. below. We
consider generation shifts among the large number of diverse
EGUs that are linked to one another and to customers by
extensive regional transmission grids to be a routine and wellestablished operating practice within the industry that is used
to facilitate the achievement of a wide variety of objectives,
including environmental objectives, while meeting the demand for
electricity services. In the interconnected and integrated
electricity industry, fossil fuel-fired steam EGUs are able to
reduce their generation and NGCC units are able to increase
their generation in a coordinated manner through mechanisms –in some cases centralized and in others not -- that regularly
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deal with such changes on both a short-term and a longer-term
basis. Our analysis demonstrates that the emission reductions
that can be achieved or supported by such generation shifts are
substantial and of reasonable cost. Further, both the
achievability of this building block and the reasonableness of
its costs are supported by the fact that there has been a longterm trend in the industry away from coal-fired generation and
toward NGCC generation for a variety of reasons.
Building block 2 is adequately demonstrated as a “system of
emission reduction” for affected steam EGUs. As discussed in
section V.B., since the time of the 1970 CAA Amendments, the
utility power sector has recognized that generation shifts are a
means of controlling air pollutants; in the 1990 CAA Amendments,
Congress recognized that generation shifts among EGUs are a
means of reducing emissions from this sector; and generation
shifts similarly have been recognized as a means of reducing
emissions under trading programs established by the EPA to
implement the Act’s provisions. It is common practice in the
industry to account for the cost of emission allowances as a
variable cost when making security-constrained, cost-based
dispatch decisions; doing so integrates generation shifts into
the operating practices used to achieve compliance with
environmental requirements in an economical manner. These
industry trends are further discussed in section V.D. Thus,
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legislative history, regulatory precedent, and industry practice
support interpreting the broad term “system of emission
reduction” as including substituting lower-emitting generation
for higher-emitting generation through generation shifts among
affected EGUs.
An important additional consideration supporting the
determination that building block 2 is adequately demonstrated
as a “system of emission reduction” is that owners of affected
steam EGUs have the ability to invest in generation shifts as a
way of reducing emissions. The owner of an affected EGU could
invest in such generation shifts in several ways, including by
increasing operation of an NGCC unit that it already owns or by
purchasing an existing NGCC unit and increasing operation of
that unit. Increases in generation by NGCC units over baseline
levels can also serve as the basis for creation of CO2 ERCs –that is, instruments representing the ability of incremental
electricity generated by NGCC units to cause emission reductions
at affected steam EGUs, as distinct from the incremental
electricity itself. Again, it is important to note that the
acquisition of such ERCs represents an investment in the actions
of the facility or facilities whose alteration of utilization
levels generated the emissions rate improvement or reduction. In
the context of the BSER, purchase of instruments representing
the emissions-reducing benefit of an action is simply a medium
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of investment in the underlying emissions reduction action.
These mechanisms are discussed further in section V.A.5. In this
rule, the EPA is establishing minimum criteria for the creation
of valid ERCs by NGCC units and for the use of such ERCs by
affected steam EGUs for demonstrating compliance with emission
rate-based standards of performance established under state
plans. The existence of minimum criteria will ensure that
crediting mechanisms are feasible and will facilitate the
development of organized markets to simplify the process of
buying and selling ERCs. The minimum criteria are discussed in
section VIII of this preamble.
We note that an affected EGU investing in building block 2
to reduce emissions may, but need not, also choose to reduce its
own generation as part of its approach for meeting the standard
of performance assigned to it by its state. Through the
coordinated operation of the integrated electricity system,
subject to the collective emission reduction requirements that
will be imposed on affected EGUs in order to meet the emissions
standards representing the BSER, an increase in NGCC generation
will be offset elsewhere in the interconnection by a decrease in
other generation. Because of the need to meet the collective
emission reduction requirements, the decrease in generation
resulting from that coordinated operation is most likely to be
generation from an affected steam EGU. Measures taken by
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affected EGUs that result in emission reductions from other EGUs
in the source category may appropriately be deemed measures to
implement or apply the “system of emission reduction” of
substituting lower-emitting generation for higher-emitting
generation.
Consideration of other BSER factors also supports a
determination to include building block 2 as a component of the
BSER. For example, we expect that building block 2 would have
positive non-air health and environmental impacts. Coal
combustion for electricity generation produces large volumes of
solid wastes that require disposal, with some potential for
adverse environmental impacts; these wastes are not produced by
natural gas combustion. The intake and discharge of water for
cooling at many EGUs also carries some potential for adverse
environmental impacts; NGCC units generally require less cooling
water than steam EGUs.420 With respect to energy impacts,
building block 2 represents replacement of electrical energy
from one generator with electrical energy from another generator

420

For example, according to a DOE/NETL study, the relative
amount of water consumption for a new pulverized coal plant is
2.5 times the consumption for a new NGCC unit of similar size.
“Cost and Performance Baseline for Fossil Energy Plants: Volume
1: Bituminous Coal and Natural Gas to Electricity,” Rev 2a,
September 2013, National Energy Technology Laboratory Report
DOE/NETL-2010/1397. EPA believes the difference would on average
be even more pronounced when comparing existing coal and NGCC
units.
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that consumes less fuel, so the overall energy impact should be
a reduction in fuel consumption by the overall source category
as well as by individual affected coal-fired steam EGUs.
Although for purposes of this rule we consider the incentive for
technological innovation only in the alternative, we note that
building block 2 promotes greater use of the NGCC technology
installed in the existing fleet of NGCC units, which is newer
and more advanced than the technology installed in much of the
older existing fleet of steam EGUs. For all these reasons, the
measures in building block 2 qualify as a component of the “best
system of emission reduction ... adequately demonstrated.”
It should be observed that, by definition of the elements
of this building block, the shifts in generation taking place
under building block 2 occur entirely among existing EGUs
subject to this rulemaking.421 Through application of this
building block considered in isolation, some affected EGUs –mostly coal-fired steam EGUs -- would reduce their generation
and CO2 emissions, while other affected EGUs –- NGCC units –would increase their generation and CO2 emissions. However,
because for each MWh of generation, NGCC units produce fewer CO2
emissions than coal-fired steam EGUs, the total quantity of CO2

421

For purposes of this rulemaking, “existing” EGUs include
units under construction as of January 8, 2014, the date of
publication in the Federal Register of the Carbon Pollution
Standards for new fossil fuel-fired EGUs.
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emissions from all affected EGUs in aggregate would decrease
without a reduction in total electricity generation. In the
context of the integrated electricity system, where the
operation of affected EGUs of multiple types is routinely
coordinated to provide a highly substitutable service, and in
the context of CO2 emissions, where location is not a
consideration (in contrast with other pollutants), a measure
that takes advantage of that integration to reduce CO2 emissions
from the overall set of affected EGUs is readily understood as a
means to implement a “system of emission reduction” for CO2
emissions at affected EGUs even if the measure would increase CO2
emissions from a subset of those affected EGUs. Indeed, some
industry participants are already moving in this direction for
this purpose (while other participants are moving in the same
direction for other purposes). Standards of performance that
incorporate emissions trading can facilitate the implementation
of such a “system” and such approaches have already been used in
the electricity industry to address CO2 as well as other
pollutants, as discussed above.
c. Building block 3. Building block 3 –-substituting generation
from expanded RE generating capacity for reduced generation from
affected EGUs –- is a component of the BSER because the
expansion and use of renewable generating capacity to reduce
emissions from affected EGUs is technically feasible, is of
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reasonable cost, and performs well with respect to other factors
relevant to a determination of the “best system of emission
reduction ... adequately demonstrated.” Building block 3 is a
“system of emission reduction” for all affected EGUs because
incremental RE generation will result in reduced generation and
emissions from affected EGUs, and owners or operators of
affected EGUs can apply or implement building block 3 through a
number of actions. For example, they can invest in incremental
RE generation either directly or through the purchase of ERCs.
An affected EGU investing in incremental RE generation may
choose to reduce its own generation by a corresponding amount or
may choose to allow the reduction in generation to occur at
other affected EGUs through the coordinated planning and
operation of the interconnected electricity system. An affected
EGU can also invest in RE generation by means of engaging in
emissions trading where the EGU is operating under a standard of
performance that incorporates trading.
The EPA’s analysis and conclusions regarding the technical
feasibility, costs, and magnitude of the measures in building
block 3 are discussed in Section V.E. below. Additional analysis
and conclusions with respect to cost reasonableness are
discussed in section V.A.4.d. below. We consider construction
and operation of expanded RE generating capacity to be proven,
well-established practices within the industry consistent with
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recent industry trends. States are already pursuing policies
that encourage production of greater amounts of RE, such as the
establishment of targets for procurement of renewable generating
capacity. Moreover, as discussed earlier, markets are likely to
develop for ERCs that would facilitate investment in increased
RE generation as a means of helping sources comply with their
standards of performance; indeed, markets for RECs, which
similarly facilitate investment in RE for other purposes, are
already well-established. As noted in Section V.A.5. below, an
allowance system or tradable emission rate system would provide
incentives for affected EGUs to reduce their emissions as much
as possible where such reductions could be achieved economically
(taking into account the value of the emission credits or
allowances), including by substituting generation from new RE
generating capacity for their own generation, or could provide a
mechanism, as stated above, for such sources to invest in or
acquire such generation.
Building block 3 is adequately demonstrated as a “system of
emission reduction” for all affected EGUs. As discussed in
section II, RE generation has been relied on since the 1970s to
provide energy security by replacing some fossil fuel-fired
generation. Both Congress and the EPA have previously
established frameworks under which RE generation could be used
as a means of achieving emission reductions from the utility
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power sector, as discussed in section V.B. Investment in RE
generation has grown rapidly, such that in recent years the
amount of new RE generating capacity brought into service has
been comparable to the amount of new fossil fuel-fired capacity.
Rapid growth in RE generation is projected to continue as costs
of RE generation fall relative to the costs of other generation
technologies. These trends are further discussed in section V.E.
Interpretation of a “system of emission reduction” as including
RE generation for purposes of this rule is thus supported by
legislative history, regulatory precedent, and industry
practice.
Also supporting the determination that building block 3 is
adequately demonstrated as a “system of emission reduction” is
the fact that owners of affected EGUs have the ability to invest
in RE generation as a way of reducing emissions. As with
building block 2, this can be accomplished in several ways. For
example, the owner of an affected EGU could invest in new RE
generating capacity and operate that capacity in order to obtain
ERCs. Alternatively, the affected EGU could purchase ERCs
created based on the operation of an unaffiliated RE generating
facility, effectively investing in the actions at another site
that allow CO2 emission reductions to occur. These mechanisms are
discussed further in section V.A.5. As with building block 2, in
this rule the EPA is establishing minimum criteria for the
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creation of valid ERCs by new RE generators and for the use of
such ERCs by affected EGUs for demonstrating compliance with
emission rate-based standards of performance established under
state plans. The existence of minimum criteria will ensure that
crediting mechanisms are feasible and will facilitate the
development of organized markets to simplify the process of
buying and selling credits. The minimum criteria are discussed
in section VIII of the preamble.
As with building block 2, an affected EGU investing in
building block 3 to reduce emissions may, but need not, also
choose to reduce its own generation as part of its approach for
meeting the standard of performance assigned to it by its state.
Through the coordinated operation of the integrated electricity
system, subject to the collective requirements that will be
imposed on affected EGUs in order to meet the emissions
standards representing the BSER, an increase in RE generation
will be offset elsewhere in the interconnection by a decrease in
other generation. Because of the need to meet the collective
requirements, the decrease in generation resulting from that
coordinated operation is most likely to be generation from an
affected EGU. Measures taken by affected EGUs that result in
emission reductions from other sources in the source category
may appropriately be deemed methods to implement the “system of
emission reduction.”
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The renewable capacity measures in building block 3
generally perform well against other BSER criteria. Generation
from wind turbines and solar voltaic installations, two common
renewable technologies, does not produce solid waste or require
cooling water, a better environmental outcome than if that
amount of generation had instead been produced at a typical
range of fossil fuel-fired EGUs. With respect to energy impacts,
fossil fuel consumption will decrease both for the source
category as a whole and for individual affected EGUs. Although
the variable nature of generation from renewable resources such
as wind and solar units requires special consideration from grid
operators to address possible changes in operating reserve
requirements, renewable generation has grown quickly in recent
years, as discussed above, and grid planners and operators have
proven capable of addressing any consequent changes in
requirements through ordinary processes. The EPA believes that
planners and operators will be similarly capable of addressing
any changes in requirements due to future growth in renewable
generation through ordinary processes, but notes that in
addition, the reliability safety valve in this rule, discussed
in section VIII.G.2, will ensure the absence of adverse energy
impacts. With respect to technological innovation, which we
consider for the BSER only in the alternative, incentives for
expansion of renewable capacity encourage technological
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innovation in improved renewable technologies as well as more
extensive deployment of current advanced technologies. For all
these reasons, the measures in building block 3 qualify as a
component of the “best system of emission reduction ...
adequately demonstrated.”
d. Combination of all three building blocks. The final BSER
includes a combination of all three building blocks. For the
reasons described below, and similar to each of the building
blocks, the combination must be considered a “system of emission
reduction.” Moreover, as also discussed below, the combination
qualifies as the “best” system that is “adequately
demonstrated.” The combination is technically feasible; it is
capable of achieving meaningful reductions in CO2 emissions from
affected EGUs at a reasonable cost; it also performs well
against the other BSER factors; and its components are wellestablished. The combination of the three building blocks will
achieve greater CO2 emission reductions at reasonable costs than
possible combinations with fewer building blocks and will also
perform better against other BSER factors. We therefore find the
combination of all three building blocks to be the “best system
of emission reduction ... adequately demonstrated” for reducing
CO2 emissions at affected EGUs.
As already discussed, each of the individual building
blocks generally performs well with respect to the BSER factors
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identified by the statute and the D.C. Circuit. (The exception,
which we have pointed out above, is that building block 1, if
implemented in isolation, would achieve an insufficient
magnitude of emission reductions to be considered the BSER.) The
EPA expects that combinations of the building blocks would
perform better than the individual building blocks. Beginning
with the most obvious and important advantage, combinations of
the building blocks will achieve greater emission reductions
than the individual building blocks would in isolation, assuming
that the building blocks are applied with the same stringency.
Because fossil fuel-fired EGUs generally have higher variable
costs than other EGUs, it will generally be fossil fuel-fired
generation that is replaced when low-variable cost RE generation
is increased. At the levels of stringency determined to be
reasonable in this rule, opportunities to deploy building block
2 to replace higher-emitting generation and to deploy building
block 3 to replace any emitting generation are not exhausted.
Thus, as the system of emission reduction is expanded to include
each of these building blocks, the emission reductions that will
be achieved increase.
Because the stringency and timing of emission reductions
achievable through use of each individual building block have
been set based on what is achievable at reasonable cost rather
than the maximum achievable amount, the stringency of the
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combination of building blocks is also reasonable, and the
combination provides headroom and additional flexibility for
states in setting standards of performance and for sources in
complying with those standards to choose among multiple means of
reducing emissions.
With respect to the quantity of emission reductions
expected to be achieved from building block 1 in particular, the
BSER encompassing all three building blocks is a substantial
improvement over building block 1 in isolation. As noted
earlier, the EPA is concerned that implementation of building
block 1 in isolation not only would achieve insufficient
emission reductions assuming generation levels from affected
steam EGUs were held constant, but also has the potential to
result in a “rebound effect.” The nature of the potential
rebound effect is that by causing affected steam EGUs to improve
their heat rates and thereby lower their variable operating
costs, building block 1 if implemented in isolation would make
those EGUs more competitive relative to other, lower-emitting
fossil fuel-fired EGUs, possibly resulting in increased
generation and higher emissions from the affected steam EGUs in
spite of their lower emission rates. Combining building block 1
with the other building blocks addresses this concern by
ensuring that owner/operators of affected steam EGUs as a group
would have appropriate incentives not only to improve the steam
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EGUs’ efficiency but also to reduce generation from those EGUs
consistent with replacement of generation by low- or zeroemitting EGUs. While combining building block 1 with either
building block 2 or 3 should address this concern, the
combination of all three building blocks addresses it more
effectively by strengthening the incentives to reduce generation
from affected steam EGUs.
The combination of all three building blocks is also of
reasonable cost, for a number of independent reasons described
below. The emission reductions associated with the BSER
determined in this rule are significant, necessary, and
achievable. As discussed in section V.A.1. above, the
Administrator must take cost into account when determining that
the measures constituting the BSER are adequately demonstrated,
and the Administrator has done so here. Below, we summarize
information on the cost of the building block measures and
discuss the several independent reasons for the Administrator’s
determination that the costs of the building block 1, 2, and 3
measures, alone or in combination, are reasonable. In
considering whether these costs are reasonable, the EPA
considered the costs in light of both the observed and projected
effects of GHGs in the atmosphere, their effect on climate, and
the public health and welfare risks and impacts associated with

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such climate change, as described in Section II.A. The EPA
focused on public health and welfare impacts within the U.S.,
but the impacts in other world regions strengthen the case for
action because impacts in other world regions can in turn
adversely affect the U.S. or its citizens. In looking at whether
costs were reasonable, the EPA also considered that EGUs are by
far the largest emitters of GHGs among stationary sources in the
U.S., as more fully set forth in section II.B.
As described in sections V.C. through V.E. and the GHG
Mitigation Measures TSD, the EPA has determined that the cost of
each of the three building blocks is reasonable. In summary,
these cost estimates are $23 per ton of CO2 reductions for
building block 1, $24 per ton for building block 2, and $37 per
ton for building block 3. The EPA estimates that, together, the
three building blocks are able to achieve CO2 reductions at an
average cost of $30 per ton, which the EPA likewise has
determined is reasonable. The $30 per ton estimate is an average
of the estimates for each building block, weighted by the total
estimated cumulative CO2 reductions for each of these building
blocks over the 2022-2030 period. While it is possible to weight
each building block by other amounts, the EPA believes that
weighting by cumulative CO2 reductions best reflects the average
cost of total reduction potential across the three building

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blocks. The EPA considers each of these cost levels reasonable
for purposes of the BSER established for this rule.
The EPA views the weighted average cost estimate as a
conservatively high estimate of the cost of deploying all three
building blocks simultaneously. The simultaneous application of
all three building blocks produces interactive dynamics, some of
which could increase the cost and some of which could decrease
the cost represented in the individual building blocks. For
example, one dynamic that would tend to raise costs (and whose
omission would therefore make the weighted average understate
costs) is that the emission reduction measures associated with
building blocks 2 and 3 both prioritize the replacement of
higher-cost generation (from affected steam EGUs in the case of
building block 2 and from all affected EGUs in the case of
building block 3). The EPA recognizes that the increased
magnitude of generation replacement when building blocks 2 and 3
are implemented together necessitates that some of the
generation replacement will occur at more efficient affected
EGUs, at a relatively higher cost; however, this is a
consequence of the greater emission reductions that can be
achieved by combining building blocks, not an indication that
any individual building block has become more expensive because
of the combined deployment.

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Also, the EPA recognizes that when building block 1 is
combined with the other building blocks, the combination has the
potential to raise the cost of the portion of the overall
emission reductions achievable through heat rate improvements
relative to the cost of those same reductions if building block
1 were implemented in isolation (assuming for purposes of this
discussion that the rebound effect is not an issue and that the
affected steam EGUs would in fact reduce their emissions if
building block 1 were implemented in isolation).422 However, we
believe that the cost of emission reductions achieved through
heat rate improvements in the context of a three-building block
BSER will remain reasonable for two reasons. First, as discussed
in section V.C. below, even when conservatively high investment
costs are assumed, the cost of CO2 emission reductions achievable
through heat rate improvements is low enough that the cost per
ton of CO2 emission reductions will remain reasonable even if
that cost is substantially increased. Second, although under a
BSER encompassing all three building blocks the volume of coal-

422

If an EGU produces less generation output, then an
improvement in that EGU’s heat rate and rate of CO2 emissions per
unit of generation produces a smaller reduction in CO2 emissions.
If the investment required to achieve the improvement in heat
rate and emission rate is the same regardless of the EGU’s
generation output, then the cost per unit of CO2 emission
reduction will be higher when the EGU’s generation output is
lower. Commenters have also stated that operating at lower
capacity factors may cause units to experience deterioration in
heat rates.
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fired generation will decrease, that decrease is unlikely to be
spread uniformly among all coal-fired EGUs. It is more likely
that some coal-fired EGUs will decrease their generation
slightly or not at all while others will decrease their
generation by larger percentages or cease operations altogether.
We would expect EGU owners to take these changes in EGU
operating patterns into account when considering where to invest
in heat rate improvements, with the result that there will be a
tendency for such investments to be concentrated in EGUs whose
generation output is expected to decrease the least. This
enlightened bias in spending on heat rate improvements –- that
is, focusing investments on EGUs where such improvements will
have the largest impacts and produce the highest returns, given
consideration of projected changes in dispatch patterns –- will
tend to mitigate any deterioration in the cost of CO2 emission
reductions achievable through heat rate improvements.
In contrast with those prior examples, combining the
building blocks also produces interactive dynamics that
significantly reduce the cost for CO2 reductions represented in
the individual building blocks (and whose omission would
therefore make the weighted average overstate costs). Foremost
among these dynamics is the stabilization of wholesale power
prices. When assessed individually, building blocks 2 and 3 have
opposite impacts on wholesale power prices, although in each
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case, the direction of the wholesale power price impact
corresponds to an increasing cost of that building block in
isolation. For example, building block 2 promotes more
utilization of existing NGCC capacity, which (assessed on its
own) would increase natural gas consumption and therefore price,
in turn raising wholesale power prices (which are often
determined by gas-fired generators as the power supplier on the
margin); this dynamic puts upward pressure on the cost of
achieving CO2 reductions through shifting generation from steam
EGUs to NGCC units.423 Meanwhile, building block 3 increases RE
deployment; because RE generators have very little variable
cost, an increase in RE generation replaces other supply with
higher variable cost, which would yield lower wholesale power
prices. Lower wholesale power prices would make further RE
deployment less competitive against generation from existing
emitting sources; while this dynamic would generally reduce
electricity prices to consumers, it also puts upward pressure on
the cost of achieving CO2 reductions through increased RE
deployment.424 Applying building blocks 2 and 3 together produces
significantly more CO2 reductions at a relatively lower cost

423

The EPA’s cost-effectiveness
building block 2 reflects these
424 The EPA’s cost-effectiveness
building block 3 reflects these

estimate of $24 per ton for
market dynamics.
estimate of $37 per ton for
market dynamics.

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because the countervailing nature of these wholesale power price
dynamics mitigates the primary cost drivers for each building
block.425
The EPA believes the dynamics tending to cause the weighted
average above to overstate costs of the combination of building
blocks are greater than the dynamics tending to cause costs to
be understated, and that the weighted average costs are
therefore conservatively high. Analysis performed by the EPA at
an earlier stage of the rulemaking supports this conclusion. At
proposal, the EPA evaluated the cost of increasing NGCC
utilization (building block 2) and deploying incremental RE
generation (building block 3) independently, as well as the cost
of simultaneously increasing NGCC utilization and incremental RE
generation. The average cost (in dollars per ton of CO2 reduced)
was less for the combined building block scenario, showing that
the net outcome of the interactivity effects described above is

425

Notwithstanding the interactive dynamics that improve the
cost effectiveness of emission reductions when building blocks 2
and 3 are implemented together, we also consider each of these
building blocks to be independently of reasonable cost, so that
either building block 2 or 3 alone, or combinations of the
building blocks that include either but not both of these two
building blocks, could be the BSER if a court were to strike
down the other building block, as discussed in section V.A.7.
below. (We also note in section V.A.7. that a combination of
building blocks 2 and 3 without building block 1 could be the
BSER if a court were to strike down building block 1.)
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a reduction in cost per ton when compared to cost estimates that
do not incorporate this interactivity.426
A final reason why the EPA considers the weighted-average
cost above conservatively high is that simply combining the
building blocks at their full individual stringencies overstates
the stringency of the BSER. As discussed in section V.A.3.f and
section VI, the BSER reflects the combined degree of emission
limitation achieved through application of the building blocks
in the least stringent region. By definition, in the other two
regions, the BSER is less stringent than the simple combination
of the three building blocks whose stringency is represented in
the weighted-average cost above.
The cost estimates for each of the three building blocks
cited above -- $23, $24, and $37 per ton of CO2 reductions from
building blocks 1, 2, and 3, respectively – are each
conservatively high for the reasons discussed in section V.C.,
V.D., and V.E. below. Likewise, the $30 per ton weighted-average
cost of all three building blocks is a conservatively high
estimate of the cost of the combination of the three individual
building block costs, as described above. While conservatively

426

Specifically, at proposal the EPA quantified the average
cost, in dollar per ton of CO2 reduced, of building blocks 1, 2,
and 3 ($22.5 per ton) to be less than the cost of either
building block 2 ($28.9 per ton) or building block 3 ($23.4 per
ton) alone.
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high, and especially so in the case of the $30 per ton weightedaverage cost, these estimates fall well within the range of
costs that are reasonable for the BSER for this rule.
In assessing cost reasonableness for the BSER determination
for this rule, the EPA has compared the estimated costs
discussed above to two types of cost benchmark. The first type
of benchmark comprises costs that affected EGUs incur to reduce
other air pollutants, such as SO2 and NOX. In order to address
various environmental requirements, many coal-fired EGUs have
been required to decide between either shutting down or
installing and operating flue gas desulfurization (FGD)
equipment – that is, wet or dry scrubbers – to reduce their SO2
emissions. The fact that many of these EGUs have chosen
scrubbers in preference to shutting down is evidence that
scrubber costs are reasonable, and we believe that the cost of
these controls can reasonably serve as a cost benchmark for
comparison to the costs of this rule. We estimate that for a
300-700 MW coal-fired steam EGU with a heat rate of 10,000 Btu
per kWh and operating at a 70 percent utilization rate, the
annualized costs of installing and operating a wet scrubber are
approximately $14 to $18 per MWh and the annualized costs of

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installing and operating a dry scrubber are approximately $13 to
$16 per MWh.427
In comparison, we estimate that for a coal-fired steam EGU
with a heat rate of 10,000 Btu per kWh, assuming the
conservatively high cost of $30 per ton of CO2 removed through
the combination of all three building blocks, the cost of
reducing CO2 emissions by the amount required to achieve the
uniform CO2 emission performance rate for steam EGUs of 1,305
lbs. CO2 per MWh would be equivalent to approximately $11 per
MWh.

The comparable costs for achieving the required emission

performance rate for steam EGUs through use of the individual
building blocks range from $8 to $14 per MWh. For an NGCC unit
with a heat rate of 7,800 Btu per kWh, assuming a conservatively
high cost of $37 per ton of CO2 removed through the use of
building block 3,428 the cost of reducing CO2 emissions by the
amount required to achieve the uniform CO2 emission performance
rate for NGCC units of 771 lbs. CO2 per MWh would be equivalent
to approximately $3 per MWh.429 These estimated CO2 reduction
costs of $3 to $14 per MWh to achieve the CO2 emission
performance rates are either less than the ranges of $14 to $18

For details of these computations, see the memo “Comparison of
building block costs to FGD costs” available in the docket.
428 The comparison for an NGCC unit considers only building block
3 because building blocks 1 and 2 do not apply to NGCC units.
429 For details of these computations, see the memo “Comparison of
building block costs to FGD costs” available in the docket.
427

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and $13 to $16 per MWh to install and operate a wet or dry
scrubber, or in the case of CO2 emission reductions at a steam
unit achieved through building block 3, near the low end of the
ranges of scrubber costs. This comparison demonstrates that the
costs associated with the BSER in this rule are reasonable
compared to the costs that affected EGUs commonly face to comply
with other environmental requirements.
The second type of benchmark comprises CO2 prices that
owners of affected EGUs use for planning purposes in their IRPs.
Utilities subject to requirements to prepare IRPs commonly
include assumptions regarding future environmental regulations
that may become effective during the time horizon covered by the
IRP, and assumptions regarding CO2 regulations are often
represented in the form of assumed prices per ton of CO2 emitted
or reduced. A survey of the CO2 price assumptions from 46 recent
IRPs shows a range of CO2 prices in the IRPs’ reference cases of
$0 to $30 per ton, and a range of CO2 prices in the IRPs’ high
cases from $0 to $110 per ton.430

In comparison, the

conservatively high, weighted-average cost of $30 per ton
removed described above is at the high end of the range of

See Synapse Energy Economics Inc., 2015 Carbon Dioxide Price
Forecast (March 3, 2015) at 25-28, available at
http://www.synapseenergy.com/sites/default/files/2015%20Carbon%20Dioxide%20Price%2
0Report.pdf.

430

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reference case assumptions but at the low end of the range of
the high case assumptions. The costs of the individual building
blocks are likewise well within the range of the high case
assumptions, and either at or slightly above the high end of the
reference case assumptions. This comparison demonstrates that
the costs associated with the BSER in this rule are reasonable
compared to the expectations of the industry for the potential
costs of CO2 regulation.
In addition to comparison to these benchmarks, there is a
third independent way in which EPA has considered cost. In light
of the severity of the observed and projected climate change
effects on the U.S., U.S. interests, and U.S. citizens, combined
with EGUs’ large contribution to U.S. GHG emissions, the costs
of the BSER measures are reasonable when compared to other
potential control measures for this sector available under
section 111. Given EGUs’ large contribution to U.S. GHG
emissions, any attempt to address the serious public health and
environmental threat of climate change must necessarily include
significant emission reductions from this sector. The agency
would therefore consider even relatively high costs – which
these are not – to be reasonable. Imposing only the lower cost
reduction measures in building block 1 would not achieve
sufficient reductions given the scope of the problem and EGUs’
contribution to it. While the EPA also considered measures such
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as CCS retrofits for all fossil-fired EGUs or co-firing at all
steam units, the EPA determined that these costs were too high
when considered on a sector-wide basis.

Furthermore, the EPA

has not identified other measures available under section 111
that are less costly and would achieve emission reductions that
are commensurate with the scope of the problem and EGUs’
contribution to it. Thus, the EPA determined that the costs of
the measures in building blocks 1, 2 and 3, individually or in
combination, are reasonable because they achieve an appropriate
balance between cost and amount of reductions given the other
potential control measures under section 111.
As required under Executive Order 12866, the EPA conducts
benefit-cost analyses for major Clean Air Act rules.431 While
benefit-cost analysis can help to inform policy decisions, as
permissible and appropriate under governing statutory
provisions, the EPA does not use a benefit-cost test (i.e., a
determination of whether monetized benefits exceed costs) as the
sole or primary decision tool when required to consider costs or
to determine whether to issue regulations under the Clean Air

The EPA’s regulatory impact analysis for this rule, which
appropriately includes a representation of the flexibility
available under the rule to comply using a combination of BSER
and non-BSER measures (such as demand-side energy efficiency) is
discussed in section XI of the preamble.
431

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Act, and is not using such a test here.432 Nonetheless, the EPA
observes that the costs of the building block 1, 2 and 3
measures, both individually and combined as discussed in this
section above, are less than the central estimates of the social
cost of carbon. Developed by an interagency workgroup, the
social cost of carbon (SC-CO2) is an estimate of the monetary
value of impacts associated with marginal changes in CO2
emissions in a given year.433 It is typically used to assess the
avoided damages as a result of regulatory actions (i.e.,
benefits of rulemakings that lead to an incremental reduction in
cumulative global CO2 emissions).434 The central values for the
SC-CO2 range from $40 per short ton in 2020 to $48 per short ton

See memo entitled “Consideration of Costs and Benefits Under
the Clean Air Act” available in the docket.
433 Estimates are presented in the Technical Support Document:
Technical Update of the Social Cost of Carbon for Regulatory
Impact Analysis Under Executive Order 12866 (May 2013, Revised
July 2015), Interagency Working Group on Social Cost of Carbon,
with participation by Council of Economic Advisers, Council on
Environmental Quality, Department of Agriculture, Department of
Commerce, Department of Energy, Department of Transportation,
Environmental Protection Agency, National Economic Council,
Office of Energy and Climate Change, Office of Management and
Budget, Office of Science and Technology Policy, and Department
of Treasury (May 2013, Revised July 2015). Available at:
<https://www.whitehouse.gov/sites/default/files/omb/inforeg/scctsd-final-july-2015.pdf> Accessed 7/11/2015.
434 The SC-CO
2 estimates do not include all important damages
because of current modeling and data limitations. The IPCC Fifth
Assessment report observed that SC-CO2 estimates omit various
impacts that would likely increase damages.
432

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in 2030.435 The weighted-average cost estimate of $30 per ton is
well below this range.
Finally, the EPA notes that the combination of all three
building blocks would perform consistently with the individual
building blocks with respect to non-air energy and environmental
impacts. There is no reason to expect an adverse non-air
environmental or energy impact from deployment of the
combination of the three building blocks, whether considered on
a source-by-source basis, on a sector-wide or national basis, or
both. In fact, the combination of the building blocks, like the
building blocks individually, as discussed above, would be
expected to produce non-air environmental co-benefits in the
form of reduced water usage and solid waste production (and, in
addition to these non-air environmental co-benefits, would also
be expected to reduce emissions of non-CO2 air pollutants such as
SO2, NOX, and mercury). Likewise, with respect to technological
innovation, which we consider only in the alternative, the
building blocks in combination would have the same positive
effects that they would have if implemented independently.

The 2010 and 2013 TSDs present SC-CO2 in 2007$ per metric ton.
The unrounded estimates from the current TSD were adjusted to
(1) 2011$ using GDP Implicit Price Deflator (1.061374),
http://www.bea.gov/iTable/index_nipa.cfm and (2) short tons
using the conversion factor of 0.90718474 metric tons in a short
ton. These estimates were rounded to two significant digits.
435

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e. Other combinations of the building blocks. The EPA has
considered whether other combinations of the building blocks,
such as a combination of building blocks 1 and 2 or a
combination of building blocks 1 and 3, could be the BSER. We
believe that any such combination is technically feasible and
would be a “system of emission reduction” capable of achieving
meaningful reductions in CO2 emissions from affected EGUs at a
reasonable cost. As with the combination of three building
blocks discussed above, any combination of building blocks would
achieve greater emission reductions than the individual building
blocks encompassed in that combination would achieve if
implemented in isolation. Further, the cost of any combination
would be driven principally by the combined stringency and would
remain reasonable in aggregate, such that the conclusions on
cost reasonableness discussed in section V.A.4.d. would continue
to apply. We have already noted our determination that building
block 1 in isolation is not the BSER because it would not
produce a sufficient quantity of emission reductions. A
combination of building block 1 with one of the other building
blocks would produce greater emission reductions and would not
be subject to this concern. Any combination of building blocks
including building block 1 and at least one other building block
would also address the concern about potential “rebound effect,”
discussed above, that could occur if building block 1 were
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implemented in isolation. Finally, there is no reason to expect
any combination of the building blocks to have adverse non-air
energy or environmental impacts, and the implications for
technological innovation, which we consider only in the
alternative, would likewise be positive for any combination of
the building blocks because those implications are positive for
the individual building blocks and there is no reason to expect
negative interaction from a combination of building blocks.
For these reasons, any combination of the building blocks
(but not a BSER comprising building block 1 in isolation) could
be the BSER if it were not for the fact that a BSER comprising
all three of the building blocks will achieve greater emission
reductions at a reasonable cost and is therefore “better.” As
discussed below in section V.A.7., we intend for the individual
building blocks to be severable, such that if a court were to
deem building block 2 or 3 defective, but not both, the BSER
would comprise the remaining building blocks.
f. Achievability of emission limits. As noted, based on the
BSER, the EPA has established a source subcategory-specific
emission performance rate for fossil steam units and one for
NGCC units. As discussed in section V.A.1.c., for new sources,
standards of performance must be “achievable” under CAA section
111(a)(1), and the D.C. Circuit has identified criteria for

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achievability.436 In this rule, the EPA is taking the approach
that while the states are not required to adopt those source
subcategory-specific emission performance rates as the standards
of performance for their affected EGUs, those rates must be
achievable by the steam generator and NGCC subcategories,
respectively. In addition, the EPA is assuming that the
achievability criteria in the case law for new sources apply to
existing sources under section 111(d). For the reasons discussed
next, for this rule, the source subcategory-specific emission
performance rates are achievable in accordance with those
criteria in the case law.
As noted, the building blocks include several features that
assure that affected EGUs may implement them. The building
blocks may be implemented through a range of methods, including
through the purchase of ERCs and emission trading. In addition,
the building blocks incorporate “headroom.” Moreover, the source
subcategory-specific emission performance rates apply on an
annual basis, so that short-term issues need not jeopardize
compliance. In addition, we quantify the emission performance
rates based on the degree of emission limitation achievable by

436

See Essex Chem. Corp. v. Ruckelshaus, 486 F.2d 427, 433-34
(D.C. Cir. 1973), cert. denied, 416 U.S. 969 (1974); Nat’l Lime
Ass’n v. EPA, 627 F.2d 416, 433, n.46 (D.C. Cir. 1980); Sierra
Club v. Costle, 657 F.2d 298, 377 (D.C. Cir. 1981) (citing Nat’l
Lime Ass’n v. EPA, 627 F.2d 416 (D.C. Cir. 1980).
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affected EGUs in the region where application of the combined
building blocks results in the least stringent emission rate.
Because the means to implement the building blocks are widely
available and because of the just-noted flexibilities and
approaches to the emission performance rates, all types of
affected steam generating units, operating throughout the lower48 states and under all types of regulatory regimes, are able to
implement building blocks 1, 2 and 3 and thereby achieve the
emission performance rate for fossil steam units, and all types
of NGCC units operating in all states under all types of
regulatory requirements are able to implement building block 3
and thereby achieve the emission performance rate for NGCC
units.437
Commenters have raised questions about whether particular
circumstances could arise, such as the sudden loss of certain
generation assets, that would cause the implementation of the
building blocks to cause reliability problems, and have
cautioned that these circumstances could preclude implementation
of the building blocks and thus achievement of the emission
performance rates. Commenters have also raised concerns about
whether affected EGUs with limited remaining useful lives can

437

We discuss the ability of affected EGUs to implement the
building blocks in more detail in sections V.C., V.D., and V.E.
and the accompanying support documents.
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implement the building blocks and achieve the emission
performance rates. We address those concerns in section VIII,
where we authorize state plans to include a reliability
mechanism and discuss affected EGUs with limited remaining
useful lives. Accordingly, we conclude that the source
subcategory specific emission performance standards are
achievable in accordance with the case law.
5. Actions under the BSER that sources can take to achieve
standards of performance
Based on the determination of the BSER described above, the
EPA has identified a performance rate of 1305 lbs. per net MWh
for affected steam EGUs and a performance rate of 771 lbs. per
net MWh for affected stationary combustion turbines. The
computations of these performance rates and the determinations
of state goals reflecting these rates are described in sections
VI and VII of the preamble, respectively.
Under section 111(d), states determine the standards of
performance for individual sources. The EPA is authorizing
states to express the standards of performance applicable to
affected EGUs as either emission rate-based limits or mass-based
limits. As described above, the sets of actions that sources can
take to comply with these standards implement or apply the BSER
and, in that sense, may be understood as part of the BSER.

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A source to which a state applies an emission rate-based
limit can achieve the limit through a combination of the
following set of measures (to the extent allowed by the state
plan), all of which are components of the BSER, again, in the
sense that they implement or apply it:


Reducing its heat rate (building block 1).



Directly investing in, or purchasing ERCs created as a
result of, incremental generation from existing NGCC units
(building block 2).



Directly investing in, or purchasing ERCs created as a
result of, generation from new or uprated RE generators
(building block 3).



Reducing its utilization, coupled with direct investment in
or purchase of ERCs representing building blocks 2 and 3 as
indicated above.



Investing in surplus emission rate reductions at other
affected EGUs through the purchase or other acquisition of
rate-based emission credits.
A source to which a state applies a mass-based limit can

achieve the limit through a combination of the following set of
measures (to the extent allowed by the state plan), all of which
are likewise components of the BSER:


Reducing its heat rate (building block 1).

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

Reducing its utilization and allowing its generation to be
replaced or avoided through the routine operation of
industry reliability planning mechanisms and market
incentives.



Investing in surplus emission reductions at other affected
EGUs through the purchase or other acquisition of massbased emission allowances.
The EPA has determined appropriate CO2 emission performance

rates for each of the two source subcategories as a whole
achievable through application of the building blocks. The wide
ranges of measures included in the BSER and available to
individual sources as indicated above provide assurance that the
source category as a whole can achieve standards of performance
consistent with those emissions standards using components of
the BSER, whether states choose to establish emission rate-based
limits or mass-based limits. The wide ranges of measures
included in the BSER also provide assurance that each individual
affected EGU could achieve the standard of performance its state
establishes for it using components of the BSER. Of course,
sources may also employ measures not included in the BSER, to
the extent allowed under the applicable state plan.
In the remainder of this subsection, we discuss further how
affected EGUs can use each of the measures listed above to

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achieve emission rate-based forms of performance standards and
mass-based forms of performance standards, indicating that all
types of owner/operators of affected EGUs –- i.e., vertically
integrated utilities and merchant generators; investor-owned,
government-owned, and customer-owned (cooperative) utilities;
and owner/operators of large, small, and single-unit fleets of
generating units –- have the ability to implement each of the
building blocks in some way. In the following subsection we
discuss the use of measures not in the BSER that can help
sources achieve the standards of performance.
a. Use of BSER measures to achieve an emission rate-based
standard. Under an emission-rate based form of performance
standards, compliance is nominally determined through a
comparison of the affected EGU’s emission rate to the emission
rate standard. The emissions-reducing impact of BSER measures
that reduce CO2 emissions through reductions in the quantity of
generation rather than through reductions in the amount of CO2
emitted per unit of generation would not be reflected in an
affected EGU’s emission rate computed solely based on measured
stack emissions and measured electricity generation but can
readily be reflected in an emission rate computation by
averaging ERCs acquired by the affected EGU into the rate
computation.

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In section VIII.K., we discuss the processes for issuance
and use of ERCs that can be included in the emission rate
computations that affected EGUs perform to demonstrate
compliance with an emission rate standard. This ERC mechanism is
analogous to the approach the EPA has used to reflect building
blocks 2 and 3 in the uniform emission rates representing the
BSER, as discussed in section VI below. As summarized below and
as discussed in greater detail in section VIII.K., the existence
of a clearly feasible path for usage of ERCs ensures that
emission reductions achievable through implementation of the
measures in building blocks 2 and 3 are available to assist all
affected EGUs in achieving compliance with standards of
performance based on the BSER.
(1) Building block 1.
The owner/operator of an affected steam EGU can take steps
to reduce the unit’s heat rate, thereby lowering the unit’s CO2
emission rate. Examples of actions in this category are included
in section V.C. below and in the GHG Mitigation Measures TSD for
the CPP Final Rule. Any type of owner/operator can take
advantage of this measure.
(2) Building block 2.
The owner/operator of an affected EGU can average the EGU’s
emission rate with ERCs issued on the basis of incremental
generation from an existing NGCC unit. As permitted under the
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EGU’s state’s section 111(d) plan, the owner/operator of the
affected EGU could accomplish this through either common
ownership of the NGCC unit, a bilateral transaction with the
owner/operator of the NGCC unit, or a transaction for ERCs
through an intermediary, which could but need not involve an
organized market.438 As discussed earlier, based on observation
of market behavior both inside and outside the electricity
industry, we expect that intermediaries will seek opportunities
to participate in such transactions and that organized markets
are likely to develop as well if section 111(d) plans authorize
the use of ERCs. While the opportunity to acquire ERCs through
common ownership of NGCC facilities might not extend to
owner/operators of single EGUs or small fleets, all
owner/operators would have the ability to engage in bilateral or
intermediated purchase transactions for ERCs just as they can
engage in transactions for other kinds of goods and services.
In section VIII.K. below, the EPA sets out the minimum
criteria that must be satisfied for generation and issuance of a
valid ERC based upon incremental electricity generation by an

438

Each of these methods of implementing building block 2 meets
the criteria for the BSER in that (i) as we discuss in section
V.D. and supporting documents, each of these methods is
adequately demonstrated;(ii) the costs of each of these methods
on a source-by-source basis are reasonable, as discussed above;
and (iii) none of these methods causes adverse energy impacts or
non-quality environmental impacts.
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existing NGCC unit. Those criteria generally concern ensuring
that the physical basis for the ERC –- i.e., qualifying
generation by an existing NGCC unit and the NGCC unit CO2
emissions associated with that qualifying generation –- is
adequately monitored and that there is an adequate
administrative process for tracking credits to avoid doublecounting. In the case of ERCs related to building block 2, the
monitoring criteria would generally be satisfied by standard 40
CFR part 75 monitoring.
The owner/operator of an affected steam EGU would use the
ERCs it has acquired for compliance –- whether acquired through
ownership of NGCC capacity, a bilateral transaction, or an
intermediated transaction –- by adding the ERCs to its measured
net generation when computing its CO2 emission rate for purposes
of demonstrating compliance with its emission rate-based
standard of performance.
(3) Building block 3.
The owner/operator of an affected EGU can average the EGU’s
emission rate with ERCs issued on the basis of generation from
new (i.e., post-2012) RE generating capacity, including both
newly constructed capacity and new uprates to existing RE
generating capacity. As permitted under the EGU’s state’s
section 111(d) plan, the owner/operator of the affected EGU
could accomplish this through either common ownership of the RE
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generating capacity, a bilateral transaction with the
owner/operator of the RE generating capacity, or a transaction
for ERCs through an intermediary, which could, but need not,
involve an organized market.439 As discussed earlier, based on
observation of market behavior both inside and outside the
electricity industry, we expect that intermediaries will seek
opportunities to participate in such transactions and that
organized markets are likely to develop as well if section
111(d) plans authorize the use of ERCs. While the opportunity to
acquire ERCs through common ownership of RE generating
facilities might not extend to owner/operators of single EGUs or
small fleets, all owner/operators would have the ability to
engage in bilateral or intermediated purchase transactions for
ERCs just as they can engage in transactions for other kinds of
goods and services.
In section VIII.K. below, the EPA sets out the minimum
criteria that must be satisfied for generation and issuance of a
valid ERC based upon generation from new RE generating capacity.

439

As with building block 2, each of these methods of
implementing building block 3 meets the criteria for the BSER in
that (i) as we discuss in section V.E. and supporting documents,
each of these methods is adequately demonstrated;(ii) the costs
of each of these methods on a source-by-source basis are
reasonable, as discussed above; and (iii) none of these methods
causes adverse energy impacts or non-quality environmental
impacts.
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Those criteria generally concern assuring that the physical
basis for the ERC –- i.e., generation by from qualifying new RE
capacity –- is adequately monitored and that there is an
adequate administrative process for tracking credits to avoid
double-counting and to facilitate enforceability of emission
limits.440
As with building block 2, the owner/operator of an affected
EGU would use the ERCs it has acquired for compliance –- whether
acquired through ownership of qualifying RE generating capacity,
a bilateral transaction, or an intermediated transaction –- by
adding the ERCs to its measured net generation when computing
its CO2 emission rate for purposes of demonstrating compliance
with its emission rate-based standard of performance.
(4) Reduced generation.
The owner/operator of an affected EGU can reduce the unit’s
generation and reflect that reduction in the form of a lower
emission rate provided that the owner/operator also acquires
some amount of ERCs to use in computing the unit’s emission rate
for purposes of demonstrating compliance. As permitted under the
EGU’s state’s section 111(d) plan, the ERCs could be acquired
through investment in incremental generation from existing NGCC

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The possible use of types of RE generating capacity that are
not included in the BSER is discussed in section V.A.6. and
section VIII of the preamble.
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capacity, generation from new RE generating capacity, or
purchase from an entity with surplus ERCs. If the owner/operator
does not average any ERCs into the unit’s emission rate,
reducing the unit’s own generation will proportionately reduce
both the numerator and denominator of the fraction and therefore
will not affect the computed emission rate (unless the unit
retires, reducing its emission rate to zero). However, if the
owner/operator does average ERCs into the unit’s emission rate,
then a proportional reduction in both the numerator and the
portion of the denominator representing the unit’s measured
generation will amplify the effect of the acquired ERCs in the
computation, with the result that the more the unit reduces its
generation, the fewer ERCs will be needed to reach a given
emission rate-based standard of performance. All owner/operators
have the ability to reduce generation, and as discussed above
all also would be capable of acquiring ERCs, so all would be
capable of reflecting reduced utilization in their emission
rates for purposes of demonstrating compliance.
(5) Emissions trading approaches.
To the extent allowed under standards of performance that
incorporate emissions trading or otherwise through the relevant
section 111(d) plans, the owner/operator of an affected EGU can
acquire tradable rate-based emission credits representing an
investment in surplus emission rate reductions not needed by
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another affected EGU and can average those credits into its own
emission rate for purposes of demonstrating compliance with its
rate-based standard of performance. The approach would have to
be authorized in the appropriate section 111(d) plan and would
have to conform to the minimum conditions for such approaches
described in section VIII below. As we have repeatedly noted, we
read the comment record and the discussions that occurred during
the outreach process, it is reasonable to presume that such
authorization will be forthcoming from states that submit plans
establishing rate-based standards of performance for their
affected EGUs.
Under a rate-based emissions trading approach, credits are
initially created and issued according to processes defined in
the state plan. After credits are initially issued, the
owner/operator of an affected EGU needing additional credits can
acquire credits through common ownership of another affected EGU
or through a bilateral transaction with the other affected EGU,
or the owner/operator of the affected EGU can acquire credits in
a transaction through an intermediary, which could, but need
not, involve an organized market. As discussed earlier, based on
observation of market behavior both inside and outside the
electricity industry, we expect that intermediaries will seek
opportunities to participate in such transactions and that
organized markets are likely to develop as well if section
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111(d) plans and/or standards of performance established
thereunder authorize emissions trading. While the opportunity to
acquire credits through common ownership might not extend to
owner/operators of single EGUs or small fleets, all
owner/operators would have the ability to engage in bilateral or
intermediated purchase transactions for credits just as they can
engage in transactions for other kinds of goods and services.
Further details regarding the possible use of rate-based
emission credits in a state plan (using ERCs issued on the basis
of investments in building blocks 2 and 3 and potentially other
measures as the credits) are provided in section VIII.K.
b. Use of BSER measures to achieve a mass-based standard. Under
a mass-based form of the standard, compliance is determined
through a comparison of the affected EGU’s monitored mass
emissions to a mass-based emission limit. Although a state could
choose to impose specific mass-based limits that each EGU would
be required to meet on a physical basis, in past instances where
mass-based limits have been established for large numbers of
sources it has been typical for the limit on each affected EGU
to be structured as a requirement to periodically surrender a
quantity of emission allowances equal to the source’s monitored
mass emissions. The EPA believes that section 111(d) encompasses
the flexibility for plans to impose mass-based standards in the
typical manner where the standard of performance for each
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affected EGU consists of a requirement to surrender emission
allowances rather than a requirement to physically comply with a
unit-specific emissions cap.
Measurements of mass emissions at a given affected EGU
capture reductions in the EGU’s emissions arising from both
reductions in generation and reductions in the emission rate per
MWh. Accordingly, under a mass-based standard there is no need
to provide a mechanism such as the ERC mechanism described above
in order to properly account for emission reductions
attributable to particular types of BSER measures. The relative
simplicity of the mechanics of monitoring and determining
compliance are significant advantages inherent in the use of
mass-based standards rather than emission rate-based standards.
(1) Building block 1.
The owner/operator of an affected steam EGU can take steps
to reduce the unit’s heat rate, thereby lowering the unit’s CO2
mass emissions. Examples of actions in this category are
included in section V.C. below and in the GHG Mitigation
Measures TSD for the CPP Final Rule. Any type of owner/operator
can take advantage of this measure.
(2) Reduced generation.
The owner/operator of an affected EGU can reduce its
generation, thereby lowering the unit’s CO2 mass emissions. Any
type of owner/operator can take advantage of this measure.
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Although some action or combination of actions to increase
lower-carbon generation or reduce electricity demand somewhere
in the interconnected electricity system of which the affected
EGU is a part will be required to enable electricity supply and
demand to remain in balance, the affected EGU does not need to
monitor or track those actions in order to use its reduction in
generation to help achieve compliance with the mass-based
standard. Instead, multiple participants in the interconnected
electricity system will act to ensure that supply and demand
remain in balance, subject to the complex and constantly
changing set of constraints on operation of the system, just as
those participants have routinely done for years.
Of course, if the owner/operator of the affected EGU wishes
to play a direct role in driving the increase in lower-carbon
generation or demand-side EE required to offset a reduction in
the affected EGU’s generation, the owner/operator may do so as
part of whatever role it happens to play as a participant in the
interconnected electricity system. However, the owner/operator
will achieve the benefit that reduction in generation brings
toward compliance with the mass-based standard whether it takes
those additional actions itself or instead allows other
participants in the interconnected electricity system to play
that role.
(3) Emissions trading approaches.
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To the extent allowed under the relevant section 111(d)
plans -- as the record indicates that it is reasonable to expect
it will be -- the owner/operator of an affected EGU can acquire
tradable mass-based emission allowances representing investment
in surplus emission reductions not needed by another affected
EGU and can aggregate those allowances with any other allowances
it already holds for purposes of demonstrating compliance with
its mass-based standard of performance. The approach would have
to be authorized in the appropriate section 111(d) plan and
would have to conform to the minimum conditions for such
approaches described in section VIII below.
Under a mass-based emissions trading approach, the total
number of allowances to be issued is defined in the state plan,
and affected EGUs may obtain an initial quantity of allowances
through an allocation or auction process. After that initial
process, the owner/operator of an affected EGU needing
additional allowances can acquire allowances through common
ownership of another affected EGU or through a bilateral
transaction with the other affected EGU, or the owner/operator
of the affected EGU can acquire allowances in a transaction
through an intermediary, which could but need not involve an
organized market. As discussed earlier, based on observation of
market behavior both inside and outside the electricity
industry, we expect that intermediaries will seek opportunities
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to participate in such transactions and that organized markets
are likely to develop as well if section 111(d) plans authorize
the use of emissions trading. While the opportunity to acquire
allowances through common ownership might not extend to
owner/operators of single EGUs or small fleets, all
owner/operators would have the ability to engage in bilateral or
intermediated purchase transactions for allowances just as they
can engage in transactions for other kinds of goods and
services.
Further details regarding the possible use of mass-based
emission allowances in a state plan are provided in section
VIII.J.
6. Use of non-BSER measures to achieve standards of performance
In addition to the BSER-related measures that affected EGUs
can use to achieve the standards of performance set in section
111(d) plans, there are a variety of non-BSER measures that
could also be employed (to the extent permitted under a given
plan). This final rule does not limit the measures that affected
EGUs may use for achieving standards of performance to measures
that are included in the BSER; thus, the existence of these nonBSER measures provides flexibility allowing the individual
affected EGUs and the source category to achieve emission
reductions consistent with application of the BSER at the levels
of stringency reflected in this final rule even if one or more
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of the building blocks is not implemented to the degree that the
EPA has determined to be reasonable for purposes of quantifying
the BSER. In this way, non-BSER measures provide additional
flexibility to states in establishing standards of performance
for affected EGUs through section 111(d) plans and to individual
affected EGUs for achieving those standards.
Any of the non-BSER measures described below would help the
affected source category as a whole achieve emission limits
consistent with the BSER. The non-BSER measures either reduce
the amount of CO2 emitted per MWh of generation from the set of
affected EGUs or reduce the amount of generation, and therefore
associated CO2 emissions, from the set of affected EGUs. However,
the manner in which the various non-BSER measures would help
individual affected EGUs meet their individual standards of
performance varies according to the type of measure and the type
of standard of performance –- i.e., whether the standard is
emission rate-based or mass-based.
In general, a non-BSER measure that reduces the amount of
CO2 emitted per MWh of generation at an affected EGU will reduce
the amount of CO2 emissions monitored at the EGU’s stack
(assuming the quantity of generation is held constant). Measures
of this type can help the EGU meet either an emission rate-based
or mass-based standard of performance.

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Other non-BSER measures do not reduce an affected EGU’s CO2
emission rate but rather facilitate reductions in CO2 emissions
by reducing the amount of generation from affected EGUs. Under a
mass-based standard, the collective reduction in emissions from
the set of affected EGUs is reflected in the collective
monitored emissions from the set of affected EGUs. An individual
EGU that reduces its generation and emissions will be able to
use the measure to help achieve its mass-based limit. Individual
EGUs that do not reduce their generation and emissions will be
able to use the measure, if the relevant section 111(d) plans
provide for allowance trading, by purchasing emission allowances
no longer needed by EGUs that have reduced their emissions.
Under an emission rate-based standard, non-BSER measures
that reduce generation from affected EGUs but do not reduce an
affected EGU’s emission rate generally can facilitate compliance
by serving as the basis for ERCs that affected EGUs can average
into their emission rates for purposes of demonstrating
compliance. Section VIII.K. includes a discussion of the
issuance of ERCs based on various non-BSER measures. Affected
EGUs could use such ERCs to the extent permitted by the relevant
section 111(d) plans.
The remainder of this section discusses some specific types
of non-BSER measures. The first set discussed includes measures
that can reduce the amount of CO2 emitted per MWh of generation,
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and the second set discussed includes measures that can reduce
CO2 emissions by reducing the amount of generation from affected
EGUs. In some cases, considerations related to use of these
measures for compliance are discussed below in section VIII on
state plans. The EPA notes that this is not an exhaustive list
of non-BSER measures that could be employed to reduce CO2
emissions from affected EGUs, but merely a set of examples that
illustrate the extent of the additional flexibility such
measures provide to states and affected EGUs under the final
rule.
a. Non-BSER measures that reduce CO2 emissions per MWh generated.
In the June 2014 proposal, the EPA discussed several potential
measures that could reduce CO2 emissions per MWh generated at
affected EGUs but that were not proposed to be part of the BSER.
The measures discussed included heat rate improvements at
affected EGUs other than coal-fired steam EGUs; fuel switching
from coal to natural gas at affected EGUs, either completely
(conversion) or partially (co-firing); and carbon capture and
storage by affected EGUs. One reason for not proposing to
consider these measures to be part of the BSER was that they
were more costly than the BSER measures. Another reason was that
the emission reduction potential was limited compared to the
potential available from the measures that were proposed to be
included in the BSER. However, we also noted that circumstances
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could exist where these measures could be sufficiently
attractive to deploy, and that the measures could be used to
help affected EGUs achieve emission limits consistent with the
BSER.
In the final rule, the EPA has reached determinations
consistent with the proposal with respect to these measures:
namely, that they do not merit inclusion in the BSER, but that
they are capable of helping affected EGUs achieve compliance
with standards of performance and are likely to be used for that
purpose by some units. To the extent that they are selectively
employed, they provide flexibility for the source category as a
whole and for individual affected EGUs to achieve emission
limits reflective of the BSER, as discussed above.
(1) Heat rate improvement at affected EGUs other than coalfired steam EGUs.
Building block 1 reflects the opportunity to improve heat
rate at coal-fired steam EGUs but not at other affected EGUs. As
the EPA stated at proposal, the potential CO2 reductions
available from heat rate improvements at coal-fired steam EGUs
are much larger than the potential CO2 reductions available from
heat rate improvements at other types of EGUs, and comments
offered no persuasive basis for reaching a different conclusion.
Nevertheless, we recognize that there may be instances where an
owner/operator finds heat rate improvement to be an attractive
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option at a particular non-coal-fired affected EGU, and nothing
in the rule prevents the owner/operator from implementing such a
measure and using it to help achieve a standard of performance.
(2) Carbon capture and storage at affected EGUs.
Another approach for reducing CO2 emissions per MWh of
generation from affected EGUs is the application of carbon
capture and storage (CCS) technology. Consistent with the June
2014 proposal, we are determining that use of full or partial
CCS technology should not be part of the BSER for existing EGUs
because it would be more expensive than the measures determined
to be part of the BSER, particularly if applied broadly to the
overall source category. At the same time, we note that retrofit
of CCS technology may be a viable option at some individual
facilities, particularly where the captured CO2 can be used for
enhanced oil recovery (EOR). For example, construction of one
CCS retrofit application with EOR has already been completed at
a unit at the Boundary Dam plant in Canada, and construction of
another CCS retrofit application with EOR is underway at the
W.A. Parish plant in Texas. We expect the costs of CCS to
decline as implementation experience increases. CO2 emission rate
reductions achieved through retrofit of CCS technology would be
available to help affected EGUs achieve emission limits
consistent with the BSER. State plan considerations related to
CCS are discussed in section VIII.I.2.a.
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(3) Fuel switching to natural gas at affected EGUs.
In the proposal we discussed the opportunity to reduce CO2
emissions at an individual affected EGU by switching fuels at
the EGU, particularly by switching from coal to natural gas.
Most coal-fired EGUs could be modified to burn natural gas
instead, and the potential CO2 emission reductions from this
measure are large – approximately 40 percent in the case of
conversion from 100 percent coal to 100 percent natural gas, and
proportionately smaller for partial co-firing of coal with
natural gas. The primary reason for not considering this measure
part of the BSER, both at proposal and in this final rule, is
that it is more expensive than the BSER measures. In particular,
combusting natural gas in a steam EGU is less efficient and
generally more costly than combusting natural gas in an NGCC
unit. For the category as a whole, CO2 emissions can be achieved
far more cheaply by combusting additional natural gas in
currently underutilized NGCC capacity and reducing generation
from coal-fired steam EGUs (building block 2) than by combusting
natural gas instead of coal in steam EGUs.
Some owner/operators are already converting some affected
EGUs from coal to natural gas, and it is apparent that the
measure can be attractive compared to alternatives in certain
circumstances, such as when a unit must meet tighter unitspecific limits on emissions of non-GHG pollutants, the options
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for meeting those emission limits are costly, and retirement of
the unit would necessitate transmission upgrades that are costly
or cannot be completed quickly. CO2 emission reductions achieved
in these situations are available to help achieve emission
limits consistent with the BSER.
(4) Fuel switching to biomass at affected EGUs.
Some affected EGUs may seek to co-fire qualified biomass
with fossil fuels. The EPA recognizes that the use of some
biomass-derived fuels can play an important role in controlling
increases of CO2 levels in the atmosphere. As with the other nonBSER measures discussed in this section, the EPA expects that
use of biomass may be economically attractive for certain
individual sources even though on a broader scale it would
likely be more expensive or less achievable than the measures
determined to be part of the BSER. Section VIII.I.2.c. describes
the process and considerations for states proposing to use
different kinds of biomass in state plans.
(5) Waste heat-to-energy conversion at affected EGUs.
Certain affected EGUs in urban areas or located near
industrial or commercial facilities with needs for thermal
energy may be able add new equipment to capture some of the
waste heat from their electricity generation processes and use
it to create useful thermal output, thereby engaging in combined
heat and power (CHP) production. While the set of affected EGUs
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in locations making this measure feasible may be limited, where
feasible the potential CO2 emission rate improvements can be
substantial: depending on the process used, the efficiency with
which fuel is converted to useful energy can be increased by 25
percent or more. The final rule allows an owner/operator
applying CHP technology to an affected EGU to account for the
increased efficiency by counting the useful thermal output as
additional MWh of generation, thereby lowering the unit’s
computed emission rate and assisting with achievement of an
emission rate-based standard of performance. (The EPA notes that
unless the unit also reduced its fuel usage, the addition of the
capability to capture waste heat and produce useful thermal
output would not reduce the unit’s mass emissions and therefore
would not directly help the unit achieve a mass-based standard
of performance.441)
b. Non-BSER measures that reduce CO2 emissions by reducing fossil
fuel-fired generation. A second group of non-BSER measures has
the potential to reduce CO2 emissions from affected EGUs by
reducing the amount of generation from those EGUs. As discussed
above, under a section 111(d) plan with mass-based standards of
performance, no special action is required to enable measures of

441

However, the EPA notes that a state could establish a
mechanism for encouraging affected EGUs to apply CHP technology
under a mass-based plan, for example, through awards of emission
allowances to CHP projects.
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this nature to help the source category as a whole and
individual affected EGUs achieve their emission limits, because
the CO2-reducing effects are captured in monitored stack
emissions. However, under a section 111(d) plan with rate-based
standards of performance, affected EGUs would need to acquire
ERCs based on the non-BSER activities that could be averaged
into their emission rate computations for purposes of
determining compliance with their standards of performance.
(1) Demand-side EE.
One of the major approaches available for achieving CO2
emission reductions from the utility power sector is demand-side
EE. In the June 2014 proposal, the EPA identified demand-side EE
as one of the four proposed building blocks for the BSER. We
continue to believe that significant emission reductions can be
achieved by the source category through use of such measures at
reasonable costs. In fact, we believe that the potential
emission reductions from demand-side EE rival those from
building blocks 2 and 3 in magnitude, and that demand-side EE is
likely to represent an important component of some state plans,
particularly in instances where a state prefers to develop a
plan reflecting the state measures approach discussed in section
VIII below. We also expect that many sources would be interested
in including demand-side EE in their compliance strategies to

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the extent permitted, and we received comment that it should be
permitted.
For the reasons discussed in section V.B.3.c.(8) below, the
EPA has determined not to include demand-side EE in the BSER in
this final rule. However, the final rule authorizes generation
avoided through investments in demand-side EE to serve as the
basis for issuance of ERCs when appropriate conditions are met.
In section VIII.K. below, the EPA sets out the minimum criteria
that must be satisfied for generation and issuance of a valid
ERC based upon implementation of new demand-side EE programs.
Those criteria generally concern ensuring that the physical
basis for the ERC -– in this case, generation avoided through
implementation of demand-side EE measures –- is adequately
evaluated, measured, and verified and that there is an adequate
administrative process for tracking credits.
Through their authority over legal requirements such as
building codes, states have the ability to drive certain types
of demand-side EE measures that are beyond the reach of privatesector entities. The EPA recognizes that, by definition, this
type of measure is beyond the ability of affected EGUs to invest
in either directly or through bilateral arrangements. However,
the final rule also authorizes generation avoided through such
state policies to serve as the basis for issuance of ERCs that
in turn can be used by affected EGUs. The section 111(d) plan
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would need to include appropriate provisions for evaluating,
measuring, and verifying the avoided MWh associated with the
state policies, consistent with the criteria discussed in
section VIII.K. below.
(2) New or uprated nuclear generating capacity.
In the June 2014 proposal, the EPA included generation from
the five nuclear units currently under construction as part of
the proposed BSER. As discussed above in section V.A.3.c., upon
consideration of comments, we have determined that generation
from these units should not be part of the BSER. However, we
continue to observe that the zero-emitting generation from these
units would be expected to replace generation from affected EGUs
and thereby reduce CO2 emissions, and the continued commitment of
the owner/operators to completion of the units is essential in
order to realize that result. Accordingly, a section 111(d) plan
may rely on ERCs issued on the basis of generation from these
units and other new nuclear units. For the same reason, a plan
may rely on ERCs issued on the basis of generation from uprates
to the capacity of existing nuclear units. Requirements for
state plan provisions intended to serve this purpose are
discussed in section VIII.K.
(3) Zero-emitting RE generating technologies not reflected
in the BSER.

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The range of available zero-emitting RE generating
technologies is broader than the range of RE technologies
determined to be suitable for use in quantification of building
block 3 as an element of the BSER. Examples of additional zeroemitting RE technologies not included in the BSER that could be
used to achieve emission limits consistent with the BSER include
offshore wind, distributed solar, and fuel cells. These
technologies were not included in the range of RE technologies
quantified for the BSER because they are generally more
expensive than the measures that were included and the other
measures in the BSER. However, these technologies are equally
capable of replacing generation from affected EGUs and thereby
reducing CO2 emissions. Further, as with any technology, there
are likely to be certain circumstances where the costs of these
technologies are more attractive relative to alternatives,
making the technologies likely to be deployed to some extent.
Indeed, distributed solar is already being widely deployed in
much of the U.S. and offshore wind, while still unusual in this
country, has been extensively deployed in some other parts of
the world. We expect innovation in RE generating technologies to
continue, making such technologies even more attractive over
time. A section 111(d) plan may rely on ERCs issued on the basis
of generation from new and uprated installations of these

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technologies. The necessary state plan provisions are discussed
in section VIII.K.
(4) Non-zero-emitting RE generating technologies.
Generation from new or expanded facilities that combust
qualified biomass or biogenic portions of municipal solid waste
(MSW) to produce electricity can also replace generation from
affected EGUs and thereby control CO2 levels in the atmosphere.442
While the EPA believes it is reasonable to consider generation
from these fuels and technologies to be forms of RE generation,
the fact that they can produce stack emissions containing CO2
means that a section 111(d) plan seeking to permit use of such
generation to serve as the basis for issuance of ERCs must
include appropriate consideration of feedstock characteristics
and climate benefits. Specifically, the use of some kinds of
biomass has the potential to offer a wide range of environmental
benefits, including carbon benefits. However these benefits can
only be realized if biomass feedstocks are sourced responsibly
and attributes of the carbon cycle related to the biomass
feedstock are taken into account. Section VIII.I.2.c. describes
the process and considerations for states proposing to use

442

The EPA and many states have recognized the importance of
integrated waste materials management strategies that emphasize
a hierarchy of waste prevention and all other productive uses of
waste materials to reduce the volume of disposed waste materials
(see section VIII for more discussion of waste to energy
strategies).
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biomass in state plans. Section VIII.K. describes additional
provisions related to ERCs.
(5) Waste heat-to-electricity conversion at non-affected
facilities.
Industrial facilities that install new equipment to capture
waste heat from an existing combustion process and then use the
waste heat to generate electricity –- a form of combined heat
and power (CHP) production –- can produce generation that
replaces generation from affected EGUs and thereby reduces CO2
emissions. A section 111(d) plan may rely on ERCs issued on the
basis of generation of this nature provided that the facility
does not generate and sell sufficient electricity to qualify as
a new EGU for purposes of section 111(b) and is not covered
under section 111(d) for another source category. More
information is provided in section VIII.K.
(6) Reduction in transmission and distribution line losses.
Reductions of electricity line losses incurred from the
transmission and distribution system between the points of
generation and the points of consumption by end-users allow the
same overall demand for electricity services to be met with a
smaller overall quantity of electricity generation. Such
reductions in generation quantities would tend to reduce
generation by affected EGUs, thereby reducing CO2 emissions. The
opportunity for improvement is large because, on average, line
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losses account for approximately seven percent of all
electricity generation. The EPA recognizes that, in general,
only the owner/operators of the transmission and distribution
facilities have the ability to undertake line loss reduction
investments, and that merchant generators may have little
opportunity to engage a contractor to pursue such opportunities
on a bilateral basis. Nevertheless, for entities that do have
the opportunity to make such investments, generation avoided
through investment that reduces transmission and distribution
line losses may serve as the basis for issuance of ERCs that in
turn can be used by affected EGUs. Further information is
provided in section VIII.K.
7. Severability.
The EPA intends that the components of the BSER summarized
above be severable. It is reasonable to consider the building
blocks severable because the building blocks do not depend on
one another. Building blocks 2 and 3 are feasible and
demonstrated means of reducing CO2 emissions from the utility
power sector that can be implemented independently of the other
building blocks. If implemented in combination with at least one
of the other building blocks, building block 1 is also a
feasible and demonstrated means of reducing CO2 emission from the

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utility power sector.443 As discussed in sections V.C. through
V.E. below, we have determined that each building block is
independently of reasonable cost whether or not the other
building blocks are applied, and that alternative combinations
of the building blocks are likewise of reasonable cost, and we
have determined reasonable schedules and stringencies for
implementation of each building block independently, based on
factors that generally do not vary depending on the
implementation of other building blocks.
Further, building block 2, building block 3, and all
combinations of the building blocks (implemented on the
schedules and at the stringencies determined to be reasonable in
this rule) would achieve meaningful degrees of emission
reductions,444 although less than the combination of all three
building blocks. No combination of the building blocks would
lead to adverse non-air environmental or energy impacts or
impose a risk to the reliability of electricity supplies.

443

The heat rate improvement measures included in building block
1 are capable of being implemented independently of the measures
in the other building blocks but, as discussed earlier, unless
at least one other building block is also implemented, a
“rebound effect” arising from improved competitiveness and
increased generation at the EGUs implementing heat rate
improvements could weaken or potentially even eliminate the
ability of building block 1 to achieve CO2 emission reductions.
444 This conclusion would not extend to a BSER comprising solely
building block 1 because of the possibility of rebound effects
discussed earlier.
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In the event that a court should deem building block 2 or 3
defective, but not both, the standards and state goals can be
recomputed on the basis of the remaining building blocks. All of
the data and procedures necessary to determine recomputed state
goals using any combination of the building blocks are set forth
in the CO2 Emission Performance Rate and Goal Computation TSD for
the CPP Final Rule available in the docket.
B. Legal Discussion of Certain Aspects of the BSER
This section includes a legal analysis of various aspects
of EPA’s determination of the BSER, including responses to some
of the major adverse comments. These aspects include (1) the
EPA’s authority to determine the BSER; (2) the approach to
subcategorization; (3) the EPA’s basis for determining that
building blocks 2 and 3 qualify as part of the BSER under CAA
sections 111(d)(1) and (a)(1), notwithstanding commenters’
arguments that these building blocks cannot be considered part
of the BSER because they are not based on measures integrated
into the design or operation of the affected source’s own
production processes or methods or because they are dependent on
actions by entities other than the affected source; (4) the
relationship between an affected EGU’s implementation of
building blocks 2 and 3 and CO2 emissions reductions; (5) how
reduced generation relates to the BSER; (6) reasons why,
contrary to assertions by commenters, this rule is within the
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EPA’s statutory authority, is not inconsistent with the Federal
Power Act or state laws governing public utility commissions,
and does not result in what the U.S. Supreme Court described as
“an enormous and transformative expansion in [the] EPA’s
regulatory authority”;445 and (7) reasons that, contrary to
assertions by commenters, the stringency of the BSER for this
rule for CO2 emissions from existing affected EGUs is not
inconsistent with the stringency of the BSER for the rules the
EPA is promulgating at the same time for CO2 emissions from new
or modified affected EGUs.
1. The EPA’s authority to determine the BSER.
In this section, we explain why the EPA, and not the
states, has the authority to determine the BSER and, therefore,
the level of emission limitation required from the existing
sources in the source category in section 111(d) rulemaking and
the associated state plans.
CAA section 111(d)(1) requires the EPA to establish a
section 110-like procedure under which each state submits a plan
that “establishes standards of performance for any existing
source of air pollutant” and “provides for the implementation
and enforcement of such standards of performance.” As CAA
section 111(d) was originally adopted in the 1970 CAA

445

Util. Air Reg. Group v. EPA, 134 S. Ct. 2427, 2444 (2014).

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Amendments, however, state plans were required to establish
“emission standards” –- an undefined term -- rather than
“standards of performance,” a term that was limited to CAA
section 111(b).446 The 1970 provision was in effect when the EPA
issued the 1975 implementing regulations for CAA section
111(d),447 which remain in effect to this day.
These regulations establish a cooperative framework that is
similar to that under CAA section 110. First, the EPA develops
“emission guidelines” for source categories, which are defined
as a final guideline document reflecting “the degree of emission
reduction achievable through the application of the best system
of emission reduction ... which the Administrator has determined
has been adequately demonstrated.” Then, the states submit
implementation plans to regulate any existing sources.448
The preamble to these regulations carefully considered the
allocation of responsibilities as between the EPA and the states
for purposes of CAA section 111(d), and concluded that the EPA
is responsible for determining the level of emission limitation

446

See 1970 CAA Amendments, § 4, 84 Stat. at 1683-84.
Subsequently, in 1977, Congress replaced the term “emission
standard” with “standards of performance.” See 1977 CAA
Amendments, § 109, 91 Stat. at 699.
447 See “State Plans for the Control of Certain Pollutants From
Existing Facilities,” 40 FR 53340 (Nov. 17, 1975).
448 See “State Plans for the Control of Certain Pollutants From
Existing Facilities,” 40 FR 53340 (Nov. 17, 1975).
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from the source category, while the states have the
responsibility of assigning emission requirements to their
sources that assured their achievement of that level of emission
limitation.449 The EPA explained “that some substantive criterion
was intended to govern not only the Administrator’s promulgation
of standards but also [her] review of state plans.”450 The EPA
added, “it would make no sense to interpret [CAA] section 111(d)
as requiring the Administrator to base approval or disapproval
of state plans solely on procedural criteria. Under that
interpretation, states could set extremely lenient standards -even standards permitting greatly increased emissions -- so long
as [the] EPA’s procedural requirements were met.”451 The EPA
concluded that “emission guidelines, each of which will be
subjected to public comment before final adoption, will serve
[the] function” of providing substantive criteria “in advance to
the states, to industry, and to the general public” to aid
states in “developing and enforcing control plans under [CAA]

449

As we made clear in the proposed rulemaking, we are not reopening these regulations (on the issue of the authority to
determine the BSER or any other issue, unless specifically
indicated otherwise) in this rulemaking, and our discussion of
these regulations in responding to comments does not constitute
a re-opening.
450 “State Plans for the Control of Certain Pollutants From
Existing Facilities,” 40 FR 53340, 53342 (Nov. 17, 1975).
451 “State Plans for the Control of Certain Pollutants From
Existing Facilities,” 40 FR 53340, 53343 (Nov. 17, 1975).
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section 111(d).”452 Thus, the implementing regulations make clear
that the EPA is responsible for determining the level of
emission limitation that the state plans must achieve.
In 1977, Congress revised CAA section 111(d) to require
that the states adopt “standards of performance,” as defined
under CAA section 111(a)(1). As noted above, a standard of
performance is defined as “a standard for emissions of air
pollutants which reflects the degree of emission limitation
achievable through the application of the best system of
emission reduction which ... the Administrator determines has
been adequately demonstrated.” (Emphasis added.) By its terms,
this provision provides that the EPA has the responsibility of
determining whether the “best system of emission reduction” is
“adequately demonstrated.” By giving the EPA this
responsibility, this provision is clear that Congress assigned
the role of determining the “best system of emission reduction”
to the EPA. Even if the provision may be considered to be silent
or ambiguous on that question, the EPA reasonably interprets the
provision to assign the responsibility of identifying the “best
system of emission reduction” to the Administrator for the same
reasons discussed in the preamble to the 1975 implementing
regulations.

452

“State Plans for the Control of Certain Pollutants From
Existing Facilities,” 40 FR 53340, 53343 (Nov. 17, 1975).
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In addition, in the legislative history of the 1977 CAA
Amendments, when Congress replaced the term “emission standards”
under CAA section 111(d)(1) with the term “standards of
performance,” Congress endorsed the overall approach of the
implementing regulations, which lends further credence to the
proposition that the EPA has the responsibility for determining
the “best system of emission reduction” and the amount of
emission limitation from the existing sources. Specifically, in
the House report that introduced the substantive changes to CAA
section 111, the Committee explained that “[t]he Administrator
would establish guidelines as to what the best system for each
category of existing sources is.”453 States, on the other hand,
“would be responsible for determining the applicability of such
guidelines to any particular source or sources.”454 The use of
the term “guidelines,” which does not appear in CAA section
111(d), indicates Congress was aware of and approved of the
approach taken in the EPA’s implementing regulations for
establishing guidelines, which determine the BSER. At a minimum,
if Congress disapproved of the EPA’s implementing regulations,
we would not expect the House report to adopt the EPA’s
terminology to clarify CAA section 111(d).

453
454

H.R. Rep. No. 95-294, at 195 (May 12, 1977) (emphasis added).
H.R. Rep. No. 95-294, at 195 (May 12, 1977) (emphasis added).

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In addition, Congress expressly referred to our
“guidelines” in CAA section 129, added as part of the 1990 CAA
Amendments. Congress added CAA section 129 to address solid
waste combustion and specifically directed the Administrator to
establish “guidelines (under section 111(d) and this section)
and other requirements applicable to existing units.”455 This
reference also indicates that Congress was aware of and approved
the EPA’s regulations under section 111(d).
The EPA has followed the same approach described in the
implementation regulations in all its rulemakings under section
111(d). Thus, in all cases, the EPA has identified the type of
emission controls for the source category and the level of
emission limitation based on those controls.456 The EPA’s

455

CAA section 129(a)(1)(A) (emphasis added).
See 40 CFR Part 60, Subpart Ca (large municipal waste
combustors), 56 FR 5514 (Feb. 11, 1991), 40 CFR 60.30a-.39a
(subsequently withdrawn and superseded by Subpart Cb, see 60 FR
65387 (Dec. 19, 1995)); Subpart Cb (large municipal waste
combustors constructed on or before September 20, 1994), 60 FR
65387 (Dec. 19, 1995), 40 CFR 60.30b-.39b (as amended in 1997,
2001, and 2006); Subpart Cc (municipal solid waste landfills),
61 FR 9905 (Mar. 12, 1996), 40 CFR 60.30c-.36c (as amended in
1998, 1999, and 2000); Subpart Cd (sulfuric acid production
units), 60 FR 65387 (Dec. 19, 1995), 40 CFR 60.30d-.32d; Subpart
Ce (hospital/medical/infectious waste incinerators), 62 FR 48348
(Sept. 15, 1997), 40 CFR 60.30e-.39e (as amended in 2009 and
2011); Subpart BBBB (small municipal waste combustion units
constructed on or before August 30, 1999), 65 FR 76738 (Dec. 6,
2000), 40 CFR 60.1500-.1940; Subpart DDDD (commercial and
industrial solid waste incineration units that commenced
construction on or before November 30, 1999), 65 FR 75338 (Dec.
1, 2000), 40 CFR 60.2500-.2875 (as amended in 2005, 2011, and

456

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longstanding and consistent interpretation of CAA section 111(d)
is also “evidence showing that the statute is in fact not
ambiguous,” and that the EPA’s interpretation should be
adopted.457
Lastly, this interpretation is consistent with the Supreme
Court’s reading of CAA section 111(d) in American Electric Power
Co. There, the Court explained that “EPA issues emissions
guidelines, see 40 C.F.R. § 60.22, .23 (2009); in compliance
with those guidelines and subject to federal oversight, the
States then issue performance standards for stationary sources
within their jurisdiction, § 7411(d)(1).”458
As noted in the response to comment document, some
commenters agreed with our interpretation, just discussed, while

2013); Subpart FFFF (other solid waste incineration units that
commenced construction on or before December 9, 2004), 70 FR
74870 (Dec. 16, 2005), 40 CFR 60.2980-.3078 (as amended in
2006); Subpart HHHH (coal-electric utility steam generating
units), 70 FR 28606 (May 18, 2005) (subsequently vacated by the
D.C. Circuit in New Jersey v. EPA, 517 F.3d 574 (D.C. Cir.
2008)); Subpart MMMM (existing sewage sludge incineration
units), 76 FR 15372 (Mar. 21, 2011), 40 CFR 60.5000-.5250;
“Phosphate Fertilizer Plants, Final Guideline Document
Availability,” 42 FR 12022 (Mar. 1, 1977) (not codified); “Kraft
Pulp Mills; Final Guideline Document; Availability,” 44 FR 29828
(May 22, 1979) (not codified); and “Primary Aluminum Plants;
Availability of Final Guideline Document,” 45 FR 26294 (Apr. 17,
1980) (not codified).
457 Scalia, Antonin, Judicial Deference to Administrative
Interpretations of Law, 1989 Duke L.J. 511, 518; see Riverkeeper
v. Entergy, 556 U.S. 208, 235 (2009).
458 Am. Elec. Power Co. v. Connecticut, 131 S. Ct. 2527, 2537-38
(2011).
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others argued that the states should be given the authority to
determine the best system of emission reduction and, therefore,
the level of emission limitation from their sources. For the
reasons just discussed, this latter interpretation is an
incorrect interpretation of CAA section 111(d)(1) and (a)(1),
and we are not compelled to abandon our longstanding practice.
2. Approach to subcategorization.
As noted above, in this rule, we are treating all fossil
fuel-fired EGUs as a single category, and, in the emission
guidelines that we are promulgating with this rule, we are
treating steam EGUs and combustion turbines as separate
subcategories. We are determining the BSER for steam EGUs and
the BSER for combustion turbines, and applying the BSER to each
subcategory to determine a performance rate for that
subcategory. We are not further subcategorizing among different
types of steam EGUs or combustion turbines.
This approach is fully consistent with the provisions of
section 111(d), which simply require the EPA to determine the
BSER, do not prescribe the method for doing so, and are silent
as to subcategorization. This approach is also fully consistent
with other provisions in CAA section 111, which require the EPA
first to list source categories that may reasonably be expected

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to endanger public health or welfare459 and then to regulate new
sources within each such source category,460 and which grant the
EPA discretion whether to subcategorize new sources for purposes
of determining the BSER.461
For this rule, our approach of subcategorizing between
steam EGUs and combustion turbines is reasonable because
building blocks 1 and 2 apply only to steam EGUs. No further
subcategorization is appropriate because each affected EGU can
achieve the performance rate by implementing the BSER.
Specifically, as noted, each affected EGU may take a range of
actions including investment in the building blocks, replacing
or reducing generation, and emissions trading, as enabled or
facilitated by the implementation programs the states adopt.
Further, in the case of a rate-based state plan, several other
compliance options not included in the BSER for this rule are
also available to all affected sources, including investment in
demand-side EE measures. Such compliance options help affected
sources achieve compliance under a mass-based plan, even if
indirectly. Our approach to subcategorization in this rule is
consistent with our approach to subcategorization in previous
section 111 rules for this industry, in which we determined

459
460
461

CAA section 111(b)(1)(A).
CAA section 111(b)(1)(B).
CAA section 111(b)(2).

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whether or not to subcategorize on the basis of the ability of
affected EGUs with different characteristics (e.g., size or type
of fuel used) to implement the BSER and achieve the emission
limits).462

462

Compare “Revision of Standards of Performance for Nitrogen
Oxide Emissions From New Fossil-Fuel Fired Steam Generating
Units; Revisions to Reporting Requirements for Standards of
Performance for New Fossil-Fuel Fired Steam Generating Units:
Final Rule,” 63 FR 49442 (Sept. 16, 1998) and “Proposed
Revision of Standards of Performance for Nitrogen Oxide
Emissions From New Fossil-Fuel Fired Steam Generating Units:
Proposed Revisions,” 62 FR 36948, 36943 (July 9, 1997)
(establishing a single NOx emission limit for new fossil-fuel
fired steam generating units, and not subcategorizing, because
the affected units could implement the BSER of SCR and achieve
the promulgated emission limits) with “National Emission
Standards for Hazardous Air Pollutants From Coal and Oil-Fired
Electric Utility Steam Generating Units and Standards of
Performance for Fossil-Fuel-Fired Electric Utility, IndustrialCommercial-Institutional, and Small Industrial-CommercialInstitutional Steam Generating Units: Final Rule,” 77 FR 9304
(Feb. 16, 2012) (MATS rule) and “National Emission Standards
for Hazardous Air Pollutants From Coal and Oil-Fired Electric
Utility Steam Generating Units and Standards of
Performance for Fossil-Fuel-Fired Electric Utility, IndustrialCommercial-Institutional, and Small Industrial-CommercialInstitutional Steam Generating Units: Proposed Rule,” 76 FR
24976, 25036-37 (May 3, 2011) (subcategorizing coal fired units
designed to burn coal with greater than or equal to 8,300 Btu/lb
(for Hg emissions only), coal-fired units designed to burn coal
with less than 8,300 Btu/lb (for Hg emissions only), IGCC units,
liquid oil units, and solid oil-derived units; evaluating
“subcategorization of lignite coal vs. other coal ranks;
subcategorization of Fort Union lignite coal vs. Gulf Coast
lignite coal vs. other coal ranks; subcategorization by EGU size
(i.e., MWe); subcategorization of base load vs. peaking units
(e.g., low capacity utilization units); subcategorization of
wall-fired vs. T fired units; and subcategorization of small,
non-profit-owned units vs. other units;” but deciding not to
adopt those latter subcategorizations).

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In addition, there are numerous possible criteria to use in
subcategorizing, including, among others, subcategorizing on the
basis of age; size; steam conditions (i.e., subcritical or
supercritical); type of fuel, including type of coal (i.e.,
lignite, bituminous, and sub-bituminous), and coal refuse; and
method of combustion (i.e., fluidized bed combustion, pulverized
coal combustion, and gasification). In addition, there are
different possible combinations of those categories. At least
some of those criteria do not have logical cut-points.
Furthermore, we have not been presented with, nor can we
discern, a method of subcategorizing based on these or other
criteria that is appropriate in light of the BSER for the
affected EGUs and their ability to meet the emission limits.
Moreover, our approach of not further subcategorizing as between
different types of steam EGUs or combustion turbines reflects
the reasonable policy that affected EGUs with higher emission
rates should reduce their emissions by a greater percentage than
affected EGUs with lower emission rates, and can do so by
implementing the BSER we are identifying.
In addition, a section 111(d) rule presents less of a need
to subcategorize because the states retain great flexibility in
assigning standards of performance to their affected EGUs. Thus,
a state can, if it wishes, impose different emission reduction
obligations on its sources, as long as the overall level of
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emission limitation is at least as stringent as the emission
guidelines, as discussed below. This means that if a state is
concerned that its different sources have different capabilities
for compliance, it can adjust the standards of performance in
imposes on its sources accordingly.
3. Building blocks 2 and 3 as a “system of emission reduction”
a. Overview. As we explain above, the emission performance rates
that we include in this rule’s emission guidelines are
achievable by the affected EGUs through the application of the
BSER, which includes the three building blocks. Commenters
object that building blocks 2 (generation shift) and 3 (RE)
cannot, as a legal matter, be considered part of the BSER under
CAA section 111(d)(1) and (a)(1). These commenters explain that
in their view, under CAA section 111, the emission performance
rates must be based on, and therefore the BSER must be limited
to, methods for emission control that the owner/operator of the
affected source can integrate into the design or operation of
the source itself, and cannot be based on actions taken beyond
the source or actions involving third-party entities.463 For

463

See, e.g., comments by UARG at 6-7 (“Standards promulgated
under section 111 must be source-based and reflect measures that
the source’s owner can integrate into the design or operation of
the source itself. A standard cannot be based on actions taken
beyond the source itself that somehow reduce the source’s
utilization.”); comments by UARG at 31 (the building blocks
other than building block 1 take a “‘beyond-the-source’
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these reasons, these commenters argue that the phrase “system of
emission reduction” cannot be interpreted to include building
blocks 2 and 3.
We disagree with these comments, and note that other
commenters were supportive of our determination to include
building blocks 2 and 3. Under CAA section 111(d)(1) and (a)(1),
the EPA’s emission guidelines must establish achievable emission
limits based on the “best system of emission reduction ...
adequately demonstrated.” While some commenters assert that
emission guidelines must be limited in the manner summarized
above, the phrase “system of emission reduction,” by its terms
and when read in context, contains no such limits. To the
contrary, its plain meaning is deliberately broad and is
capacious enough to include actions taken by the owner/operator
of a stationary source designed to reduce emissions from that

approach” and “impermissibly rely on measures that go beyond the
boundaries of individual affected EGUs and that are not within
the control of individual EGU owners and operators”); comments
by UARG at 33 (the “system” of emission reduction “can refer
only to reductions resulting from measures that are incorporated
into the source itself;” section 111 is “designed to improve the
emissions performance of new and existing sources in specific
categories based on the application of achievable measures
implemented in the design or production process of the source at
reasonable cost.”); comments by American Chemistry Council et
al. (“Associations”) at 60-61 (EPA’s proposed BSER analysis is
unlawful because it “looks beyond the fence line of the fossil
fuel-fired EGUs that are the subject of this rulemaking;” “the
standard of performance must ... be limited to the types of
actions that can be implemented directly by an existing source
within [the appropriate] class or category.”).
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affected source, including actions that may occur off-site and
actions that a third party takes pursuant to a commercial
relationship with the owner/operator, so long as those actions
enable the affected source to achieve its emission limitation.
Such actions include the measures in building blocks 2 and 3,
which, when implemented by an affected source, enable the source
to achieve their emission limits because of the unique
characteristics of the utility power sector. For purposes of
this rule, we consider a “system of emission reduction” -- as
defined under CAA section 111(a)(1) and applied under CAA
section 111(d)(1) -– to encompass a broad range of pollutionreduction actions, which includes the measures in building
blocks 2 and 3. Furthermore, the measures in building blocks 2
and 3 fall squarely within EPA’s historical interpretation of
section 111, pursuant to which the focus for the BSER has been
on how to most cleanly produce a good, not on how much of the
good should be produced.
Our interpretation that a “system of emission reduction” is
broad enough to include the measures in building blocks 2 and 3
is supported by the following: our interpretation of the phrase
“system of emission reduction” is consistent with its plain
meaning and statutory context; our interpretation accommodates
the very design of CAA section 111(d)(1), which covers a range

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of source categories and air pollutants;464 our interpretation is
supported by the legislative history of CAA section 111(d)(1)
and (a)(1), which indicates Congress’s intent to give the EPA
broad discretion in determining the basis for CAA section 111
control requirements, particularly for existing sources, and
Congress’s intent to authorize the EPA to consider measures that
could be carried out by parties other than the affected sources;
and our interpretation is reasonable in light of comparisons to
CAA provisions that give the EPA similar authority to consider
such measures and to CAA provisions that would preclude the EPA
from considering such measures.
In addition to the reasons stated above, the EPA's
interpretation is also reasonable for the following reasons: (i)
Building blocks 2 and 3 fit well within the structure and
economics of the utility power sector. (ii) Fossil fuel-fired
EGUs are already implementing the measures in these building
blocks for various reasons, including for purposes of reducing
CO2 emissions. (iii) Interpreting the phrase “system of emission
reduction” to incorporate building blocks 2 and 3 is consistent
with (a) other provisions in the CAA, including the acid rain

464

Because it is designed to apply to a range of air pollutants
not regulated under other provisions, CAA section 111(d) may be
described as a “catch-all” or “gap-filler.” As such, a “system
of emission reduction” as applied under CAA section 111(d)
should be interpreted flexibly to accommodate this role.
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provisions in Title IV and the SIP provisions in CAA section
110, along with the EPA’s regulations implementing the CAA SIP
requirements concerning interstate transport and regional haze,
each of which is based on at least some of the same measures
included in building blocks 2 and 3; (b) prior EPA action under
CAA section 111(d), including the 2005 Clean Air Mercury Rule,465
which is based on some of the same measures in building blocks 2
and 3; (c) the various provisions of the CAA that authorize
emissions trading, because emissions trading entails a source
meeting its emission limitation based on the actions of another
entity; and (d) the pollution prevention provisions of the CAA,
which make clear that a primary goal of the CAA is to encourage
federal and state actions that reduce or eliminate, through any
measures, the amount of pollution produced at the source.466 (iv)
Lastly, interpreting the phrase “system of emission reduction”
to authorize the EPA, in formulating its BSER determination, to
weigh a broad range of emission-reducing measures that includes
building blocks 2 and 3 is consistent with Congress’s intent to

465

This rule was vacated by the D.C. Circuit on other grounds.
New Jersey v. EPA, 517 F.3d 574, 583-84 (D.C. Cir. 2008), cert.
denied sub nom. Util. Air Reg. Group v. New Jersey, 555 U.S.
1169 (2009).
466 As noted in the Legal Memorandum, in several of these
rulemakings and in the course of litigation, the fossil fuelfired electric power sector has taken positions that are
consistent with the EPA’s interpretation that the BSER may
include building blocks 2 and 3.
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address urgent environmental problems and to protect public
health and welfare against risks, as well as Congress’s
expectation that American industry would be able to develop the
innovative solutions necessary to protect public health and
welfare.
Congress passed the CAA, including its several amendments,
to protect public health and welfare from “mounting dangers,”
including “injury to agricultural crops and livestock, damage to
and the deterioration of property, and hazards to air and ground
transportation.”467 In doing so, Congress established numerous
programs to address air pollution problems and provided the EPA
with guidance and flexibility in carrying out many of those
programs. Even if we were to accept commenters’ view that the
system of emission reduction identified as best here is not
integrated into the design or operation of the regulated
sources, in the context of this industry and this pollutant it
is reasonable to reject the narrow interpretation urged by some
commenters that the “system of emission reduction” applicable to
the affected EGUs must be limited to only those measures that
can be integrated into the design or operation of the source
itself. The plain language of the statute does not support such
an interpretation, and to adopt it would limit the “system of

467

CAA section 101(a)(2).

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emission reduction” to measures that are either substantially
more expensive or substantially less effective at reducing
emissions than the measures in building blocks 2 and 3,
notwithstanding the absence of any statutory language imposing
such a limit. Such a result would be contrary to the goals of
the CAA and would ignore the facts that sources in the electric
generation industry routinely address planning and operating
objectives on a broad, multi-source basis using the measures in
building blocks 2 and 3 and would seek to use building blocks 2
and 3 (as well as non-BSER measures) to comply with whatever
emission standards are set as a result of this rule. Indeed, as
already observed, building blocks 2 and 3 are already being used
to reduce emissions, and to do so specifically by operation of
the industry’s inherent multi-source functions.
Although the BSER provisions are sufficiently broad to
include, for affected EGUs, the measures in building blocks 2
and 3, they also incorporate significant constraints on the
types of measures that may be included in the BSER. We discuss
those constraints at the end of this section. They include the
section 111(d)(1) and (a)(1) requirements that emission
reductions occur from the affected sources; that the emission
performance standards for which the BSER forms the basis be
achievable; that the system of emission reduction be adequately
demonstrated; and that the EPA account for cost, non-air quality
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impacts, and energy requirements in determining the “best”
system of emission reduction that is adequately demonstrated.
The constraints included in these statutory requirements do not
preclude building blocks 2 and 3 from the BSER. In interpreting
these statutory requirements for determining the BSER, the EPA
is consistent with past practice and current policy for both
section 111 regulatory actions as well as regulatory actions
under other CAA provisions for the electric power sector, under
which the EPA has generally taken the approach of basing
regulatory requirements on controls and measures designed to
reduce air pollutants from the production process without
limiting the aggregate amount of production. This approach has
been inherent in our past interpretation and application of
section 111 and we maintain this interpretation in this
rulemaking.468 While inclusion of building blocks 2 and 3 is
consistent with our interpretation of the statutory
requirements, inclusion of building block 4 is not, and for that

468

As we note in section V.A., this rulemaking presents a unique
set of circumstances, including the global nature of CO2 and the
emission control challenges that CO2 presents (which limit the
availability and effectiveness of control measures), combined
with the facts that the electric power industry (including
fossil fuel-fired steam generators and combustion turbines) is
highly integrated, electricity is fungible, and generation is
substitutable (which all facilitate the generation shifting
measures encompassed in building blocks 2 and 3). Our
interpretation of section 111 as focusing on limiting emissions
without limiting aggregate production must take into account
those unique circumstances.
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reason, we are declining to include building block in the BSER.
Finally, we briefly note additional constraints that focus the
BSER identified for new sources under section 111(b) on controls
that assure that sources are well-controlled at the the time of
construction.
b. System of emission reduction as a broad range of measures.
(1) Plain meaning and context of “system of emission
reduction.”
The phrase “system of emission reduction” appears in the
definition of a “standard of performance” under CAA section
111(a)(1). That definition reads:
a standard for emissions of air pollutants which reflects
the degree of emission limitation achievable through the
application of the best system of emission reduction which
(taking into account the cost of achieving such reduction
and any nonair quality health and environmental impact and
energy requirements) the Administrator determines has been
adequately demonstrated.
Pursuant to this definition, it is clear that a “system of
emission reduction” serves as the basis for emission limits
embodied by CAA section 111 standards. For this reason, emission
limits must be “achievable” through the “application” of the
“best” “system of emission reduction” “adequately demonstrated.”
Under CAA section 111(d)(1), such a limit is established for
“any existing source,” which is defined as any existing

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“building, structure, facility, or installation which emits or
may emit any air pollutant.”469
Although a “system of emission reduction” lays the
groundwork for CAA section 111 standards, the term “system” is
not defined in the CAA. As a result, we look first to its
ordinary meaning.
Abstractly, the term “system” means a set of things or
parts forming a complex whole; a set of principles or procedures
according to which something is done; an organized scheme or
method; and a group of interacting, interrelated, or
interdependent elements.470 As a phrase, “system of emission
reduction” takes a broad meaning to serve a singular purpose: it
is a set of measures that work together to reduce emissions.

469

See CAA section 111(d)(1) (applying a standard of performance
to any existing source); (a)(6) (defining the term “existing
source” as any stationary source other than a new source); and
(a)(3) (defining the term “stationary source” as “any building,
structure, facility, or installation which emits or may emit any
air pollutant,” however, explaining that “[n]othing in
subchapter II [i.e., Title II] of this chapter relating to
nonroad engines shall be construed to apply to stationary
internal combustion engines.”)
470 Oxford Dictionary of English (3rd ed.) (2010), available at
http://www.oxforddictionaries.com/us/definition/american_english
/system; see also American Heritage Dictionary (5th ed.) (2013),
available at
http://www.yourdictionary.com/system#americanheritage; and The
American College Dictionary (C.L. Barnhart, ed. 1970) (“an
assemblage or combination of things or parts forming a complex
or unitary whole”).
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When read in context, the phrase “system of emission
reduction” carries important limitations: because the “degree of
emission limitation” must be “achievable through the application
of the best system of emission reduction,” (emphasis added), the
“system of emission reduction” must be limited to a set of
measures that work together to reduce emissions and that are
implementable by the sources themselves.
As a practical matter, the “source” includes the “owner or
operator” of any building, structure, facility, or installation
for which a standard of performance is applicable. For instance,
under CAA section 111(e), it is the “owner or operator” of a
source who is prohibited from operating “in violation of any
standard of performance applicable to such source.”471
Thus, a “system of emission reduction” for purposes of CAA
section 111(d) means a set of measures that source owners or
operators can implement to achieve an emission limitation
applicable to their existing source.472

471

While this section provides for enforcement in the context of
new sources, a CAA section 111(d) plan must provide for the
enforcement of a standard of performance for existing sources.
472 Some commenters read the proposed rulemaking as taking the
position that the phrase “system of emission reduction” includes
anything whatsoever that reduces emissions, and criticized that
interpretation as too broad. See UARG comment, at 3-4. We are
not taking that interpretation here. In this final rule, we
agree that the phrase should be limited to exclude, inter alia,
actions beyond the ability of the owners/operators to control.
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In contrast, a “system of emission reduction” does not
include actions that only a state or other governmental entity
could take that would have the effect of reducing emissions from
the source category, and that are beyond the ability of the
affected sources’ owners/operators to take or control.
Additionally, actions that a source owner or operator could take
that would not have the effect of reducing emissions from the
source category, such as purchasing offsets, would also not
qualify as a “system of emission reduction.”
Building blocks 2 and 3 each fall within the meaning of a
“system of emission reduction” because they consist of measures
that the owners/operators of the affected EGUs can implement to
achieve their emission limits. In doing so, the affected EGUs
will achieve the overall emission reductions the EPA identifies
in this rule. We describe these building block 2 and 3 measures
in detail elsewhere in this rule, including the specific actions
that owners/operators of affected EGUs can take to implement the
measures.
It should be noted that defining the scope of a “system of
emission reduction” is not the end of our inquiry under CAA
section 111(a)(1); rather, as noted above, a standard of
performance must reflect the application of the “best system of
emission reduction ... adequately demonstrated.” (Emphasis
added.) Thus, in determining the BSER, the Administrator must
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first determine whether the available systems of emission
reduction are “adequately demonstrated,” based on the criteria,
described above, set out by Congress in the legislative history
and the D.C. Circuit in case law. After identifying the
“adequately demonstrated” systems of emission reduction, the
Administrator then selects the “best” of these, based on several
factors, including amount of emission reduction, cost, non-air
quality health and environmental impact and energy requirements.
Only after the Administrator weighs all of these considerations
can she determine the BSER and, based on that, establish a
standard of performance under CAA section 111(b) or an emission
guideline under CAA section 111(d).
For purposes of this final rule, it is not necessary to
enumerate all of the types of measures that do or do not
constitute a “system of emission reduction.” What is relevant is
that building blocks 2 and 3 each qualify as part of the “system
of emission reduction.” As noted, they focus on supply-side
activities and they each constitute measures that the affected
EGUs can implement that will allow those EGUs to achieve the
degree of emission limitation that the EPA has identified based
on those building blocks. Further, these building blocks also
satisfy the other statutory criteria enumerated in CAA section
111(a)(1).

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(2) Other indications that the BSER provisions encompass a
broad range of measures.
The EPA’s plain meaning interpretation that the BSER
provisions in CAA section 111(d)(1) and (a)(1) are designed to
include a broad range of measures, including building blocks 2
and 3, is supported by several other indications in the CAA and
the legislative history of section 111.
(a) Scope of CAA section 111(d)(1).
First, the broad scope of CAA section 111(d)(1) supports
our interpretation of the BSER because a wide range of control
measures is appropriate for the wide range of source categories
and air pollutants covered under CAA section 111(d).
In the 1970 CAA Amendments, Congress established a
regulatory regime for existing stationary sources of air
pollutants that may be envisioned as a three-legged stool,
designed to address “three categories of pollutants emitted from
stationary sources”: (1) criteria pollutants (identified under
CAA section 109 and regulated under section 110); (2) hazardous
air pollutants (identified and regulated under section 112); and
(3) “pollutants that are (or may be) harmful to public health or
welfare but are not” criteria or hazardous air pollutants.473
Congress enacted CAA section 111(d) to cover this third category

473

40 FR 53340, 53340 (Nov. 17, 1975) (EPA regulations
implementing CAA section 111(d)).
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of air pollutants and, in this sense, Congress designed it to
apply to any air pollutants that were not otherwise regulated as
toxics or NAAQS pollutants.474 This would include air pollutants
that the EPA might later, when more information became
available, designate as NAAQS or hazardous air pollutants, as
well as air pollutants that Congress may not have been aware of
at the time.475 In addition, the indications are that Congress
expected CAA section 111(d) to be a significant source of
regulatory activity, by some measures, more active than CAA
section 112. This is evident because Congress expected that CAA
section 111(d) would cover more air pollutants than either CAA
section 109/110 (criteria pollutants) or CAA section 112
(hazardous air pollutants).476 In addition, in the 1990 CAA

474

See S. Rep. No. 91-1196, at 20 (Sept. 17, 1970), 1970 CAA
Legis. Hist. at 420 (“It should be noted that the emission
standards for pollutants which cannot be considered hazardous
(as defined in section 115 [i.e., the bill’s version of CAA
section 112] could be established under section 114 [i.e., the
bill’s version CAA section 111]. Thus, there should be no gaps
in control activities pertaining to stationary source emissions
that pose any significant danger to public health or welfare.”).
475 See S. Rep. No. 91-1196, at 20 (Sept. 17, 1970), 1970 CAA
Legis. Hist. at 420.
476 See S. Rep. No. 91-1196, at 9; 18-20, 1970 CAA Legis. Hist.
at 418-20. The Senate Committee Report identified 14 substances
as subject to the provision that became section 111(d), four
substances as hazardous air pollutants that would be regulated
under the provision that became section 112, and 5 substances as
criteria pollutants that would be regulated under the provisions
that became sections 109-110 (and more “as knowledge
increases”). In particular, the Report recognized that in
particular, relatively few air pollutants may qualify as
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Amendments, Congress enacted CAA section 129 to achieve emission
reductions from a major source category, solid waste
incinerators, and established CAA section 111(d) as the basic
mechanism for that provision. The EPA subsequently promulgated a
number of CAA section 129/111(d) rulemakings.477 Finally, it
should be noted that Congress designed CAA section 111(d) to
cover a wide range of source categories –- including any source
category that the EPA identifies under subsection 111(b)(1)(A)
as meeting the criteria of, in general, causing or contributing
significantly to air pollution that may reasonably be
anticipated to endanger public health or welfare -- along with
the wide range of air pollutants.
Because Congress designed CAA section 111(d) to cover a
wide range of air pollutants -- including ones that Congress may
not have been aware of at the time it enacted the provision –and a wide range of industries, it is logical that Congress
intended that the BSER provision, as applied to CAA section

hazardous air pollutants, but that other air pollutants that did
not qualify as hazardous air pollutants would be regulated under
what became section 111(d).
477 See, e.g., Standards of Performance for New Stationary
Sources and Emission Guidelines for Existing Sources:
Hospital/Medical/Infectious Waste Incinerators, 62 FR 48348,
48359 (Sept. 15, 1997); Standards of Performance for New
Stationary Sources and Emission Guidelines for Existing Sources:
Commercial and Industrial Solid Waste Incineration Units, 65 FR
75338, 75341 (Dec. 1, 2000).
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111(d), have a broad scope so as to accommodate the range of air
pollutants and source categories.
(b) Legislative history of CAA section 111.
(i) Breadth of “system of emission reduction.”
The phrase “system of emission reduction,” particularly as
applied under CAA section 111(d), should be broadly interpreted
consistent with its plain meaning but also in light of its
legislative history. The version of CAA section 111(d)(1) that
Congress adopted as part of the 1970 CAA Amendments read largely
as CAA section 111(d)(1) does at present, except that it
required states to impose “emission standards” on any existing
source. (Congress replaced that term with “standards of
performance” in the 1977 CAA Amendments.) The 1970 CAA
Amendments version of CAA section 111(d)(1) neither defined
“emission standards” nor imposed restrictions on the EPA in
determining the basis for the emission standards.478

478

Although not defined under CAA section 111, the term was used
in other provisions and defined in some of them. The term was
defined under the CAA’s citizen suit provision. See 1970 CAA
Amendments, Pub. L. 91-604, § 12, 84 Stat. 1676, 1706 (Dec. 31,
1970) (defined as “(1) a schedule or timetable of compliance,
emission limitation, standard of performance or emission
standard, or (2) a control or prohibition respecting a motor
vehicle fuel or fuel additive….”). Congress also used it in the
CAA’s NAAQS provisions and in CAA section 112. Under the CAA’s
NAAQS provisions (i.e., the “Ambient Air Quality and Emission
Standards” provisions), Congress directed the EPA to issue
information on “air pollution control techniques,” and include
data on “available technology and alternative methods of
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For new sources, CAA section 111(b)(1)(B), as enacted in
the 1970 CAA Amendments (and as it largely still reads),
required the EPA to promulgate “standards of performance,” and
defined that term, much like the present definition, as emission
standards based on the “best system of emission reduction ...
adequately demonstrated.” This quoted phrase was not included in
either the House or Senate versions of the provision, and,
instead, was added during the joint conference between the House
and Senate. The conference report accompanying the text offers
no clarifications.
The House and Senate bills do, however, provide some
insights. The House bill, H.R. 17255, would have required new
sources of non-hazardous air pollutants to “prevent and control
such emissions to the fullest extent compatible with the
available technology and economic feasibility, as determined by
the Secretary.”479 The Senate bill, S. 4358, would have

prevention and control of air pollution” as well as on
“alternative fuels, processes, and operating methods which will
result in elimination or significant reduction of emissions.”
Id., § 4, 84 Stat. at 1679. Similarly, under CAA section 112,
the Administrator was required to “from time to time, issue
information on pollution control techniques for air pollutants”
subject to emission standards. Id., 84 Stat. at 1685. These
statements provide additional context for the term’s broad
intent.
479 H.R. 17255, § 5, 1970 CAA Legis. Hist. at 921-22. The
reference to “Secretary” was to the Secretary of Health
Education and Welfare, which, at the time, was the agency with
responsibility for air pollution regulations.
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established “Federal standards of performance for new sources,”
which, in turn, were to “reflect the greatest degree of emission
control which the Secretary determines to be achievable through
application of the latest available control technology,
processes, operating methods, or other alternatives.”480 The
Senate Committee Report explains that “performance standards
should be met through application of the latest available
emission control technology or through other means of preventing
or controlling air pollution.”481 This Report further elaborates
that the term “standards of performance”
refers to the degree of emission control which can be
achieved through process changes, operation changes,
direct emission control, or other methods. The
Secretary should not make a technical judgment as to
how the standard should be implemented. He should
determine the achievable limits and let the owner or
operator determine the most economic, acceptable
technique to apply.482
Thus, the Senate bill clearly envisioned that standards of
performance would not be based on a particular technology or
even a particular method to prevent or control air pollution.483

480

S. 4358, § 6, 1970 Legis. Hist. at 554-55 (emphasis added).
S. Rep. No. 91-1196, at 15-16 (Sept. 17, 1970), 1970 CAA
Legis. Hist. at 415-16 (emphasis added).
482 S. Rep. No. 91-1196, at 15-16 (Sept. 17, 1970), 1970 CAA
Legis. Hist. at 415-16 (emphasis added).
483 Notably, the Senate report identifies pollution control and
pollution prevention as objectives of the Senate provision.
Pollution prevention is discussed more generally below as a
“primary purpose” of the CAA, however, the report makes clear
that pollution prevention measures – which the EPA understands
481

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This vision contrasted with the House bill, which would have
restricted performance standards to economically feasible
technical controls.
Following the House-Senate Conference, the enacted version
of the legislation defined a “standard of performance” to mean
a standard for emissions of air pollutants which
reflects the degree of emission limitation achievable
through the application of the best system of emission
reduction which (taking into account the cost of
achieving such reduction) the Administrator determines
has been adequately demonstrated.484
While the phrase “system of emission reduction” was not
discussed in the Conference Report, an exhibit titled “Summary
of the Provisions of Conference Agreement on the Clean Air
Amendments of 1970” was added to the record during the Senate’s
consideration of the Conference Report and sheds some light on
the phrase. According to the summary, “[t]he agreement
authorizes regulations to require that new major industry plants
such as power plants, steel mills, and cement plants achieve a
standard of emission performance based on the latest available
control technology, processes, operating methods, and other
alternatives.”485 In light of this summary, the phrase “system of

to include such measures as building blocks 2 and 3 -- are
appropriate under CAA section 111.
484 CAA section 111(a)(1) under the 1970 CAA Amendments (emphasis
added).
485 Sen. Muskie, S. Consideration of H.R. Conf. Rep. No. 91-1783
(Dec. 17, 1970), 1970 CAA Legis. Hist. at 130.
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emission reduction” appears to blend the broad spirit of S. 4358
(which required the “latest available control technology,
processes, operating methods, or other alternatives”) with the
cost concerns identified in H.R. 17255 (which required
consideration of “economic feasibility” when establishing
federal emission standards for new stationary sources). This
history strongly suggests that Congress intended to authorize
the EPA to consider a wide range of measures in calculating a
standard of performance for stationary sources. At a minimum,
there is no indication that Congress intended to preclude
measures or actions such as the ones in building blocks 2 and 3
from the EPA’s assessment of the BSER.
Notwithstanding this broad approach, as we discuss in the
Legal Memorandum, the legislative history of the 1970 CAA
Amendments also indicates that Congress intended that new
sources be well-controlled at the source, in light of their
expected lengthy useful lives.
In 1977, Congress amended CAA section 111(a)(1) to limit
the types of controls that could be the basis of standards of
performance for new sources to technological controls. Congress
was clear, however, that existing source standards, which were
no longer developed as “emission standards,” would not be
limited to technological measures. Specifically, the 1977 CAA
Amendments revised CAA section 111(a)(1) to require all new
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sources to meet emission standards based on the reductions
achievable through the use of the ”best technological system of
continuous emission reduction.”486 According to the legislative
history, [t]his mean[t] that new sources may not comply merely
by burning untreated fuel, either oil or coal.”

487

The new

requirement stemmed in part from Congress’s concern over the
shocks that the country experienced during the 1973-74 Arab Oil
Embargo, which led Congress to revise CAA section 111 to
“encourage and facilitate the increased use of coal, and to
reduce reliance (by new and old sources alike), upon petroleum
to meet emission requirements.”488 Imposing a new technological
requirement (along with a new percentage reduction requirement)
under CAA section 111 was designed to “force new sources to burn
high-sulfur fuel thus freeing low-sulfur fuel for use in
existing sources where it is harder to control emissions and
where low-sulfur fuel is needed for compliance.”

489

Congress

nonetheless recognized that despite narrowing new source
standards to the best “technological system of continuous

486

CAA section 111(a)(1) (1977).
H.R. Rep. No. 95-294 (May 12, 1977), 1977 CAA Legis. Hist. at
2659.
488 H.R. Rep. No. 95-294 (May 12, 1977), 1977 CAA Legis. Hist. at
2659.
489 New Stationary Sources Performance Standards; Electric
Utility Steam Generating Units, 44 FR 33580, 33581-33582 (June
11, 1979).
487

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emission reduction,” many “innovative approaches may in fact
reduce the economic and energy impact of emissions control,” and
the Administrator should still be encouraged to consider other
technologically based techniques for emissions reduction,
including “precombustion cleaning or treatment of fuels.”490 This
is discussed in more detail below.
Despite these changes with respect to new sources, the 1977
CAA Amendments further reinforce the notion that with respect to
existing sources, the BSER was never intended to be narrowly
applied. In 1977, Congress changed CAA section 111(d)(1) to
require that states adopt “standards of performance” and made
clear that such standards were to be based on the “best system
of continuous emission reduction ... adequately demonstrated,”491
but generally maintained the breadth of that term. Although
Congress inserted the word “continuous” into the phrase,
Congress explained that “standards in the Section 111(d) state
plan would be based on the best available means (not necessarily
technological) for categories of existing sources to reduce
emissions.”492 This was intended to distinguish existing source

490

H.R. Rep. No. 95-294, at 189 (May 12, 1977), 1977 CAA Legis.
Hist. at 2656.
491 CAA section 111(a)(1)(C) under the 1977 CAA Amendments.
492 H.R. Rep. No. 95-294 (May 12, 1977), 1977 CAA Legis. Hist. at
2662 (emphasis added). Congress also endorsed the EPA’s practice
of establishing “emission guidelines” under CAA section 111(d).
See H.R. Rep. No. 95-294 (May 12, 1977), 1977 CAA Legis. Hist.
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standards from new source standards, for which “the requirement
for [BSER] has been more narrowly redefined as best
technological system of continuous emission reduction.”493,494
In the 1990 CAA Amendments, Congress restored the 1970s
vintage definition of a standard of performance as applied to
both new and existing sources. With respect to existing sources,
this had the effect of no longer requiring that the BSER be
“continuous.”495 Further, nothing in the 1990 CAA Amendments or
their legislative history indicates that Congress intended to

at 2662 (“The Administrator would establish guidelines as to
what the best system for each such category of existing sources
is. However, the state would be responsible for determining the
applicability of such guidelines to any particular source or
sources.”).
493 Sen. Muskie, S. Consideration of the H.R. Conf. Rep. No. 95564 (Aug. 4, 1977), 1977 CAA Legis. Hist. at 353.
494 In 1977, Congress added a new substantive definition for
“emission standard” generally applicable throughout the CAA.
1977 CAA Amendments, Pub. L. 95-95, § 301, 91 Stat. 685, 770
(Aug. 7, 1977) (defining “emission limitation” and “emission
standard” as “a requirement established by the State or the
Administrator which limits the quantity, rate, or concentration
of emissions of air pollutants on a continuous basis, including
any requirement relating to the operation or maintenance of a
source to assure continuous emission reduction.”). Congress also
added a generally applicable definition of standard of
performance, defined as “a requirement of continuous emission
reduction, including any requirement relating to the operation
or maintenance of a source to assure continuous emission
reduction.” Id.
495 We note that the general definition of a standard of
performance at CAA section 302(l) still uses “continuous.” Even
if this provision applies to section 111, it does not affect our
analysis in this rule, including our interpretation that BSER
includes building blocks 2 and 3.
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impose new constraints on the types of systems of emission
reduction that could be considered under CAA section 111(d)(1)
and (a)(1). In contrast, Congress retained the definition of the
term “technological system of continuous emission reduction,”
which means
(A)

(B)

a technological process for production or operation by any
source which is inherently low-polluting or nonpolluting,
or
a technological system for continuous reduction of the
pollution generated by a source before such pollution is
emitted into the ambient air, including precombustion
cleaning or treatment of fuels.

That term continues to be used in reference to new sources in
certain circumstances, under CAA section 111(b), (h), and (j).496

496

There are numerous reasons to find that particular CAA
section 111(b) standards of performance should be based on
controls installed at the source at the time of new
construction. This is due in part to the recognition that new
sources have long operating lives over which initial capital
costs can be amortized, as recognized in the legislative history
for section 111. Thus, new construction is the preferred time to
drive capital investment in emission controls. See, e.g., S.
Rep. No. 91-1196, at 15-16, 1970 CAA Legis. Hist. at 416 (“[t]he
overriding purpose of this section [concerning new source
performance standards] would be to prevent new air pollution
problems, and toward that end, maximum feasible control of new
sources at the time of their construction is seen by the
committee as the most effective and, in the long run, the least
expensive approach.”); see also 1977 CAA Amendments, § 109, 91
Stat. at 700, (redefining, with respect to new sources, CAA
section 111(a)(1) to reflect the best “technological system of
continuous emission reduction” and adding CAA section 111(a)(7)
to define this new term). However, as a result of the 1990
revisions to CAA section 111(a)(1), which replaced the phrase
“technological system of continuous emission reduction” with
“system of emission reduction,” new source standards would not
be restricted to being based on technological control measures.
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However, it is not and never has been used to regulate existing
sources. In this manner, the 1990 CAA Amendments further
reinforce the breadth and flexibility of the phrase “system of
emission reduction,” particularly as it applies to existing
sources under CAA section 111(d).
For these reasons, the 1970, 1977, and 1990 legislative
histories support the EPA’s interpretation in this rule that the
term is sufficiently broad to encompass building blocks 2 and 3.
(ii) Reliance on actions taken by other entities.
The legislative history supports the EPA’s interpretation
of “system of emission reduction” in another way as well: The
legislative history makes clear that Congress intended that
standards of performance for electric power plants could be
based on measures implemented by other entities, for example,
entities that “wash,” or desulfurize, coal (or, for oil-fired
EGUs, that desulfurize oil). This legislative history is
consistent with the EPA’s view that the “system of emission
reduction” may include actions taken by an entity with whom the
owner/operator of the affected source enters into a contractual
relationship as long as those actions allow the affected source
to meet its emission limitation. By the same token, this
legislative history directly refutes commenters’ assertions that

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the phrase “system of emission reduction” must not include
actions taken by entities other than the affected sources.497
As noted above, in the 1977 CAA Amendments, Congress
revised the basis for standards of performance for new fossil
fuel-fired stationary sources to be a “technological system of
continuous emission reduction,” including “precombustion
cleaning or treatment of fuels.”498 Precombustion cleaning or
treatment reduces the amount of sulfur in the fuel, which means
that the fuel can be combusted with fewer SO2 emissions, and that
in turn means that the source can achieve a lower emission
limit. Congress understood that these fuel cleaning techniques
would not necessarily be accomplished at the affected source
and, in revising CAA section 111(a)(1), wanted to ensure that
such techniques would not be overlooked. For example, the 1977
House Committee report indicates that an assessment of the best

497

See, e.g., comments by UARG at 31 (the building blocks other
than building block 1 take a “‘beyond-the-source’ approach” and
“impermissibly rely on measures that go beyond the boundaries of
individual affected EGUs and that are not within the control of
individual EGU owners and operators”); comments by American
Chemistry Council et al. (“Associations”) at 60-61 (EPA’s
proposed BSER analysis is unlawful because it “looks beyond the
fence line of the fossil fuel-fired EGUs that are the subject of
this rulemaking;” “the standard of performance must ... be
limited to the types of actions that can be implemented directly
by an existing source within [the appropriate] class or
category.”).
498 1977 CAA Amendments, § 109, 91 Stat. at 700; see also CAA
section 111(a)(7).
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technological system of continuous emission reduction for fossil
fuel-fired power plants would include off-site or third-party
pre-combustion techniques for reducing emissions at the source
(“e.g., various coal-cleaning technologies such as solvent
refining, oil desulfurization at the refinery”).499 Thus, the
standard of performance reflecting the best technological system
implementable by an affected source could be based, in part, on
technologies used at off-site facilities owned and operated by
third-parties.
In the 1990 CAA Amendments, Congress eliminated many of the
restrictions and other provisions added in the 1977 CAA
Amendments by largely reinstating the 1970 CAA Amendments’
definition of “standard of performance.” Nevertheless, there is
no indication that in doing so, Congress intended to preclude
the EPA from considering coal cleaning by third parties (which
had been considered within the scope of the best system of

499

H.R. Rep. No. 95-294 (May 12, 1977), 1977 CAA Legis. Hist. at
2655 (emphasis added). Generally speaking, coal cleaning
activities also are conducted by third parties. For instance,
EPA recognized in a regulatory analysis of new source
performance standards for industrial-commercial-institutional
steam generating units that the technology “requires too much
space and is too expensive to be employed at individual
industrial-commercial-institutional steam generating units.”
U.S. EPA, Summary of Regulatory Analysis for New Source
Performance Standards: Industrial-Commercial-Institutional Steam
Generating Units of Greater than 100 Million Btu/hr Heat Input,
EPA-450/3-86-005, p. 4-4 (June 1986).
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emission reduction even under the 1970 CAA Amendments),500 and in
fact, the EPA’s regulations promulgated after the 1990 CAA
Amendments continue to impose standards of performance that are
based on third-party coal cleaning.501
(c) Consistency of a broad interpretation of CAA section
111 with the overall structure of the CAA.
Interpreting CAA section 111(d)(1) and (a)(1) to authorize
the EPA’s consideration of the building block 2 and 3 measures
is consistent with the overall structure of the CAA,
particularly as it was amended in 1970, when Congress added CAA
section 111 in much the same form that it reads today.
In the 1970 CAA Amendments, for the most part, and
particularly for stationary source provisions, Congress painted
with broad brush strokes, giving broad authority to the EPA or
the states. That is, Congress established general requirements
that were intended to produce stringent results, but gave the

500

See U.S. EPA, Background Information for Proposed New-Source
Performance Standards: Steam Generators, Incinerators, Portland
Cement Plants, Nitric Acid Plants, Sulfuric Acid Plants, Office
of Air Programs Tech. Rep. No. APTD-0711, p. 7 (Aug. 1971)
(indicating the “desirability of setting sulfur dioxide
standards that would allow the use of low-sulfur fuels as well
as fuel cleaning, stack-gas cleaning, and equipment
modifications” (emphasis added)).
501 40 CFR 60.49b(n)(4); see also Amendments to New Source
Performance Standards (NSPS) for Electric Utility Steam
Generating Units and Industrial-Commercial-Institutional Steam
Generating Units; Final Rule, 72 FR 32742 (June 13, 2007).
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EPA or the states great discretion in fashioning the types of
measures to achieve those results.
For example, under CAA section 109, Congress authorized the
EPA to promulgate national ambient air quality standards (NAAQS)
for air pollutants, and Congress established general criteria
and procedural requirements, but left to the EPA discretion to
identify the air pollutants and select the standards. Under CAA
section 110, Congress required the states to submit to the EPA
SIPs, required that the plans attain the NAAQS by a date
certain, and established procedural requirements, but allowed
the states broad discretion in determining the substantive
requirements of the SIPs.
Under CAA section 111(b), Congress directed the EPA to list
source categories that endanger public health or welfare and
established procedural requirements, but did not include other
substantive requirements, and instead gave the EPA broad
discretion to determine the criteria for endangerment.
Under CAA section 112, Congress required the EPA to
regulate certain air pollutants and to set “emission standards”
that meet general criteria, and established procedural
requirements, but did not include other substantive requirements
and, instead, gave the EPA broad discretion in identifying the

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types of pollutants and in determining the standards.502 By and
large, Congress left these provisions intact in the 1977 CAA
Amendments.503,504
Congress drafted the CAA section 111(d) requirements in the
1970 CAA Amendments, and revised them in the 1977 CAA
Amendments, in a manner that is similar to the other stationary
source requirements, just described, in CAA sections 109, 110,
111(b), and 112. The CAA section 111(d) requirements are broadly
phrased, include procedural requirements but no more than very
general substantive requirements, and give broad discretion to
the EPA to determine the basis for the required emission limits
and to the states to set the standards. It should be noted that

502

By comparison, under the 1990 CAA Amendments, Congress
substantially transformed CAA section 112 to be significantly
more prescriptive in directing EPA rulemaking, which reflected
Congress’s increased knowledge of hazardous air pollutants and
impatience with the EPA’s progress in regulating.
503 In the 1977 CAA Amendments, Congress applied the same broad
drafting approach to the stratospheric ozone provisions it
adopted in CAA sections 150-159. There, Congress authorized the
EPA to determine whether, “in the Administrator’s judgment, any
substance, practice, process, or activity may reasonably be
anticipated to affect the stratosphere, especially ozone in the
stratosphere, and such effect may reasonably be anticipated to
endanger public health or welfare,” and then directed the EPA,
if it made such a determination, to “promulgate regulations
respecting the control of such process practice, process, or
activity….” CAA section 157(a). This provision does not further
specify requirements for the regulations.
504 On the other hand, in those instances in which Congress had a
clear idea as to the emission limitations that it thought should
be imposed, it mandated those emission limits, e.g., in Title II
concerning motor vehicles.
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this drafting approach is not unique to the CAA; on the
contrary, Congress "usually does not legislate by specifying
examples, but by identifying broad and general principles that
must be applied to particular factual instances."505
In light of this statutory framework, it is clear that
Congress delegated to the EPA the authority to administer CAA
section 111, including by authorizing the EPA to apply the
“broad and general principles” contained in CAA section
111(a)(1) to the particular circumstances we face today.
(3) Comments and responses.
While some commenters support the EPA’s interpretation of
section 111 to authorize the inclusion of building blocks 2 and
3 in the BSER, other commenters assert that the emission
standards must be based on measures that the sources subject to
CAA section 111 –- in this rule, the affected EGUs -- apply to
their own design or operations, and, as a result, in this rule,
cannot include measures implemented at entities other than the
affected EGUs that have the effect of reducing generation, and
therefore emissions, from the affected EGUs. The commenters
assert that various provisions in CAA section 111 make this
limitation clear. We do not find those arguments persuasive.

505

Pub. Citizen v. U.S. Dept. of Justice, 491 U.S. 440, 475
(1989) (Kennedy, J., concurring).

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First, some commenters state that under CAA section
111(d)(1) and (a)(1), the existing sources subject to the
standards of performance must be able to achieve their emission
limit, but that they are able to do so only through measures
integrated into the source’s own design and operation. As a
result, according to these commenters, those are the only types
of measures that may qualify as a “system of emission reduction”
that may form the basis of the emissions standards. We disagree.
We see nothing in CAA section 111(d)(1) or (a)(1) which by its
terms limits CAA section 111 to measures that must be integrated
into the sources’ own design or operation. Rather, we recognize
that in order for an emission limitation based on the BSER to be
“achievable,” the BSER must consist of measures that can be
undertaken by an affected source -- that is, its owner or
operator. As noted elsewhere in the preamble, the affected
sources subject to this rule are fully able to meet their
emission standards by undertaking the measures described in all
three building blocks. Moreover, as discussed, the measures in
building blocks 2 and 3 are highly effective in achieving CO2
emission reductions from these affected EGUs, given the unique
characteristics of the industry. This reinforces the conclusion
that the term “system of emission reduction” is broad enough to
include these measures.

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The broad nature of CAA section 111(d)(1) and (a)(1) is
also confirmed by comparing it to CAA provisions that explicitly
require controls on the design or operations of an affected
source. The most notable comparison is at CAA section 111(a)(7).
The term “technological system of continuous emission
reduction,” which was added in 1977 and remains as a separately
defined term means, in part, “a technological process for
production or operation by any source which is inherently lowemitting or nonpolluting.” (Emphasis added.) With respect to
this portion of the definition (and ignoring the additional
text, which includes “precombustion cleaning or treatment of
fuels” and clearly encompasses off-site activities), it could be
argued that between 1977 and 1990 new source performance
standards should be restricted to measures that could be
integrated into the design or operation of a source. However,
commenters’ assertion that the BSER must be limited in a similar
fashion ignores the deliberate change in 1990 to restore the
broader definition of a standard of performance (i.e., that it
be based on the BSER and not the TSCER). In any case, the
narrower scope of CAA section 111(a)(7) was never applicable to
the regulation of existing sources under CAA section 111(d).
Several other examples of standard setting in the CAA shed
light on ways in which Congress has constrained the EPA’s
review. CAA section 407(b)(2) provides that the EPA base NOx
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emission limits for certain types of boilers “on the degree of
reduction achievable through the retrofit application of the
best system of continuous emission reduction.” (Emphasis added.)
Likewise, in determining best available retrofit technology
under CAA section 169A, the state (or Administrator) must “take
into consideration the costs of compliance, the energy and
nonair quality environmental impacts, any existing pollution
control technology in use at the source, the remaining useful
life of the source, and the degree of improvement in visibility
which may reasonably be anticipated to result from the use of
such technology.”506 (Emphasis added.) These provisions make
clear that Congress knew how to constrain the basis for emission
limits to measures that are integrated into the design or
operation of the affected source, and that its choice to base
CAA section 111(d)(1) and (a)(1) standards of performance on a
“system of emission reduction” indicates Congress’ intent to
authorize a broader basis for those standards.
Some commenters also argue that other provisions in CAA
section 111 indicate that Congress intended that CAA section
111(d)(1) and (a)(1) be limited to measures that are integrated

506

Even under BART, the EPA is authorized to allow emissions
trading between sources. See, e.g., 40 CFR 51.308(e)(1) & (2);
Util. Air Reg. Group v. EPA, 471 F.3d 1333 (D.C. Cir. 2006);
Ctr. for Econ. Dev. v. EPA, 398 F.3d 653 (D.C. Cir. 2005); and
Cent. Ariz. Water Dist. v. EPA, 990 F.2d 1531 (9th Cir. 1993).
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into the source’s design or operations. This argument is
unpersuasive for several reasons. First, it would be
unreasonable to presume that Congress intended to limit the
BSER, indirectly through these other provisions, to measures
that are integrated into the affected source’s design or
operations, when Congress could have done so expressly, as it
did for the above-discussed CAA section 407(b)(2) NOx
requirements.
Second, the interpretations that commenters offer for these
various provisions misapply the text. For example, commenters
note that under CAA section 111(d)(1), (a)(3), and (a)(6), the
standards of performance apply to “any existing source,” and an
“existing source” is defined to include “any stationary source,”
which, in turn, is defined as “any building, structure,
facility, or installation which emits or may emit any air
pollutant.” Commenters assert that these applicability and
definitional provisions indicate that the BSER provisions in CAA
section 111(d)(1) and (a)(1) must be interpreted to require that
the control measures must be integrated into the design or
operations of the source itself.
We disagree. These applicability and definitional
provisions are jurisdictional in nature. Their purpose is simply
to identify the types of sources whose emissions are to be
addressed under CAA section 111(d), i.e., stationary sources, as
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opposed to other types of sources, e.g., mobile sources, whose
emissions are addressed under other CAA provisions (such as CAA
Title II). This purpose is made apparent by the terms of CAA
section 111(a)(3), which contains two sentences (the second of
which commenters seem to ignore). The first sentence provides:
“The term ‘stationary source’ means any building, structure,
facility, or installation which emits or may emit any air
pollutant.” The second sentence provides: “Nothing in subchapter
II of this chapter relating to nonroad engines shall be
construed to apply to stationary internal combustion engines.”
This second sentence explains that stationary internal
combustion engines are to be regulated under CAA section 111,
and not Title II (relating to mobile sources), which confirms
that the purpose of the definition of stationary source is
jurisdictional in nature -- to identify the emissions that are
to be regulated under section 111, as opposed to other CAA
provisions.
These applicability and definitional provisions say nothing
about the system of emission reduction –- whether it is limited
to measures integrated into the design or operation of the
source itself or may be broader -- that may form the basis of
the standards for those emissions that are to be promulgated
under CAA section 111.

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Third, this argument by commenters does not account for the
commonsense proposition that it is the owner/operator of the
stationary source, not the source itself, who is responsible for
taking actions to achieve the emission rate, so that actions
that the owner/operator is able to take should be considered in
determining the appropriate standards for the source’s
emissions. Again, it is common sense that buildings, structures,
facilities, and installations can take no actions -- only owners
and operators can install and maintain pollution control
equipment; only owners and operators can solicit precombustion
cleaning or treatment of fuel services; and only owners and
operators can apply for a permit or trade allowances.507 Other
provisions in CAA section 111 make clear the role of the
owner/operator. CAA section 111(e) provides that for new
sources, the burden of compliance falls on the “owner or
operator.”508 The same is necessarily true for existing sources.
This supports the EPA’s view that the basis for whether a
control measure qualifies as a “system of emission reduction”

507

Industry commenters also acknowledged that it is the owner or
operator that implements the control requirements. See UARG
comment at 19 (section 111(d) “provides for the regulation of
individual emission sources through performance standards that
are based on what design or process changes an individual
source’s owner can integrate into its facility”).
508 CAA section 111(e) provides: (“[I]t shall be unlawful for any
owner or operator of any new source to operate such source in
violation of any [applicable] standard of performance.”)
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under CAA section 111(d)(1) and (a)(1) is whether it is
something that the owner/operator can implement in order to
achieve the emissions standard assigned to the source –- if so,
the control measure should qualify as a “system of emission
reduction” –- and not whether the control measure is integrated
into the source’s own design or operation.
Commenters also argue that CAA section 111(h), which
authorizes “design, equipment, work practice or operational
standard[s]” (together, “design standards”) only when a source’s
emissions are not emitted through a conveyance or cannot be
measured, makes clear that CAA section 111 standards of
performance must be based on measures integrated into a source’s
own design or operations. We disagree. CAA section 111(h)
concerns the relatively rare situation in which an emission
standard, which entails a numerical limit on emissions, is not
appropriate because emissions cannot be measured, due either to
the nature of the pollutant (i.e., the pollutant is not emitted
through a conveyance) or the nature of the source category
(i.e., the source category is not able to conduct measurements).
CAA section 111(h) provides that in such cases, the EPA may
instead impose design standards rather than establish an
emission standard (i.e., the EPA can require sources to
implement a particular design, equipment, work practice, or
operational standard). When an emissions standard is
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appropriate, as in the present rule, CAA section 111(h) is
silent as to what types of measures –- whether limited to a
source’s own design or operations -- may be considered as the
system of emission reduction.509 In any event, CAA section 111(h)
applies only to standards promulgated by the Administrator, and
therefore appears by its terms to be limited to CAA section
111(b) rulemakings for new, modified, or reconstructed sources,
not CAA section 111(d) rulemakings for existing sources.
Some commenters identify other provisions of CAA section
111 that, in their view, prove that CAA section 111 is limited
to control measures that are integrated within the design or
operations of the source. We do not find those arguments
persuasive, for the reasons discussed in the supporting
documents for this rule.
Commenters also argue, more generally, that Congress knew
how to authorize control measures such as RE, as indicated by
Congress’s inclusion of those measures in Title IV (relating to
acid rain), so the fact that Congress did not explicitly include
these measures in the BSER provisions of CAA section 111(d)(1)
and (a)(1) indicates that Congress did not intend that they be

509

For this same reason, the fact that CAA section 111(h)
authorizes the EPA to impose certain types of standards –- such
as, among others, work practice or operational standards -- only
in limited circumstances not present in this rulemaking, does
not mean that the EPA cannot consider those same measures as the
BSER in promulgating a standard of performance.
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included as part of the BSER, and instead intended that the BSER
be limited to measures integrated into the sources’ design or
operations. This argument misses the mark. The provisions of CAA
section 111(d)(1) and (a)(1) do not explicitly include any
specific emission reduction measures –- neither RE measures
(like the ones Congress wanted to incentivize under Title IV),
nor measures that are integrated into the sources’ design or
operations (like the retrofit control measures Congress required
under CAA section 407(b)). But this contrast with other CAA
provisions does not mean that Congress did not intend the BSER
to include any of those types of measures. Rather, this contrast
supports viewing a “system of emission reduction” under CAA
section 111 as sufficiently broad to encompass a wide range of
measures for the purpose of emission reduction of a wide range
of pollutants from a wide range of stationary sources.510
c. Deference to interpret the BSER to include building blocks 2
and 3. To the extent that it is not clear whether the phrase
“system of emission reduction” may include the measures in
building blocks 2 and 3, the EPA’s interpretation of CAA section

510

It should also be noted that Title IV is limited to
particular pollutants (i.e., SO2 and NOx) and particular sources
-– fossil fuel-fired EGUs –- and as a result, lends itself to
greater specificity about the types of control measures. Section
111(d), in contrast, applies to a wide range of source types,
which, as discussed above, supports reading it to authorize a
broad range of control measures.
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111(d) and (a) is reasonable511 in light of our discretion to
determine “whether and how to regulate carbon-dioxide emissions
from power plants....”512
Our interpretation that a “system of emission reduction”
for the affected EGUs may include building blocks 2 and 3 is a
reasonable construction of the statute for the reasons described
above and in this section below.
(1) Consistency of building blocks 2 and 3 with the
structure of the utility power sector.
(a) Integration of the utility power sector.
Certain characteristics of the utility power sector are of
central importance for understanding why the measures of
building blocks 2 and 3 qualify as part of the system of
emission reduction. As discussed above, electricity is highly
substitutable and the utility power sector is highly integrated,
so much so that it has been likened to a “complex machine.”513
Specifically, the utility power sector is characterized by
physical, as well as operational, interconnections between
electricity generators themselves, and between those generators

511

EPA v. EME Homer City Generation, L.P., 134 S. Ct. 1584, 1603
(2014) (“We routinely accord dispositive effect to an agency’s
reasonable interpretation of ambiguous statutory language.”).
512 American Electric Power Co. v. Connecticut, 131 S. Ct. 2527,
2538 (2011) (“AEP”) (emphasis added).
513 S. Massoud Amin, “Securing the Electricity Grid,” The Bridge,
Spring 2010, at 13, 14; Phillip F. Schewe, The Grid: A Journey
Through the Heart of Our Electrified World 1 (2007).
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and electricity users. Because of the physical properties of
electricity and the current low availability of large scale
electricity storage, generation and load (or use) must be
instantaneously balanced in real time. As a result, the utility
power sector is uniquely characterized by extensive planning and
highly coordinated operation. These features have been present
for decades, and in fact, over time, the sector has become more
highly integrated. Another important characteristics of the
utility power sector is that although the states have developed
both regulated and de-regulated markets, the generation of
electricity reflects a least-cost dispatch approach, under which
electricity is generated first by the generators with the lowest
variable cost.
These characteristics of the sector have facilitated the
overall objective of providing reliable electric service at
least cost subject to a variety of constraints, including
environmental constraints. Moreover, in each type of market, the
sector has developed mechanisms, including the participation of
institutional actors, to safeguard reliability and to assure
least cost service.

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Congress,514 the Courts,515 the EPA in its regulatory
actions,516 and states in their regulatory actions517 have
recognized the integrated nature of the utility power sector.
(b) Significance of integrated utility power sector for the
BSER.
The fungibility of electricity, coupled with the
integration of the utility power sector, means that, assuming
that demand is held constant, adding electricity to the grid
from one generator will result in the instantaneous reduction in
generation from other generators. Similarly, reductions in
generation from one generator lead to the instantaneous increase
in generation from other generators. Thus, the operation of
individual EGUs is integrated and coordinated with the

514

See CAA section 404(f)(2)(B)(iii)(I) (conditioning a
utility’s eligibility for certain allowances on implementing an
energy conservation and electric power plan that evaluates a
range of resources to meet expected future demand at least
cost); see also S. Rep. No. 101-228, at 319-20 (Dec. 20,
1989)(recognizing that “utilities already engage in powerpooling arrangements to ensure maximum flexibility and
efficiency in supplying power” to support the establishment of
an allowance system under Title IV).
515 New York v. Federal Energy Regulatory Commission, 535 U.S. 1,
at 7 (2002) (citing Brief for Respondent FERC 4-5).
516 “Stack Heights Emissions Balancing Policy,” 53 FR 480, 482
(Jan. 7, 1988).
517 See 79 FR 34830, 34880 (June 18, 2014) (discussing State of
California Global Warming Solutions Act of 2006, Assembly Bill
32, http://www.leginfo.ca.gov/pub/05-06/bill/asm/ab_00010050/ab_32_bill_20060927_chaptered.pdf, and quoting December 27,
2013 Letter from Mary D. Nichols, Chairman of California Air
Resources Board, to EPA Administrator Gina McCarthy).
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operations of other EGUs and other sources of generation, as
well as with electricity users. This allows for locational
flexibility across the sector in meeting demand for electricity
services. The institutions that coordinate planning and
operations routinely use this flexibility to meet demand for
electricity services economically while satisfying constraints,
including environmental constraints. Because of these
characteristics, EGU owner/operators have long conducted their
business, including entering into commercial arrangements with
third parties, based on the premise that the performance and
operations of any of their facilities is substantially dependent
on the performance and operation of other facilities, including
ones they neither own nor operate. For example, when an EGU goes
off-line to perform maintenance, its customer base is served by
other EGUs that increase their generation. Similarly, if an EGU
needs to assure that it can meet its obligations to supply a
certain amount of generation, it may enter into arrangements to
purchase that generation, if it needs to, from other EGUs.
Because of this structure, fossil fuel-fired EGUs can
reduce their emissions by taking the actions in building blocks
2 and 3. Specifically, fossil fuel-fired EGUs may generate or
cause the generation of increased amounts of lower- or zeroemitting electricity –- through contractual arrangements,
investment, or purchase -- which will back out higher-emitting
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generation, and thereby lower emissions. In addition, fossil
fuel-fired EGUs may reduce their generation, which, given the
overall emission limits this rule requires, will have the effect
of stimulating lower- or zero-emitting generation.
It should also be noted that CO2 is particularly well-suited
for building blocks 2 and 3 because it is a global, not local,
air pollutant, so that the location where it is emitted does not
affect its environmental impact. The U.S. Supreme Court in the
UARG case highlighted the importance of taking account of the
unique characteristics of CO2.518
In light of these characteristics of the utility power
sector, as well as the characteristics of CO2 pollution, it is
reasonable for the EPA to reject an interpretation of the term
“system of emission reduction” that would exclude building
blocks 2 and 3 from consideration in this rule and instead
restrict consideration to measures integrated into each
individual affected source’s design or operation, especially
since the record and other publicly available information makes
clear that the measures in the two building blocks are effective
in reducing emissions and are already widely used.
As discussed above, no such restriction on the measures
that can be considered part of a “system of emission reduction”

518

See Util. Air. Reg. Group v. EPA, 134 S. Ct. 2427, 2441
(2014).

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is required by the statutory language, and the legislative
history demonstrates that Congress intended an interpretation of
the phrase broad enough to encompass building blocks 2 and 3.
The narrow interpretation advocated by some commenters would
permit consideration only of potential CO2 reduction measures
that are either more expensive than building blocks 2 and 3
(such as the use of natural gas co-firing at affected EGUs or
the application of CCS technology) or measures capable of
achieving far less reduction in CO2 emissions (such as the heat
rate improvement measures included in building block 1).
Imposing such a restrictive interpretation –- one which is not
called for by the statute -- would be inconsistent with CAA
section 111’s specific requirement that standards be based on
the “best” system of emission reduction and, as discussed below,
would be inconsistent with Congressional design that the CAA be
comprehensive and address the major environmental issues.519
The unique characteristics of the sector described above
require coordinated action in the fundamental, primary function
of EGUs – and in meeting current pollution control requirements
to the extent that EGUs operate in dispatch systems that apply
variable costs in determining dispatch -- and affected EGUs

519

See King v. Burwell, No. 14-114 (2015) (slip op., at 21)
(“But in every case we must respect the role of the Legislature,
and take care not to undo what it has done.”).

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necessarily already plan and operate on a multi-unit basis. In
doing so, they already make use of building blocks 2 and 3 to
meet operational and environmental objectives in a costeffective manner, as further described below. CO2 is a global
pollutant that is exceptionally well-suited to emission
reduction efforts optimized on a broad geographic scale rather
than on a unit-by-unit basis. It is also clear from both
comments and communications received through the Agency’s
outreach efforts that affected EGUs will seek to use building
blocks 2 and 3 to achieve compliance with the emission standards
set in the section 111(d) plans following promulgation of this
rule. For these reasons –- and the additional reasons discussed
below -- interpreting “system of emission reduction” so as to
allow consideration in this rule of only the individual pieces
of the “complex machine,” and to forbid consideration of the
ways in which the pieces actually fit and work together as parts
of that machine, such as building blocks 2 and 3, cannot be
justified. This is particularly so in light of the dilemma
presented by the types of control options that commenters argue
are the only ones authorized under section 111(a)(1), which are
controls that apply to the design or operation of the affected
EGUs themselves. On the one hand, the control measures in
building block 1 yield only a small amount of emission
reductions. On the other hand, control measures such as carbon
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capture and storage, or co-firing with natural gas, could yield
much greater emission reductions, but are substantially more
expensive than building blocks 2 and 3.
(2) Current implementation of measures in building blocks 2
and 3.
The requirement that the “system of emission reduction” be
“adequately demonstrated” suggests that we begin our review
under CAA section 111(d)(1) and (a)(1) with the systems that
sources are already implementing to reduce their emissions. As
noted above, fossil fuel-fired EGUs have long implemented, and
are continuing to implement, the measures in building blocks 2
and 3 for various purposes, including for the purpose of
reducing CO2 emissions520 –- and certainly always with the effect
of reducing emissions. This is a strong indicator that these
measures should be considered part of a “system of emission
reduction” for CO2 emissions from these sources. The requirement
that the “system of emission reduction” be “adequately

520

A number of utilities have climate mitigation plans. Examples
include National Grid,
http://www2.nationalgrid.com/responsibility/how-were-doing/griddata-centre/climate-change/; Exelon,
http://www.exeloncorp.com/newsroom/pr_20140423_EXC_Exelon2020.as
px; PG&E, http://www.pge.com/about/environment/pge/climate/; and
Austin Energy,
http://austinenergy.com/wps/portal/ae/about/environment/austinclimate-protectionplan/!ut/p/a0/04_Sj9CPykssy0xPLMnMz0vMAfGjzOINjCyMPJwNjDzdzY0sDB
zdnZ28TcP8DAMMDPQLsh0VAU4fG7s!/.
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demonstrated” indicates that the implementation of control
mechanisms or other actions that the sources are already taking
to reduce their emissions are of particular relevance in
establishing the emission reduction requirements of CAA section
111(d)(1) and (a)(1). As a result, such measures are a logical
starting point for consideration as a “system of emission
reduction” under CAA section 111.
(3) Reliance in CAA Title IV on building block measures.
Some of the building block approaches to reducing emissions
in the utility power sector were first tested around the time
that Congress adopted the 1970 CAA Amendments.521 Over time,
these techniques have become more established within the
industry, and by the 1990 CAA Amendments, Congress based the
Title IV acid rain program for existing fossil fuel-fired EGUs
in part on the same measures that are considered here.
(a) Overview.
It is logical that in determining whether the “system of
emission reduction” that Congress established in CAA section
111(d)(1) and (a)(1) is broad enough to include the measures in
building blocks 2 and 3 as the basis for establishing emission
guidelines for fossil fuel-fired EGUs, an inquiry should be made

521

See, e.g., Shepard, Donald S., A Load Shifting Model for Air
Pollution Control in the Electric Power Industry, Journal of the
Air Pollution Control Association, Vol. 20:11, pp. 756-761
(November 1970).

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into the tools that Congress relied on in other CAA provisions
to reduce emissions from those same sources. The most useful CAA
provision to examine for this purpose is Title IV, which
includes a nationwide cap-and-trade program under which coalfired power plants must have allowances for their SO2 emissions.
Title IV includes several signals that it is especially
relevant for interpreting and implementing CAA section 111(d)
for purposes of this rule. Title IV applies to most of the same
sources that this rule applies to -- existing coal-fired EGUs
and other utility boilers, as well as NGCC units. In addition,
Congress added Title IV in the 1990 CAA Amendments at the same
time that Congress largely reinstated the 1970-vintage reading
of section 111(a)(1) to adopt the currently applicable
definition of a “standard of performance,” which is based on the
“best system of emission reduction ... adequately demonstrated.”
Moreover, Congress linked Title IV and CAA section 111 in
certain respects. Specifically, Congress conditioned the
revisions to CAA section 111(a)(1), i.e., eliminating the
percentage reduction and most of the other limitations under the
1977 CAA Amendments, on the continued applicability of the Title
IV SO2 cap, so that if the cap were eliminated, the changes
would, by operation of law, also be eliminated, and the 1977

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version of section 111(a)(1) would be reinstated.522
Additionally, Congress authorized the EPA to establish standards
of performance for new and existing industrial (non-EGU) sources
of SO2 emissions if emissions from these sources might exceed
1985 levels and failed to decline at the expected rate.523 While
industrial sources were not required to participate under Title
IV -- they could elect to do so, under CAA section 410(a) -Congress believed SO2 reductions from these sources were “an
essential component of the reductions sought under [Title IV]”
and intended that Title IV would “assure[] that these projected
reductions occur and will not be overcome by future growth in
emissions.”524 As such, Congress viewed federal standards of
performance as the appropriate backstop to Title IV even for
sources that could not otherwise be regulated under CAA section

522

1990 CAA Amendments, § 403, 104 Stat. at 2631 (requiring
repeal of amendments to CAA section 111(a)(1) upon any cessation
of effectiveness of CAA section 403(e), which requires new units
to hold allowances for each ton of SO2emitted). Congress believed
that mandating a technological standard through the percentage
reduction requirement in section 111(a)(1) would ensure the
continued availability of low sulfur coal for existing sources.
In other words, the percentage reduction requirement discouraged
compliance with new source performance standards based solely on
fuel shifting because it was much more costly to achieve the
percentage reduction with lower sulfur coal. This belief was
expressed during the 1977 CAA Amendments and is discussed above
as part of the legislative history of section 111.
523 1990 CAA Amendments, § 406, 104 Stat. at 2632-33; see also S.
Rep. No. 101-228, at 282 (industrial source emissions totaled
5.6 million tons of SO2 in 1985).
524 S. Rep. No. 101-228, at 345 (Dec. 20, 1989).
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111(d).525 Together, these signals suggest that it is reasonable
for the EPA to consider Title IV when interpreting and
implementing CAA section 111.
For present purposes, the essential features of Title IV
are that it regulates SO2 emissions from coal-fired EGUs by
adopting a nationwide cap of 8.95 million tons to be achieved
through a tradable allowance system. As we explain below, the
provisions of Title IV and its legislative history make clear
that Congress based the stringency of the emission limitation
requirement (8.95 million tons) and the overall structure of the
approach (a cap-and-trade system) on Congress’s recognition that
the affected EGUs had a set of tools available to them to reduce
their emissions, including through a shift to lower emitting
generation and use of RE, along with add-on controls and other
measures. Thus, Title IV provides a close analogy to CAA section
111: generation shift and RE were part of Congress’s basis for
the Title IV emission requirements, and that is analogous to
building blocks 2 and 3 serving as part of the “system of
emission reduction” that is the EPA’s basis for the section
111(d) emission guidelines. For this reason, the fact that in
Title IV, Congress relied on generation shift and RE as the

525

To reiterate, ordinarily, standards of performance cannot be
used to regulate SO2 emissions from existing sources because of
the pollutant exclusions in CAA section 111(d).
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basis for the SO2 emission limitations for affected EGUs strongly
supports interpreting CAA section 111(d)(1) and (a)(1) to
include use of those same measures as part of the “system of
emission reduction” as the basis for CO2 emission limitations for
those same sources.
(b) Title IV provisions.
Several provisions of Title IV make explicit Congress’s
reliance on some of the same measures as are in building blocks
2 and 3. Title IV begins with a statement of congressional
“findings,” including the following:
§401(a). Findings
The Congress finds that –
* * * *
(4) strategies and technologies for the control of
precursors to acid deposition exist now that are
economically feasible, and improved methods are
expected to become increasingly available over the
next decade.
(Emphasis added.) Title IV then includes the following statement
of its “purposes:”
§401(b). Purposes
The purpose of this subchapter [Title IV] is to reduce
the adverse effects of acid deposition through
reductions in annual emissions of sulfur dioxide … and
nitrogen oxides…. It is the intent of this subchapter
to effectuate such reductions by requiring compliance
by affected EGUs with prescribed emission limitations
by specified deadlines which limitations may be met
through alternative methods of compliance provided by
an emission allocation and transfer system. It is also
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the purpose of this subchapter to encourage energy
conservation, use of renewable and clean alternative
technologies, and pollution prevention as a long-range
strategy, consistent with the provisions of this
subchapter, for reducing air pollution and other
adverse impacts of energy production and use.
(Emphasis added). By its terms, this statement of Title IV’s
purposes explicitly embraces the use of RE. Moreover, the
legislative history makes clear that the reference in the
“findings” section quoted above to “strategies and technologies”
includes generation shift to lower-emitting generation.
Specifically, the Senate Report stated that an “allowance
system”526 would encourage such “technologies and strategies” as
energy efficiency; enhanced emissions reduction or
control technologies—like sorbent injection, cofiring
with natural gas, integrated gasification combined
cycles; fuel-switching and least-emissions dispatching
in order to maximize emissions reductions.”527
Congress’s reliance on generation shifting and REto reduce acid
rain precursors from affected EGUs in Title IV strongly supports
the EPA’s authority to identify those same measures as part of
the CAA section 111 “system of emission reduction” to reduce CO2
emissions from those same sources.
In addition, Title IV includes other provisions expressly
concerning RE. In CAA section 404(f) and (g), Congress set aside
a special pool of allowances to encourage use of RE. In order to

526

See S. Rep. No. 101-228, at 320 (Dec. 20, 1989).
See S. Rep. No. 101-228, at 316 (Dec. 20, 1989) (emphasis
added).
527

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obtain a special allowance (which would authorize emissions from
a coal-fired utility), an electric utility needed to pay for
qualifying RE sources “directly or through purchase from another
person.”528 These measures confirm Congress’s recognition that
REwas available to the industry, was desirable to encourage from
a policy perspective, and was appropriate to consider in
determining the amount of pollution reduction the law should
require.
(c) Title IV legislative history.
Numerous statements in the legislative history confirm that
Congress based the Title IV requirements on the fact that
affected EGUs could reduce their SO2 emissions through a set of
measures, including shifting to lower-emitting generation as
well as reliance on RE.
For example, the Senate Committee Report529 and Senator
Baucus,530 a member of the Senate Committee on Environment and
Public Works and Chairman of the House and Senate Clean Air
Conferees, both emphasized that affected EGUs could rely on,
among other things, “least-emissions dispatching in order to

528

CAA section 404(f)(2)(B)(i).
S. Rep. No. 101-228 (Dec. 20, 1989), 1990 CAA Legis. Hist. at
8656.
530 S. Debates on Conf. Rep. to accompany S. 1630, H.R. Rep. No.
101-952 (Oct. 27, 1990), 1990 CAA Legis. Hist. at 1033-35
(statement of Senator Baucus, inserting “the Clean Air
Conference Report” into the record).
529

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maximize emissions reductions.” Similarly, statements supporting
the RE reserve were included in the legislative history on the
House side.
We believe that this provision of the bill will
establish a balanced and workable approach that will
provide certainty for utility companies that are
considering conservation and renewables, while at the
same time strengthening the environmental goals of
this legislation.531
(4) Reliance on RE measures to reduce CO2.
The Title IV legislative history also makes clear that
Congress viewed RE measures as a means to reduce CO2 for the
purpose of mitigating climate change. By the time of the 1990
CAA Amendments, Congress had long been aware that emissions of
CO2 and other GHGs put upward pressure on world temperatures and
threatened to change the climate in destructive ways. In 1967,
President Lyndon Johnson sent a letter to Congress recognizing
that carbon dioxide was changing the composition of the

531

H.R. Rep. No. 101-490, at 368-69; 674-76 (May 17, 1990)
(additional views of Reps. Markey and Moorhead) (“We believe
that H.R. 3030, as amended, will create a strong and effective
incentive for utilities to immediately pursue energy
conservation and renewable energy sources as key components of
their acid rain control strategies.”); see also Rep. Collins, H.
Debates on H.R. Conf. Rep. No. 101-952 (Oct. 26, 1990), 1990 CAA
Legis. Hist. at 1307 (“The bottom line is that our Nation's
utilities and production facilities must reach beyond coal, oil,
and fossil fuels. The focus must shift instead toward
conservation and renewables such as hydropower, solar thermal,
photovoltaics, geothermal, and wind. These clean sources and
energy, available in virtually limitless supply, are the way of
the future.”).
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atmosphere.532 The record for the 1970 CAA Amendments include
hearings533 and a report by the National Academy of Sciences
noting that carbon dioxide emissions could heat the
atmosphere.534 A 1976 report noting the phenomenon was included
in the record for the 1977 CAA Amendments.535 A 1977 Report by
the National Academy of Sciences warned that average

532

“Special Message to the Congress on Conservation and
Restoration of Natural Beauty (Feb. 8, 1965).
http://www.presidency.ucsb.edu/ws/?pid=27285 (“This generation
has altered the composition of the atmosphere on a global scale
through radioactive materials and a steady increase in carbon
dioxide from the burning of fossil fuels.”).
533 Testimony of Charles Johnson, Jr., Administrator of the
Consumer Protection and Environmental Health Service
(Administration Testimony), Hearing of the House Subcommittee on
Public Health and Welfare (Mar. 16, 1970), 1970 CAA Legis. Hist.
at 1381 (stating that “the carbon dioxide balance might result
in the heating up of the atmosphere whereas the reduction of the
radiant energy through particulate matter released to the
atmosphere might cause reduction in radiation that reaches the
earth”).
534 1970 CAA Legis. Hist. at 244, 257 S. Debate on S. 4358 (Sept.
21, 1970) (statement of Sen. Boggs) (replicating Chapter IV of
the Council on Environmental Quality’s first annual report,
which states, “the addition of particulates and carbon dioxide
in the atmosphere could have dramatic and long-term effects on
world climate.”).
535 122 Cong. Rec. S25194 (daily ed. Aug. 3, 1976) (statement of
Sen. Bumpers) (inserting into the record, “Summary of Statements
Received from Professional Societies for the Hearings on Effects
of Chronic Pollution (in the Subcommittee on the Environment and
the Atmosphere),” which stated, “there is near unanimity that
carbon dioxide concentrations in the atmosphere are increasing
rapidly. Though even the direction (warming or cooling) of the
climate change to be caused by this is unknown, very profound
changes in the balance of climate factors that determine
temperature and rainfall on the earth are almost certain within
100 years”).
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temperatures would rise due to the burning of fossil fuel.536 By
the time of the 1990 CAA Amendments, the dangers had become more
clearly evident. Senate hearings beginning in 1988 had presented
testimony from Dr. James E. Hansen of the National Aeronautics
and Space Administration and other scientists that described the
dangers of climate change caused by anthropogenic carbon dioxide
and other GHG emissions and asserted that as a result of those
emissions, the climate was in fact already changing.537
In enacting the 1990 CAA Amendments, Congress identified
reductions in carbon dioxide emissions as an important cobenefit of the reductions in coal use and stressed that the RE
measures would achieve those reductions. Senator Fowler, the
author of the provision that established a RE technology reserve
within the allowance system, noted that RE technologies, “can

536

National Academy of Sciences, “Energy and Climate: Studies in
Geophysics” viii (1977),
http://www.nap.edu/openbook.php?record_id=12024 (noting that a
fourfold to eightfold increase in carbon dioxide by the latter
part of the twenty-second century would increase average world
temperature by more than 6 degrees Celsius).
537 S. Rep. No. 101-228, at 322 (Dec. 20, 1989), at 1990 Legis.
Hist. at 8662 (“In the last several years, the Committee has
received extensive scientific testimony that increases in the
human-caused emissions of carbon dioxide and other GHGs will
lead to catastrophic shocks in the global climate system.”);
History, Jurisdiction, and a Summary of Activities of the
Committee on Energy and Natural Resources During the 100th
Congress, S. Rep. No. 101-138, at 5 (Sept. 1989); “Global
Warming Has Begun, Expert Tells Senate,” New York Times, June
24, 1988, http://www.nytimes.com/1988/06/24/us/global-warminghas-begun-expert-tells-senate.html.
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greatly reduce emissions of ... global warming gases. That makes
them a potent weapon against catastrophic climate change....”538
In addition, the 1990 CAA Amendments required EGUs covered
by the monitoring requirements of the Title IV acid rain program
to report their CO2 emissions.539
(5) Other EPA actions that rely on the building block
measures.
Another indication that it is reasonable to interpret the
CAA section 111(d)(1) and (a)(1) provisions for the BSER to
include the measures in building blocks 2 and 3 is that the EPA
and states have relied on these measures to reduce emissions in
a number of other CAA actions.
For example, in 2005, the EPA promulgated a rule to control
mercury emissions from fossil fuel-fired power plants under
section 111(d): the Clean Air Mercury Rule (CAMR).540 The EPA
established a nationwide cap-and-trade program that took effect
in two phases: In 2010, the cap was set at 38 tons per year, and
in 2018, the cap was lowered to 15 tons per year. The EPA
expected, on the basis of modeling, that sources would achieve
the second phase, 15-ton per year cap cost-effectively by

538

Sen. Fowler, S. Debate on S. 1630 (Apr. 3, 1990), 1990 CAA
Legis. Hist. at 7106.
539 1990 CAA Amendments, § 821, 104 Stat. at 2699.
540 70 FR 28606 (May 18, 2005).
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choosing among a set of measures that included shifting
generation to lower-emitting units.541 CAMR was vacated by the
D.C. Circuit on other grounds,542 but it shows that in the only
other section 111(d) rule that the EPA attempted for affected
EGUs, the EPA relied on shifting generation as part of the BSER
in a CAA section 111(d) rulemaking for fossil fuel-fired EGUs.
In 2011, the EPA promulgated the Cross State Air Pollution
Rule (CSAPR),543 in which it set statewide emission budgets for
NOx and SO2 emitted by fossil fuel-fired EGUs, and based those
standards in part on shifts to lower-emitting generation. CSAPR
established state-wide emissions budgets based on a range of
cost-effective actions that EGUs could take, and set the
stringency of the deadlines for some required reductions in part
because of the availability of “increased dispatch of loweremitting generation which can be achieved by 2012.”544 The EPA
developed a federal implementation plan (FIP) that established a

541

70 FR 28606, 28619 (May 18, 2005) (“Under the CAMR scenario
modeled by EPA, units [were] projected to meet their SO2 and NOx
requirements and take additional steps to address the remaining
[mercury] reduction requirements under CAA section 111,
including adding [mercury]-specific control technologies (model
applies [activated carbon injection]), additional scrubbers and
[selective catalytic reduction], dispatch changes, and coal
switching.”).
542 New Jersey v. EPA, 517 F.3d 574, 583-84 (D.C. Cir. 2008),
cert. denied sub nom. Util. Air Reg. Group v. New Jersey, 555
U.S. 1169 (2009).
543 76 FR 48208 (Aug. 8, 2011).
544 76 FR at 48452.
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trading program to meet the state-wide emission budgets set by
CSAPR. The EPA projected that sources would meet their emission
reduction obligations by implementing a range of emission
control approaches, including the operation of add-on controls,
switches to lower-emitting coal, and “changes in dispatch and
generation shifting from higher emitting units to lower emitting
units.”545 The U.S. Supreme Court upheld CSAPR in EPA v. EME
Homer City Generation, L.P.546
With respect to RE, in 2004, the EPA provided guidance to
states for adopting attainment SIPs under CAA section 110 that
include RE measures.547 Some states have done so. For example,

545

76 FR at 48279-80. The exact mix of controls varied for
different air pollutants and different time periods, but in all
cases, shifting generation from higher to lower emitting units
was one of the expected control strategies for the fossil fuelfired power plants. Prior to CSAPR, the EPA promulgated two
other transport rules, the NOx SIP Call (1998) and the Clean Air
Interstate Rule (CAIR) (2005), which similarly established
standards based on analysis of the availability and cost of
emission reductions achievable through the use of add-on
controls and generation shifting, and also authorized and
encouraged the implementation of RE and demand-side EE measures.
CAIR: 70 FR 25162, 25165, 25256, 25279 (May 12, 2005) (allowing
use of allowance set-asides for renewables and energy
efficiency); NOx SIP Call: 63 FR 57356, 57362, 57436, 57438,
57449 (Oct. 27, 1998) (authorizing and encouraging SIPs to rely
on renewables and energy efficiency to meet the state budgets).
546 134 S. Ct. 1584 (2014).
547See, e.g., Guidance on SIP Credits for Emission Reductions
from Electric-Sector Energy Efficiency and Renewable Energy
Measures (Aug. 2004),
http://www.epa.gov/ttn/oarpg/t1/memoranda/ereseerem_gd.pdf;
Incorporating Emerging and Voluntary Measures in a State
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Connecticut included in its SIP reductions from solar
photovoltaic installations.548 In 2012, the EPA provided
additional guidance on this topic.549 In addition, the EPA has
partnered with the Northeast States for Coordinated Air Use
Management (NESCAUM) and three states (Maryland, Massachusetts,
and New York) to identify opportunities for including RE in a
SIP and to provide real-world examples and lessons learned
through those states’ case studies.550
(6) Other rules that relied on actions by other entities.
The EPA has promulgated numerous actions that establish
control requirements for affected sources on the basis of
actions by other entities or actions other than measures
integrated into the design or operations of the affected
sources. This section summarizes some of those actions. First,

Implementation Plan (SIP) (Sept. 2004),
http://www.epa.gov/ttn/oarpg/t1/memoranda/evm_ievm_g.pdf.
548 CT 1997 8-hour ozone SIP Web site,
http://www.ct.gov/deep/cwp/view.asp?a=2684&q=385886&depNav_GID=1
619 (see Attainment Demonstration TSD, Chapter 8 at 31,
http://www.ct.gov/deep/lib/deep/air/regulations/proposed_and_rep
orts/section_8.pdf).
549 “Roadmap for Incorporating EE/RE Policies and Programs into
SIPs/TIPs” (July 2012),
http://epa.gov/airquality/eere/manual.html.
550 States’ Perspectives on EPA’s Roadmap to Incorporate Energy
Efficiency/Renewable Energy in NAAQS State Implementation Plans:
Three Case Studies, Final Report to the U.S. Environmental
Protection Agency (Dec. 2013),
http://www.nescaum.org/documents/nescaum-final-rept-toepa-ee-in-naaqs-sip-roadmap-case-studies-20140522.pdf.
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virtually all pollution control requirements require the
affected sources to depend in one way or another on other
entities, such as control technology manufacturers. Second, the
EPA has promulgated numerous regulatory actions that are based
on trading of mass-based emission allowances or rate-based
emission credits, in which many sources meet their emission
limitation requirements by purchasing allowances or credits from
other sources that reduce emissions.
(a) Third-party transactions.
To reiterate, commenters argue that the “system of emission
reduction” must be limited to measures taken by the affected
source itself because only those measures are under the control
of the affected source, as opposed to third parties, and
therefore only those measures can assure that the affected
source will achieve its emission limits. But this argument is
belied by the fact that for a wide range of pollution control
measures – including many that are indisputably part of a
“system of emission reduction” – affected sources are in fact
dependent on third parties. For example, to implement any type
of add-on pollution control equipment that is available only
from a third-party manufacturer, the affected source is
dependent upon that third party for developing and constructing
the necessary controls, and for offering them for sale. Indeed,
the affected sources may be dependent upon third parties to
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 Page 572 of 1560
install (and in some cases to operate) the controls as well, and
in fact, in the CAIR rule, the EPA established the compliance
date based on the limited availability of the specialized
workforce needed to install the controls needed by the affected
EGUs.551 In addition, EGU owners and operators may be dependent
on the actions of third parties to finance the controls and
third-party regulators to assure the mechanism for repaying that
financing. However, this dependence does not mean that the
emission limit based on that equipment is not achievable.
Rather, the fact that the owner or operator of the affected
source can arrange with the various third parties to acquire,
install, and pay for the equipment means that emission limit is
achievable.
In this rule, as noted, the affected EGUs may, in many
cases, implement the measures in building blocks 2 and 3
directly, and, in other cases, implement those measures by
engaging in market transactions with third parties that are as
much within the affected EGUs’ control as engaging in market
transactions with the range of third parties involved in
pollution control equipment. By the same token, the market
transactions that the affected EGUs engage in with third parties

551

70 FR 25162, 25216–25225 (May 12, 2005). The EPA noted that
its view was “based on the NOX SIP Call experience.” Id. at
25217.
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to implement the measures in building blocks 2 and 3 are
comparable to the market transactions that affected EGUs engage
in as part of their normal course of business, which include,
among many examples, transactions with RTOs/ISOs or balancing
authorities, entities in organized markets.
(b) Emissions trading.
Additional precedent that the “system of emission
reduction” may include the measures in building blocks 2 and 3
and is not limited to measures that a source can integrate into
its own design or operations, without being dependent on other
entities, is found in the many rules that Congress has enacted
or that the EPA has promulgated that allow EGUs and other
sources to meet their emission limits by trading with other
sources. In a trading rule, the EPA authorizes a source to meet
its emission limit by purchasing mass-based emission allowances
or rate-based emission credits generated from other sources,
typically ones that implement controls that reduce their
emissions to the point where they are able to sell allowances or
credits. As a result, the availability of trading reduces
overall costs to the industry by focusing the controls on the
particular sources that have the least cost to implement
controls. For present purposes, what is relevant is that in a
trading program, some affected sources choose to meet their
emission limits not by implementing emission controls integrated
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into their own design or operations, but rather by purchasing
allowances or credits. These affected sources, therefore, are
dependent on the actions of other entities, which are the ones
that choose to meet their emission limits by implementing
emission controls, which permits them to sell allowances or
credits. They are dependent, however, in the same way that a
source acquiring pollution control technology for the purposes
of meeting a NSPS is dependent on a vendor of that technology to
fulfill its contractual obligations. That is, the source
operator purchasing a credit or an allowance is acquiring an
equity in the technology or action applied to the credit-selling
source for purposes of achieving a reduction in emissions
occurring at the selling source. Trading programs have been
commonplace under the CAA, particularly for EGUs, for decades.
They include the acid rain trading program in Title IV of the
CAA, the trading programs in the transport rules promulgated by
the EPA under the “good neighbor provision” of CAA section
110(a)(2)(D)(i)(I), the Clean Air Mercury Rule, and the regional
haze rules. In each of these actions, the Congress or the EPA
recognized that some of the affected EGUs would implement
controls or take other actions that would lower their emissions
and thereby allow them to sell allowances to other EGUs, which
were dependent on the purchase of those allowances to meet their

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obligations.552 For the reasons just described, these trading
rules refute commenters’ arguments for limiting the scope of the
“system of emission reduction.”
(c) NSPS rules for EGUs that depend on the integrated
grid.
The EPA has promulgated NSPS for EGUs that include
requirements based on the fact that an EGU may reduce its
generation, and therefore its emissions, because the integration
of the grid allows another EGU to increase generation and
thereby avoid jeopardizing the supply of electricity. For
example, in 1979, the EPA finalized new standards of performance
to limit emissions of SO2 from new, modified, and reconstructed
EGUs. In evaluating the best system against concerns of electric
service reliability, the EPA took into account the unique

552

For example, in the enacting the acid rain program under CAA
Title IV, Congress explicitly recognized that some sources would
comply by purchasing allowances instead of implementing
controls. S. Rep. No. 101-228, at 303 (Dec. 20, 1989).
Similarly, in promulgating the NOx SIP Call in 1998, the EPA
stated, “Since EPA's determination for the core group of sources
is based on the adoption of a broad-based trading program,
average cost-effectiveness serves as an adequate measure across
sources because sources with high marginal costs will be able to
take advantage of this program to lower their costs.” 63 FR at
57399 (emphasis added). By the same token, in promulgating the
Cross State Air Pollution Rule, the EPA stated, “the preferred
trading remedy will allow source owners to choose among several
compliance options to achieve required emission reductions in
the most cost effective manner, such as installing controls,
changing fuels, reducing utilization, buying allowances, or any
combination of these actions.” 76 FR at 48272 (emphasis added).
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features of power transmission along the interconnected grid and
the unique commercial relationships that rely on those
features.553
Additionally, in 1982, the EPA recognized that utility turbines
could meet a NOx emission limit without unacceptable economic
consequences because “other electric generators on the grid can
restore lost capacity caused by turbine down time.”554 We
describe the relevant parts of these rules in greater detail in
the Legal Memorandum.
(7) Consistency with the purposes of the Clean Air Act.
Interpreting the term “system of emission reduction”
broadly to include building blocks 2 and 3 (so that the “best
system of emission reduction ... adequately demonstrated” may
include those measures as long as they meet all of the
applicable requirements) is also consistent with the purposes of
the CAA. Most importantly, these purposes include protecting
public health and welfare by comprehensively addressing air
pollution, and, particularly, protecting against urgent and

553

See 44 FR 33580, 33597-33600 (taking into account “the amount
of power that could be purchased from neighboring interconnected
utility companies” and noting that “[a]lmost all electric
utility generating units in the United States are electrically
interconnected through power transmission lines and switching
stations” and that “load can usually be shifted to other
electric generating units”).
554 47 FR 3767, 3768 (Jan. 27, 1982).
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severe threats. In addition, these purposes include promoting
pollution prevention measures, as well as the advancement of
technology that reduces air pollution.
(a) Purpose of protecting public health and welfare.
The first provisions in the Clean Air Act set out Congress’s
findings and the CAA’s purposes. They provide as follows, in
relevant part:
Section 101. Congressional findings and declaration of
purpose
(a)

The Congress finds—

* * * *
(2) that the growth in the amount and complexity of
air pollution brought about by urbanization,
industrial development, and the increasing use of
motor vehicles, has resulted in mounting dangers to
the public health and welfare * * * *
(3) that air pollution prevention (that is, the
reduction or elimination, through any measures, of the
amount of pollutants produced or created at the
source) and air pollution control at its source is the
primary responsibility of States and local
governments; and
(4) that Federal financial assistance and leadership
is essential for the development of cooperative
Federal, State, regional, and local programs to
prevent and control air pollution.
(b) The purposes of this title are—
(1) to protect and enhance the quality of the Nation’s
air resources so as to promote the public health and
welfare and the productive capacity of its population;

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(2) to initiate and accelerate a national research and
development program to achieve the prevention and
control of air pollution;
(3) to provide technical and financial assistance to
State and local governments in connection with the
development and execution of their air pollution
prevention and control programs; and
(4) to encourage and assist the development and
operation of regional air pollution prevention and
control programs.
(c) POLLUTION PREVENTION.—A primary goal of this Act
is to encourage or otherwise promote reasonable
Federal, State, and local governmental actions,
consistent with the provisions of this Act, for
pollution prevention.
As just quoted, these provisions are explicit that the
purpose of the CAA is “to protect and enhance the quality of the
Nation’s air resources so as to promote the public health and
welfare and the productive capacity of its population.”
Moreover, Congress designed the CAA to be “the comprehensive
vehicle for protection of the Nation’s health from air
pollution”555 and, in fact, designed CAA section 111(d) to
address air pollutants not covered under other provisions,
specifically so that “there should be no gaps in control
activities pertaining to stationary source emissions that pose

555

H.R. Rep. No. 95-294, at 42 (May 12, 1977), 1977 CAA Legis.
Hist. at 2509 (discussing a provision in the House Committee
bill that became CAA section 122, requiring the EPA to study and
regulate radioactive air pollutants and three other air
pollutants).
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any significant danger to public health or welfare.”556
Furthermore, in these purpose provisions, Congress recognized
that while pollution prevention and control are the primary
responsibility of the States, “federal leadership” would be
essential.
At its core, Congress designed the CAA to address urgent
and severe threats to public health and welfare. This purpose is
evident throughout 1970 CAA Amendments, which authorized
stringent remedies that were necessary to address those
problems. By 1970, Congress viewed the air pollution problem,
which had been worsening steadily as the nation continued to
industrialize and as automobile travel dramatically increased
after World War II,557 as nothing short of a national crisis.558

556

S. Rep. No. 91-1196, at 20 (Sept. 17, 1970), 1970 CAA Legis.
Hist. at 420 (discussing section 114 of the Senate Committee
bill, which was the basis for CAA section 111(d)).
557 See Dewey, Scott Hamilton, Don’t Breathe the Air: Air
Pollution and U.S. Environmental Politics, 1945-1970 (Texas A&M
University Press 2000).
558 1970 was a significant year in environmental legislation, but
it was also marked as “a year of environmental concern.” Sen.
Muskie, S. Debate on S. 4358 (Sept. 21, 1970), 1970 CAA Legis.
Hist. at 223. By mid-1970, Congress recognized that “[o]ver 200
million tons of contaminants [were] spilled into the air each
year in America.... And each year these 200 million tons of
pollutants endanger the health of [the American] people.” Id. at
224. “Cities up and down the east coast were living under clouds
of smog and daily air pollution alerts.” Sen. Muskie, S.
Consideration of the Conference Rep. (Dec. 18, 1970), 1970 CAA
Legis. Hist. at 124. Put simply, America faced an “environmental
crisis.” Sen. Muskie, S. Debate on S. 4358 (Sept. 21, 1970),
1970 CAA Legis. Hist. at 224. The conference agreement, it was
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With the 1970 CAA Amendments, Congress enacted a stringent
response, designed to match the severity of the problem. At the
same time, Congress did not foreclose the EPA’s ability to
address new environmental concerns; in fact, Congress largely
deferred to the EPA’s expertise in identifying pollutants and
sources that adversely affect public health or welfare. In doing
so, Congress authorized the EPA to establish national ambient
air quality standards for the most pervasive air pollutants -including the precursors for the choking smog that blanketed
urban areas559 --to protect public health with an ample margin of
safety. Disappointed that the states had not taken effective
action to that point to curb air pollution, “Congress reacted by
taking a stick to the States”560 and including within the 1970

reported, “faces the air pollution crisis with urgency and in
candor. It makes hard choices, provides just remedies, requires
stiff penalties.” Sen. Muskie, S. Consideration of the
Conference Rep. (Dec. 18, 1970), 1970 CAA Legis. Hist. at 123.
“[I]t represents [Congress’] best efforts to act with the
knowledge available ... in an affirmative but constructive
manner.” Id. at 150.
559

See Dewey, Scott Hamilton, Don’t Breathe the Air: Air
Pollution and U.S. Environmental Politics, 1945-1970 (Texas A&M
University Press 2000) at 230 (“By the mid-1960s, top federal
officials showed an increasing sense of alarm regarding the
health effects of polluted air. In June, 1966, Secretary of
Health, Education, and Welfare John W. Gardner testified before
the Muskie subcommittee: “We believe that air pollution at
concentrations which are routinely sustained in urban areas of
the United States is a health hazard to many, if not all,
people.”).

560

Train v. NRDC, 421 U.S. 60, 64 (1975).

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CAA Amendments both the requirement that the states develop
plans to assure that their air quality areas would meet those
standards by no later than five years, and the threat of
imposition of federal requirements if the states did not timely
adopt the requisite plans. Congress also required the EPA to
establish standards for hazardous air pollutants that could
result in shutting sources down. Congress added stringent
controls on automobiles, overriding industry objections that the
standards were not achievable. In addition, Congress added CAA
section 111(b), which required the EPA to list categories based
on harm to public health and regulate new sources in those
categories. Congress then designed CAA section 111(d) to assure,
as the Senate Committee Report for the 1970 CAA Amendments
noted, that “there should be no gaps in control activities
pertaining to stationary source emissions that pose any
significant danger to public health or welfare.”561
Similarly, the 1977 and 1990 CAA Amendments were also
designed to respond to new and/or pressing environmental issues.

561

S. Rep. No. 91-1196, at 20 (Sept. 17, 1970), 1970 CAA Legis.
Hist. at 420 (discussing section 114 of the Senate Committee
bill, which was the basis for CAA section 111(d)). Note that in
the 1977 CAA Amendments, the House Committee Report made a
similar statement. H.R. Rep. No. 95-294, at 42 (May 12, 1977),
1977 CAA Legis. Hist. at 2509 (discussing a provision in the
House Committee bill that became CAA section 122, requiring EPA
to study and then take action to regulate radioactive air
pollutants and three other air pollutants).
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For example, in 1977 then-EPA Administrator Costle testified
before Congress that the expected increase in coal use (in
response to various energy crises, including the 1973-74 Arab
Oil Embargo) “will make vigorous and effective control even more
urgent.”562 Similarly, by 1990, Congress recognized that “many of
the Nation’s most important air pollution problems [had] failed
to improve or [had] grown more serious.”563 Indeed, President
George H. W. Bush said that “‘progress has not come quickly
enough and much remains to be done.’”564
Climate change has become the nation’s most important
environmental problem. We are now at a critical juncture to take
meaningful action to curb the growth in CO2 emissions and
forestall the impending consequences of prior inaction. CO2
emissions from existing fossil fuel-fired power plants are by
far the largest source of stationary source emissions. They emit

562

Statement of Administrator Costle, Hearings before the
Subcommittee on Energy Production and Supply of the Senate
Committee on Energy and Natural Resources (Apr. 5, 7, May 25,
June 24 and 30, 1977), 1977 CAA Legis. Hist. at 3532 (discussing
the relationship between the National Energy Plan and the
Administration’s proposed CAA amendments). Some of the specific
changes to the CAA include the addition of the PSD program,
visibility protections, requirements for nonattainment areas,
and stratospheric ozone provisions.
563 H.R. Rep. No. 101-490, at 144 (May 17, 1990).
564 H.R. Rep. No. 101-490, at 144 (May 17, 1990). Some of the
changes adopted in 1990 include revisions to the NAAQS
nonattainment program, a more aggressive and substantially
revised CAA section 112, the new acid rain program, an operating
permits program, and a program for phasing out of certain ozone
depleting substances.
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 Page 583 of 1560
almost three times as much CO2 as do the next nine stationary
source categories combined, and approximately the same amount of
CO2 emissions as all of the nation’s mobile sources. The only
controls available that can reduce CO2 emissions from existing
power plants in amounts commensurate with the problems they pose
are the measures in building blocks 2 and 3, or far more
expensive measures such as CCS.
Thus, interpreting the “system of emission reduction”
provisions in CAA section 111(d)(1) and (a)(1) to allow the
nation to meaningfully address the urgent and severe public
health and welfare threats that climate change pose is
consistent with what the CAA was designed to do.565 This
interpretation is also consistent with the cooperative purpose
of section 111(d) to assure that the CAA comprehensively address

565

In addition, as we have noted, in designing the 1970 CAA
Amendments, Congress was aware that carbon dioxide increased
atmospheric temperatures. In 1970, when Congress learned that
“the carbon dioxide balance might result in the heating up of
the atmosphere” and that particulate matter “might cause
reduction in radiation,” the Nixon Administration assured
Congress that “[w]hat we are trying to do, however, in terms of
our air pollution effort should have a very salutary effect on
either of these.” Testimony of Charles Johnson, Jr.,
Administrator of the Consumer Protection and Environmental
Health Service (Administration Testimony), Hearing of the House
Subcommittee on Public Health and Welfare (Mar. 16, 1970), 1970
CAA Legis. Hist. at 1381. Many years later, scientific consensus
has formed around the particular causes and effects of climate
change; and the tools put in place in 1970 can be read fairly to
address these concerns.
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 Page 584 of 1560
those threats through the mechanism of state plans, where the
states assume primary responsibility under federal leadership.
See King v. Burwell, 576 U.S. (2015), No. 14-114 (2015), slip
op. at 15 (“We cannot interpret federal statutes to negate their
own stated purposes” (quoting New York State Dept. of Social
Servs. v. Dublino, 413 U.S. 405, 419-20 (1973)); id. at 21 (“A
fair reading of legislation demands a fair understanding of the
legislative plan.”).566
(b) Purpose of encouraging pollution prevention.
Interpreting “system of emission reduction” to include building
blocks 2 and 3 is also consistent with the CAA’s purpose to
encourage pollution prevention. CAA section 101(c) states that

566

This final rule is also consistent with the CAA’s purpose of
protecting health and welfare. For example, the CAA authorizes
the EPA to regulate air pollutants as soon as the EPA can
determine that those pollutants pose a risk of harm, and not to
wait until the EPA can prove that those pollutants actually
cause harm. See H.R. Rep. No. 95-294, at 49 (May 12, 1977), 1977
CAA Legis. Hist. at 2516 (describing the CAA as being
designed... to assure that regulatory action can effectively
prevent harm before it occurs; to emphasize the predominant
value of protection of public health”).The protective spirit of
the CAA extends to the present rule, in which the EPA regulates
on the basis of building blocks 2 and 3 because the range of
available and cost-effective measures in those building blocks
achieves more pollution reduction than building block 1 alone.
Indeed, add-on controls that are technically capable of reducing
CO2 emissions at the scale necessitated by the severity of the
environmental risk -– for example, CCS technology -- are not as
cost-effective as building blocks 2 and 3 on an industry-wide
basis, and while the costs of the add-on controls can be
expected to be reduced over time, it is not consonant with the
protective spirit of the CAA to wait.
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“[a] primary goal of [the CAA] is to encourage or otherwise
promote reasonable federal, state, and local governmental
actions, consistent with the provisions of this chapter, for
pollution prevention.” Indeed, in the U.S. Code, in which the
CAA is codified as chapter 85, the CAA is entitled, “Air
Pollution Prevention and Control.”567 CAA section 101(a)(3)
describes “air pollution prevention” as “the reduction or
elimination, through any measures, of the amount of pollutants
produced or created at the source”. (Emphasis added.) The
reference to “any measures” highlights the breadth of what
Congress considered to be pollution prevention, that is, any and
all measures that reduce or eliminate pollutants at the
source.568
The measures in building blocks 2 and 3 qualify as
“pollution prevention” measures because they are “any measures”
that “reduc[e] or eliminate[e] ... the amount of pollutants

567

See Air Quality Act of 1967, Pub. L. 90-148, § 2, 81 Stat.
485 (Nov. 21, 1967) (adding “Title I—Air Pollution Prevention
and Control” to the CAA, along with Congress’ initial findings
and purposes under CAA section 101).
568 Section 101 emphasizes the importance of air pollution
prevention in two other provisions: CAA section 101(b)(4) states
that one of “the purposes of [title I of the CAA, which includes
section 111] are ... (b) to encourage and assist the development
and operation of regional air pollution prevention and control
programs.” CAA section 101(a)(3) adds: “The Congress finds -... (3) that air pollution prevention … and air pollution
control at its source is the primary responsibility of states
and local governments.” In fact, section 101 mentions pollution
prevention no less than 6 times.
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produced or created at the [fossil fuel-fired affected]
source[s].” Thus, consistent with the CAA’s primary goals, it is
therefore reasonable to interpret a “system of emission
reduction,” as including the pollution prevention measures in
building blocks 2 and 3.
(c) Purpose of advancing technology to control air
pollution.
This final rule is also consistent with CAA section 111’s
purpose of promoting the advancement of pollution control
technology based on the expectation that American industry will
be able to develop innovative solutions to the environmental
problems.
The legislative history and case law of CAA section 111
identify three different ways that Congress designed CAA section
111 to authorize standards of performance that promote
technological improvement: (i) the development of technology
that may be treated as the “best system of emission reduction
... adequately demonstrated;” under CAA section 111(a)(1);569
(ii) the expanded use of the best demonstrated technology;570 and

569

See Portland Cement Ass’n v. Ruckelshaus, 486 F.2d 375, 391
(D.C. Cir. 1973) (the best system of emission reduction must
“look[] toward what may fairly be projected for the regulated
future, rather than the state of the art at present”).
570 See S. Rep. No. 91-1196, at 15 (“The maximum use of
available means of preventing and controlling air pollution
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(iii) the development of emerging technology.571 This rule is
consistent with the second of those ways –- it expands the use
of the measures in building blocks 2 and 3, which are already
established and provide substantial reductions at reasonable
cost. As discussed below, the use of the measures in these
building blocks will be most fully expanded when organized
markets develop, and our expectation that those markets will
develop is consistent with the Congress’s view, just described,
that CAA section 111 should promote technological innovation.
This final rule is also consistent with Congress’s overall
view that the CAA Amendments as a whole were designed to promote
technological innovation. In enacting the CAA, Congress
articulated its expectation that American industry would be
creative and come up with innovative solutions to the urgent and
severe problem of air pollution. This is manifest in the wellrecognized technology-forcing nature of the CAA, and was
expressed in numerous, sometimes ringing, statements in the
legislative history about the belief that American industry will
be able to develop the needed technology. For example, in the
1970 floor debates, Congress recalled that the nation had put a

is essential to the elimination of new pollution
problems”).
571 See Sierra Club v. Costle, 657 F.2d at 351 (upholding a
standard of performance designed to promote the use of an
emerging technology).
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 Page 588 of 1560
man on the moon a year before and had won World War II a quarter
century earlier, and attributed much of the credit for those
singular achievements to American industry and its ability to be
productive and innovative. Congress expressed confidence that
American industry could meet the challenges of developing air
pollution controls as well.572
(d) Response to commenters concerning purpose.
Commenters have stated that the proposed rule “would
transform CAA section 111 into something untethered to its
statutory language and unrecognizable to the Congress that
created it.”573 Commenters with this line of comments focused on
the ramifications of building block 4, which the EPA has decided
does not belong in BSER using EPA’s historical interpretation of
BSER. Regardless of whether the comments are accurate with

572

Sen. Muskie, S. Debates on S. 4358 (Sept. 21, 1970), 1970 CAA
Legis. Hist. at 227 (“At the beginning of World War II industry
told President Roosevelt that his goal of 100,000 planes each
year could not be met. The goal was met, and the war was won.
And in 1960, President Kennedy said that America would land a
man on the moon by 1970. And American industry did what had to
be done. Our responsibility in Congress is to say that the
requirements of this bill are what the health of the Nation
requires, and to challenge polluters to meet them.”). See
Blaime, A.J., The Arsenal of Democracy: FDR, Detroit, and an
Epic Quest to Arm an America at War (Houghton Mifflin Harcourt
2014); Carew, Michael G., Becoming the Arsenal: The American
Industrial Mobilization for World War II, 1938-1942 (University
Press of America, Inc. 2010).
573 UARG comment at 31. See id. at 18, 29, 49. This comment
appears to be a reference to the Supreme Court’s statement in
UARG. See Util. Air Reg. Group v. EPA, 134 S. Ct. 2427, 2444
(2014).
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 Page 589 of 1560
respect to building block 4 measures, they are certainly not
accurate with respect to the three building blocks that the EPA
is defining as the BSER. This rule would be recognizable to the
Congresses that created and amended CAA section 111 and is
carefully fashioned to the statutory text in CAA section 111(d)
and (a)(1). This final rule would be recognizable to the
Congress that adopted CAA section 111 in 1970 as part of a bold,
far-reaching law designed to address comprehensively an air
pollution crisis that threatened the health of millions of
Americans; to have EPA and the States work cooperatively to
develop state-specific approaches to address a national problem;
to challenge industry to meet that crisis with creative energy;
and to give the EPA broad authority –- under section 111 and
other provisions –- to craft the needed emission limitations.
This final rule would be recognizable to the Congress that
revised CAA section 111 in 1977 to explicitly authorize that
standards be based on actions taken by third parties (fuel
cleaners). And this final rule would be recognizable to the
Congress that revised CAA section 111 in 1990 to be linked to
the Acid Rain Program that Congress adopted at the same time,
which regulated the same industry (fossil fuel-fired EGUs)
through some of the same measures (generation shifts and RE),
and that explicitly acknowledged that those measures (RE) would
also reduce CO2 and thereby address the dangers of climate
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change. To reiterate, for the reasons explained in this
preamble, this rule is grounded in our reasonable interpretation
of CAA section 111(d) and (a)(1).
(8) Constraints on the BSER – treatment of building block 4
and response to comments concerning precedents.
Although the BSER provisions are sufficiently broad to
include, for affected EGUs, the measures in building blocks 2
and 3, they also incorporate significant constraints on the
types of measures that may be included in the BSER. We discuss
those constraints in this section. These constaints explain why
we are not including building block 4 in the BSER. In addition,
these constraints explain why our reliance on building blocks 2
and 3 will have limited precedential effect for other
rulemakings, and serve as our basis for responding to commenters
who expressed concern that reliance on building blocks 2 and 3
would set a precedent for the EPA to rely on similar measures in
promulgating future air pollution controls for other sectors.574
As discussed above, the emission limits in the CAA section
111(d) emission guidelines that this rule promulgates are based

574

Commenters offered hypothetical examples to illustrate their
concerns over precedential effects, discussed below. Some
commenters objected that our proposed interpretation of the BSER
failed to include limiting principles. In the Legal Memorandum,
we discuss the relevance of limiting principles and note that
the statutory constraints discussed in this section of the
preamble constitute limits on the type of the BSER that the EPA
is authorized to determine.
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on the EPA’s determination, for the affected EGUs, of the
“system of emission reduction” that is the “best,” taking into
account “cost” and other factors, and that is “adequately
demonstrated.” Those components include certain interpretations
and applications and provide constraints on the types of
measures or controls that the EPA may determine to include in
the BSER.
(a) Emission reductions from affected sources.
The first constraint is that the BSER must assure emission
reductions from the affected sources. Under section 111(d)(1),
the states must submit state plans that “establish[] standards
of performance for any existing source,” and, under section
111(a)(1) and the EPA’s implementing regulations, those
standards are informed by the EPA’s determination of the best
system of emission reduction adequately demonstrated. Because
the emission standards must apply to the affected sources,
actions taken by affected sources that do not result in emission
reductions from the affected sources –- for example, offsets
(e.g., the planting of forests to sequester CO2) –- do not
qualify for inclusion in the BSER. Building blocks 2 and 3
achieve emission reductions from the affected EGUs, and thus are
not precluded under this constraint.

(b) Controls or measures that affected EGUs can implement.
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The second constraint is that because the affected EGUs
must be able to achieve their emission performance rates through
the application of the BSER, the BSER must be controls or
measures that the EGUs themselves can implement. Moreover, as
noted, the D.C. Circuit has established criteria for
achievability in the section 111(b) case law; e.g., sources must
be able to achieve their standards under a range of
circumstances. If those criteria are applicable in a section
111(d) rule, the BSER must be of a type that allows sources to
meet those achievability criteria. As noted, under this rule,
affected EGUs can achieve their emission performance rates in
the various circumstances under which they operate, through the
application of the building blocks.
(c) “Adequately demonstrated.”
The third constraint is that the system of emission
reduction that the EPA determines to be the best must be
“adequately demonstrated.” To qualify as the BSER, controls and
measures must align with the nature of the regulated industry
and the nature of the pollutant so that implementation of those
controls or measures will result in emission reductions from the
industry and allow the sources to achieve their emission
performance standards. The history of the effectiveness of the
controls or other measures, or other indications of their

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effectiveness, are important in determining whether they are
adequately demonstrated.
More specifically, the application of building blocks 2 and
3 to affected EGUs has a number of unique characteristics.
Building blocks 2 and 3 entail the production of the same amount
of the same product -- electricity, a fungible product that can
be produced using a variety of highly substitutable generation
processes -- through the cleaner (that is, less CO2-intensive)
processes of shifting dispatch from steam generators to existing
NGCC units, and from both steam generators and NGCC units to
renewable generators.
The physical properties of electricity and the highly
integrated nature of the electricity system allow the use of
these cleaner processes to generate the same amount of
electricity. In addition, the electricity sector is primarily
domestic -- little electricity is exported outside the U.S. -and there is low capacity for storage. In addition, the
electricity sector is highly regulated, planned, and
coordinated. As a result, holding demand constant, an increase
in one type of generation will result in a decrease in another
type of generation. Moreover, the higher-emitting generators,
which are fossil fuel-fired, have higher variable costs than
renewable generators, so that increased renewable generation
will generally back out fossil fuel-fired generation.
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Because of these characteristics, the electricity sector
has a long and well-established history of substituting one type
of generation for another. This has occurred for a wide variety
of reasons, many of which are directly related to the system’s
primary purposes and functions, as well as for environmental
reasons. As a result, at present, there is a well-established
network of business and operational relationships and past
practices that supports building blocks 2 and 3. As noted
elsewhere, a large segment of steam generators already have
business relationships with existing NGCC units, and a large
segment of all fossil fuel-fired EGUs already own, co-own, or
have invested in RE.
Many of these characteristics are unique to the utility
power sector. Moreover, this complex of characteristics, ranging
from the physical properties of electricity and the integrated
nature of the grid to the institutional mechanisms that assure
reliability and the existing practices and business
relationships in the industry, combine to facilitate the
implementation of building blocks 2 and 3 in a uniquely
efficient manner. This supports basing the emission limits on
the ability of owners and operators of fossil fuel-fired EGUs to
replace their generation with cleaner generation in other
locations, sometimes owned by other entities.

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As noted above, commenters offered hypothetical examples to
illustrate their concerns over precedential effects. Most of
their concerns focused on building block 4, and most of their
hypothetical examples concerned reductions in demand for various
types of products. We address these concerns in the response to
comments document, but we note here that, in any event, these
concerns are mooted because we are not finalizing building block
4. Some commenters offered hypothetical examples for building
blocks 2 and 3 as well. For example, some commenters asserted
that the EPA could “develop standards of performance for
tailpipe emissions from motor vehicles” by “requiring car owners
to shift some of their travel to buses,” which the commenters
considered analogous to building block 2; or by “requiring there
to be more electric vehicle purchases,” which the commenters
considered analogous to building block 3.575
Commenters’ concerns over precedential impact cannot be
taken to mean that the building blocks should not be considered
to meet the requirements of the BSER or that the affected EGUs
cannot be considered to meet the emission limits by implementing
those measures. Moreover, because many of these individual
characteristics, and their inherent complexity, are unique to
the utility power sector, building blocks 2 and 3 as applied to

575

UARG comment at 2-3.

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fossil fuel-fired EGUs will have a limited precedent for other
industries and other types of rulemakings. For example, the
commenter’s hypothetical examples noted above are inapposite for
several reasons. The hypotheticals appear to be premised on
government action mandating actions not implementable by
emitting sources (e.g., that a government would “require[e] car
owners to shift some of their travel to buses, or ... require[e]
there to be more electric vehicle purchases”), whereas the
measures in building blocks 2 and 3 can be implemented by the
affected EGUs. Nor have commenters attempted to address how car
owners shifting travel to buses or purchasing more electric
vehicles could be translated into lower tailpipe standards for
motor vehicles.576
(d) “Best” in light of “cost ... nonair quality health and
environmental impact and energy requirements” and EPA’s past
practice and current policy.
The fourth constraint, or set of constraints, is that the
system of emission reduction must be the “best,” “taking into
account the cost of achieving such reduction and any nonair
quality health and environmental impact and energy
requirements.” As noted, in light of the D.C. Circuit case law,

576

In any event, it is questionable whether measures such as
those hypothesized by the commenters would be consistent with
the provisions of Title II.
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the EPA has considered cost and energy factors on both an
individual source basis and on the basis of the nationwide
electricity sector. In determining what is “best,” the EPA has
broad discretion to balance the enumerated factors.577 In
interpreting and applying these provisions in this rulemaking to
regulate CO2 emissions from affected EGUs under section 111(d),
we are acting consistently with our past practice for applying
these provisions in previous section 111 rulemakings and for
regulating air pollutants from the electricity sector under
other provisions of the CAA, as well as current policy.
The great majority of our regulations under section 111
have been 111(b) regulations for new sources. As discussed in
the Legal Memorandum and briefly below, the BSER identified
under section 111(b) is designed to assure that affected sources
are well controlled at the time of construction, and that
approach is consistent with the design expressed in the
legislative history for the 1970 CAA Amendments that enacted the
provision.
Traditionally, CAA section 111 standards have been ratebased, allowing as much overall production of a particular good
as is desired, provided that it is produced through an
appropriately clean (or low-emitting) process. CAA section 111

577

See Lignite Energy Council v. EPA, 198 F.3d 930, 933 (D.C.
Cir. 1999).

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performance standards have primarily targeted the means of
production in an industry and not consumers’ demand for the
product. Thus, the focus for the BSER has been on how to most
cleanly produce a good, not on limiting how much of the good can
be produced.
One example of the focus under section 111 on clean
production, not limitation of product is provided by the
revised new source performance standards for electric utility
steam generating units that we promulgated in 1979 following the
1977 CAA Amendments to limit emissions of SO2, PM, and NOx. In
relevant part, the revised standards limited SO2 emissions to
1.20 lb/million BTU heat input and imposed a 90 percent
reduction in potential SO2 emissions. This was based on the
application of flue gas desulfurization (FGD) together with coal
preparation techniques. In the preamble, we explain that “[t]he
intent of the final standards is to encourage power plant owners
and operators to install the best available FGD systems and to
implement effective operation and maintenance procedures but not

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to create power supply disruptions.”578,579 EPA has taken the same
overall approach in its section 111(d) rules,580 including the
CAMR rule noted below.

Similarly, in a series of rulemakings regulating air
pollutants from EGUs under several provisions of the CAA, we
have focused our efforts on assuring that electricity is

578

See, e.g., 44 FR 33580, at 33599 (June 11, 1979). In this
rulemaking, the EPA recognized the ability of the integrated
grid to minimize power disruptions: “When electric load is
shifted from a new steam-electric generating unit to another
electric generating unit, there would be no net change in
reserves within the power system. Thus, the emergency condition
provisions prevent a failed FGD system from impacting upon the
utility company’s ability to generate electric power and
prevents an impact upon reserves needed by the power system to
maintain reliable electric service.” Id.
579 The EPA’s 1982 revised new source performance standards for
certain stationary gas turbines provide another example of a
rulemaking that focused controls on reducing emissions, as well
as reliance on the integrated grid to avoid power disruptions.
44 FR 33580 (June 11, 1979). In response to comments that
requested a NOx emission limit exemption for base load utility
gas turbines, the EPA explained that “for utility turbines ...
since other electric generators on the grid can restore lost
capacity caused by turbine down time” the NOx emission limit of
1150 ppm for such turbines would not be rescinded. 44 FR 33580,
at 33597-98.
580 See “Phosphate Fertilizer Plants; Final Guideline Document
Availability,” 42 FR 12022 (Mar. 1, 1977); “Standards of
Performance for New Stationary Sources; Emission Guideline for
Sulfuric Acid Mist,” 42 FR 55796 (Oct. 18, 1977); “Kraft Pulp
Mills, Notice of Availability of Final Guideline Document,” 44
FR 29828 (May 22, 1979); “Primary Aluminum Plants; Availability
of Final Guideline Document,” 45 FR 26294 (Apr. 17, 1980);
“Standards of Performance for New Stationary Sources and
Guidelines for Control of Existing Sources: Municipal Solid
Waste Landfills, Final Rule,” 61 FR 9905 (Mar. 12, 1996).
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generated through cleaner or lower-emitting processes, and we
have not sought to limit the aggregate amount of electricity
that is generated. We describe those rules in section II,
elsewhere in this section V.B.3., and in the Legal Memorandum.
For example, as discussed in the Legal Memorandum, in the
three transport rules promulgated under CAA section
110(a)(2)(D)(i)(I) – the NOx SIP Call, CAIR, and CSAPR – which
regulated precursors to ozone-smog and particulate matter, the
EPA based certain aspects of the regulatory requirements on the
fact that fossil fuel-fired EGUs could shift generation to
lower-emitting sources. In CAMR, the 2005 rulemaking under
section 111(d) regulating mercury emissions from coal-fired
EGUs, the EPA based the first phase of control requirements on
the actions the affected EGUs were required to take under CAIR,
including shifting generation to lower-emitting sources. In
addition, as also discussed in the Legal Memorandum, in the
EPA’s 2012 MATS rule regulating mercury from coal-fired EGUs
under section 112, at industry’s urging, the EPA allowed
compliance deadlines to be extended for coal-fired EGUs that
desired to substitute replacement power of any type, including
NGCC units or RE, for compliance purposes.
While these and other rulemakings for fossil fuel-fired
EGUs took different approaches towards lower-emitting generation
and renewable generation, they all were based on control
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measures that reduced emissions without reducing aggregate
levels of electricity generation. It should be noted that even
though some of those rules established overall emission limits
in the form of budgets implemented through a cap-and-trade
program, the EPA recognized that the fossil fuel-fired EGUs that
were subject to the rules could comply by shifting generation to
lower-emitting EGUs, including relying on RE. In this manner,
the rules limited emissions but on the basis that the industry
could implement lower-emitting processes, and not based on
reductions in overall generation.
We are applying the same approach to this rulemaking. Our
basis for this rulemaking is that affected EGUs can implement a
system of emission reduction that will reduce the amount of
their emissions without reducing overall electricity generation.
This approach takes into account costs by minimizing economic
disruption as well as the nation’s energy requirements by
avoiding the need for environmental-based reductions in the
aggregate amount of electricity available to the consumer,
commercial, and industrial sectors.
This approach is a reasonable exercise of the EPA’s
discretion under section 111, consistent with the U.S. Supreme
Court’s statements in its 2011 decision, American Electric Power
Co. v. Connecticut, that the CAA and the EPA actions it
authorizes displace any federal common law right to seek
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abatement of CO2 emissions from fossil-fuel fired power plants.
There, the Court emphasized that CAA section 111 authorizes the
EPA –- which the Court identified as the “expert agency” -– to
regulate CO2 emissions from fossil fuel-fired power plants based
an “informed assessment of competing interests…. Along with the
environmental benefit potentially achievable, our Nation's
energy needs and the possibility of economic disruption must
weigh in the balance.”581
Similarly, the D.C. Circuit, in a 1981 decision upholding
the EPA’s section 111(b) standards for air pollutants from
fossil fuel-fired EGUs, stated that section 111 regulations
concerning the electric power sector “demand a careful weighing
of cost, environmental, and energy considerations.”582 This
exercise of policy discretion is consistent with Congress’s
expectation that the Administrator “should determine the
achievable limits”583 and “would establish guidelines as to what
the best system for each such category of existing sources

581

American Electric Power Co. v. Connecticut, 131 S. Ct. 2527,
2539-40 (2011).
582 Sierra Club v. EPA, 657 F.2d 298, 406 (D.C. Cir. 1981).
Id. at 406 n. 526.
583 S. Rep. No. 91-1196, at 15-16 (Sept. 17, 1970), 1970 CAA
Legis. Hist. at 415-16 (explaining that the “[Administrator]
should determine the achievable limits and let the owner or
operator determine the most economic, acceptable technique to
apply.”).
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is.”584 As the D.C. Circuit explained, “[i]t seems likely that if
Congress meant ... to curtail EPA’s discretion to weigh various
policy considerations it would have explicitly said so in
section 111, as it did in other parts of the statute.”585
Our interpretation that CAA section 111 targets supply-side
activities that allow continued production of a product through
use of a cleaner process, rather than targeting consumeroriented behavior, also furthers Congress’ intent of promoting
cleaner production measures “to protect and enhance the quality
of the Nation’s air resources so as to promote the public health
and welfare and the productive capacity of its population.”586
This principle is also consistent with promoting “reasonable ...
governmental actions ... for pollution prevention.”587
In this rule, we are applying that same approach in
interpreting the BSER provisions of section 111. That is, we are
basing the regulatory requirements on measures the affected EGUs
can implement to assure that electricity is generated with lower
emissions, taking into account the integrated nature of the
industry and current industry practices. Building blocks 1, 2
and 3 fall squarely within this paradigm; they do not require
reductions in the total amount of electricity produced.

584
585
586
587

H.R. Rep. No. 95-294, at 195 (May 12, 1977).
Sierra Club v. Costle, 657 F.2d 298, 330 (D.C. Cir. 1981).
CAA section 101(b)(1).
CAA section 101(c).

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We recognize that commenters have raised extensive legal
concerns about building block 4. We recognize that building
block 4 is different from building blocks 1, 2, and 3 and the
pollution control measures that we have considered under CAA
section 111. Accordingly, under our interpretation of section
111, informed by our past practice and current policy, today’s
final action excludes building block 4 from the BSER. Building
block 4 is outside our paradigm for section 111 as it targets
consumer-oriented behavior and demand for the good, which would
reduce the amount of electricity to be produced.
Although numerous commenters urged us to include demandside EE measures as part of the BSER, as we had proposed to do,
we conclude that we cannot do so under our historical practice,
current policy, and current approach to interpreting section 111
as well as our historical practice in regulating the electricity
sector under other CAA provisions. While building blocks 2 and 3
are rooted in our past practice and policy, building block 4 is
not and would require a change (which we are not making) in our
interpretation and implementation and application of CAA section
111.
Excluding demand-side EE measures from the BSER has the
benefit of allaying legal and other concerns raised by
commenters, including concerns that individuals could be “swept
into” the regulatory process by imposing requirements on “every
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household in the land.”588 While building block 4 could have been
implemented without imposing requirements on individual
households, this final rule resolves any doubt on this matter
and is not based on the inclusion of demand-side EE as part of
the BSER.
By the same token, we are not finalizing reduced generation
of electricity overall as the BSER. Instead, components of the
BSER focus on shifting generation to lower- or zero-emitting
processes for producing electricity.589
(e) Constraints for new sources.
For new sources, practical and policy concerns support the
interpretation of basing the BSER on controls that new sources
can install at the time of construction, so that they will be
well-controlled throughout their long useful lives. This
approach is consistent with the legislative history. We discuss
this at greater length in the Legal Memorandum.
4. Relationship between a source’s implementation of building
blocks 2 and 3 and its emissions.
In this section, we discuss the relationship between an
affected EGU’s implementation of the measures in building blocks

588

See Util. Air Reg. Group v. EPA, 134 S. Ct. 2427, 2436
(2014).
589 As discussed below, however, reduced generation remains
important to this rule in that it is one of the methods for
implementing the building blocks.
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2 and 3 and that affected EGU’s own generation and emissions. As
discussed above, an affected EGU subject to a CAA section 111(d)
state plan that imposes an emission rate-based standard may
achieve that standard in part by implementing the measures in
building block 2 (for a steam generator) and building block 3
(for a steam generator or combustion turbine). That is, an
affected EGU may invest in low- or zero-emitting generation and
may apply credits from that generation against its emission
rate. Those credits reduce the affected EGU’s emission rate and
thereby help it to achieve its emission limit.
In addition, the additional low- or zero-emitting
generation that results from the affected EGU’s investment will
generally displace higher-emitting generation. This is because,
as described above, higher-emitting generation generally has
higher variable costs, reflecting its fuel costs, than, at
least, zero-emitting generation. Displacement of higher-emitting
generation will lower overall CO2 emissions from the source
category of affected EGUs.
If an affected EGU implements building block 2 or 3 by
reducing its own generation, it will reduce its own emissions.
However, the affected EGU may also or alternatively choose to
implement building block 2 or 3 by investing in lower- or zeroemitting generation that does not, in and of itself, reduce the
amount of its own generation or emissions. Even so,
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implementation of building blocks 2 and 3 will reduce CO2 from
some affected EGUs, and therefore reduce CO2 on a source
category-wide basis.
This outcome is, however, consistent with the requirements
of CAA section 111(d)(1) and (a)(1). To reiterate, CAA section
111(d)(1) requires that “any existing source” have a “standard
of performance,” defined under CAA section 111(a)(1) as “a
standard for emissions of air pollutants which reflects the
degree of emission limitation achievable through the application
of the best system of emission reduction ... adequately
demonstrated [BSER] ....” These provisions require by their
terms that “any existing source” must have a “standard of
performance,” but nothing in these provisions requires a
particular amount –- or, for that matter, any amount -- of
emission reductions from each and every existing source. That
the “standard of performance” is defined on the basis of the
“degree of emission limitation achievable through the
application of the [BSER]” does not mean that each affected EGU
must achieve some amount of emission reduction, for the
following reasons.
The cornerstone of the definition of the term “standard of
performance” is the BSER. In determining the BSER, the EPA must
consider the amount of emission reduction that the system may
achieve, and must consider the ability of the affected EGUs to
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achieve the emission limits that result from the application of
the BSER. The EPA is authorized to include in the BSER, for this
source category, the measures in building blocks 2 and 3
because, when applied to the source category, these measures
result in emission standards that may be structured to ensure
overall emission reductions from the source category and remain
achievable by the affected EGUs. This remains so regardless of
whether the “degree of emission limitation achievable through
the application of the [BSER]” by any particular source results
in actual emission reductions from that source.
The application of the building blocks has an impact that
is similar to that of an emissions trading program, under which,
overall, the affected sources reduce emissions, but any
particular source does not need to reduce its emissions and, in
fact, may increase its emissions, as long as it purchases
sufficient credits or allowances from other sources. In fact, we
expect that that many states will carry out their obligations
under this rule by imposing standards of performance that
incorporate trading or other multi-entity generation-replacement
strategies. Indeed, any emission rate-based standard may not
necessarily result in emission reductions from any particular
affected source (or even all of the affected sources in the
category) as a result of the ability of the particular source
(or even all of them) to increase its production and, therefore,
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its emissions, even while maintaining the required emission
rate.
5. Reduced generation and implementation of the BSER
In the proposed rulemaking, we described the BSER as the
measures included in building block 1 as well the set of
measures included in building blocks 2, 3 and 4 or, in the
alternative, reduced generation or utilization by the affected
EGUs in the amount of building blocks 2, 3 and 4. In this final
rule, based on the comments and further evaluation, we are
refining our approach to the BSER. Specifically, we are
determining the BSER as the combination of measures included in
building blocks 1, 2, and 3.Building blocks 2 and 3 entail
substitution of lower-emitting generation for higher-emitting
generation, which ensures that aggregate production levels can
continue to meet demand even where an individual affected EGU
decreases its own output to reduce emissions. The amount of
generation from the increased utilization of existing NGCC units
determines a portion of the amount of reduced generation that
affected fossil fuel-fired steam EGUs could undertake to achieve
building block 2, and the amount of generation from the use of
expanded lower- or zero-emitting generating capacity that could
be provided, determines a portion of the amount of reduced
generation that affected fossil fuel-fired steam EGUs, as well
as the entire amount of reduced generation that affected NGCC
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units could undertake to implement building blocks 2 and 3. This
section discusses the reasons that reduced generation is one of
the set of reasonable and well-established actions that an
affected EGU can implement to achieve its emission limits. We
are not finalizing our proposal that reduced overall generation
of electricity may by itself be considered the BSER, for the
reason that reduced generation by itself does not fit within our
historical and current interpretation of the BSER. Specifically,
reduced generation by itself is about changing the amount of
product produced rather than producing the same product with a
process that has fewer emissions.
a. Background. As noted, for both rate-based and mass-based
state plans, affected EGUs may take a set of actions to comply
with their emission standards. An affected EGU may comply with
an emission rate-based standard (e.g., a limit on the amount of
CO2 per MWh) by acquiring, through one means or another, credits
from lower- or zero-emitting generation (building blocks 2 or 3)
to reduce its emission rate for compliance purposes. In
addition, the affected EGU may reduce its generation, and if it
does so, it then needs to acquire fewer of those credits to meet
its emission rate.590 Under these circumstances, the affected EGU

590

An affected EGU that is subject to an emission rate, e.g.,
pounds of CO2 per MWh generated, cannot achieve that rate simply
by reducing its generation (unless it shuts down, in which case
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would in effect replace part of its higher-emitting generation
with lower- or zero-emitting generation. On the other hand, an
affected EGU that is subject to a mass-based standard -- for
example, a requirement to hold enough allowances to cover its
emissions (e.g., one allowance for each ton of emissions in any
year) -- may comply at least in part by reducing its generation
and, thus, its emissions. Therefore, one type of action that an
affected EGU may take to achieve either of these emission limits
is to reduce its generation. Further, reduced generation by
individual sources offers a pathway to compliance in and of
itself. That is, a state may adopt a mass-based goal, assign
mass-based standards to its sources, and those sources may
comply with their mass-based limits by, in addition to
implementing building block 1 measures, reducing their
generation in the appropriate amounts, and without taking any
other actions.
b. Well-established use of reduced generation to comply with
environmental requirements. Reduced generation is a wellestablished method for individual fossil fuel-fired power plants
to comply with their emission limits.

it would achieve a zero emission rate). This is because although
reducing generation results in fewer emissions, it does not, by
itself, result in fewer emissions per MWh generated.
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Reduced generation in the amounts contemplated in this
rule, as undertaken by individual sources to achieve their
emission limits, reduces emissions from the affected sources,
but because of the integrated and interconnected nature of the
power sector, can be accommodated without significant cost or
disruption. The electric transmission grid interconnects the
nation’s generation resources over large regions. Electric
system operators coordinate, control, and monitor the electric
transmission grid to ensure cost-effective and reliable delivery
of power. These system operators continuously balance
electricity supply and demand, ensuring that needed generation
and/or demand resources are available to meet electricity
demand. Diverse resources generate electricity that is
transmitted and distributed through a complex system of
interconnected components to end-use consumers.
The electricity system was designed to meet these core
functions. The three components of the electricity supply system
-- generation, transmission and distribution -- coordinate to
deliver electricity from the point of generation to the point of
consumption. This interconnectedness is a fundamental aspect of
the nation’s electricity system, requiring a complicated
integration of all components of the system to balance supply
and demand and a federal, state and local regulatory network to
oversee the physically interconnected network. Electricity from
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a diverse set of generation resources such as natural gas,
nuclear, coal and renewables is distributed over high-voltage
transmission lines. The system is planned and operated to ensure
that there are adequate resources to meet electricity demand
plus additional available capacity over and above the capacity
needed to meet normal peak demand levels. System operators have
a number of resources potentially available to meet electricity
demand, including electricity generated by electric generation
units of various types as well as demand-side resources.
Importantly, if generation is reduced from one generator,
safeguards are in place to ensure that adequate supply is still
available to meet demand. We describe these safeguards in the
background section of this preamble.
Both Congress and the EPA have recognized reduced
generation as one of the measures that fossil fuel-fired EGUs
may implement to reduce their emissions of air pollutants and
thereby achieve emission limits. Congress, in enacting the
allowance requirements in CAA Title IV, under which fossil fuelfired EGUs must hold an allowance for each ton of SO2 emitted,
explicitly recognized that fossil fuel-fired EGUs could meet
this requirement by reducing their generation. In fact, Congress
anticipated that fossil fuel-fired EGUs may choose to comply
with the SO2 emission limits by reducing utilization, and
included provisions that specifically addressed reduced
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utilization. For example, CAA section 408(c)(1)(B) includes
requirements for an owner or operator of an EGU that meets the
Phase 1 SO2 reduction obligations and the NOx reduction
obligations “by reducing utilization of the unit as compared
with its baseline or by shutting down the unit.”
The EPA has also recognized in several rulemakings limiting
emissions from fossil fuel-fired EGUs that reduced generation is
one of the methods of emission reduction that an EGU was
expected to rely on to achieve its emission limitations.
Examples include rulemakings to impose requirements that sources
implement BART to reduce their emissions of air pollutants that
cause or contribute to visibility impairment. As explained
earlier, for certain older stationary sources that cause or
contribute to visibility impairment, including fossil fuel-fired
EGUs, states must determine BART on the basis of five statutory
factors, such as costs and energy and non-air quality impacts.591
In 1980, the EPA promulgated a regulatory definition of BART:
“an emission limitation based on the degree of reduction
achievable through the best system of continuous emission
reduction for each pollutant which is emitted by an existing
stationary facility.”592 Both the statutory factors and the
regulatory definition resemble the definition of the BSER under

591
592

CAA section 169A(g)(2).
40 CFR 51.301.

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CAA section 111(a)(1) (although, as noted, the statutory
definition of BART is more technology focused than the
definition of BSER). In its regional haze SIP, the State of New
York determined that BART for the NOX emissions from two coalfired boilers that served as peaking units was caps on baseline
emissions rates and annual capacity factors of 5 percent and 10
percent, respectively.593
There have been numerous other instances in which fossil
fuel-fired EGUs have reduced their individual generation, or
placed limits on their generation, in order to achieve, or
obviate, emission standards. In fact, there are numerous
examples of EGUs that take restrictions on hours of operation in
their permits for the purpose of avoiding CAA obligations,
including avoiding triggering the requirements of the Prevention
of Significant Deterioration (PSD), Nonattainment New Source
Review (NNSR), or Title V programs (including Title V fees), and
avoiding triggering HAP requirements. Such restrictions may also
be taken to limit emissions of pollutants, such as limiting
emissions of criteria pollutants for attainment purposes.
More specifically, EPA’s regulations for a number of air
programs expressly recognize that certain sources may take
enforceable limits on hours of operation in order to avoid

593

77 FR 24794, 24810 (Apr. 25, 2012).

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triggering CAA obligations that would otherwise apply to the
source. Stationary sources that emit or have the potential to
emit a pollutant at a level that is equal to or greater than
specified thresholds are subject to major source requirements.594
A source may voluntarily obtain a synthetic minor limitation –that is, a legally and practicably enforceable restriction that
has the effect of limiting emissions below the relevant level -to avoid triggering a major stationary source requirement.595
Such synthetic minor limits may be based on restrictions on the
hours of operation, as provided in EPA’s regulations defining
“potential to emit,” as well as on air pollution control
equipment. “Potential to emit” is defined, for instance, in the
regulations for the PSD program for permits issued under federal
authority as: “the maximum capacity of a stationary source to
emit a pollutant under its physical and operational design. Any

594

See, e.g., CAA sections 112(a)(1), 112(d)(1), 165(a), 169(1),
172(c)(5), 173(a) &(c), 501(2), 502(a), 302(j).
595 See, e.g., Memorandum from Terrell Hunt, Assoc. Enforcement
Counsel, U.S. EPA, & John Seitz, Director, Stationary Source
Compliance Div., U.S. EPA, Guidance on Limiting Potential to
Emit in New Source Permitting, at 1-2, 6 (June 13, 1989),
available at
http://www.epa.gov/region07/air/nsr/nsrmemos/lmitpotl.pdf
(“Restrictions on production or operation that will limit
potential to emit include limitations on quantities of raw
materials consumed, fuel combusted, hours of operation, or
conditions which specify that the source must install and
maintain controls that reduce emissions to a specified emission
rate or to a specified efficiency level.”) (emphasis added).
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physical or operational limitation on the capacity of the source
to emit a pollutant, including air pollution control equipment
and restrictions on hours of operation … shall be treated as
part of its design if the limitation or the effect it would have
on emissions is federally enforceable,”596 or “legally and
practicably enforceable by a state or local air pollution
control agency.”597 The regulations for other air programs
similarly recognize that potential to emit may be limited
through restrictions on hours of operations in their
corresponding definitions of “potential to emit.”598 These
regulatory provisions make clear that restrictions on potential
to emit include both “air pollution control equipment” and
“restrictions on hours of operation,” and indicate that these
are equally cognizable means of restricting emissions to comply
with, or avoid, CAA requirements.599

596

40 CFR 52.21(b)(4)(emphasis added).
John Seitz, Director, Office of Air Quality Planning and
Standards, and Robert Van Heuvelen, Director, Office of
Regulatory Enforcement, Release of Interim Policy on Federal
Enforceability of Limitations on Potential to Emit, at 3 (Jan.
22, 1996), available at
http://www.epa.gov/region07/air/nsr/nsrmemos/pottoemi.pdf.
598 See 40 CFR 51.166(b)(4) (addressing SIP approved PSD
programs), 51.165(a)(1)(iii) (addressing SIP approved NNSR
programs), 70.2 (addressing Title V operating permit programs),
and 63.2 (addressing hazardous air pollutants).
599 See, e.g., 40 CFR 52.21(b)(4).
597

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As one of many examples of a fossil-fuel fired EGU taking
restrictions on hours of operation for the purpose of avoiding
CAA obligations, Manitowoc Public Utilities in Wisconsin
obtained a Title V renewal permit that limited the operating
hours of the single simple-cycle combustion turbine to not more
than 194 hours per month, averaged over any consecutive 12 month
period, as part of limiting its potential to emit for volatile
organic compounds below the Title V threshold of 100 tpy, and
carbon monoxide, NOxand SO2below the PSD threshold of 250 tpy.600
As another example, Sunbury Generation LP in Pennsylvania
obtained a minor new source preconstruction permit, called a
plan approval, for a repowering project from the Pennsylvania

600

See Final Operation Permit No. 436123380-P10 for Manitowoc
Public Utilities -- Custer Street (Wis. Dept. Nat. Res.,
8/19/2013), Condition ZZZ.1.a(1) at p. 9 (Limiting potential to
emit) and n. 11 (“These conditions are established so that the
potential emissions for volatile organic compounds will not
exceed 99 tons per year and potential emissions for carbon
monoxide, nitrogen oxides and sulfur dioxide emissions from the
facility will not exceed 249 tons per year.”). See also Analysis
and Preliminary Determination for the Renewal of Operation
Permit 436123380-P01 (Wis. Dept. Nat. Res., 5/21/2013) at p. 5
(noting that the “existing facility is a major source under Part
70 because potential emissions of sulfur dioxide, nitrogen
oxides and carbon monoxide exceed 100 tons per year. The
existing facility is a minor source under PSD and an area source
of federal HAP” and further noting that after renewal, “the
facility will continue to be a major source under Part 70
because potential emissions of sulfur dioxide, nitrogen oxides
and carbon monoxide exceed 100 tons per year. The facility will
also continue to be a minor source under PSD and an area source
of federal HAP.”).

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Department of Environmental Protection in 2013 that limited the
hours of operation of three combined cycle combustion turbines
that were planned for construction in order to remain below the
significance threshold for GHGs.601 The Legal Memorandum includes
numerous other examples of power plants accepting permit limits
that reduce generation to meet, or avoid the need to meet,
emission limits.
There are several ways that an affected EGU may implement
reduced generation. For example, an EGU may accept a permit
requirement that specifically limits its operating hours. In
addition, an EGU may treat the cost of its generation as
including an additional amount associated with environmental
impacts, which requires it to raise its bid price, so that the
EGU is dispatched less.
c. Other aspects of reduced generation. The amounts of increased
existing NGCC generation and new renewables, in the amounts
reflected in building blocks 2 and 3, can be substituted for

601

See Plan Approval No. 55-00001E for Sunbury Generation LP
(Pa. Dept. Env. Protection, 4/1/2013), Conditions #016 on pp.
24, 32 and 40 (limiting turbine units to operating no more than
7955, 6920, or 8275 hours in any 12 consecutive month period
depending on which of three turbine options was selected);
Memorandum from J. Piktel to M. Zaman, Addendum to Application
Review Memo for the Repowering Project (Pa. Dept. Env.
Protection, 4/1/2013) at p. 2 of 10 (noting that source had
“calculated a maximum hours per year (12 consecutive month
period) of operation for the sources proposed for each of the
turbine options in order to remain below the significance
threshold for GHGs.”).

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generation at affected EGUs at reasonable cost. The NGCC
capacity necessary to accomplish the levels of generation
reduction proposed for building block 2 is already in operation
or under construction. Moreover, it is reasonable to expect that
the incremental resources reflected in building block 3 will
develop at the levels requisite to ensure an adequate and
reliable supply of electricity at the same time that affected
EGUs may choose to reduce their CO2 emissions by means of
reducing their generation.
Reduced generation by affected EGUs, in the amounts that
affected EGUs may rely on to implement the selected building
blocks, will not have adverse effects on the utility power
sector and will not reduce overall electricity generation. In
light of the emission limits of this rule, because of the
availability of the measures in building blocks 2 and 3, and
because the grid is interconnected and the electricity system is
highly planned, reductions in generation by fossil fuel-fired
EGUs in the amount contemplated if they were to implement the
building blocks, and occurring over the lengthy time frames
provided under this rule, will result in replacement generation
that generally is lower- or zero-emitting. Mechanisms are in
place in both regulated and deregulated electricity markets to
assure that substitute generation will become available and/or
steps to reduce demand will be taken to compensate for reduced
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generation by affected EGUs. As a result, reduced generation
will not give rise to reliability concerns or have other adverse
effects on the utility power sector and are of reasonable cost
for the affected source category and the nationwide electricity
system.602 All these results come about because the operation of
the electrical grid through integrated generation, transmission,
and distribution networks creates substitutability for
electricity and electricity services, which allows decreases in
generation at affected fossil fuel-fired steam EGUs to be
replaced by increases in generation at affected NGCC units
(building block 2) and allows decreases in generation at all
affected EGUs to be replaced by increased generation at new
lower- and zero-emitting EGUs (building block 3). Further, this
substitutability increases over longer timeframes with the

602

Although, as discussed in the text in this section of the
preamble, we are not treating reduced overall generation of
electricity as the BSER (because it does not meet our historical
and current approach of defining the BSER to include methods
that allow the same amount of production but with a loweremitting process) we note that reduced generation by individual
higher-emitting EGUs to implement building blocks 2 and 3 meets
the following criteria for the BSER: as the examples in the text
and in the Legal Memorandum make clear, reduced generation is
“adequately demonstrated” as a method of reducing emissions
(because Congress and the EPA have recognized it and on numerous
occasions, power plants have relied on it); it is of reasonable
cost; it does not have adverse effects on energy requirements at
the level of the individual affected source (because it does not
require additional energy usage by the source) or the source
category or the U.S.; and it does not create adverse
environmental problems.
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opportunity to invest in infrastructure improvements, and as
noted elsewhere, this rule provides an extended state plan and
source compliance horizon.
d. Comments concerning limiting principles. A commenter stated
that “an interpretation of [‘system of emission reduction’] that
relies primarily on reduced utilization has no clear limiting
principle.”603 We disagree with this concern, for the following
reasons.
As discussed, in this final rule, we are identifying the
BSER as the combination of the three building blocks. Building
blocks 2 and 3 entail substitution of lower- or zero-emitting
generation for higher-emitting generation, and one component of
that substitution is reduced generation, which is limited in
several respects discussed below. Accordingly, our
identification of the BSER in this final rule does not “rel[y]
primarily” on reduced utilization in and of itself (and
therefore reduced generation of the product overall,
electricity) as the BSER. Rather, the BSER is, in addition to
building block 1, the substitution of lower- or zero-emitting
generation for higher emitting generation, and reduced
utilization may be a way to implement that substitution and is
one of numerous methods that affected EGUs may employ to achieve

603

EEI comment, at 284.

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or help achieve the emission limits established by these
emission guidelines.604 The commenter’s concerns over a perceived
lack of a limiting principle cannot be taken to mean that
reduced generation by higher-emitting EGUs cannot be considered
to be a method for affected EGUs to achieve their emission
limits.
Moreover, reduced generation, as applied to affected EGUs
in this rule, is limited in a number of respects. The amount of

604

Indeed, load shifting -- as substitute generation is
sometimes called -- is an “easy and fairly inexpensive strategy”
that “may be used in conjunction with other control measures”
for “emission reduction.” Donald S. Shepard, “A Load Shifting
Model for Air Pollution Control in the Electric Power Industry,”
Journal of the Air Pollution Control Association, Vol. 20, No.
11, p. 760 (Nov. 1970). In fact, load shifting has been
recognized as a pollution control technique as early as 1968,
when it was included in the “Chicago Air Pollution System Model”
for controlling incidents of extremely high pollution. E.J.
Croke, et al., “Chicago Air Pollution System Model, Third
Quarterly Progress Report,” Chicago Department of Air Pollution
Control, p. 186 (1968) (discussing the feasibility of “Control
by Load Reduction” in combination with load shifting as applied
to the Commonwealth Edison Company), available at
http://www.osti.gov/scitech/servlets/purl/4827809. The report also considered
“combining fuel switching and load reduction” as a possible air
pollution abatement technique. See id. at 188. The report
recognized, as an initial matter, that the Commonwealth Edison
Company (CECO) was “constrained to meet the total load demand”
but that “load reduction at one plant or even a number of plants
is usually feasible by shifting the power demand to other plants
in the system.” Id. As a result, the report noted, “load
shifting within the physical limits of the CECO system ... may
be a highly desirable control mechanism.” Id. The report also
predicted that “[i]n the future, it may be possible to form
reciprocal agreements to obtain ‘pollution abatement’ power from
neighbor companies during a pollution incident and return this
borrowed power at some later date.” Id. at 187.
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reduced generation is the amount of replacement generation that
is lower- or zero- emitting, that is of reasonable cost, that
can be generated without jeopardizing reliability, and that
meets the other requirements for the BSER. As discussed, that
amount is the amount of generation in building blocks 2 and 3.605
Finally, as discussed, the integrated nature of the
electricity system, coupled with the high substitutability of
electricity, allows EGUs to reduce their generation without
adversely affecting the availability of their product. Those
characteristics facilitate replacement of generation that has
been reduced, and for that reason, EGUs have a long history of
reducing their generation and either replacing it directly or
having it replaced through the operation of the interconnected
electricity system through measures similar to those in building
blocks 2 and 3. Thus, an EGU can either directly replace its
generation, or simply reduce its generation, and in the latter
case, the integrated grid, combined with the high degree of
planning and various reliability safeguards, will result in
entities providing replacement generation. This means that

605

The EPA notes that affected EGUs are not actually required to
collectively reduce generation by the amount represented in the
BSER, and may collectively reduce generation by more or less
than that amount. Individual affected EGUs are free to choose
reduced generation or other means of reducing emissions, as
permitted by their state plans, in order to achieve the
standards of performance established for them by their states.
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consumers receive exactly the same amount of the same product,
electricity, after the reduced generation that they received
before it. No other industry is both physically interconnected
in this manner and manufactures such a highly substitutable
product; as a result, the use of reduced generation is not
easily transferrable to another industry.
6. Reasons that this rule is within the EPA’s statutory
authority and does not represent over-reaching.
In this section, we respond to adverse comments that the
EPA is overreaching in this rulemaking by attempting to direct
the energy sector. These commenters construed the proposed
rulemaking as the EPA proposing to mandate the implementation of
the measures in the building blocks, including investment in RE
and implementation of a broad range of state and utility demandside EEprograms. Commenters added that in some instances, the
affected EGUs and states would have no choice but to take the
actions in the building blocks because they would not otherwise
be able to achieve their emission standards. Commenters also
emphasized that with the proposed portfolio approach, the rule
would impose federally enforceable requirements on a wide range
of entities that do not emit CO2 and have not previously been
subject to CAA regulation. Commenters cite the U.S. Supreme
Court’s statements in Utility Air Regulatory Group v. EPA

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(UARG)606 that caution an agency against interpreting its
statutory authority in a way that “would bring about an enormous
and transformative expansion in [its] regulatory authority
without clear congressional authorization,” and that add, “When
an agency claims to discover in a long-extant statute an
unheralded power to regulate ‘a significant portion of the
American economy,’ ... we typically greet its announcement with
a measure of skepticism.”607 Commenters assert that in this rule,
the EPA is taking the actions that the UARG opinion cautioned
against. For the reasons discussed below, these comments are
incorrect and misunderstand fundamental aspects of this rule. In
addition, to the extent these comments address either building
block 4 or the portfolio approach they are moot, because the EPA
is not finalizing those elements of the proposal.
In this rule, the EPA is following the same approach that
it uses in any rulemaking under CAA section 111(d), which is
designed to regulate the air pollutants from the source category
at issue. First, the EPA identifies the BSER to reduce harmful
air pollution. Second, based on the BSER, the EPA promulgates
emission guidelines, which generally take the form of emission
rates applicable to the affected sources. In this case, the EPA

606

134 S. Ct. 2427 (2014).
Utility Air Regulatory Group v. EPA, 134 S. Ct. 2427, 2444
(2014) (citations omitted).

607

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is promulgating a uniform CO2 emission performance rate for
steam-generating EGUs and a uniform CO2 emission performance rate
for combustion turbines, and the EPA is translating those rates
into a combined emission rate and equivalent mass limit for each
state. These emission guidelines serve as the guideposts for
state plan requirements. The states, in turn, promulgate
standards of performance and, in doing so, retain significant
flexibility either to promulgate rate-based emission standards
that mirror the emission performance rates in the guidelines,
promulgate rate-based emission standards that are equivalent to
the emission performance rates in the guidelines, or promulgate
equivalent mass-based emission standards. The sources, in turn,
are required to comply with their emission standards, and may do
so through any means they choose. Alternatively, the state may
adopt the state-measures approach, which provides additional
flexibility.
Thus, the EPA is not requiring that the affected EGUs take
any particular action, such as implementation of the building
blocks. Rather, as just explained, the EPA is regulating the
affected EGUs’ emissions by requiring that the state submit
state plans that achieve specified emission performance levels.
The states may choose from a wide range of emission limits to
impose on their sources, and the sources may choose from a wide
range of compliance options to achieve their emission limits.
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Those options include various means of implementing the building
blocks as well as numerous other compliance options, ranging
from -- depending in part on whether the state imposes a ratebased or mass-based emission limit -- implementation of demandside EE measures to natural gas co-firing.608
As some indication of the diverse set of actions we expect
to comply with the requirements of this rule, we note that
demand-side EE programs, in particular, are expected to be a
significant compliance method, in light of their low costs. In
addition, the National Association of Clean Air Agencies (NACAA)
has issued a report that provides a detailed discussion of 25
approaches to CO2 reduction in the electricity sector.609 In
addition, we note that the nine RGGI states -- Connecticut,
Delaware, Maine, Maryland, Massachusetts, New Hampshire, New

608

In fact, the EPA is expressly precluded from mandating
specific controls except in certain limited circumstances. See
42 U.S.C. § 7411(b)(5). For instance, the EPA is authorized to
mandate a particular “design, equipment, work practice, or
operational standard, or combination thereof,” when it is “not
feasible to prescribe or enforce a standard of performance” for
new sources. 42 U.S.C. § 7411(h)(1). CAA section 111(h) also
highlights for us that while “design, equipment, work practice,
or operational standards” may be directly mandated by the EPA,
CAA section 111(a)(1) encompasses a broader suite of measures
for consideration as the BSER.
609 NACAA, “Implementing EPA’s Clean Power Plan: A Menu of
Options (May 2015), http://www.4cleanair.org/NACAA_Menu_of_Options. NACAA
describes itself as “the national, non-partisan, non-profit
association of air pollution control agencies in 41 states, the
District of Columbia, four territories and 116 metropolitan
areas.” Id.
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York, Rhode Island and Vermont -– have indicated that they
intend to maintain their current state programs, which this rule
would allow, and there are reports that other states may seek to
join RGGI.610 Similarly, California has indicated that it intends
to maintain its current state program, which this rule would
allow. Other states could employ the types of methods used in
Oregon, Washington, Colorado, or Minnesota, described in the
background section of this preamble.
As a practical matter, we expect that for some affected
EGUs, implementation of the building blocks will be the most
attractive option for compliance. This does not mean, contrary
to the adverse comments noted above, that this rule constitutes
a redesign of the energy sector. As discussed above, the
building blocks meet the criteria to be part of the best system
of emission reduction ... adequately demonstrated. The fact that
some sources will implement the building blocks and that this
may result in changes in the electricity sector does not mean
that the building blocks cannot be considered the BSER under CAA
section 111(d).

610

Martinson, Erica, “Cap and trade lives on through the
states,” Politico (May 27, 2014),
http://www.politico.com/story/2014/05/cap-and-trade-states107135.html.
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In this rule, as with all CAA section 111(d) rules, the EPA
is not directly regulating any entities. Moreover, the EPA is
not finalizing the proposed portfolio approach. Accordingly, the
EPA is neither requiring nor authorizing the states to regulate
non-affected EGUs in their CAA section 111(d) plans.611
Moreover, contrary to adverse comments, this rule does not
require the states to adopt a particular type of energy policy
or implement particular types of energy measures. Under this
rule, a state may comply with its obligations by adopting the
emission standards approach to its state plan and imposing ratebased or mass-based emission standards on its affected EGUs. In
this manner, this rule is consistent with prior section 111(d)
rulemaking actions, in which the states have complied by
promulgating one or both of those types of standards of
performance. In this rulemaking, as an alternative, the state
may adopt the state measures approach, under which the state
could, if it wishes, adopt particular types of energy measures
that would lead to reductions in emissions from its EGUs. But
again, this rule does not require the state to implement a
particulate type of energy policy or adopt particular types of
energy measures.

611

A state may regulate non-EGUs as part of a state measures
approach, but those measures would not be federally enforceable.
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It is certainly reasonable to expect that compliance with
these air pollution controls will have costs, and those costs
will affect the electricity sector by discouraging generation of
fossil fuel-fired electricity and encouraging less costly
alternative means of generating electricity or reducing demand.
But for affected EGUs, air pollution controls necessarily entail
costs that affect the electricity sector and, in fact, the
entire nation, regardless of what BSER the EPA identifies as the
basis for the controls. For example, had some type of add-on
control such as CCS been identified as the BSER for coal-fired
EGUs, sources that complied by installing that control would
incur higher costs. As a result, generation from coal-fired EGUs
would be expected to decrease and be replaced at least in part
by generation from existing NGCC units and new renewables
because those forms of generation would see their competitive
positions improved.
This basic fact that EPA regulation of air pollutants from
affected EGUs invariably affects the utility sector is wellrecognized and in no way indicates that such regulation exceed
the EPA’s authority. In revising CAA section 111 in the 1977 CAA
Amendments, Congress explicitly acknowledged that the EPA’s
rules under CAA section 111 for EGUs would significantly impact

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the energy sector.612 The Courts have recognized that, too. The
U.S. Supreme Court, in its 2011 decision that the CAA and the
EPA actions it authorizes displace any federal common law right
to seek abatement of CO2 emissions from fossil fuel-fired power
plants, emphasized that CAA section 111 authorizes the EPA –which the Court identified as the “expert agency” -– to regulate
CO2 emissions from these sources in a manner that balances “our
Nation’s energy needs and the possibility of economic
disruption:”
The appropriate amount of regulation in any particular
greenhouse gas-producing sector cannot be prescribed
in a vacuum: as with other questions of national or
international policy, informed assessment of competing
interests is required. Along with the environmental
benefit potentially achievable, our Nation's energy
needs and the possibility of economic disruption must
weigh in the balance.
The [CAA] entrusts such complex balancing to EPA
in the first instance, in combination with state
regulators. Each “standard of performance” EPA sets
must “tak[e] into account the cost of achieving
[emissions] reduction and any nonair quality health
and environmental impact and energy requirements.” §
612

The D.C. Circuit acknowledged this legislative history in
Sierra Club v. EPA, 657 F.2d 298, 331 (D.C. Cir. 1981). There,
the Court stated:
[T]he Reports from both Houses on the Senate and House
bills illustrate very clearly that Congress itself was
using a long-term lens with a broad focus on future
costs, environmental and energy effects of different
technological systems when it discussed section 111.
[Citing S. Rep. No. 95-127, 95th Cong., 1st Sess.
(1977), 3 Legis. Hist. 1371; H.R. Rep. No. 95-294,
95th Cong., 1st Sess. 188 (1977), 4 Legis. Hist.
2465.]
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7411(a)(1), (b)(1)(B), (d)(1); see also 40 C.F.R. §
60.24(f) (EPA may permit state plans to deviate from
generally applicable emissions standards upon
demonstration that costs are “[u]n-reasonable”). EPA
may “distinguish among classes, types, and sizes” of
stationary sources in apportioning responsibility for
emissions reductions. § 7411(b)(2), (d); see also 40
C.F.R. § 60.22(b)(5). And the agency may waive
compliance with emission limits to permit a facility
to test drive an “innovative technological system”
that has “not [yet] been adequately demonstrated.” §
7411(j)(1)(A). The Act envisions extensive cooperation
between federal and state authorities, see § 7401(a),
(b), generally permitting each state to take the first
cut at determining how best to achieve EPA emissions
standards within its domain, see § 7411(c)(1), (d)(1)(2).
It is altogether fitting that Congress designated
an expert agency, here, EPA, as best suited to serve
as primary regulator of greenhouse gas emissions. The
expert agency is surely better equipped to do the job
than individual district judges issuing ad hoc, caseby-case injunctions.613
Similarly, the D.C. Circuit, in its 1981 decision upholding the
EPA’s rules to reduce SO2 emissions from new coal-fired EGUs
under the version of CAA section 111(b) adopted in the 1977 CAA
Amendments, stated:
[S]ection 111 most reasonably seems to require that
EPA identify the emission levels that are “achievable”
with “adequately demonstrated technology.” After EPA
makes this determination, it must exercise its
discretion to choose an achievable emission level
which represents the best balance of economic,
environmental, and energy considerations. It follows
that to exercise this discretion EPA must examine the
effects of technology on the grand scale in order to
decide which level of control is best…. The standard

613

American Electric Power Co. v. Connecticut, 131 S. Ct. 2527,
2539-40 (2011).

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is, after all, a national standard with long-term
effects.614

The D.C. Circuit added: “Regulations such as those involved here
demand a careful weighing of cost, environmental, and energy
considerations. They also have broad implications for national
economic policy.”615 This rule has “economic, environmental, and

614

Sierra Club v. EPA, 657 F.2d 298, 330 (D.C. Cir. 1981).
Sierra Club v. EPA, 657 F.2d 298, 406 (D.C. Cir. 1981). The
Court supported this statement with a lengthy quotation from a
scholarly article, which stated, in part:

615

Consider for a moment the chain of collective
decisions and their effects just in the case of
electric utilities. Petroleum imports can be conserved
by switching from oil-fired to coal-fired generation.
But barring other measures, burning high-sulfur
Eastern coal substantially increases pollution. Sulfur
can be “scrubbed” from coal smoke in the stack, but at
a heavy cost, with devices that turn out huge volumes
of sulfur wastes that must be disposed of and about
whose reliability there is some question. Intermittent
control techniques (installing high smokestacks and
switching off burners when meteorological conditions
are adverse) can, at lower cost, reduce local
concentrations of sulfur oxides in the air, but cannot
cope with the growing problem of sulfates and
widespread acid rainfall. Use of low-sulfur Western
coal would avoid many of these problems, but this coal
is obtained by strip mining. Strip-mining reclamation
is possible, but substantially hindered in large areas
of the West by lack of rainfall. Moreover, in some
coal-rich areas the coal beds form the underground
aquifer and their removal could wreck adjacent farming
or ranching economies. Large coal-burning plants might
be located in remote areas far from highly populated
urban centers in order to minimize the human effects
of pollution. But such areas are among the few left
that are unspoiled by pollution and both
environmentalists and the residents (relatively few in
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energy” impacts, as Congress and the Courts expect in a CAA
section 111 rule, but those impacts do not mean that the EPA is
precluded from promulgating the rule.
As noted above, in this rule, to control CO2 emissions from
affected EGUs, the EPA first considered more traditional air
pollution control measures, including supply-side efficiency
improvements, fuel-switching (for CO2 emissions, that entails cofiring with natural gas), and add-on controls (for CO2 emissions,
that entails CCS). However, it became apparent that even if the
EPA could have finalized those controls as the BSER616 and
established the same uniform CO2 emission performance rates, the
affected EGUs would rely on less expensive ways to achieve their
emission limits. Specifically, instead of relying on co-firing
and CCS, the affected EGUs generally would replace their
generation with lower- or zero-emitting generation– the measures
in building blocks 2 and 3 -- because those measures are
significantly less expensive and already well-established as
pollution control measures. Indeed, some affected EGUs have

number compared with those in metropolitan localities
but large among the voting population in the
particular states) strongly object to this policy.
Id. at 406 n. 526.
616 For the reasons explained, we did not finalize those measures
because significantly less expensive control measures -building blocks 2 and 3 -- are available for these affected
EGUs.
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stated that while they oppose including in the BSER generation
shifts to lower- or zero-emitting sources (or, as proposed,
demand-side EE), they request that those measures be available
for compliance, which indicates their interest in implementing
those measures.617
We expect that many sources will choose to comply with
their emission limits through the measures in building blocks 2
and 3, but contrary to the assertions of some commenters, this
will not result in unprecedented and fundamental alterations to
the energy sector. As discussed above, Congress relied on the
same measures as those the EPA is including in building blocks 2
and 3 as essential parts of the basis for the Title IV emission
limits for fossil fuel-fired EGUs, and the EPA did the same for
the emission limits in various rules for those same sources.
In addition, reliance on the measures in building blocks 2
and 3 is fully consistent with the recent changes and current
trends in electricity generation, and as a result, would by no
means entail fundamental redirection of the energy sector. As
indicated in the RIA for this rule, we expect that the main

617

See the proposal for this rule, 79 FR at 34888 (“during the
public outreach sessions, stakeholders generally recommended
that state plans be authorized to rely on, and that affected
sources be authorized to implement, re-dispatch, renewable
energy measures, and demand-side energy efficiency measures in
order to meet states’ and sources’ emission reduction
obligations.”).
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impact of this rule on the nation’s mix of generation will be to
reduce coal-fired generation, but in an amount and by a rate
that is consistent with recent historical declines in coal-fired
generation. Specifically, from approximately 2005 to 2014, coalfired generation declined at a rate that was greater than the
rate of reduced coal-fired generation that we expect to result
from this rulemaking from 2015 to 2030. In addition, under this
rule, the trends for all other types of generation, including
natural gas-fired generation, nuclear generation, and renewable
generation, will remain generally consistent with what their
trends would be in the absence of this rule. In addition, this
rule is expected to result in increases in demand-side EE.
In addition, contrary to claims of some commenters, in this
rule, the EPA is not attempting to expand its authorities by
attempting to expand the jurisdiction of the CAA to previously
unregulated sectors of the economy, in contravention of the UARG
decision. In UARG, the U.S. Supreme Court struck down the EPA’s
interpretation of the PSD provisions of the CAA because the
interpretation had the effect of applying the PSD requirements
to large numbers of small sources that previously had not been
subject to PSD, and because, according to the Court, the EPA
acknowledged that Congress did not intend that such sources be

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subject to the PSD requirements.618 Commenters appear to
interpret this decision to preclude the EPA from including at
least building block 3 in the BSER because it includes measures
that involve entities (such as RE developers) that do not emit
CO2 and have not previously been subject to the CAA. However, in
this rule, the EPA is not attempting to subject any entity other
than the affected EGUs in the source category to CAA section 111
requirements. As discussed below, the EPA is not finalizing the
proposed portfolio approach, under which states were authorized
to include, in their CAA section 111(d) state plans, federally
enforceable requirements on entities other than affected EGUs.
Thus, as noted above, this final rule does not require or
authorize the states to include entities other than affected
EGUs in their CAA section 111(d) state plans, and as a result,
those entities will not come under CAA jurisdiction619 and the
parts of the economy that they represent will not be regulated
by the EPA.
7. Relative stringency of requirements for existing sources and
new, modified, and reconstructed sources.
Commenters also objected that the proposed CAA section
111(d) standards are more stringent than the standards for new,

618

Util. Air Reg. Group v. EPA, 134 S. Ct. 2427, 2443 (2014).
States may regulate non-affected EGUs through a state
measures approach, but those regulations would not be federally
enforceable.
619

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modified or reconstructed sources, and they assert that setting
section 111(d) standards that are more stringent than 111(b)
standards would be illogical, contrary to precedent, contrary to
the intent of the remaining useful life exception, and arbitrary
and capricious.620 We disagree with these comments. Comparing the
control requirements of the two sets of rules, CAA section
111(d) and 111(b), is an “apples-to-oranges” comparison and, as
a result, it is not possible – and it is overly simplistic - to
conclude that the 111(d) requirements are more stringent that
the 111(b) requirements.
Most importantly, the two sets of rules become applicable
at different points in time and have significantly different
compliance periods. The CAA section 111(b) rule becomes
applicable for new, modified and reconstructed sources
immediately upon construction, modification, or reconstruction
and, in fact, by operation of section 111(e) and (a)(2), new,
modified, or reconstructed sources that commenced construction
prior to the effective date of the section 111(b) rule must also
be in compliance upon the effective date of the rule. In
contrast, the requirements under the CAA section 111(d) rule do
not become applicable to existing affected EGUs until seven
years after promulgation of the rule, when the interim

620

ACC et al. (Associations) comments at 40, Luminant comments
at 89.
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compliance period begins in 2022, and the final compliance
period does not begin until 2030. Moreover, the compliance
period for the interim requirements is eight years. This later
applicability date and longer compliance period for existing
sources accommodates a requirement that, on average, those
sources have a lower nominal emission limit than the standards
for new or modified sources, which those latter sources must
comply with immediately.
In addition, the timetables for compliance with the section
111(b) and 111(d) rules should be considered in light of the 8year review schedule required for section 111(b) rules under CAA
section 111(b)(1)(B). Under CAA section 111(b)(1)(B), the EPA is
required to “review and, if appropriate, revise” the section
111(b) standards “at least every 8 years.” This provision
obligates the EPA to review the section 111(b) rule for CO2
emissions from new, modified, and reconstructed power plants by
the year 2023. That mandatory review will reassess the BSER to
determine the appropriate stringency for emission standards for
new, modified, and reconstructed sources into the future.
Therefore, for present purposes of comparing the stringency of
the section 111(b) and 111(d) rules, the year 2023 presents an
important point of comparison.
Specifically, as noted above, the section 111(b) standards
apply to new, modified and reconstructed sources beginning in
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2015, while the section 111(d) rule does not take effect until
2022, which happens to fall on the cusp of the 8-year review for
the 111(b) standards.
Even after the section 111(d) rule takes effect in 2022,
the flexibility that this rule offers the states has important
implications for its stringency and for any comparison to the
section 111(b) rule. Although the requirements for the 111(d)
rule begin in 2022, they are phased in, in a flexible manner,
over the 2022-2030 period. That is, states are required to meet
interim goals for the 2022-2029 period by 2029, and the final
goals by 2030, but states are not required to impose
requirements on their sources that take effect in 2022. In fact,
states may, if they prefer, impose business-as-usual emission
standards on their sources that do not require emission
reductions in 2022 and apply emission standards on their sources
that do require emission reductions and that take effect no
earlier than 2023. Moreover, because emission standards may have
an annual compliance period, the states may allow their sources
to delay having to comply with any emission reduction
requirements until the end of 2023.621

621

A state that chooses to allow its sources to remain
uncontrolled through 2023 would still be able to meet its
interim goal by 2029, although it would need to impose more
stringent requirements on its sources over the 2024-2029 period
than it would if it had imposed requirements beginning in 2022.
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Therefore, while the section 111(b) standards apply to new,
modified, and reconstructed sources beginning in 2015, the
section 111(d) standards may not apply to existing sources until
2023.As a result, by 2023 – the year that the 111(b) standards
are required to be reviewed for possible revision – affected
EGUs subject to the 111(d) standards may remain uncontrolled.
Under those circumstances, the 111(d) rule cannot be said to be
more stringent than the 111(b) rule.622
Another reason why the section 111(d) rule cannot be said
to be more stringent than the section 111(b) rule is that for
any individual source, the 111(d) rule is applied more flexibly
and includes more flexible means of compliance. Whereas the
section 111(b) rule entails an emission rate that each affected

It should also be noted that in fact, most states could allow
their sources to remain uncontrolled for 2022 and 2023, and
require controls beginning in 2024, and still be able to meet
their interim goal.
622 In addition, because the section 111(d) requirements are
phased in, states may choose to apply a gradual phase-in of the
reductions. This means that the nominal emission rates for
section 111(d) sources would be significantly less stringent for
the first several years of the compliance period. We estimate
that if states choose to impose the section 111(d) requirements
in a proportional amount each year, beginning in 2022, the
requirements for steam generators by 2022 would result in an
average emission performance rate of 1,764 lb. CO2/MWh net and by
2023, an average emission rate of 1,698 lb. CO2/MWh net (In 2030,
the rate falls to 1,305 lb. CO2/MWh net.) For existing NGCC
units, if states choose to implement the section 111(d)
requirements proportionally, in 2022, the average rate would be
910 lb. CO2/MWh net, and in 2023 it would be 899 lb. CO2/MWh net.
(In 2030, this rate falls to 771 lb. CO2/MWh net.)
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EGU must meet on a 12-month (rolling) basis, the section 111(d)
is more flexible. For example, states may adopt the state
measures approach and refrain from imposing any requirements on
their affected EGUs. In addition, under the section 111(d) rule,
sources have more flexible means of compliance. For an emission
standards approach, depending on the form of the state
requirements (mass-based or rate-based), the state may be
expected to authorize trading of mass-based emission allowances
or rate-based emission credits, and in addition, the purchase of
ERCs. These flexibilities are not included in the section 111(b)
rule, rather, as noted, each new, modified, and reconstructed
EGU must individually meet its emission standard on a 12-month
(rolling) basis. The EPA has frequently required that sources
meet a more stringent nominal limit when they are allowed
compliance flexibility, particularly, the opportunity to
trade.623 In addition, states have the discretion to allow their

623

See, e.g., EPA, “Improving Air Quality with Economic
Incentive Programs,” EPA-452/R-01-001, at 82 (2001) (requiring
that Economic Incentive Programs show an environmental benefit,
such as “reducing emission reductions generated by program
participants by at least 10 percent”), available at
http://www.epa.gov/airquality/advance/pdfs/eipfin.pdf; “Economic Incentive
Program Rules: Final Rule,” 59 FR 16690 (April 7, 1994) (same);
“Certification Programs for Banking and Trading of NOx and PM
Credits for Heavy-Duty Engines: Final Rule,” 55 FR 30584 (July
26, 1990) (requiring that for programs for banking and trading
of NOx and PM credits for gasoline, diesel and methanol powered
engines, all trading and banking of credits must be subject to a

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sources to meet emission standards over a longer time period.
This distinction between the two rules is another reason why the
section 111(d) rule cannot be said to be more stringent in fact
than the section 111(b) rule.
There are other reasons why the section 111(d) rule cannot
be said to be more stringent. With respect to the 111(d) and
111(b) rules for existing and new NGCC units, we note the
following: as explained in the section 111(b) preamble, the
standard for new NGCC units is designed to accommodate a wide
range of unit types, including small units and rapid-start
units, which are a small part of the expected new NGCC
generation capacity. As such, the 111(b) standard (1,000 lb
CO2/MWh gross, which equates to 1,030 lb CO2/MWh net) will not
constrain the emissions of the great majority of expected new
NGCC generation capacity, which is expected to consist of larger
base load units (with a capacity of 100 MW or greater) that are
not intended to cycle frequently. Their initial emissions are
expected to be below 800 lb. CO2/MWh gross, their emissions over
time may be somewhat higher due to equipment deterioration, and
as a result, their PSD permits are expected to include emission

20 percent discount “as an added assurance that the incentives
created by the program will not only have no adverse
environmental impact but also provide an environmental
benefit.”).
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limits at approximately the 800 lb. CO2/MWh gross level. A very
small amount of the new NGCC generation is expected to be small
units (with a capacity of approximately 25 MW) or rapid-start
units. Their initial emissions are expected to be approximately
950 lb. CO2/MWh gross, their emissions over time are expected to
be somewhat higher due to equipment deterioration, and it these
units that the standard of 1,000 lb. CO2/MWh gross is designed to
constrain.624 As a result, the 1,000 lb. CO2/MWh gross limit
applies to all new NGCC units, including the great majority of
the expected new capacity consisting of larger, non-rapid start
units, even though, as just noted, the great majority of the
units are expected to emit at significantly lower emission
rates. The section 111(d) standard for existing sources, in
contrast, is generally expected to constrain existing NGCC units
on average. Moreover, very little of the existing NGCC
generation includes small units or, in particular, rapid-start
units because the latter are a recently developed technology. To
some extent, the same is true for the 111(b) standard for
reconstructed NGCC units. The average NGCC rate was
approximately 850 lb CO2/MWh gross in 2014 and, as a result, most
sources are emitting below the section 111(b) standard for

624

As explained in the 111(b) preamble, any attempt to
subcategorize and assign a lower emission limit to larger, nonrapid start NGCC units could cause market distortions.
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reconstructed sources. For these reasons, too, the 111(b)
standards for new and reconstructed NGCC units cannot be
compared to the 111(d) standards for existing NGCC units.625
Moreover, even if commenters were correct that the section
111(d) requirements for existing sources are more stringent than
the section 111(b) requirements for new sources, that would not,
by itself, call into question the reasonableness of either
standard. The stringency of the requirements for each source
subcategory is, of course, a direct function of the BSER
identified for that source subcategory. In this rulemaking, we
explain the basis for the BSER for existing sources, and why we
do not include certain measures, such as CCS; and in the section
111(b) rulemaking, we explain the basis for the BSER for new
sources, and why we do not include certain measures, such as the
building blocks. As long as the BSER determination is reasonable
and the resulting emission limits meet other applicable
requirements, those emission limits are valid, even if the one
for new sources is less stringent than the one for existing
sources. No provision in section 111, nor any statement in its
legislative history, nor any of its case law, indicates that the

625

The section 111(b) standards for modified and reconstructed
steam generation units are generally lower than the emission
rates of existing stream generation units, but for the reasons
explained earlier, those standards cannot be compared to the
section 111(d) standards for existing steam generation units.
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standards for new sources must be more stringent than the
standards for existing sources.
C. Building Block 1—Efficiency Improvements at Affected CoalFired Steam EGUs
The first category of approaches to reducing CO2 emissions
at affected fossil fuel-fired EGUs consists of measures that
improve heat rate at coal-fired steam EGUs. Heat rate
improvements are changes implemented at an EGU that increase the
efficiency with which the EGU converts fuel energy to electric
energy, thereby reducing the amount of fuel needed to produce
the same amount of electricity and consequently lowering the
amount of CO2 produced as a byproduct of fuel combustion. Heat
rate improvements yield important economic benefits to affected
EGUs by reducing their fuel costs.
An EGU’s heat rate is the amount of fuel energy input
needed (Btu, higher heating value basis) to produce 1 kWh of net
electrical energy output.626 In 2012, the generation-weighted
average annual heat rate of the 884 coal-fired EGUs included in
EPA’s building block 1 analysis was approximately 9,732 Btu per

626

Typically, the units of measure used for heat rate (e.g.,
Btu/kWh-net) indicate whether a given value is based on the
gross output or net output. Net heat rate is always higher than
gross heat rate; in coal-steam units, net heat rate can be 5–10%
higher than gross heat rate.

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gross kWh.627 Because an EGU’s CO2 emissions are driven primarily
by the amount of fuel consumed, improving (i.e., decreasing)
heat rate at a coal-fired EGU inherently reduces the carbonintensity of generation.
As discussed above in section V.A and in the June 2014
proposal,628 it is critical to recognize that affected coal-fired
EGUs operate in the context of the integrated electricity
system. Because of this reality, applying building block 1 in
isolation can result in a “rebound effect” that undermines the
emissions reductions otherwise achieved by heat rate
improvements. As already noted, the building block 1 measures
described below cannot by themselves constitute the BSER because
the quantity of emission reductions achieved -- which is a
factor that the courts have required EPA to consider in
determining the BSER -- would be of insufficient magnitude in
the context of this pollutant and this industry. The potential
rebound effect, if it occurred, would exacerbate the
insufficiency of the emission reductions. However, applying
building block 1 in combination with other building blocks can
address this concern for the reasons stated in section V.A.4.

627

Similarly, within each interconnection, the generationweighted average annual heat rates for those coal-fired EGUs in
our study population were 9,700 Btu per gross kWh (Eastern);
9,888 Btu per gross kWh (Western); and 9,789 Btu per gross kWh
(Texas).
628 See, e.g., 79 FR 34830, 34859 (June 18, 2014).
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We conducted several analyses to assess the potential for
heat rate improvements from the coal-fired EGU fleet. As in the
proposal, we employed a unit-specific approach that compared
each EGU’s performance against its own historical performance in
lieu of directly comparing an EGU’s performance against other
EGUs with similar characteristics. Accordingly, as described
below, our method effectively controls for the characteristics
and factors of an EGU that typically remain constant over time
(e.g., a unit is unlikely to dramatically increase or decrease
in size). Our methodology for determining the amount of heat
rate improvement appropriately included in the BSER as building
block 1 is discussed in the next section, below.
1. Summary of measures comprising the BSER in building block 1
a. Measures under building block 1 - heat rate improvements. In
finalizing the building block 1 portion of this rule, we
considered over a thousand individual comments from the public,
including individual EGUs and state agencies, on heat rate
improvement, which are discussed below and also in the responses
to comments document and the GHG Mitigation Measures TSD for the
CPP Final Rule [Docket ID No. EPA-HQ-OAR-2013-0602]. Based on
these public comments, we have refined the statistical analyses
used in the proposal to identify the potential heat rate
improvement that can be achieved on average by affected coalfired EGUs.
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In the proposal, we used two approaches to analyze the
variability of an EGU’s gross heat rate using a robust dataset
comprised of 11 years of hourly gross heat rate data for 884
coal-fired EGUs -- over 11 million hours of data collected
between 2002 and 2012. The foundation of our first approach was
an analysis of the variability of each EGU’s gross heat rate,
which was accomplished in large part by grouping each EGU’s
hourly data by similar ambient temperature and capacity factor
(i.e., hourly operating level as a percentage of nameplate
capacity) conditions. The second approach analyzed the
difference between an EGU’s average gross heat rate and its best
historical gross heat rate performance. We proposed that, on a
nationwide basis, affected coal-fired EGUs should be able to
achieve 6-percent heat rate improvement: 4-percent improvement
from best practices, and an additional 2-percent improvement
from equipment upgrades.
We received many comments asserting that the 11-year
dataset we had used to determine the 4-percent best practices
figure likely reflected some portion of the 2-percent equipment
upgrades figure we had separately identified. Accordingly, these
commenters claim that the EPA double-counted equipment upgrades
in arriving at the full estimate of 6-percent heat rate
improvement. Commenters also noted the difficulty, in some
cases, of determining whether a heat rate improvement measure is
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an “equipment upgrade” or “best practice,” such as optimizing
soot blowing with intelligent systems, using CO monitors for
optimizing combustion, or applying air heater and duct leakage
controls.
As noted below in sections V.C.1.b and V.C.3, the EPA
acknowledges that some equipment upgrades implemented by EGUs
during the 11-year study period are reflected in the hourly heat
rate data. Therefore, we made two refinements to our analyses of
heat rate improvement potential. First, we refined our
statistical approaches to use each EGU’s gross heat rate from
2012 -- the final year of the 11-year study period -- as the
baseline for calculating heat rate improvement potential. By
comparing each EGU’s best historical gross heat rate with its
2012 gross heat rate, our analyses account for the enduring
effects on heat rate of any equipment upgrades or best practices
that an EGU implemented during the study period. Heat rate
improvement measures that an EGU maintains in 2012 are reflected
in that baseline, and thus are not treated as evidence that the
EGU can further improve heat rate. Additionally, in part because
of limitations on the information available to us regarding
which equipment upgrades have been or could be implemented at
individual EGUs, as well concerns about double-counting, we have
conservatively decided not to add a separate equipment upgrade
component to our estimate of heat rate improvement potential.
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Nonetheless, we remain confident that additional equipment
upgrades (including measures that are unambiguously equipment
upgrades, such as turbine overhauls) are possible at many coalfired EGUs, as supported by numerous commenters, the Sargent &
Lundy study629 (S&L) and other industry reports and studies. Many
of these reports and studies are referenced in the TSD developed
for the proposed rule, as well as in the GHG Mitigation Measures
TSD supporting the final CPP.
Several commenters criticized the fact that the proposal
assessed potential heat rate improvement on a nationwide basis.
These commenters suggested instead that we narrow the geographic
scope of our analysis, generally identifying a state-by-state
approach as a preferred alternative. In light of commenters’
concerns about using a single nationwide approach, as well as
for reasons described in Section V.A and elsewhere in this
preamble, the final rule assesses potential heat rate
improvement regionally, within the Eastern, Western and Texas
Interconnections.630

629

Sargent and Lundy 2009, Coal-Fired Power Plant Heat Rate
Reductions, SL-009597, Final Report, January 2009, Docket ID No.
EPA–HQ–OAR–2013–0602-XXXX, available at:
http://www.epa.gov/airmarkets/documents/ipm/coalfired.pdf.
630 The geographic area within the Texas Interconnection
generally corresponds to the portion of the state of Texas
covered by ERCOT (the Electric Reliability Council of Texas).
Additional portions of the state of Texas are located within the
Eastern and Western Interconnections.
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For the final rule, we performed several analyses to
determine what heat rate improvement was achievable in each
interconnection from best practices and equipment upgrades. As
in the proposal, these analyses used the 11-year dataset of EGU
hourly gross heat rate data from 2002 to 2012. As discussed
further in the GHG Mitigation Measures TSD, our reliance on
these gross heat rate data was reasonable given that (1) these
data are the only comprehensive data available to the EPA, and
(2) heat rate is proportional to CO2 emission rate.
As in the proposal, we used more than one analytical method
to evaluate the opportunity for EGUs to reduce their CO2
emissions through heat rate improvements. Our final methodology
uses three different analytical approaches based on refinements
of the two approaches described at the proposal stage. We call
these final approaches: (1) the “efficiency and consistency
improvements under similar conditions” approach; (2) the “best
historical performance” approach; and (3) the “best historical
performance under similar conditions” approach. As described
below and in the GHG Mitigation Measures TSD, each approach
provides an independently reasonable way to estimate the
potential for heat rate improvements by EGUs in each region.
However, rather than select a potential heat rate improvement
value supported by one or only some of these independently
reasonable analytical approaches, we conservatively based our
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final determination for each region on the value for that region
supported by all three approaches.
The “efficiency and consistency improvements under similar
conditions” approach is a slight refinement of an approach
discussed at length in the proposal. As in the proposal, we
distributed each hour of gross heat rate data for each EGU into
a matrix comprised of 168 bins, based on the ambient temperature
and hourly capacity factor of the EGU at the time that hour of
gross heat rate data was generated. Each bin represented a 10degree Fahrenheit (oF) range in ambient temperature (from -20oF
to greater than 110oF), and a 10-percent range in capacity factor
(from 0 percent to greater than 110 percent631). Thus, for
example, one bin would contain all of an EGU’s hourly gross heat
rate data generated during the 11-year study period while that
EGU was operating at 80- to 89-percent capacity while ambient
temperatures were between 70oF and 79oF.
As we explained at proposal and as discussed further in the
GHG Mitigation Measures TSD, ambient temperature and hourly
capacity factor are important conditions that influence heat
rate at individual EGUs. By separating the EGU-specific data
into bins based on these variables, and only directly comparing

631

Because an EGU’s rated nameplate capacity is based on a
maximum continuous rating, EGUs may operate for periods of time
“over” 100 percent of their capacity factor. The EPA’s dataset
of hourly operating data reflected some such instances.
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data within a bin, we were largely able to control for the
influence of those variables on an EGU’s heat rate. Accordingly,
having controlled for these two external factors, and having
already controlled for unit-specific factors affecting heat rate
by analyzing the data for each EGU in isolation, we are
confident that the remaining variation in each bin’s data was
primarily driven by factors under the EGU operator’s control.
After allocating an individual EGU’s data across the bins,
we next established a benchmark for each bin based on the best
hourly gross heat rate accounting for outliers (i.e., we set the
benchmark at the 10th percentile hourly gross heat rate value)
during any consecutive two-year period.632 We compared the hourly
gross heat rate data within each bin to the EGU’s benchmark
value. Similar to the proposal, within each bin we assessed the
effect on heat rate of improving the consistency of that EGU by
reducing hourly gross heat rate values that were greater than
the benchmark by a percentage of the distance between each of
those higher hourly values and the benchmark.633 We refer to this
percentage improvement value as the “consistency factor,”

632

As described below, we also conducted this regionalized
approach using a benchmark based on the best hourly gross heat
rate accounting for outliers during any one-year period. See the
GHG Mitigation Measures TSD supporting the final CPP for more
details.
633 In the proposal, we used heat input values rather than gross
heat rate values. See the GHG Mitigation Measures TSD supporting
the final CPP for more details.
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because applying it results in values for heat rate that are
more consistent with the EGU’s benchmark for that bin. In our
proposal we evaluated the heat rate improvement that would
result from applying consistency factors of 10, 20, 30, 40 and
50 percent of the distance between those less-efficient hourly
gross heat rate values and the benchmark; using engineering
judgment, we selected a consistency factor of 30 percent, which
produced results comparable to those obtained using other
approaches for analyzing heat rate. For our final analysis under
this approach, we refined the consistency factor based on a
statistical assessment of the overall variability of heat rate
in that EGU’s region, as described in the GHG Mitigation
Measures TSD.634 As in the proposal, we applied the consistency
factor to each bin of each EGU’s hourly gross heat rate data,
and averaged the result across all bins in that EGU’s matrix.
The net result was an improved gross heat rate reflecting what
that EGU would have achieved between 2002 and 2012 if, under
certain ambient temperature and capacity factor conditions, the

634

For the Eastern Interconnection, the consistency factor is
38.1 percent. For the Western Interconnection, the consistency
factor is 38.4 percent. For the Texas Interconnection, the
consistency factor is 37.1 percent. Conducting this analysis on
a nationwide basis would have resulted in application of a
consistency factor of 38.2 percent. As described below, we also
conducted this regionalized approach using consistency factors
determined based on one-year figures. See the GHG Mitigation
Measures TSD supporting the final CPP for more details.
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EGU had improved its gross heat rate during less-efficient hours
to be slightly more consistent with the relevant benchmark
value. We then compared the improved gross heat rate for each
EGU to its actual 2012 historical average gross heat rate. We
chose 2012 as the year of comparison because 2012 was the latest
year for which the EPA had data at the time of the proposal, and
because using the most recent data reflects the EGU’s current
operating level and accounts for improvements the EGU may have
undertaken over the 11-year study period.
Applying this procedure to all units in our database and
averaging the generation-weighted results, we determined that it
would be reasonable to conclude that, through application of
best practices and equipment upgrades, EGUs on average are at
least capable of reducing their CO2 emissions by improving heat
rate 4.3 percent in the Eastern Interconnection, 2.1 percent in
the Western Interconnection, and 2.3 percent in the Texas
Interconnection.635
In addition to the statistical approach described above, we
employed a “best historical performance” approach refined from

635

Conducting this analysis on a nationwide basis would have
resulted in a finding that EGUs nationwide are capable on
average of reducing their CO2 emissions by improving heat rate
4.0 percent. See the table in this section and the GHG
Mitigation Measures TSD for the results of this approach using
benchmarks and consistency factors based on one-year averages.
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the proposal, which compared each EGU’s best two-year rolling
average gross heat rate to that EGU’s 2012 average annual gross
heat rate.636 We then calculated the differences across all EGUs
in a region to determine the potential heat rate improvement
that would result if, in 2012, each EGU had performed at the
best two-year rolling average gross heat rate that the EGU
achieved between 2002 and 2012. Under this analysis of
historical gross heat rate, we determined that it would be
reasonable to conclude that the average heat rate improvement
potential from best practices and equipment upgrades is at least
4.9 percent in the Eastern Interconnection, 2.6 percent in the
Western Interconnection and 3.1 percent in the Texas
Interconnection.637
Finally, we employed the “best historical performance under
similar conditions” approach, which combines aspects of the
other two approaches. First, as with the “efficiency and
consistency improvements under similar conditions approach,” we

636

As described below, we also conducted this regionalized
approach using each EGU’s best one-year rolling average. See the
GHG Mitigation Measures TSD supporting the final CPP for more
details.
637 Conducting this approach on a nationwide basis would have
resulted in a finding that EGUs nationwide are capable on
average of reducing their CO2 emissions by improving heat rate
4.6 percent. As described below, we also conducted this
regionalized approach using one-year averages. See the GHG
Mitigation Measures TSD supporting the final CPP for more
details.
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grouped hourly data for each EGU by ambient temperature
conditions and hourly capacity factor. Next, we calculated each
EGU’s best two-year gross heat rate for each of the 168 ambient
temperature-capacity factor bins.638 Similar to the “best
historical performance” approach, to calculate the potential
heat rate improvement, the EPA then compared each EGU’s 2012
gross heat rate for each of the ambient temperature-capacity
factor bins to the EGU’s best two-year gross heat rate for the
corresponding bin. Accounting for differences in ambient
temperature and capacity factor, we determined that under this
analytical approach the average heat rate improvement potential
from best practices and equipment upgrades was at least 5.3
percent in the Eastern Interconnection, 3.1 percent in the
Western Interconnection and 3.5 percent in the Texas
Interconnection.639
As in the proposal, we additionally analyzed the data with
our analytical approaches using one-year averaging periods in

638

As described below, we also conducted this approach using
one-year averages for each EGU instead of two-year averages. See
the GHG Mitigation Measures TSD supporting the final CPP for
more details.
639 Conducting this approach on a nationwide basis would have
resulted in a finding that EGUs nationwide are capable on
average of reducing their CO2 emissions by improving heat rate
5.0 percent.
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place of the two-year averaging periods described above.640
However, because our conservative overall methodology adopts the
lowest value that is identified for a region by any of our
reasonable analytical approaches, the inherently less
conservative results obtained with one-year averaging periods
(reproduced below) could not influence the outcome of our
methodology as a whole. Overall, applying these three analytical
approaches resulted in six heat rate improvement values
generated for each region, each of which represents a reasonable
estimate of the potential for heat rate improvements by EGUs in
that region. Those values ranged from 4.3 to 6.9 percent in the
Eastern Interconnection, from 2.1 to 4.7 percent in the Western
Interconnection, and from 2.3 to 4.9 percent in the Texas
Interconnection. In all three regions, the most conservative
values were generated using the “efficiency and consistency
improvements under similar conditions” approach with two-year
averaging periods and consistency factors. As shown in Table 6,
the values produced by that approach were the minimum values for
each region produced by any of the three approaches:
Table 6. Heat Rate Improvement Potential by Region and Averaging
Period.
Analytical approach

Heat rate improvement potential
(percent)

640

The GHG Mitigation Measures TSD describes in more detail our
rationale for using one- and two-year averaging periods in our
analytical approaches and methodology as a whole.
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by region and averaging period
Western

Texas

Eastern

1
year

2
year

1
year

2
year

1
year

2
year

Efficiency and
consistency improvements
under similar conditions

3.5%

2.1%

3.7%

2.3%

5.6%

4.3%

Best historical
performance

4.1%

2.6%

4.2%

3.1%

6.3%

4.9%

Best historical
performance under
similar conditions

4.7%

3.1%

4.9%

3.5%

6.9%

5.3%

Accordingly, we have concluded that a well-supported and
conservative estimate of the potential heat rate improvements
(and accompanying reductions in CO2 emission rates) that EGUs can
achieve on average through best practices and equipment upgrades
is a 4.3-percent improvement in the Eastern Interconnection, a
2.1-percent improvement in the Western Interconnection and a
2.3-percent improvement in the Texas Interconnection. The
decision to use these values as the building block 1 potential
in each region is based on the weight of evidence that these are
conservative values; for each region, each of the three
analytical approaches in our methodology supports our
determination that the heat rate improvement value we selected
is achievable. Taken individually, each approach provides an
independently reasonable estimate of the potential for heat rate
improvement. Furthermore, as described in the GHG Mitigation
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Measures TSD, these approaches are conservative on even an
individual basis because they do not account for the full extent
of heat rate improvements available through additional equipment
upgrades and best practices. Some EGUs may have faced
difficulties achieving significant heat rate improvement in the
past and EGU owners may feel they face challenges in the future.
Nevertheless, our methodology as a whole indicates that, on
average, coal-fired EGUs can at least achieve the percentage
heat rate improvement selected for their region through
application of best practices and some of the available
equipment upgrades. A more detailed discussion of the EPA’s
analysis in determining the heat rate improvement potential for
existing coal-fired EGUs may be found in the GHG Mitigation
Measures TSD supporting the final CPP.
No affected coal-fired EGU is specifically required to
improve heat rate by any amount as a result of this rule.
Rather, as described in section VI, the potential for heat rate
improvement is used to determine a CO2 emission performance rate.
Those affected EGUs that have done the most to reduce their heat
rate will tend to be closer to that CO2 emission rate. In this
sense, our approach to determining potential CO2 reductions

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through heat rate improvements is similar to the way EPA
ordinarily approaches standards of performance.641
In this final analysis, we do not delineate what proportion
of the potential heat rate improvement can be expected from
equipment upgrades versus best practices;642 only that these heat

641

To give an illustrative example, imagine a population of
sources that emit Pollutant X. Half of the sources emit
Pollutant X at 2500 lbs/hour, while the other half of the
sources have scrubbers installed that reduce their emission
rates to 1500 lbs/hour. Because the sources are evenly divided
between those with and without scrubbers, the average emission
rate for the population as a whole is 2000 lbs/hour. In this
hypothetical, EPA decides to base requirements on the emission
rate achievable through use of a scrubber, meaning that all
sources will have to meet an emission rate of 1500 lbs/hour.
Because the fleet as a whole has an average emission rate of
2000 lbs/hour, it would be accurate for EPA to say that the
fleet as a whole can reduce its emission rate by 25 percent -from 2000 lbs/hour on average (only half the sources with
scrubbers), to 1500 lbs/hour on average (all the sources with
scrubbers). This description of what is possible for the fleet
as a whole -- a 25-percent reduction in emission rate -- should
not be misinterpreted as a statement that every individual
source is capable of further reducing its emissions by 25
percent. The sources that have already installed scrubbers, and
which are thus already operating at 1500 lbs/hour, would not be
required to further improve their emission rate.
642 Examples of the many types of best practices and equipment
upgrades available to coal-fired EGUs include adopting sliding
pressure operation to reduce turbine throttling losses;
installing intelligent sootblowing system software; upgrading
the combustion control/optimization system; installing heat rate
optimization software; installing a production cost optimization
program that benchmarks plant thermal performance using
historical plant data; establishing centralized remote
monitoring centers with thermal performance software for
monitoring heat rates systemwide; repairing steam and water
leaks; automating steam system drains; performing an on-site
performance appraisal to identify potential areas for improved
performance; developing heat rate improvement procedures and
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rate improvements are achievable in the regions through a
combination of these methods. As discussed in section V.C.3
below, we believe that a single heat rate improvement goal for
each region incorporating both best practices and upgrades,
based on the 11 years of hourly heat rate data for 884 coalfired EGUs available to the EPA, is a reasonable approach that
is supported by our analysis, and is particularly conservative
given that it does not account for the full range of heat rate
improvements achievable through additional equipment upgrades
and best practices.
The performance rates quantified in section VI, below,
reflect the region-specific values for heat rate improvement.
Although the performance rates are based on the least stringent
overall performance rate determined to be reasonable for any
region, and are thus based in part on the percentage heat rate
improvement identified for the region, this rule does not itself

training O&M staff on their use; aligning the cycle to isolate
or capture high-energy fluid leakage from the steam cycle;
repairing utility boiler air in-leakage; performing utility
boiler chemical cleaning; installing condenser tube cleaning
system; retubing condenser; repairing/upgrading flue gas
desulfurization systems; cleaning air preheater coils;
adjusting/replacing worn air heater seals; replacing corroded
air heater baskets; replacing feed pump turbine steam seals;
overhauling high pressure feedwater pumps; installing fan and
pump variable speed/frequency drives; upgrading turbine steam
seals; upgrading all turbine internals; and installing coal
drying systems. These and additional heat rate improvement
measures are discussed further in the GHG Mitigation Measures
TSD for the CPP Final Rule.
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require any specific EGU to implement measures resulting in a
specific percentage heat rate improvement. Rather, the
percentage heat rate improvement value is merely reflected in
the CO2 emission performance rates and corresponding mass-based
and rate-based state goals. Each state has the flexibility to
develop a plan that achieves those CO2 performance rates or
emission goals by assigning the emission standards the state
considers appropriate to its affected coal-fired EGUs.
Similarly, depending on the content of the applicable plan,
affected EGUs may achieve their emission standards through use
of any of the building block measures described in this rule or
any other measures permitted under the plan.
b. Changes from the proposal. In the proposed rule, we
determined that building block 1 measures could on average
achieve a 6-percent heat rate improvement from coal-fired EGUs
in the U.S. based on a 4-percent heat rate improvement from
implementation of best practices and a 2-percent heat rate
improvement from equipment upgrades. Based on comments received
and refinements made to our methodology for determining
potential heat rate improvement from the hourly gross heat rate
dataset of 884 coal-fired EGUs, we have conducted our analysis
on a regional basis and reduced the overall expected percent
heat rate improvement for coal-fired EGUs to 4.3 percent in the
Eastern Interconnection, 2.1 percent in the Western
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Interconnection, and 2.3 percent in the Texas Interconnection.643
These values reflect improvements achievable through both best
practices and equipment upgrades because, as described above, we
also no longer include a separate estimation of the potential
heat rate improvement achievable solely through equipment
upgrades.
We received comments on our proposed statistical
methodology for determining the CO2 emission reductions
opportunities achievable by coal-fired EGUs through heat rate
improvements. We have closely reviewed those comments and, for
the final rule, have made refinements to our methodology, as
described above and explained in more detail in the GHG
Mitigation Measures TSD supporting the final CPP.
In the final rule, the EPA extends the implementation
deadline from 2020 to 2022. This additional time will be helpful
to the states seeking to conduct more targeted analyses of the
nature and extent of heat rate improvements that specific coalfired EGUs can make, considering specific recent improvements or
upgrades, planned retirements of older coal-fired EGUs, and
other relevant considerations. The extended deadline will also
provide additional time to accommodate changes to heat rate

643

Had the EPA maintained a nationwide approach to analyzing the
potential reductions under building block 1, the result would
have been 4.0 percent.
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monitoring methods at EGUs and for the installation of new
pollution controls that comply with other rules, as discussed
below in the summary of key comments.
2. Costs of heat rate improvements
By definition, any heat rate improvement made by EGUs for
the purpose of reducing CO2 emissions will also reduce the amount
of fuel that EGUs consume to produce the same electricity
output. The cost attributable to CO2 emission reductions,
therefore, is the net cost of achieving heat rate improvements
after any savings from reduced fuel expenses. As summarized
below, we estimate that, on average, the savings in fuel cost
associated with the percentage heat rate improvements we
identified for each region would be sufficient to cover much of
the associated costs. Accordingly, the net costs of heat rate
improvements associated with reducing CO2 emissions from affected
EGUs are relatively low. We recognize that this cost analysis
will represent the costs for some EGUs better than others
because of differences in individual circumstances. We further
recognize that reduced generation from coal-fired EGUs due to
the implementation of other building block measures would tend
to reduce the fuel savings associated with heat rate
improvements, thereby raising the effective cost of achieving
the CO2 emission reductions from the heat rate improvements.
Nevertheless, we still expect that a significant fraction of the
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investment required to capture the technical potential for CO2
emission reductions from heat rate improvements would be offset
by fuel savings, and that the net costs of implementing heat
rate improvements as an approach to reducing CO2 emissions from
affected EGUs are reasonable. Even if we conservatively estimate
that EGUs will largely rely on equipment upgrades rather than
cheaper best practices to reduce heat rate, those reductions can
generally be achieved at $100 or less per kW, or approximately
$23 per ton of CO2 removed, as described in detail in the GHG
Mitigation Measures TSD supporting the final CPP.644 Depending on
the balance between equipment upgrades and best practices,
improving heat rate would even result in a net savings for some
EGUs.
Based on the analyses of technical potential and cost
summarized above and in Chapter 2 of the GHG Mitigation Measures
TSD, we find that heat rate improvements of 4.3, 2.1 and 2.3
percent are reasonable and conservative estimates of what coalfired EGUs in the Eastern, Western and Texas Interconnections,
respectively, can achieve at a reasonable cost.
3. Response to key comments

644

The $100/kW cost figure from the proposal is now particularly
conservative because it included the cost of significant
equipment upgrades that improve heat rate, whereas building
block 1 is now largely quantified based on low- or no-cost best
practices, with a smaller portion of the remainder comprised of
equipment upgrades.
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Many commenters said that the EPA should have
subcategorized by EGU design or operating characteristics for
purposes of evaluating potential heat rate improvements under
building block 1.
Several studies categorize EGUs broadly by capacity,
thermodynamic cycle, fuel rank or other characteristics. We
considered subcategorizing the EGUs by their design and fuel
characteristics under building block 1. Although grouping by
categories does not account for all of the factors that may
affect heat rate, it can provide a useful way of understanding
the operating profile of classes of coal-fired EGUs and the
fleet as a whole. However, we have declined to subcategorize
among affected coal-fired EGUs for both technical and practical
reasons. First, as discussed above, our assessment of heat rate
improvement potential uses a unit-specific data methodology that
compares each EGU’s performance against its own historical
performance. By substantially basing our analysis on these unitspecific assessments, we inherently factor in the effect of
numerous design conditions. We also conducted a regression
analysis that evaluated the effect of numerous factors on heat
rate, and found that subcategorizing would generally make little
difference in our analysis. Additionally, subdividing the EGUs
into subcategories would reduce the quantity of EGUs used to
calculate each average, which would increase the influence of
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random and atypical variations in the data on the overall
averages, and would thus decrease our confidence in the results.
Furthermore, as a practical matter, states are free to apportion
reductions in a way that reflects any subcategories of their
choosing when determining the emission standards for individual
affected EGUs. Additionally, commenters assert that because
building block 1 is calculated on an average basis, some
affected EGUs will have greater potential than others to reduce
CO2 emissions through heat rate improvements. If an affected EGU
cannot meet its particular emission standard because it has
below-average potential to reduce emissions through heat rate
improvements, then in instances where the EGU’s state plan
allows emissions trading, the EGU can acquire credits or
allowances from affected EGUs that have above-average potential.
For a further discussion of our reasonable decision not to
subcategorize among coal-fired EGUs for purposes of determining
building block 1, see the GHG Mitigation Measures TSD supporting
the final CPP.
Many commenters told the EPA that EGUs already have
undertaken significant efforts to operate efficiently to provide
reliable electric service at the lowest reasonable cost; that
they believe they cannot significantly improve heat rate; that
best practice maintenance activities are performed on a daily
basis, including during maintenance outages that allow for the
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inspection, cleaning and repair of all equipment; that extensive
capital investments have been made to install state-of-the art
equipment and replace equipment that is beyond repair; and that
their employees continuously monitor and control operating
levels in the combustion process to maintain maximum combustion
of fuel and to avoid wasting available heat energy. In summary,
these commenters say they have expended considerable effort and
resources to maintain peak boiler efficiency at all times and,
therefore, the 6-percent heat rate improvement proposed for
building block 1 is unreasonable to apply to EGUs across the
board; the EPA should develop a rule that allows treatment of
affected EGUs on a case-by-case basis.
We commend the efforts of those who strive to operate and
maintain EGUs in the best possible manner to minimize heat loss
and CO2 emissions. This rule does allow for treatment of EGUs on
a case-by-case basis. States may believe that individual
considerations are appropriate in some cases and, accordingly,
we have purposely allowed states to make decisions about how to
implement specific CO2 reductions. Our determinations of 4.3-,
2.1- and 2.3-percent heat rate improvement for EGUs in the
Eastern, Western and Texas Interconnection, respectively, are
conservatively based on the lowest value identified by any of
our reasonable statistical analyses. If states choose to set
limits on individual affected EGUs based in part on the
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availability of heat rate improvements, the states are free to
assess heat rate improvements on a more targeted, case-by-case
basis that takes into account an EGU’s previous heat rate
improvement efforts, or lack thereof. The fact that states (or
EGUs complying with state requirements) can make case-by-case
decisions about how to achieve goals does not contradict our
conservative estimates -- which are based on millions of hours
of operating data reported to the EPA by EGUs -- of how much
EGUs are capable of improving their heat rate in each region
overall. Opportunities to improve heat rate abound for affected
EGUs as a whole, as evidenced by the fact that the approaches in
our statistical methodology each included a comparison of an
EGU’s historical heat rate to its 2012 heat rate. Our estimates
of the potential heat rate improvement are additionally
conservative because they are based purely on comparisons among
historical gross heat rate data, and thus do not reflect
available, cost-effective opportunities to improve heat rate
that affected EGUs never implemented during the study period.
Finally, to the extent that an affected EGU was in 2012 fully
implementing every possible best practice for improving heat
rate, it may still be capable of improving heat rate through
equipment upgrades.
Other commenters said that a 6-percent heat rate
improvement overall is too high; that the heat rate improvement
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from upgrades are double-counted within the data used to
determine heat rate improvements from best practices; and that
the 2-percent heat rate improvement specifically for upgrades
was inappropriately based on “conceptual” improvements from only
one study.
We have reduced the 6-percent heat rate improvement from
the proposed rule to three regionalized figures of 4.3 percent
(Eastern), 2.1 percent (Western) and 2.3 percent (Texas), as
discussed above and described in detail in the GHG Mitigation
Measures TSD supporting the final CPP. We expect that, on
average, affected coal-fired EGUs can at a minimum improve heat
rate in these amounts by implementing best practices and
equipment upgrades identified in the GHG Mitigation Measures
TSD. These overall heat rate improvement figures do not include
an estimated percent heat rate improvement attributable
specifically to upgrades. Although we are no longer including in
our calculation of building block 1 a separate 2-percent heat
rate improvement attributable solely to equipment upgrades, this
decision is not because we believe that our initial 2-percent
assessment of equipment upgrades was incorrect. To the contrary,
the information presented in the S&L study was similar to that
in other industry reports and studies -- many of which were
referenced in the proposal TSD -- describing potential heat rate
improvements at EGUs from all types of equipment upgrades.
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However, we recognized that the possibility existed that some
limited portion of that 2 percent was also reflected in our
statistical analyses of historical gross heat rate data. In
order to ensure that our methodology did not double-count an
indeterminate amount of heat rate improvement available through
equipment upgrades, we conservatively set aside the entire
additional 2 percent attributable solely to equipment upgrades.
Accordingly, we determined the amount of potential heat rate
improvement in the BSER solely from the heat rate analyses
described above, which account for improvements through best
practices and equipment upgrades that were at some point
achieved by an EGU, but not for the full range of best practices
and equipment upgrades that are actually available.
Commenters also said that the EPA did not look at important
factors that affect heat rate such as coal type, boiler type,
cooling water temperature, age, nameplate capacity or the use of
post-combustion pollution controls.
Our statistical methodology compared each unit to its own
historical performance and, therefore, largely accounts for the
effects that a unit’s design or fuel characteristics would have
on heat rate. As discussed above, our methodology used hourly
data from 884 units over an 11-year period (2002-2012) and
compared the variability in the heat rate of each individual
unit to that unit’s own performance. By assessing potential heat
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rate improvement by first looking at unit-specific data, our
methodology inherently factors in the possible effects of design
and fuel characteristics (e.g., coal type, boiler type,
nameplate capacity, age, cooling water system, air pollution
controls) on heat rate and heat rate variability.
Although cooling water temperature likely plays an
important role in a coal-fired EGU’s heat rate, as stated by
commenters, there are no consistent quality-assured hourly
cooling water temperature data available to the EPA. However, in
an effort to determine the potential effect of cooling water
temperature on heat rate, we looked at a sample of 45 coal-fired
EGUs at 19 facilities for which we had hourly surface water
temperature data (used as a surrogate for cooling water) from
monitors located nearby and upstream of cooling water intake
points. Our analysis found that surface water temperature did
explain some of the variation in heat rate, but that surface
water temperature is strongly correlated with ambient air
temperature -- a variable we did control for in our methodology.
Because of the strong correlation between ambient air
temperature and surface water temperature, the availability of a
comprehensive dataset of nationwide hourly ambient air
temperature, and the similar explanatory power of surface water
temperature and ambient air temperature, it is unlikely that
separately addressing cooling water temperature would
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significantly change the results. Rather, we are confident that
our use of hourly ambient air temperature in our analyses
adequately addressed any significant impact of cooling water
temperature. See the GHG Mitigation Measures TSD supporting the
final CPP for further details about this analysis. As described
further in that TSD, the other potentially relevant variables
for which we did not directly control are unlikely to
significantly affect the average heat rate.
Commenters said that the heat rate improvement attributable
to upgrades will degrade over time or require repeated and
costly further upgrades.
We are aware that some heat rate improvement measures can
degrade over time. Like most power plant components, some heat
rate improvement technologies require maintenance in order to
sustain their efficacy over time. Therefore, to avoid
degradation, personnel at EGUs will need to diligently apply
“best practices” on a regular basis, a practice that numerous
commenters say is standard operating procedure. The S&L study
includes estimates of associated O&M costs for each heat rate
improvement method that is discussed. As we explained in the
proposal, the related O&M costs of diligently applying best
practices are relatively small compared to the associated
capital costs and would, therefore, have little effect on the
economics of heat rate improvements.
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Commenters stated that heat rate improvement should be set
on a basis that is narrower than nationwide -- for example,
state-by-state or unit-by-unit.
The EPA did not propose and is not finalizing a rule that
sets heat rate improvement goals for individual states or for
individual coal-fired EGUs. Instead, in the approved state plans
developed under this rule, each state will set the emission
standards for its various coal-fired EGUs. In doing so, the
state may take into account its own view of the amount of heat
rate improvement needed (if any) at specific EGUs, and may look
to the EPA’s analysis of heat rate improvement potential in the
applicable region as a guide, while keeping in mind the CO2
emission performance rate. This broad-based approach is
consistent with the traditional rules evaluating the potential
for emission reductions on a source-category basis, and is
consistent with the broader goal-setting purpose of this rule.
Furthermore, the final rule establishes a uniform national
performance rate based on the least stringent regional
performance rate calculated with the building blocks.
Accordingly, affected EGUs in regions not setting the national
level have emission reduction opportunities beyond those
reflected in the applicable performance rate.
The heat rate improvement measures comprising building
block 1 would ordinarily be evaluated on a nationwide basis.
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However, in this instance there are two good reasons to
calculate building block 1 on a regionalized basis. First, a
regionalized approach is consistent with the EPA’s approach to
determining the other building blocks. For building block 1,
this means that the heat rate improvement should reflect only as
much potential for emission reduction from building block 1 as
our analyses indicate can be achieved on average by the affected
coal-fired EGUs in that region. This ensures that the BSER for
each region is representative of the characteristics and
opportunities available within that region, rather than a less
logical combination of opportunities in the region and
opportunities nationwide. Second, a regionalized approach
provides a more representative average of the potential heat
rate improvement that EGUs in a given region are capable of
achieving. The populations of affected coal-fired EGUs in each
region differ in some respects, as discussed in the GHG
Mitigation Measures TSD, and the more nuanced regionalized
approach thus indirectly accounts for some of those systemic
differences. For these and other reasons described in Section
V.A. of the preamble with respect to the BSER as a whole, we
have reasonably based building block 1 on a regionalized
approach. Applying this regionalized approach to building block
1 strikes an appropriate balance between the proposed nationwide
analysis and commenters’ suggested state-specific analysis,
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which does not fully reflect the interconnected nature of the
system within which affected coal-fired EGUs operate.
The practical consequence of calculating building block 1
on a regionalized versus nationwide basis is minimal. This is
because the CO2 emission performance rates are based on the
overall performance rate determined to be reasonable for EGUs in
the Eastern Interconnection. Our methodology identifies a 4.3
percent potential improvement in the Eastern Interconnection,
compared to a 4.0 percent figure across all three
interconnections.
We further note, along with some commenters, that sitespecific engineering studies or unit-by-unit analyses of heat
rate improvement potential for coal-fired EGUs are not available
to the EPA; only a small number of site-specific case studies
are available in the public literature. We considered that for
the EPA to develop a comprehensive, unit-by-unit heat rate
improvement study of nearly 900 coal-fired EGUs from scratch, it
would likely cost the Agency $50,000 to $100,000 to study each
EGU (almost $50 to $100 million total) and require three to four
years to complete. Such a granular analysis would not serve the
broader goal-setting purpose of this rulemaking. We agree with
commenters who have pointed out that a heat rate improvementestimating effort of that magnitude and duration would be
unnecessarily lengthy and expensive. Nor would such a granular
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analysis be a necessary predicate for states to develop emission
standards, or for EGUs to comply with those emission standards.
Rather, our methodology’s reliance on individualized, unit-byunit hourly performance data from 884 EGUs provides conservative
and reasonable regional estimates of heat rate improvement
potential. Indeed, given the conservative nature of our
methodology, a unit-specific approach that evaluates the full
range of best practices and equipment upgrades available at
individual EGUs -- including upgrades not accounted for here -would be more likely to result in higher overall heat rate
improvement figures than we are finalizing for building block 1.
Furthermore, site-specific information forms the foundation of
the EPA’s estimated heat rate improvement potential, and similar
data likely would be used in any site-specific heat rate
improvement engineering study. Finally, EGU-specific detailed
design and operation information is not consistently available
for all the factors that influence heat rate. The EPA has used
the comprehensive data that are available to reasonably and
conservatively estimate potential heat rate improvement in each
region.
Commenters also said that shifting electricity generation
from coal-fired EGUs to other EGUs because of measures
implemented under other building blocks will lower the capacity

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factors of coal-fired EGUs, and thus increase, not decrease,
their heat rates.
We expect that most states will develop plans that optimize
the operation of existing coal-fired EGUs while utilizing the
other building blocks and other measures to reduce emissions
from carbon-intensive generation. From our IPM projections, the
average annual capacity factor of existing coal-fired EGUs that
are expected to remain in operation in 2030 will actually
increase compared to 2012. This projection -- which is further
described in the GHG Mitigation Measures TSD -- incorporates
expected retirements of inefficient units and generation shifts
away from using coal-fired EGUs as peaking units.
Commenters also noted that the EPA used net heat rate in
state goals, but used gross heat rate in its heat rate
improvement analysis -- potentially ignoring the detrimental
effect that parasitic load from air pollution control devices
(APCD) and other equipment can have on net heat rate.
The EPA’s variability analysis necessarily and reasonably
used gross output data for each of the 884 EGUs in the EPA’s
database because they are the only publicly available, unitspecific, hourly performance data. By definition, improvement in
gross heat rate would be reflected in the net heat rate. Gross
heat rate is the total heat output from the EGU, in units of
Btu/gross kWh, and includes the power used by auxiliary
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equipment required to operate the EGU itself. By contrast, net
heat rate is the remaining Btu/kWh after subtracting the power
used by the EGU’s own auxiliary equipment from the gross heat
rate value, i.e., what the EGU is able to provide to the grid.
Improvements in net heat rate alone (e.g., reducing parasitic
load of on-site equipment) may be possible on many units.
Therefore, our use of gross heat rate to estimate potential heat
rate improvement was conservative because of the additional
opportunities to achieve the uniform performance rate through
improvements in net heat rate alone.
Commenters also raised concerns that the EPA was not taking
into account net heat rate increases due to additional add-on
pollution controls that may, for some units, be required by
other rules.645
The results of our statistical analysis are based on gross
heat rates and would not change with installation of emission
controls for CSAPR, MATS, or other rules because these controls
will add parasitic load requirements and thereby have an impact
on the net heat rates only. Furthermore, we conservatively
consider region-wide net heat rate improvement potential to be
the same as that indicated for the region-wide gross heat rate,
when in fact it is not. In order to check our assumptions

645

See above for an explanation of gross versus net heat rate.

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concerning gross versus net heat rate, we used the IPM Power
Sector Modeling Platform (version 5.14) and National Electric
Energy Data System (NEEDS) (version 5.14) to analyze the
anticipated incremental heat input required to operate
additional add-on controls to comply with various EPA rules,
including CSAPR, MATS, effluent guidelines for EGUs, and coal
combustion residuals. From this analysis, we project that
between 2012 and 2025, existing coal-fired EGUs are expected to
install approximately 18.6 GW of wet flue gas desulphurization
(FGD), 16.6 GW of dry FGD, 24.9 GW of selective catalytic
reduction (SCR), and 3.9 GW of selective noncatalytic reduction
(SNCR). The resulting impact from new pollution controls on
existing coal-fired EGUs’ heat rate is expected to be very
small, at conservatively less than 31 Btu/kWh, or less than 0.3
percent in 2025.646 After 2025, this estimate is particularly
conservative because the EPA’s cost performance models
overestimate the parasitic load from individual add-on controls
for future years. Furthermore, at some EGUs these newer
pollution control devices will replace existing pollution
control devices. Accordingly, for these EGUs, the minimal
increase in net heat rate due to power required to operate new

646

When considered on a regional basis, we expect these controls
to impact heat rate by approximately 0.3 percent in both the
Eastern and Western Interconnections, and by less than 0.1
percent in the Texas Interconnection.
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controls will be at least partially offset by the decrease in
net heat rate caused by removal of the control devices currently
in place. For more information about this analysis, see the GHG
Mitigation Measures TSD supporting the final CPP.
Commenters contended that the 11 years of data used to
evaluate potential heat rate improvement is too broad, and that
the population of domestic coal-fired EGUs has changed
significantly over this time period.
The 11-year span for the hourly gross heat rate data is
appropriate because it represents a wide variety of economic
conditions, market conditions and fleet composition, while also
capturing the relatively recent historical performance of
affected coal-fired EGUs. We also noted in the proposal TSD that
the population of coal-fired EGUs used in the analytical
approaches to determine potential heat rate improvement is made
up of coal-fired EGUs that operated in 2012. The gross heat rate
data of any coal-fired EGUs that retired prior to 2012 were not
included in the dataset.
Commenters stated that many of the changes in heat rate
reflected in the 11-year hourly gross heat rate dataset are
attributable to changes in monitoring methodology, and thus do
not represent heat rate improvements attributable to best
practices or equipment upgrades. In addition, commenters are

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concerned that changes to the monitoring methodology in the
future could artificially alter the measured heat rate.
Different stack gas flow monitoring methods can yield more
or less accurate measurements of heat input and CO2 emissions.
These differences depend on the characteristics of the stack gas
flow where the monitoring and reference method measurements are
taken, and which options under the Part 75 emission measurement
rules are chosen in the application of the various flow rate
reference methods. In general, more accurate stack gas flow
monitoring methodologies yield lower values that, when used to
calculate emissions or heat input, may lower the heat rate
values reported to the EPA.
Some EGUs adopted monitoring methodologies that have the
potential to affect the exactness of the data we used for
assessing heat rate improvements. However, as discussed in
detail in the GHG Mitigation Measures TSD supporting the final
CPP, our review of the data shows that a relatively small amount
of the data are affected by these changes; we are confident that
the values adopted for building block 1 are conservative and
reasonable estimates of the potential for heat rate improvement
in each region. Some changes in monitoring methodology would
have the result of tending to cause us to underestimate the
potential for heat rate improvement. Furthermore, because our
methodology analyzes percentage heat rate improvement based on
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2012 gross heat rate data, our results are unaffected by EGUs
that used more accurate monitoring methodologies in 2012 or used
the same monitoring methodologies consistently throughout the
11-year study period. For these and other reasons discussed in
detail in the GHG Mitigation Measures TSD, we remain confident
in our results despite the marginal differences attributable to
monitoring methodologies in some of the heat rate data for a
subset of EGUs.647
In terms of concerns with future methodological changes,
the overwhelming majority of the 884 EGUs in the dataset we used
to assess heat rate improvement have already changed their stack
gas flow monitoring methodology in 2012 or earlier. Furthermore,
extension of the compliance date to 2022 for this rule, as
discussed above, more than adequately allows enough time for
EGUs to determine how to actually improve their heat rates and
lower CO2 emissions while accommodating future changes to
monitoring methodologies. For a more detailed explanation, see
the GHG Mitigation Measures TSD supporting the final CPP.
Commenters said that there is no proof that lowering the
heat rate will reduce variability or that reduced variability

647

Furthermore, on a fundamental level, our methodology accounts
for a certain amount of any residual inexactness because we have
conservatively adopted the lowest value identified by any of our
reasonable approaches -- all three of which are themselves
conservative because they do not account for the full extent of
heat rate improvements achievable through equipment upgrades.
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will reduce heat rate, i.e., correlation does not prove
causation.
As an initial matter, it is important to note that for the
final rule the EPA used three types of statistical analyses to
evaluate and estimate potential heat rate improvements of coalfired EGUs, and only one of these analyses involved any
consideration of heat rate variability. All three types of
statistical analyses are described in the GHG Mitigation
Measures TSD supporting the final CPP.
These commenters are correct that, in the abstract,
reducing heat rate variability only means that heat rate will be
more consistent -- not necessarily lower or higher. However, our
analysis is not an abstract evaluation of the potential to
reduce variability, as commenters suggest, but rather is an
evaluation of the potential heat rate improvement achievable
through reducing variability -- i.e., reducing variability to
achieve a more consistently low heat rate. See the more detailed
discussion of the statistical procedures used for the final
rule, above. In particular, the application of a “consistency
factor” in the analyses performed for both the proposed and
final rule demonstrates the potential results if each individual
EGU operated slightly more consistently with the lower heat
rates that the EGU had itself previously achieved under similar
conditions.
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The consequence of a reduced heat rate is, of course, a
lower rate of CO2 emissions, which is the purpose of the BSER for
building block 1. This way of thinking about reduced variability
is consistent with the utility power sector’s own efforts to
reduce variability, which are aimed at securing the economic
benefits of a more consistently lower overall heat rate.
Some commenters expressed concern that heat rate
improvements could trigger applicability of new source review
(NSR) provisions. The relationship of this final rule to other
regulatory provisions, including NSR, is discussed in section X
of the preamble.
D. Building Block 2—Generation Shifts Among Affected EGUs
The second element of the foundation for the EPA’s BSER
determination for reducing CO2 emissions at affected fossil fuelfired EGUs entails an analysis of the extent to which fossil
steam EGUs can shift generation to existing NGCC EGUs. In this
section, we define building block 2 as the gradual shifting of
generation from existing fossil steam to existing NGCC within
each region up to a maximum NGCC utilization of 75 percent on a
net summer basis. In each year of the interim period, this 75
percent net summer maximum potential is subject to a regional
limit informed by historical growth rates.
This section summarizes the EPA’s analysis supporting that
definition. We begin by discussing the sector’s ability to
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reduce CO2 emissions by shifting generation, including selected
background information, data on trends toward greater NGCC
generation, and various mechanisms for executing or facilitating
generation shifts. Next, we describe the amount and timing of
generation shift we have determined to be achievable through the
building block. We then discuss various elements supporting our
quantification of achievable generation shift, including the
technical feasibility of NGCC units to increase generation;
historical shifts to NGCC generation; considerations related to
reliability, natural gas transmission infrastructure, natural
gas production, and electricity transmission infrastructure; and
regulatory flexibility. A discussion of costs follows. Finally,
we respond to certain comments not addressed in the preceding
discussions.
1. Demonstration of ability to reduce CO2 emissions through
shifting generation
a. Background of utility power sector. The ability to shift
generation from higher- to lower-emitting sources is compatible
with the way EGUs are generally dispatched.648 The standard
approach to dispatching generation is through Security
Constrained Economic Dispatch (SCED), a well-established

648

See preamble section II.C.1, History of the Power Sector, for
background to this discussion.
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practice in the electric power industry.649 As the name
indicates, SCED has two defining components: economic operation
of generating facilities and assurance that the electric system
remains reliable and secure.650 Economic dispatch generally
refers to shorter-term planning and operations from a day ahead
through real time. During this period, generating units are
committed – a process known as “unit commitment,” in which units
are committed to be ready to provide generation to the system
when they will be needed – and then dispatched in real time to
meet the electricity demand of the system. Overall changes in
the level of generation from different facilities are also
planned over time periods longer than this 2-day dispatch
period. Over a calendar year, for example, units are planned and
scheduled seasonally or monthly to ensure that sufficient
capacity and energy will be available to meet expected loads in
an area. Over a period of a week, units are committed to be
prepared to start up or shut down to meet forecast loads, and
dispatch is coordinated within this planning and unit commitment
framework. This process enables system operators to respond

649

“Economic Dispatch: Concepts, Practices and Issues”, FERC
Staff Presentation to the Joint Board for the Study of Economic
Dispatch”, Palm Springs, California, November 13, 2005. A copy
of this presentation is available in the docket for this rule.
650 “Security Constrained Economic Dispatch: Definitions,
Practices, Issues and Recommendations: A Report to Congress”,
Federal Energy Regulatory Commission, July 31, 2006.
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quickly to short-term changes in demand, and also to shift
generation among different generation types to match longer-term
requirements and goals.
EGUs using technologies with relatively low variable
costs, such as nuclear units, are for economic reasons generally
operated at their maximum output whenever they are available.
Renewable EGUs such as wind and solar units also have low
variable costs, but the magnitude and timing of their output
generally depend on wind and sun conditions rather than the
operators' discretion. In contrast, fossil fuel-fired EGUs have
higher variable costs and are also relatively flexible to
operate. Fossil fuel-fired EGUs are therefore generally the
units that operators use to respond to intra-day and intra-week
changes in demand. Because of these typical characteristics of
the various EGU types, the primary opportunities for switching
generation among existing units available to EGU owners and grid
operators generally consist of opportunities to shift generation
among various fossil fuel-fired units, in particular between
coal-fired EGUs (as well as oil- and gas-fired steam EGUs) and
NGCC units. In the short term — that is, over time intervals
shorter than the time required to build a new electric
generation unit — fossil fuel-fired units consequently tend to
compete more with one another than with nuclear and renewable
EGUs. The amount of generation shifting from coal-fired EGUs to
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NGCC units that takes place as a result of this competition is
highly relevant to overall power sector GHG emissions, because a
typical NGCC unit produces less than half as much CO2 per MWh of
electricity generated as a typical coal-fired EGU.
b. Trends in generation shifts from coal-fired to natural gasfired sources. Since at least 2000, fossil fuel-fired generation
has been shifting from coal- and oil-fired EGUs to NGCC units,
both as a result of construction of additional NGCC units, and
also as a result of dispatch of pre-existing NGCC units at
higher capacity factors. As a result, generation from NGCC EGUs
in 2012 reached over four times the level of NGCC generation in
2000, while generation from coal and oil/gas steam EGUs
decreased by around one third.651 As we demonstrate in the GHG
Mitigation Measures TSD, NGCC units are capable of operating at
higher annual capacity factors than they have historically, so
there remains considerable opportunity for increased use of
existing NGCC units to replace generation currently supplied by
higher-emitting coal and oil/gas steam units. The electric
utility industry is thus well-positioned to address the
requirements of this building block by increasing use of
existing NGCC units and correspondingly decreasing use of steam
units. The electric industry has been shifting generation to

651

Ventyx Electric Power Database.

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NGCC units in recent years and is expected to continue to retire
coal capacity and add new NGCC capacity. In the reference case
without implementation of CO2 emission limitations, EIA forecasts
40 GW of coal retirements and 53 GW of NGCC capacity additions
from 2014 to 2030.652 An EPA review of state Integrated Resource
Plans (IRPs) shows a pattern of shifting away from coal steam
capacity to NGCC capacity and, in some cases, conversion of coal
steam capacity to natural gas steam capacity. For example,
Ameren plans to add 600 MW of NGCC capacity and convert two coal
units to natural gas steam units, and Duke plans to add 680 MW
of NGCC capacity and convert one coal unit to a natural gas
steam unit.653
c. Mechanisms for dispatch shifts from coal-fired to natural
gas-fired generation. There are a variety of patterns of
ownership and operational control of EGUs; these ownership and
operational structures influence how EGUs will respond to this
building block. However, all owners and operators have the
ability to comply by using this building block. In terms of
ownership, investor-owned utilities (IOUs) serve about 75
percent of the US population, while consumer-owned utilities

652

Energy Information Administration, Annual Energy Outlook 2015
reference case, ref2015.d021915a.
653 For further examples, see the memo entitled “Review of
Electric Utility Integrated Resource Plans” (May 7, 2015)
available in the docket.
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serve the remaining 25 percent.654 In states that have maintained
traditional regulation, IOUs are generally vertically integrated
(owning generating capacity as well as transmission and
distribution infrastructure), and the wholesale sales of these
EGUs are regulated by the state; in states that have deregulated
their retail service, ownership of the EGU is separated from
ownership of transmission, and wholesale sales of generation are
regulated by FERC. Consumer-owned utilities comprise municipal
utilities, public utility districts of various types owned by
government agencies, nonprofit cooperative entities (co-ops),
and a number of other entities such as Native American Tribes.
Operational control of the dispatch of power over the
electricity grid is superimposed on this pattern of ownership.
Prior to electricity restructuring, this dispatch was typically
operated by major vertically-integrated utilities or by public
power entities. Over the last 15 years, large portions of the
power grid are now independently operated by ISOs or RTOs. These
entities are regulated by FERC and dispatch power from multiple
owners to meet the loads on the bulk power grid.
The combination of multiple ownership and types of
operational control adds to the complexity of electricity
dispatch, but all affected EGUs, regardless of ownership and

654

Regulatory Assistance Project, Electricity Regulation in the
US: A Guide, Page 9, March 2011.
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type of control, can use this building block to comply with the
final rule. The principal difference among the differing
entities lies in the types of methods that are available for the
affected EGU owner to bring about the shift in generation that
will make use of this building block for compliance. There are
several alternatives to accomplish this result: the owner of the
higher-emitting affected EGU may also own, or have affiliates
that own, lower emitting generation and thus reduce its own
generation and use its control over these other EGUs to increase
their generation; an EGU may be able to reduce its generation
and buy replacement power from the market that is lower
emitting; or the EGU may be able to reduce its generation and
procure generation from a separately-owned lower-emitting EGU.
These alternatives will be available in states with either rate
or mass-based state plans without any change in their general
form. Under a rate-based state plan, an EGU owner may also be
able to purchase ERCs and average the ERCs into its emission
rate for purposes of demonstrating compliance with its standard
of performance. Under standards of performance that incorporate
emissions trading, an EGU owner may be able to purchase ratebased emission credits or mass-based emission allowances not
needed by other EGUs and use those credits or allowances to help
achieve its standard of performance.

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The potential to shift generation identified for this
building block is entirely consistent with the existing economic
dispatch protocols described above. State environmental policies
can shift generation in two ways. The first is operational
restrictions, such as permit limits on the number of hours that
an EGU can operate in order to limit emissions. The second is
changes in the relative costs of generation among different
types of EGUs related to pollution reduction measures. For
example, a regulation that necessitates the use of a control
technology that requires the application of a reagent in a
certain kind of EGU will increase the variable cost of operating
that plant, which in turn may reduce the amount of generation it
is called upon to deliver to the grid through securityconstrained economic dispatch procedures.
In an organized market, where the system operator
dispatches units partly based upon costs, an electric power
plant that experiences an increase in its variable costs will
tend to operate less than it otherwise would have. For example,
market-based pollution control programs require units to hold
tradable allowances to authorize their emissions of a regulated
pollutant. Such an allowance-holding requirement puts a price on
the act of emitting the regulated pollutant, which increases the
operating costs of units that emit that pollutant, and thus such
units will be dispatched less than they otherwise would without
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such an allowance-holding requirement. The RGGI is an example of
a state program that has this effect. In the present rule,
although shifts in the mix of generation to address the costs of
pollution control can lead to higher electricity generating
costs overall, the EPA analysis shows these costs to be modest
and well below their associated benefits.655
Many of the NGCC units are owned by the same companies or
affiliates that also own steam units. In these cases, changes in
EGU generation can be planned by the company or affiliate
without the need to engage in separate market transactions with
outside parties. Where the affected EGU owner is also the
dispatch entity, as in most traditional market structures, the
EGU owner will generally have operational control over the unit.
Environmental conditions, such as compliance costs or limits on
generation, can be factored in with fuel costs for purposes of
determining when the unit is committed to be available, how the
unit can be most efficiently cycled, and at what level the unit
is dispatched.
An analysis of generation data from steam and NGCC units in
2012 shows that 77 percent of the steam generation occurred from
an EGU that owned, or that had an affiliate that owned, NGCC
generation. Eighty percent of the generation shift potential

655

See the Regulatory Impact Analysis.

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identified in this building block (increasing NGCC generation up
to a 75 percent capacity factor on a net basis to replace steam
generation) could occur among these entities that own (either
directly or through affiliates) both steam and NGCC
generation.656 These data show that most EGU generation relevant
for this building block is produced by entities that own both
steam and NGCC generation.
Another alternative available to an affected EGU owner that
does not also own NGCC generation is for the higher-emitting
affected EGU to reduce its generation and purchase replacement
power from the market. In organized markets such as RTOs, it is
available through standard practice, because the owner impacts
how its EGUs are dispatched based upon how it bids into the RTO
market. In this case, the owner can exercise control over the
levels of generation across units by when it offers generation
to the market operator (the RTO or ISO), and the prices it bids
for this generation. As in traditional economic dispatch by a
utility, environmental conditions, compliance costs, or limits
on generation can be incorporated by the owner into the
determination of the cost-effective generation pattern of its
EGUs.

656

SNL Energy. Data used with permission. Accessed May 2015.

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In regions with organized electricity markets (including,
but not limited to, RTOs or ISOs), the various types of EGU
owners of higher-emitting sources can reduce their generation,
and any resulting deficit in generation on the system can be
supplied from other EGUs in the region; for example, a coalfired unit can reduce generation that is then replaced through
the operation of the market by generation from an NGCC unit,
subject to dispatch by a regional operator to ensure the
reliable delivery of the generation to loads within the region.
To comply with this rule, higher-emitting steam units will need
greater reductions relative to lower-emitting NGCC units which
will, in turn, tend to raise steam unit costs compared to NGCC
units. As a result, the bids that a steam unit provides a market
operator will rise relative to NGCC units. This process of
reducing generation from a higher-emitting unit will lead to
substitution of lower-emitting generation.
EGU owners that do not participate in an organized
electricity market may nevertheless purchase power from the
wholesale power market. Purchases in the wholesale power market
can be spot purchases, which are typically general purchases of
system power supplied by the EGUs across a region, or contract
purchases, which may have more provider-specific characteristics
(such as specifying the type of unit that is providing the
power). Purchases between EGUs through the wholesale power
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market will have similar emission-lowering properties as
operation of the organized market discussed above, because
dispatch in balancing areas outside RTOs and ISOs also follows a
similar economic dispatch protocol that is informed by each
unit’s production costs and environmental limitations.
Under this alternative, the steam generators may, in
effect, realize emission reductions from building block 2 simply
by reducing their generation. Steam generators do not need to
purchase replacement electricity as a prerequisite for realizing
emission reductions from reducing their own generation because
other generators already have an incentive to provide as much
electricity as load-serving entities are willing to buy in order
to satisfy electricity demand.657 As noted above, higher-emitting
generation sources will have to incorporate correspondingly
higher costs of pollution reduction into their supply bids
compared to lower-emitting generation sources, and as a result,
load-serving entities will seek to buy a greater share of

657

Some owners or operators of steam generators may have
electricity supply obligations to which they may be applying
power from those steam generators. However, such parties may
fulfil those supply obligations using the wholesale power market
in the exact same way described here that enables any other
generator with economically attractive electricity to offer such
supply. In other words, the ability of a steam generator to
reduce its generation is not contingent on an associated
purchase to replace that power, notwithstanding the possibility
that the owner or operator of that steam unit may choose to make
such a purchase to meet an electricity supply obligation.
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electricity from the lower-emitting sources because their supply
bids will be more economically attractive. Once the steam
generators reduce their generation (and associated emissions),
the other entities in the electricity system arrange for the
replacement electricity. The outcome of this power market
process will reduce both the mass and the rate of emissions
across sources.
An owner of a source can also reduce the generation of an
EGU by substituting generation from a lower-emitting NGCC
directly. For an EGU owner without existing NGCC generation,
this substitution can take the form of a bilateral contract
purchase. In RTOs and ISOs, this alternative often takes the
form of a contract for differences, where the replacement source
could be an NGCC and the contract specifies a delivery location
and the price of the power. In bilateral markets, the contract
vehicle could be a Power Purchase Agreement from a replacement
source. It is also possible that the owner of a steam unit could
directly invest in an existing EGU by purchasing the asset or
taking a partial ownership position, thus acquiring the
generation from the unit through that means. The acquired
generation and its associated emissions could be used for
compliance by the higher-emitting EGU, in accordance with the
plan under which it is operating. The amount of generation that
could be shifted using the approaches described in this
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paragraph will depend on the type and terms of the commercial
arrangements, as well as the potential need for regulated
entities to obtain approvals for contracts or for changes in
asset positions. The wide range of approaches permitted by this
rule provides flexibility, both within a year and across
multiple years, for EGUs to fashion these arrangements to fit
their circumstances.
Where permitted under its state plan, an EGU would also be
able to meet its reduction obligations using ERCs or allowances.
The particular nature of this alternative will depend on how a
state elects to develop its plan. If a state chooses a massbased approach, the EGU would simply need to hold allowances to
cover its emissions. To realize an emission reduction from
building block 2 under this approach, a steam generator would
only need either to reduce its emissions by reducing its
generation, which would lead to that generator needing fewer
allowances to cover its emissions under the program, or to
purchase surplus allowances not needed by another EGU that had
reduced its emissions. In a rate-based state, the state may
choose to provide for compliance through the acquisition of
tradable ERCs. To realize an emission reduction from building
block 2 under this approach, a steam generator would be able to
adjust its effective emission rate by purchasing ERCs that are
produced by other sources whose emission rates are lower than
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 Page 703 of 1560
the applicable rate standard. In this fashion, a steam generator
does not need to purchase lower-emitting replacement power per
se in order to demonstrate an emission reduction from this
building block; instead, the steam generator may purchase any
ERCs that were produced from lower-emitting sources (see section
VIII for more detail on how state plans can use an ERC approach
to facilitate a rate-based compliance demonstration of this type
of emission reduction).658
The approaches shown here collectively demonstrate that all
steam generators -- regardless of size, location, form of
ownership, or type of market in which they operate -- can
implement building block 2 through some or all of the mechanisms
described.
2. Amount and timing of generation shift
The EPA has determined that for purposes of quantifying the
CO2 emission reductions achievable through building block 2, a
reasonable amount of generation shift is the amount of
generation shift that would result from existing NGCC units, on

658

Stakeholders have recognized that ERCs and allowances are an
effective tool for EGUs to implement the building blocks and
achieve their standards of performance required under this rule.
See “Clean Power Plan Implementation: Single-State Compliance
Approaches with Interstate Elements,” Georgetown Climate Center
(May 2015),
http://www.georgetownclimate.org/sites/www.georgetownclimate.org
/files/GCC_ComplianceApproacheswithInterstateElements_May2015.pd
f.
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 Page 704 of 1560
average, increasing their annual utilization rates to 75 percent
of net summer capacity. However, the building block does not
reflect achievement of this average capacity factor at the start
of the interim period, but instead reflects a glide path of
increases in NGCC utilization over the interim period. Below, we
discuss the glide path, and in the following section we discuss
the basis for finding the 75 percent utilization rate, achieved
over the period of time consistent with the glide path, to be
reasonable.
The EPA received significant public comments expressing
concern regarding the proposal’s incorporation of the full
building block 2 shift in generation by the first year of the
interim period. These commenters perceived this approach as
requiring states to achieve such a significant portion of the
required CO2 emission reductions early in the interim period that
states would lack flexibility in when and how they may achieve
the required emission reductions. Other commenters expressed
concern that the full extent of building block 2 would be
difficult for some states to achieve by the first year of the
interim period as a result of technical, engineering, and
infrastructure limitations or other considerations; that such
timing may crowd out other cost-effective options for emission
reductions; and that such timing might have negative
implications for reliability.
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 Page 705 of 1560
In the proposal, the EPA determined that emission
reductions are feasible and achievable at fossil fuel-fired
steam EGUs by shifting from more carbon-intensive EGUs to less
carbon-intensive EGUs, as part of the BSER. More specifically,
the EPA proposed that generation shifts from fossil fuel-fired
steam units (which are primarily coal-fired) to NGCC units, up
to a utilization of 70 percent on a nameplate capacity basis,
could be achieved by 2020. In contrast, the EPA proposed that
reductions in CO2 emissions from fossil fuel-fired units
associated with other measures, such as increased utilization of
RE generating capacity and increased demand-side EE, would be
achievable on a phased-in basis between 2020 and 2029,
reflecting the time needed for deployment.659 In light of the
concerns noted above, in the October 2014 Notice of Data
Availability the EPA solicited comment on potential rationales
for phasing in the potential to shift generation under building
block 2.660
As already noted, in the final rule the EPA has revised the
interim period to start in 2022, which itself is a meaningful
response regarding the concerns expressed by commenters about
the timing of building block 2’s generation shift potential. In
addition, the EPA has evaluated the feasibility over time of

659
660

79 FR 34866.
79 FR 64543.

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 Page 706 of 1560
building block 2 within the framework of BSER, and is finalizing
a change to building block 2 that gradually phases in the shift
from existing fossil steam to existing NGCC over the interim
period. This phase-in allows for additional time to complete
potential infrastructure improvements (e.g., natural gas
pipeline expansion or transmission improvements) that might be
needed to support more use of existing natural gas-fired
generation, and provides states with the increased ability to
coordinate actions taken under building block 2 with actions
taken under building block 3 (deployment of new renewable
capacity).
The phase-in schedule applies a limit to the maximum
building block 2 potential in each year of the interim period
based on two parameters. The first parameter defines an amount
of generation shift to existing NGCC capacity that is feasible
by 2022, and the second parameter defines how quickly that
amount could grow until the full amount of NGCC generation could
be achieved as part of the BSER. Both of these parameters are
determined by examining the extent to which gas-fired generation
has increased over historical time periods. The first parameter
is based on the single largest annual increase in power sector
gas-fired generation since 1990, which occurred between 2011 and

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 Page 707 of 1560
2012 and is equal to 22 percent.661 We believe that this amount
is a conservative estimate of the ability of the sector to
increase utilization of NGCC capacity by 2022, given that this
increase has already occurred in a single year. The second
parameter is based on the average annual growth in gas-fired
generation in the power sector between 1990 and 2012, which is
approximately 5 percent per year.
In the performance rate calculation methodology, these two
parameters constrain the annual rate at which building block 2
shifts generation from fossil steam units to NGCC units. The
interim performance rate is an average of annual rates
calculated over the 2022-2029 period. The two parameters above
limit the extent to which NGCC generation is able to increase
and replace fossil steam generation in each year of the interim
period. In the first year, NGCC generation is limited to a
maximum of a 22 percent increase from 2012 levels in each
region. In each subsequent year, regional NGCC generation is
limited to a maximum of a 5 percent increase from the previous
year. This phase-in continues in the performance rate-setting
methodology until the full building block 2 level of shifting
from fossil steam generation to NGCC generation is reached.

661

US EIA Monthly Energy Review, Table 7.2b Electricity Net
Generation: Electric Power Sector (2015), available at
http://www.eia.gov/totalenergy/data/browser/xls.cfm?tbl=T07.02B&
freq=m.
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 Page 708 of 1560
Under this approach, building block 2 is completely phased into
the source category calculation of all regions by the end of the
interim period.
Table 7. BSER Maximum NGCC Generation by Region and Year (TWh).

Regio
n
Limit
Easte
rn
Inter
conne
ction
Weste
rn
Inter
conne
ction
Texas
Inter
conne
ction

Maximu
m
Potent
ial at
75%
--

NGCC Generation (TWh)
BSER Maximum
2012
(adjus
ted)
--

202
2
22%

202
3
5%

202
4
5%

202
5
5%

202
6
5%

202
7
5%

202
8
5%

202
9
5%

203
0
5%

988

735

896

941

988

988

988

988

988

988

988

306

198

242

254

267

280

294

306

306

306

306

204

137

167

176

185

194

203

204

204

204

204

This phase-in, in addition to the flexible nature of the goals,
ensures that the overall framework of this final rule includes
sufficient flexibility, particularly with respect to timing of
and strategies for reducing emissions from the affected units,
so that states can develop cost-effective strategies and allow
for infrastructure improvements to occur should they prove
necessary in some locations.
3. Basis for magnitude of generation shift
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 Page 709 of 1560
a. Technical feasibility of NGCC units to generate at 75% of
their capacity. In order to estimate the potential magnitude of
the opportunity to reduce power sector CO2 emissions through
shifting generation among existing EGUs, the EPA first examined
information on the design capabilities and availability of NGCC
units. Availability is defined as the number of hours that
generators are available to generate electricity, and it is
typically expressed as a percentage of the total number of hours
in a year. Since the value of NGCC capacity is related to how
much electricity the owner of that capacity can generate and
sell, units are typically designed with very high availability
ratings. Baseload units have annual average availabilities of
approximately 91%-92%, and peaking units are generally available
96% to 98% of peak hours.662 The EPA also examined information on
the historical availability of NGCC units in practice. This
examination showed that, although most NGCC units have
historically been operated in intermediate-duty roles for
economic reasons, they are technically capable of operating in
baseload roles at much higher annual utilization rates. Average
annual availability (that is, the percentage of annual hours

662

Negotiating Availability Guarantees for Gas Turbine Plants,
available at: http://www.power-eng.com/articles/print/volume105/issue-3/features/negotiating-availability-guarantees-forgas-turbine-plants.html.
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 Page 710 of 1560
when an EGU is not in a forced or maintenance outage) for NGCC
units in the U.S. generally exceeds 85 percent, and can exceed
90 percent for some groups.663
We also researched historical data to determine the
utilization rates that NGCC units have already demonstrated
their capability to sustain. Over the last several years, the
utilization patterns of fossil fuel-fired units have shifted
relative to historical dispatch patterns, with NGCC units
increasing generation and many coal-fired EGUs reducing
generation. In fact, in April 2012, for the first time ever the
total quantity of electricity generated nationwide from natural
gas was approximately equal to the total quantity of electricity
generated nationwide from coal.664 These changes in generation
patterns have been driven largely by changes over time in the
relative prices of natural gas and coal. Although the relative
fuel prices vary by location, as do the recent generation
patterns, this trend holds across broad regions of the U.S. In
the aggregate, the historical data provide ample evidence
indicating that, on average, existing NGCC units can achieve and

663

See, e.g., North American Electric Reliability Corp., 20082012 Generating Unit Statistical Brochure—All Units Reporting,
http://www.nerc.com/pa/RAPA/gads/Pages/Reports.aspx; Higher
Availability of Gas Turbine Combined Cycle, Power Engineering
(Feb. 1, 2011), http://www.power-eng.com/articles/print/volume115/issue-2/features/higher-availability-of-gas-turbinecombined-cycle.html.
664 http://www.eia.gov/todayinenergy/detail.cfm?id=6990.
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 Page 711 of 1560
sustain utilization rates higher than their historical average
utilization rates.
Utilization of EGUs is often considered using the metric of
a capacity factor, which is the percentage of total production
potential that an electric generating unit achieves in a given
time period. A capacity factor of 75 percent thus represents a
unit producing three-quarters of the electricity it could have
produced in that time had it utilized its entire capacity. The
EPA received multiple comments regarding the proposed use of
nameplate capacity in calculating the potential utilization
level of existing NGCCs under building block 2. These comments
stated that net summer capacity is a more meaningful and
reliable metric than nameplate capacity, because net capacity
best reflects the electric output available to serve load. The
EPA agrees with these comments. The quantification of building
block 2 as well as performance rate and state goal calculations
in the final rule are all based on net summer generating
capacity. An annual utilization rate of 75 percent on a net
summer basis is similar to the proposed rule’s consideration of
70 percent utilization on a nameplate basis.665

665

For a given amount of net generation, a net summer capacity
factor appears higher compared to a corresponding nameplate
capacity factor because net summer capacity reflects a lower
amount of total generation potential achievable by the unit in
practice.
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 Page 712 of 1560
The experience of relatively heavily-used NGCC units
provides an additional indication of the degree of increase in
average NGCC unit utilization that is technically feasible.
The EPA reexamined the historical NGCC plant utilization
rate data reported to the EIA, and found that in 2012 roughly 15
percent of existing NGCC plants operated at annual utilization
rates of 75 percent or higher on a net summer basis.666 In
effect, these plants were providing baseload power. In addition
to the 15 percent of NGCC plants that operated approximately at
a 75 percent utilization rate on an annual basis, some NGCC
plants operated at even higher utilization rates for shorter,
but still sustained, periods of time in response to high
cyclical demand. For example, on a seasonal basis, a significant
number of NGCC plants have achieved utilization rates greater
than 90 percent on a net summer basis; during the summer of 2012
(June through August), about 30 percent of NGCC plants operated
at utilization rates of 75 percent or more across the entire
season. During the spring and fall periods when electricity
demand levels are typically lower, these plants were sometimes

666

Net summer capacity is defined as: “The maximum output,
commonly expressed in megawatts (MW), that generating equipment
can supply to system load, as demonstrated by a multi-hour test,
at the time of summer peak demand (period of June 1 through
September 30.) This output reflects a reduction in capacity due
to electricity use for station service or auxiliaries.” (EIA,
http://www.eia.gov/tools/glossary).
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 Page 713 of 1560
idled or operated at much lower capacity factors. Nonetheless,
the data clearly demonstrate that a substantial number of
existing NGCC plants have proven the ability to sustain 75
percent utilization rates for extended periods of time. We view
this as strong evidence that increasing the annual average
utilization rates of existing NGCC units to 75 percent on a net
summer basis would be technically feasible.
The EPA believes that an annual average utilization rate of
75 percent on a net summer basis is a conservative assessment of
what existing NGCC plants are capable of sustaining for extended
periods of time. In 2012, roughly 10 percent of existing NGCC
plants operated at annual utilization rates of 80 percent or
higher on a net summer basis. While the EPA believes this level
is also technically feasible on average for the existing NGCC
fleet, the EPA is quantifying building block 2 assuming an NGCC
utilization level of 75% on a net summer basis in order to offer
sources additional compliance flexibility, given that the extent
to which they realize a utilization level beyond 75 percent will
reduce their need to rely on other emission reduction measures
or building blocks.
b. Historical generation shifts to NGCC generation. In 2012,
total electric generation from existing NGCC units was 966

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 Page 714 of 1560
TWh.667 After the application of the building block 2 potential
(increasing NGCC utilization up to a 75 percent capacity factor
on a net summer basis, including generation from NGCC units that
were under construction), the total generation from these
existing sources is assumed to be 1,498 TWh.668
The EPA believes that producing this quantity of generation
from this set of NGCC units is feasible. To put this level of
generation into context, NGCC generation increased by
approximately 439 TWh (an 83 percent increase) between 2005 and
2012. The EPA calculates that assumed NGCC generation in 2022
through the quantification of building block 2 potential is
approximately 44 percent higher than 2014 levels. This reflects
a smaller growth rate in potential NGCC generation between 2015
and 2022 than has been observed in practice from 2005 to 2012, a
time period of the same duration.
c. Reliability. We also expect that an increase in NGCC
generation of this amount would not impair power system
reliability. Sources can achieve increases in utilization of
existing NGCCs that displace generation from steam sources
without impacting reliability because this shift in average
annual utilization across existing EGUs does not inhibit the

667

Appendix 1, CO2 Emission Performance Rate and Goal Computation
Technical Support Document for CPP Final Rule.
668 Appendix 1, CO
2 Emission Performance Rate and Goal Computation
Technical Support Document for CPP Final Rule.
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 Page 715 of 1560
power sector’s ability to maintain adequate dispatchable
resources to continue to meet reserve margins and maintain
reliability. Furthermore, sources are not required to achieve
the exact or even the full extent of the building block 2
generation shift itself, which means that sources will have
ample flexibility to maintain reliability-relevant operations
while achieving emission reductions through a variety of
measures.669
d. Natural gas infrastructure. The EPA also examined the
technical capability of the natural gas supply and delivery
system to provide increased quantities of natural gas and the
capability of the electricity transmission system to accommodate
shifting generation patterns. For several reasons, we conclude
that these systems would be capable of supporting the degree of
increased NGCC utilization potential in building block 2. First,
the natural gas pipeline system is already supporting national
average NGCC utilization rates of 60 percent or higher during
peak hours, which are the hours when constraints on pipelines or
electricity transmission networks are most likely to arise. NGCC
unit utilization rates during the range of peak daytime hours
from 10 a.m. to 9 p.m. are typically 15 to 20 percentage points

669

See section VIII for further discussion of electric
reliability planning.
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 Page 716 of 1560
above their average utilization rates (which have recently been
in the range of 40 to 50 percent).670 Fleet-wide combined-cycle
average monthly utilization rates have reached 65 percent,671
showing that the pipeline system can currently support these
rates for an extended period. If the current pipeline and
transmission systems allow these utilization rates to be
achieved in peak hours and for extended periods, it is
reasonable to expect that similar utilization rates should also
be possible in other hours when constraints are typically less
severe, and be reliably sustained for other months of the year.
Furthermore, the NGCC utilization increase assumed in building
block 2 could occur without a significant impact on peak demand
for natural gas, including winter demand (when the power
sector’s demand for natural gas competes with other sectors’
demands for natural gas), since increasing annual utilization of
NGCCs could focus on non-peak periods when NGCC capacity factors
are currently low.

670

EIA, Average utilization of the nation's natural gas
combined-cycle power plant fleet is rising, Today in Energy,
July 9,2011,
http://www.eia.gov/todayinenergy/detail.cfm?id=1730#; EIA, Today
in Energy, Jan. 15, 2014,
http://www.eia.gov/todayinenergy/detail.cfm?id=14611 (for recent
data).
671 EIA, Electric Power Monthly, February, 2014. Table 6.7.A.
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 Page 717 of 1560
The second consideration supporting a conclusion regarding
the adequacy of the gas supply infrastructure is that pipeline
and transmission planners have repeatedly demonstrated the
ability to methodically relieve bottlenecks and expand
capacity.672 Natural gas pipeline capacity has regularly been
added in response to increased gas demand and supply, such as
the addition of large amounts of new NGCC capacity from 2001 to
2003, or the delivery to market of unconventional gas supplies
since 2008. These pipeline capacity increases have added
significant deliverability to the natural gas pipeline network
to meet the potential demands from increased use of existing
NGCC units. Over a longer time period, much more significant
pipeline expansion is possible. In previous studies, when the
pipeline system was expected to face very large demands for
natural gas use by electric utilities, the pipeline industry
projected that increases of up to 30 percent in total
deliverability out of the pipeline system would be possible.673
There have been notable pipeline capacity expansions over the

672

See, e.g., EIA, Natural Gas Pipeline Additions in 2011, Today
in Energy; INGAA Foundation, Pipeline and Storage Infrastructure
Requirements for a 30 Tcf Market (2004 update); INGAA
Foundation, North American Midstream Infrastructure Through
2035—A Secure Energy Future Report (2011).
673 Pipeline and Storage Infrastructure Requirements for a 30 Tcf
Market, INGAA Foundation, 1999 (Updated July, 2004); U.S. gas
groups confident of 30-tcf market, Oil and Gas Journal, 1999.
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 Page 718 of 1560
past five years, and substantial additional pipeline expansions
are currently under construction.674 Further, the phasing in of
building block 2’s potential in the determination of the BSER;
the flexible nature of multi-year compliance with the ultimate
emission reduction requirements of the rule; and the seven years
between finalization of this rule and the first year of
compliance provide time for infrastructure improvements to occur
should they prove necessary in some locations. Combining these
factors of currently observed average monthly NGCC utilization
rates of up to 65 percent, the flexibility of the emission
guidelines, the rates of historical growth, and the availability
of time to address any existing pipeline infrastructure
limitations, it is reasonable to conclude that the natural gas
pipeline system can reliably deliver sufficient natural gas
supplies to allow NGCC utilization to increase up to an average
annual capacity factor of 75 percent on a net summer basis.
e. Natural gas production. We recognize that an increase in NGCC
utilization rates at existing units corresponds with an
associated increase in natural gas production, consistent with

674

For example, between 2010 and April 2014, 118 pipeline
projects with 44,107 MMcf/day of capacity (4,699 miles of pipe)
were placed in service, and between April 2014 and 2016 an
additional 47 pipeline projects with 20,505 MMcf/day of capacity
(1,567 miles of pipe) are scheduled for completion. Energy
Information Administration,
http://www.eia.gov/naturalgas/data.cfm.
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 Page 719 of 1560
the current trends in the natural gas industry. The EPA expects
the growth in NGCC generation assumed for building block 2 to be
feasible and consistent with the production potential of
domestic natural gas supplies. Increases in the natural gas
resource base have led to fundamental changes in the outlook for
natural gas. There is general agreement that recoverable natural
gas resources will be substantially higher for the foreseeable
future than previously anticipated, exerting downward pressure
on natural gas prices. According to EIA, proven natural gas
reserves have doubled between 2000 and 2012. Domestic dry gas
production has increased by 25 percent over that same timeframe
(from 19.2 TCF in 2000 to 24.0 TCF in 2012). EIA’s Annual Energy
Outlook Reference Case for 2015 projects that production will
further increase to 29.5 TCF by 2022 and 33 TCF by 2030, as a
result of increased supplies and favorable market conditions. In
the AEO 2015 high oil and gas resource case, production is
projected to increase to 42.7 TCF in 2030. For comparison,
building block 2 assumes NGCC generation growth of 235 TWh from
2012 to reach the level assumed for 2022, and that NGCC
generation growth would result in increased gas consumption of
less than 2 TCF for the electricity sector, which is less than
EIA’s projected increase in natural gas production of 5.5 TCF
from 2012 to 2022.

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 Page 720 of 1560
The EPA has also assessed the ability of the electricity
and natural gas industries to achieve the potential quantified
for building block 2 using the Integrated Planning Model (IPM).
IPM is a multi-regional, dynamic, deterministic linear
programming model of the U.S. electric power sector that the EPA
has used for over two decades to evaluate the economic and
emission impacts of prospective environmental policies. To
inform its projections of least-cost capacity expansion and
electricity dispatch, IPM incorporates representations of
constraints related to fuel supply, bulk power transmission
capacity, and unit availability. The model includes a detailed
representation of the natural gas pipeline network and the
capability to project economic expansion of that network based
on pipeline load factors. At the EGU level, IPM includes
detailed representations of key operational limitations such as
turn-down constraints, which are designed to account for the
cycling capabilities of EGUs to ensure that the model properly
reflects the distinct operating characteristics of peaking,
cycling, and base load units.
As described in more detail below, the EPA used IPM to
assess the costs of increasing generation from existing NGCC
capacity. IPM was able to meet average NGCC utilization rates of
75 percent on a net summer basis, while observing the market,
technical, and regulatory constraints represented in the model.
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 Page 721 of 1560
This modeling also demonstrates the ability of domestic natural
gas supplies to increase their production levels, and deliver
that supply through the pipeline network, to support the level
of NGCC generation quantified in building block 2. Such a result
is consistent with the EPA's determination that increasing the
average utilization rate of existing NGCC units to 75 percent
would be technically feasible.
f. Transmission planning and construction. Achieving the
generation shift quantified in building block 2 would not impose
significant additional burden on the transmission planning
process and does not necessitate major construction projects.
Two considerations are important for this conclusion:
First, building block 2 applies only to increases in
generation at existing NGCC facilities and does not contemplate
any connection of new capacity to the bulk power grid. Second,
regional grids are already supporting operation of the NGCC
units for sustained periods of time at the capacity factors
quantified in building block 2.675 Although some upgrades to the
grid (including potential, but modest, expansions of
transmission capacity) may be necessary to support the extension
of the time that these capacity factors are sustained over the
course of the annual time period on which building block 2 is

675

See Greenhouse Gas Mitigation Measures TSD for a discussion
of regional NGCC capacity factors.
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based, such upgrades are part of the normal planning process
around the increased use of existing facilities. In fact, the
electric transmission system is currently undergoing substantial
expansion.676 Consequently, EPA does not believe that achieving
the generation shift potential in building block 2 would
necessitate any significant additional requirements for
transmission planning and construction beyond those already
being addressed at routine intervals by the power sector.
Furthermore, the phasing in of building block 2’s potential in
the determination of the BSER; the flexible nature of multi-year
compliance with the ultimate emission reduction requirements of
the rule; and the seven years between finalization of this rule
and the first year of compliance all provide time for
infrastructure improvements to occur should they prove necessary
in some locations.
g. Regulatory flexibility. The final consideration supporting
our view that natural gas and electricity system infrastructure
would be capable of supporting increased NGCC unit utilization

676

According to the Edison Electric Institute, member companies
are planning over 170 projects through 2024, with costs totaling
approximately $60.6 billion (this is only a portion of the total
transmission investment anticipated). Approximately 75 percent
of the reported projects (over 13,000 line miles) are high
voltage (345 kV and higher). Construction of transmission lines
of 345KV and above are generally major projects that are
particularly effective at carrying power of large distances.
http://www.eei.org/issuesandpolicy/transmission/Documents/Trans_
Project_lowres_bookmarked.pdf.
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rates at a maximum of 75% on a net summer basis is the
substantial unit-level compliance flexibility of the emission
guidelines. The final rule does not require any particular NGCC
unit to achieve any particular utilization rate in any specific
hour or year. Thus, even if isolated natural gas or electricity
system constraints were to limit NGCC unit utilization rates in
certain locations in certain hours, this would not prevent an
increase in NGCC generation overall across a state or broader
region and across all hours on the order assumed in the
generation shift potential quantified for building block 2.
4. Cost
Having established the technical feasibility and
quantification of the potential to replace incremental
generation at higher-emitting EGUs with generation at NGCC
facilities as a CO2 emissions reduction strategy, we next turn to
the question of cost. The cost of the power sector CO2 emission
reductions that can be achieved through shifting generation
among existing fossil fuel-fired EGUs depends on the relative
variable costs of electricity production at EGUs with different
degrees of carbon intensity. These variable costs are driven by
the EGUs' respective fuel costs and by the efficiencies with
which they can convert fuel to electricity (i.e., their heat
rates). Historically, natural gas has had a higher cost per unit
of energy content (e.g., MMBtu) than coal in most locations, but
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for NGCC units this disadvantage in fuel cost per MMBtu relative
to coal-fired EGUs is typically offset in significant part, and
sometimes completely, by a technological heat rate advantage.
To consider the cost implications of building block 2, the
EPA expanded upon the proposal’s extensive analysis of the
magnitude and cost of CO2 emission reductions through generation
shifting within defined areas (consistent with the application
of building blocks for performance rate- and state goalsetting), without consideration of the availability of other
emission reduction ultimately available to units for compliance.
To evaluate how EGU owners and grid operators could respond
to a state plan's possible requirements, signals, or incentives
to shift generation from more carbon-intensive to less carbonintensive EGUs, the EPA analyzed a series of scenarios in which
the fleet of NGCC units within each of the regions considered
for quantifying BSER (i.e., the three interconnections) was
directed to achieve a specified average annual utilization rate
across that region on a net basis while maintaining a fixed
level of aggregate generation in that region across all existing
fossil fuel-fired sources. The EPA conducted such scenarios to
address average utilization rates of 70 percent, 75 percent and
80 percent on a net basis, allowing for shifting of fossil
generation between existing units within the regions described
above. This scenario identifies a generation pattern that would
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meet electricity demand at the lowest total cost, subject to all
other specified operating and bulk power transfer constraints
for the scenario, including the specified average NGCC unit
utilization rate.
The costs of the various scenarios were evaluated by
comparing the total costs and emissions from each scenario to
the costs and emissions from a base case scenario. For the
scenario reflecting a 75 percent NGCC utilization rate on a net
basis with regional fossil generation shifting, comparison to
the base case indicates that the average cost of the CO2
reductions achieved over the 2022-2030 period was $24 per short
ton of CO2. We view these estimated costs as reasonable and
therefore as supporting the use of a 75 percent net utilization
rate target for purposes of quantifying the emission reductions
achievable at a reasonable cost through the application of
building block 2 in the BSER.
We also conclude from these analyses that potential impacts
to fuel prices and electricity prices from achieving the extent
of fossil generation shifting quantified for this building block
are reasonably within the bounds of power sector experience. For
example, in the 75 percent NGCC unit utilization rate scenario
where generation shifting is limited to regional boundaries, the
delivered natural gas price was projected to increase by an
average of 7 percent over the 2022-2030 period, which is well
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within the range of historical natural gas price variability.677
Projected wholesale electricity price increases over the same
period were less than 4 percent, which similarly is well within
the range of historical electric price variability. These
projected impacts on prices were captured in the emission
reduction costs of these scenarios already described above,
which are reasonable and support use of a 75 percent NGCC
utilization rate target for purposes of quantifying the emission
reductions achievable through application of the BSER.
However, we also note that the costs (and their
incorporated price impacts) just described are higher than we
would expect to actually occur in real-world compliance with the
final rule’s compliance requirements for the following reasons.
First, this analysis does not capture the building block 2
phase-in, which assumes an average utilization rate over the
interim period of less than 75 percent in all three
interconnections. Second, the analysis overstates the extent to
which building block 2 is ultimately reflected in the source
category performance rates. While the performance rate
computation procedure assumes a maximum NGCC utilization rate of
75 percent on a net summer basis, the Eastern Interconnection’s

677

According to EIA data, year-to-year changes in natural gas
prices at Henry Hub averaged 29.9 percent over the period from
2000 to 2013. http://www.eia.gov/dnav/ng/hist/rngwhhdA.htm.
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realization of this level of NGCC utilization yields higher
source category performance rates for steam than what would have
been calculated for units in the Western Interconnection and
Texas Interconnection if they realized that maximum NGCC
utilization rate in conjunction with the other building blocks.
In other words, there is substantial building block 2 potential
in the Western Interconnection and Texas Interconnection that is
not actually captured in the source category performance rates
that are ultimately assigned to steam through this rate- and
goal-setting approach (where the performance rates are
ultimately determined by the BSER region with the highest rate
outcome in the calculation). Therefore, the building block 2
analysis overstates the cost of this component of BSER to the
extent that it assumes achievement of this generation shift
potential that is not reflected in the source category
performance rates ultimately determined. Third, as a practical
matter, sources will be able to achieve additional emission
reductions through other measures that may prove to be less
costly than generation shifting and could substitute for the
reductions and costs considered here. These building block 2
analyses were focused on evaluating the potential impacts of
fossil generation shifting in isolation, and as a result, they
do not consider states’ and sources’ flexibility to choose among
alternative CO2 reduction strategies that could offer lower-cost
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reductions, instead of relying on fossil generation shifting to
the extent analyzed here.
Based on the analyses summarized above, the EPA concludes
that an average annual utilization rate for each region’s NGCC
units of up to 75 percent is a technically feasible, costeffective, and adequately demonstrated building block for BSER.
For further information on the analysis discussed in this
section, see Chapter 3 of the GHG Mitigation Measures TSD for
the CPP Final Rule.
5. Major comments and responses
The EPA received numerous comments regarding building block
2. Many of these comments provided helpful information and
insights and have resulted in improvements to the rule. This
section summarizes some of these comments, and the remainder of
the comments are responded to in the Response to Comment
document, available in the docket.
The EPA received comment regarding the potential for an
increase in upstream methane emissions from increased
utilization of natural gas. Our analysis found that the net
upstream methane emissions from natural gas systems and coal
mines and CO2 emissions from flaring of methane will likely
decrease under the Clean Power Plan. Furthermore, the changes in
upstream methane emissions are small relative to the changes in
direct emissions from power plants. The technical details
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supporting this analysis can be found in the Regulatory Impact
Analysis.
Commenters also expressed concern that neither a utility
nor any state agency controls dispatch in most states. The EPA
believes these comments fail to adequately appreciate that the
utilities do control the dispatch of units that they own and/or
operate, either by being the actual dispatch agent in many cases
where there is no RTO or ISO that schedules the dispatch, or by
the choice of units and bids they offer into an organized
electricity market operated by an RTO or ISO. These entities
currently control the dispatch of their units while respecting
all existing requirements from environmental rules. This final
rule does not change these current circumstances and makes clear
that it is the EGU that is responsible for meeting the
requirements in the state plan; the state is responsible for the
development of that plan, but the state does not need to control
the dispatch.
Other comments object to the use of a single capacity
factor for all existing NGCCs to quantify building block 2
potential on the grounds that not all units may be able to
achieve this utilization level, and that some units may be
designed for cycling and so may need upgrades to sustain such
utilization. The EPA disagrees with these comments. The 75
percent capacity factor establishes a regional potential for
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generation from existing NGCC capacity, and it does not
establish any individual unit requirements.
Some comments argue that generation limits in permits for
some existing NGCC units will limit the amount by which these
units can increase their generation and thereby limit the
feasibility of building block 2. The EPA disagrees with these
comments. Although permit limits can constrain the ability of
individual units to operate above certain levels, building block
2 was developed conservatively, with units operating on average
at a level below the maximum levels at which some units have
demonstrated the capability to operate. No individual unit is
required to achieve the average generation levels used to
quantify building block 2. Further, permit limits at individual
units can be considered when state plans are developed. There
are many flexibilities in the final rule, including the
opportunity to establish standards of performance that
incorporate emissions trading, that allow the development of
plans that will not be constrained by existing permit limits at
individual units.
The EPA also received comments asserting that increasing
generation from new renewables would require increased use of
natural gas capacity for back-up and ramping, and therefore it
is not possible for NGCC units to run at BSER utilization rates
and also be available to support the additional variable
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renewable generation resulting from building block 3. The EPA
disagrees with this comment. The 75% net summer utilization
rates defined by building block 2 is a conservative assessment
and applied on an annual average basis. It is therefore possible
for these existing units to both operate at higher annual
utilization rates, and also to operate at higher rates during
limited periods and still maintain a 75% net summer average
annual utilization rate. While variable renewable generation
does require additional load following and ramping resources and
unit cycling, these requirements are generally a small part of
the overall ramping costs of the system (see NREL, Relevant
Studies for NERC’s Analysis of EPA’s Clean Power Plan 111(d)
Compliance). Additionally, while existing NGCC units are an
efficient source of ramping to support variable renewables,
other units running in an intermediate mode can also provide
load following and ramping.
E. Building Block 3 — New Zero-emitting Renewable Generating
Capacity
The third element of the foundation for the EPA’s BSER
determination for reducing CO2 emissions at affected fossil fuelfired EGUs entails an analysis of the extent to which generation
at the affected EGUs can be replaced by using an expanded amount
of zero-emitting renewable electricity (RE) generating capacity
to produce replacement generation.
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In this section we address first the history of and then
trends in RE development, as well as the importance of expanding
the use of RE. Next we discuss the ability of affected EGUs to
access generation from new RE generating capacity, followed by a
discussion of renewable energy certificate (REC) markets. We
then describe the quantification of the amount of generation
from new RE generating capacity achievable through building
block 3, including key comments, changes made from the proposal,
the method by which RE target generation levels are quantified,
and the magnitude and timing of increases in RE generation
associated with this building block. Next, we discuss the
feasibility of implementing the identified incremental amounts
of RE generation. Finally, we address the costs associated with
those increases in RE generation.
1. History of RE Development
RE generating technologies are a well-established part of
the U.S. power sector. These technologies generate electricity
from renewable resources, such as wind, sun and water. While RE
has been used to generate electricity for over a century, the
push to commercialize RE more broadly began in the 1970s.678
Following a series of energy crises, new federal organizations

678

Nearly all U.S. hydroelectric capacity was built before the
mid-1970s. U.S. DOE. History of Hydropower. Accessed March 2015.
Available at: http://energy.gov/eere/water/history-hydropower.
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and initiatives were established to coordinate energy policy and
promote energy self-sufficiency and security, including solar
energy legislation, the Public Utility Regulatory Policies Act
of 1978 (PURPA) and the 1980 Energy Security Act.679
PURPA was a key step in stimulating RE development. By
requiring utilities to purchase generation from qualifying
facilities (i.e., certain CHP and RE generators) at avoided
costs, PURPA opened electricity markets to more RE generation
and gave rise to non-utility generators that were willing to try
new RE technologies.680 In addition, since 1992, federal tax
policy has provided important financial support via tax credits
for the production of RE and investments in RE.
States have also taken a significant lead in requiring the
development of RE resources. In particular, a number of states
have adopted renewable portfolio standards (RPS), which are
regulatory mandates to increase production of RE. As of 2013, 29
states and the District of Columbia had enforceable RPS or

679

U.S. DOE Office of Management, Timeline of Events: 1971-1980.
Accessed March 2015. Available at:
http://energy.gov/management/office-management/operationalmanagement/history/doe-history-timeline/timeline-events-1.
680 “Restructuring or Deregulation?" Smithsonian Museum of
American History. Accessed March 2015. Available at:
http://americanhistory.si.edu/powering/dereg/dereg1.htm.
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similar laws.681 These RPS requirements continue to drive robust
near-term growth of non-hydropower RE.
2. Trends in RE Development
Today, RE is tightly integrated with the utility power
sector in multiple ways: states have set RE targets for
electrical load serving entities; utilities themselves are
diversifying their portfolios by contracting with RE generators;
and new RE generators are being developed to provide more
electrical power grid support services beyond just energy (e.g.,
modern electronics allow wind turbines to provide voltage and
reactive power control at all times).682,683
Use of RE continues to grow rapidly in the U.S. In 2013,
electricity generated from RE technologies, including
conventional hydropower, represented 13 percent of total U.S.
electricity, up from 9 percent in 2005.684 In 2013, U.S. non-

681

Energy Information Administration, Annual Energy Outlook 2014
with Projections to 2040, at LR-5 (2014).
682 IPCC, Renewable Energy Sources and Climate Change Mitigation,
2012. Accessed March 2015. Available at:
http://www.ipcc.ch/pdf/specialreports/srren/SRREN_Full_Report.pdf.
683 American Wind Energy Association. AWEA Comments on EPA’s
Proposed Carbon Pollution Emission Guidelines for Existing
Stationary Sources and Supplemental Proposed Rule. p. 107.
684 Energy Information Administration, Annual Energy Outlook 2015
with Projections to 2040, at LR-5 (2014), P. ES-6 and Energy
Information Administration, Monthly Energy Review, May 2015,
Table 7.2b, Available at:
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf.
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hydro RE capacity for the total electric power industry exceeded
80,000 megawatts, reflecting a fivefold increase in just 15
years.685 In particular, there has been substantial growth in the
wind and solar photovoltaic (PV) markets in the past decade.
Since 2009, U.S. wind generation has tripled and solar
generation has grown twentyfold.686
The global market for RE is projected to grow to $460
billion per year by 2030.687 RE growth is further spurred by the
significant amount of existing natural resources that can
support RE production in the U.S.688 In the Energy Information
Administration’s Annual Energy Outlook 2015, RE generation grows
substantially from 2013 to 2040 in the reference case and all
alternative cases.689 In the reference case, RE generation

685

Non-hydro RE capacity for the total electric power industry
was more than 16,000 megawatts in 1998. Energy Information
Administration, 1990-2013 Existing Nameplate and Net Summer
Capacity by Energy Source Producer Type and State (EIA-860),
Available at: http://www.eia.gov/electricity/data/state/.
686 Energy Information Administration, Monthly Energy Review, May
2015, Table 7.2b. Available at:
http://www.eia.gov/totalenergy/data/monthly/pdf/sec7_6.pdf.
687 “Global Renewable Energy Market Outlook.” Bloomberg New
Energy Finance, November 16, 2011, Available at:
http://bnef.com/WhitePapers/download/53.
688 Lopez et al., NREL, ‘‘U.S. Renewable Energy
Technical Potentials: A GIS-Based Analysis,’’ (July 2012).
689 Energy Information Administration, Annual Energy Outlook 2015
with Projections to 2040, at LR-5 (2014), P. 25.
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increases by more than 70 percent from 2013 to 2040 and accounts
for over one-third of new generation capacity.690
The recent and projected growth of RE is in part a
reflection of its increasing economic competitiveness. Numerous
studies have tracked capital cost reductions and performance
improvements for RE, particularly for solar and wind. For
instance, Lazard’s analysis of wind and utility-scale solar PV
levelized costs of energy (LCOE), on an unsubsidized basis, over
the last five years found the average percentage decrease of
high and low of LCOE ranges were 58 percent and 78 percent,
respectively.691 Analyses of wind’s competitiveness found falling
wind turbine LCOE while the wind industry developed projects at
lower wind speed sites using new turbine designs (e.g.,
increased turbine hub heights and rotor diameters). Performance
improvements have come from novel deployments of new turbines
designed for lower quality wind sites that are deployed at
higher quality wind sites, which have resulted in capacity

690

Energy Information Administration, Annual Energy Outlook 2015
with Projections to 2040, at LR-5 (2014), P. ES-6-7.
691 Lazard, Levelized Cost of Energy Analysis-Version 8.0,
September 2014, p. 9, Available at:
http://www.lazard.com/media/1777/levelized_cost_of_energy_-_version_80.pdf.
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factor increases for these locations.692,693 For utility-scale
solar, cost and performance have also improved significantly.
Analysis has shown that the installed price of solar
photovoltaics (PV) systems, prior to any incentives, has
declined substantially since 1998. Capacity-weighted average
prices of solar PV in utility-scale deployments were 40 percent
lower in 2013 than five years earlier.694695 Initially, price
declines were partially driven by oversupply and manufacturers’
thin margins, but, in 2014, prices have remained low due to
reductions in manufacturing costs.696 The capacity factors of new
utility-scale installations have increased as systems are
optimized to maximize energy production. For example, a growing
number of utility-scale PV systems are increasing the direct
current capacity of the solar array relative to the alternating
current rating of the array’s inverter to increase energy

692

“2013 Wind Technologies Market Report,” LBNL, August 2014.
Available at: http://emp.lbl.gov/publications/2013-windtechnologies-market-report.
693 “2013 Cost of Wind Energy Review,” NREL, Feb 2015. Available
at: http://www.nrel.gov/docs/fy15osti/63267.pdf.
694 “Tracking the Sun VII” LBNL, Sept 2014. Available at:
http://emp.lbl.gov/publications/tracking-sun-vii-historicalsummary-installed-price-photovoltaics-united-states-1998-20.
695 “Photovoltaic System Pricing Trends,” NREL, 22 Sept 2014.
Available at: http://www.nrel.gov/docs/fy14osti/62558.pdf.
696 “Revolution Now – The Future Arrives for Four Clean Energy
Technologies – 2014 Update,” DOE, Oct 2014. Available at:
http://energy.gov/sites/prod/files/2014/10/f18/revolution_now_
updated_charts_and_text_october_2014_1.pdf.
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production and improve project economics.697 The cost and
performance improvements for wind and solar are driven by
increased scale of production, improved technologies, and
advancements in system deployments.
3. Importance of Increasing Use of RE
Currently, the utility power sector accounts for 40 percent
of total annual energy consumption in the U.S.698 Introducing
more zero-emitting RE generation over the long term could
significantly reduce CO2 emissions, as production of RE
predominantly replaces fossil fuel-fired generation and thereby
avoids the emissions from that replaced generation.
A number of studies and recent policy developments have
acknowledged RE as an important means of achieving CO2
reductions. California cited the reduction of CO2 emissions from
electrical generations as one of the reasons for increasing its
RE target from 20 percent to 33 percent by 2020 (and potentially

697

“Utility-Scale Solar 2013,” LBNL, Sept 2014. Available at:
http://emp.lbl.gov/publications/utility-scale-solar-2013empirical-analysis-project-cost-performance-and-pricing-trends.
698 U.S. Energy Information Administration Annual Energy Review,
2011. Accessed March 2015. Available at:
http://www.eia.gov/totalenergy/data/monthly/pdf/flow/primary_ene
rgy.pdf.
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50 percent by 2030).699 A recent IPCC report also concluded that
RE has large potential to mitigate CO2 emissions.700
Increased use of RE provides numerous benefits in addition
to lower CO2 emissions. RE typically consumes less water than
fossil fuel-fired EGUs. Wind power and solar PV systems do not
require the use of any water to generate electricity; water is
only needed for cleaning to ensure efficient operation. In
contrast, utility boilers, in particular, require large
quantities of water for steam generation and cooling.701
Increasing RE use will also continue to lower other air
pollutants (e.g., fine particles, ground-level ozone, etc.),
diversify energy supply, hedge against fossil fuel price
increases and create economic development and jobs in
manufacturing, installation, and other sectors of the economy.
4. Access to RE by Owners of Affected EGUs
The ability of affected EGUs to co-locate or obtain
incremental RE to reduce CO2 emissions is well-demonstrated,

699

California S.B. 2 (1X), 2011. Accessed March 2015. Available
at: http://www.leginfo.ca.gov/pub/11-12/bill/sen/sb_00010050/sbx1_2_bill_20110412_chaptered.pdf.
700 IPCC, Renewable Energy Sources and Climate Change Mitigation,
2012. Accessed March 2015. Available at:
http://www.ipcc.ch/pdf/specialreports/srren/SRREN_Full_Report.pdf.
701 EPA, Water Resource Use. Accessed on March 2015. Available
at: http://www.epa.gov/cleanenergy/energy-and-you/affect/waterresource.html.
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whether it is through direct ownership, bilateral contracts, or
procurement of the environmental attributes associated with RE
generation.702 Consequently, the EPA believes that an increase in
RE is a proven way to reduce CO2 emissions at affected EGUs of
all types at a reasonable cost.
Owners and operators of affected EGUs across the U.S.
already have substantial opportunities to procure RE regardless
of their organizational structure and/or business model. In many
parts of the country, EGUs are owned and operated by vertically
integrated utilities. These utilities can be investor-owned
utilities that operate under traditional electricity regulation,
municipal utilities (munis), or electric cooperatives (co-ops).
These utilities have significant control over the types of
generating capacity they develop or acquire, and over the
electricity mix used to meet demand within their service
territories.
Even when EGU owners participating in organized markets do
not directly determine dispatch among energy sources, such EGU
owners make decisions about what types of capacity they choose
to develop and thus what generation mix they can ultimately
supply into that market’s dispatch choices. Because zeroemitting RE technologies have relatively low variable costs, an

702

Refer to the GHG Mitigation Measures TSD for additional
information on RE ownership and co-location.
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EGU owner’s decision to install (or to finance the installation
of) RE capacity will yield lower-cost electricity generation
that, when available, a system dispatcher will prefer over
higher-variable-cost generation from fossil fuel-fired capacity.
Therefore, all owners of affected EGUs have a direct path for
replacing higher-emitting generation with RE regardless of their
organizational type and regardless of whether they operate in a
cost-of-service framework or in a competitive, organized market.
Many affected EGUs have already directly invested in RE. Of
the 404 entities that owned part of at least one affected EGU
under this rule, 178 also owned RE (biomass, geothermal, solar,
water or wind). These 178 owners owned 82 percent of affected
EGU capacity. As a whole, these entities’ share of RE capacity
was equal to 25 percent of the total of their affected EGU
capacity.703
Some of the largest owners of affected EGUs also owned RE
(see Table 8). For example, NRG Energy, Inc. owns more than
3,000 megawatts of RE capacity, over 20 percent of which (nearly
800 megawatts) is solar, and almost 80 percent of which (over
2,500 megawatts) is wind. Duke Energy Corporation owns 175
megawatts of solar and over 1,500 megawatts of wind. NextEra

703

SNL Energy. Data used with permission. Accessed on June 9,
2015.
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Energy, Inc.’s share of RE capacity approaches 40 percent of
their total affected EGU capacity.704 Table 8 lists a sampling of
affected EGUs that have large amounts of fossil fuel-fired
capacity and RE capacity:

TABLE 8. Sample of Owners of Affected EGUs and RE Capacity.705,706
Ultimate Parent
Affected EGU
Renewable
Capacity (MW) Capacity (MW)

NRG Energy, Inc.
Duke Energy Corporation
Southern Company
American Electric Power
Company, Inc.
NextEra Energy, Inc.
Calpine Corporation
Tennessee Valley Authority
Berkshire Hathaway Inc.
FirstEnergy Corp.
Exelon Corporation
Nebraska Public Power
District
Basin Electric Power
Cooperative
American Municipal Power,
Inc.
Sacramento Municipal Utility
District
Golden Spread Electric
Cooperative, Inc.

48,787
39,028
37,168
34,940

3,149
5,526
3,245
1,142

29,471
23,878
21,717
18,899
16,175
10,283
2,003

11,626
1,509
5,427
6,650
1,371
3,361
90

1,526

275

1,112

53

925

834

521

78

704

Ibid.
SNL Energy. Data used with permission. Accessed on June 9,
2015.
706 eGRID, EPA. 2012 Unit-Level Data Using the eGRID Methodology.
June 7, 2015 version.
705

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Large vertically integrated utilities generally have
multiple options for investing in RE, including building their
own RE capacity or procuring RE under a long-term power purchase
agreement. Municipal utilities and rural cooperatives that own
generating asset portfolios, particularly generation and
transmission cooperatives and larger municipal utilities, have
also used RE to reduce carbon emissions. Large generation and
transmission cooperatives also purchase significant quantities
of RE for their members. Federal power authorities own or
contract for significant amounts of RE.707,708
The list of ten electric utilities with the largest amounts
of wind power capacity on the system (owned or under contract)
includes a variety of affected EGU organizational structures,
including vertically integrated investor-owned utilities,
municipal utilities, and federal power authorities. Xcel Energy
and Berkshire Hathaway Energy rank first and second with 5,736
megawatts and 4,992 megawatts of wind capacity, respectively.
Tennessee Valley Authority, a federal power authority, had 1,572
megawatts and CPS Energy, a public utility, had 1,059 megawatts

707

American Wind Energy Association. AWEA Comments on EPA’s
Proposed Carbon Pollution Emission Guidelines for Existing
Stationary Sources and Supplemental Proposed Rule. pp. 88-91.
708 Solar Energy Industries Association. Comments to the EPA and
States on the Proposed Clean Power Plan Regulating Existing
Power Plants Under Section 111(d) of the Clean Air Act. pp. 98147.
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of wind power capacity.709 Basin Electric Power Cooperative had
716 megawatts and was the top ranked cooperative utility, but is
not on the top ten utilities with wind power capacity list.
Many affected EGUs are already planning on deploying
significant amounts of RE according to their integrated resource
plans (IRPs). Electric utilities use IRPs to plan operations and
investments over long time horizons. These plans typically cover
10 to 20 years and are mandated by public utility commissions
(PUCs). A recent study of IRPs, included in the docket for this
rulemaking, shows this trend.710 For instance, Dominion plans for
over 800 megawatts of wind and solar in their 2015 to 2029
planning period.711 Duke Energy Carolinas’ IRP has no plans for
new coal, but describes plans for roughly 1,250 megawatts of
additional RE by 2021, and approximately 2,150 megawatts by

709

American Wind Energy Association. U.S. Wind Industry Annual
Market Report (2014 data). Accessed July 2015. Available at
http://www.awea.org/AnnualMarketReport.aspx?ItemNumber=7422&RDto
ken=64560&userID=. The ten largest electric utilities with wind
power capacity on the system (owner or under contract) includes:
Xcel Energy; Berkshire Hathaway Energy; Southern California
Edison; American Electric Power; Pacific Gas & Electric;
Tennessee Valley Authority; San Diego Gas & Electric; CPS
Energy; Los Angeles Department of Water & Power; and Alliant
Energy.
710 See memo entitled “Review of Electric Utility Integrated
Resource Plans” (May 7, 2015).
711 Dominion North Carolina Power's and Dominion Virginia Power's
Report of Its Integrated Resource Plan, August 2014, Available
at:
https://www.dom.com/library/domcom/pdfs/corporate/integratedresource-planning/nc-irp-2014.pdf.
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2029. A significant portion (1,670 megawatts) of the planned RE
is solar.712 Ameren is planning to retire one-third of the coal
generating capacity, as well as installing an additional 400
megawatts of wind, 445 megawatts of solar, and 28 megawatts of
hydroelectric generating capacity.713
Independent power producers (IPPs) also can and do own both
RE and fossil generation. For example, NRG is a diversified IPP
that operates substantial coal, natural gas, wind, solar, and
nuclear capacity. NRG demonstrates the ability of IPPs to reduce
utilization of fossil fuel-fired EGUs and replace that
generation with RE. NRG announced a goal to cut CO2 emissions
from its fleet by 50 percent by 2030 (from a 2014 baseline).714
NRG has already reduced CO2 emissions from its fleet by 40
percent since 2005. This achievement demonstrates that when an
IPP commits to shifting its generation portfolio, it can do so
at reasonable cost and without reliability impacts. The NRG
example shows that reduced utilization of fossil fuel-fired EGUs

712

Duke Energy Carolinas’ 2014 Integrated Resource Plan,
September 2014, Available at:
http://starw1.ncuc.net/NCUC/ViewFile.aspx?Id=c3c5cbb5-51f2-423a9dfc-a43ec559d307.
713 Integrated Resource Plan Update, October 2014, Available at:
https://www.ameren.com/missouri/environment/renewables/amerenmissouri-irp.
714 NRG, “NRG Energy Sets Long-Term Sustainability Goals at
Groundbreaking of “Ultra-Green” New Headquarters” (Nov. 20,
2014), available at
http://investors.nrg.com/phoenix.zhtml?c=121544&p=irolnewsArticl
e&ID=1991552.
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that is replaced by RE also owned by the EGU owner is adequately
demonstrated.
EGU owners can also replace fossil fuel-fired generation
with RE through bilateral contracts and REC purchases, as
described below. Both the bilateral market for RE contracts and
REC markets are well- developed. There are no legal or technical
obstacles to a fossil fuel-fired EGU owner acting as the
counterparty of a bilateral contract for purchase of energy from
a RE facility. Any type of EGU owner (utility or otherwise) can
purchase and retire RECs. The fact that RECs are purchased by a
diverse set of market participants — including residential
consumers, commercial businesses, and industrial facilities —
demonstrates that such a purchase for all EGU owners is
adequately demonstrated.
5. REC Markets
Affected EGU owners do not need to directly invest in, or
own, renewable generating capacity in order to replace fossil
fuel-fired generation with RE as an emission reduction measure.
RECs are used to demonstrate compliance with state RE targets,
such as state RPS, and also to substantiate claims stemming from
RE use. RECs are tradable instruments that are associated with
the generation of one megawatt-hour of RE and represent certain
information or characteristics of the generation, called

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attributes.715 RECs may be traded and transferred regardless of
the actual energy flow.
The legal basis for RECs is established by state statutes
and administrative rules. Nearly all states with a mandatory RPS
have established RECs as a means of compliance. The Federal
Energy Regulatory Commission (FERC) has observed that states
created RECs to facilitate programs designed to promote
increased use of RE, and that “attributes associated with the
[RE] facilities are separate from, and may be sold separately
from, the capacity and energy.”716
In complying with states’ RPS requirements, utilities have
contracted for RECs from in-state and out-of-state resources in
accordance with RPS requirements. Utilities may have sourced
RECs from out-of-state to reduce the cost of compliance, to

715

EPA Green Power Partnership, Renewable Energy Certificates
July 2008). Available at
http://www.epa.gov/greenpower/documents/gpp_basics-recs.pdf.
716 FERC Docket No. EL03-133-000, Petition for Declaratory Order
and Request for Expedited Consideration, American Ref-Fuel
Company, Covanta Energy Group, Montenay Power Corporation, and
Wheelabrator Technologies, Inc. June 16, 2003, Order Granting
Petition for Declaratory Ruling, October 1, 2003. American RefFuel Co. et al., 105 FERC ¶ 61,004 (2003); and Order Denying
Rehearing. April 15, 2004. 107 FERC ¶ 61,016 (2004). Available
online at: http://www.ferc.gov/whats-new/comm-meet/041404/E28.pdf (accessed 11/7/2014).
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source RECs from specific generation types, or for other
reasons.717
The development of REC markets to facilitate RPS compliance
provides evidence that markets can develop to facilitate
compliance with rate-based state plans. These markets will
afford affected EGU owners an alternative to directly invest in,
or own, renewable generating capacity in order to replace fossil
fuel-fired generation with RE as an emission reduction measure.
6. Quantification of RE Generation Potential for BSER and Major
Comments
The methodology for quantifying RE generation levels under
building block 3 is a modified version of the alternative RE
approach from proposal, with adjustments that reflect the data
and information the EPA collected through stakeholder comments
and the EPA’s additional analysis and information collection. In
evaluating the proposed and alternative RE approaches commenters
observed that RPS, as the basis for quantifying RE generation
levels under the proposed approach, are policy instruments that
states may choose to implement for a variety of reasons not
related to CO2 emission reductions. Additionally, differences
across RPS policies in eligible resources, crediting mechanisms,

717

Heeter, J. Quantifying the Level of Cross-State Renewable
Energy Transactions. NREL 2015. Available at
http://www.nrel.gov/docs/fy15osti/63458.pdf.
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deliverability requirements, alternative compliance payments,
and other policy elements made the regional averaging of statelevel RPS requirements challenging. Finally, commenters provided
data demonstrating that RE resource potential can vary
significantly within the regions identified under the proposed
approach, producing state-level RE generation levels that may
not be aligned with the opportunity to deploy incremental RE
resources at reasonable cost. In contrast, commenters argued
that a methodology similar to the alternative RE approach, which
is based on economic potential, represents a more technically
sound basis for quantifying building block 3 target generation
levels that accounts for regional differences in RE resources
and power market conditions, such as projected fuel prices, load
growth and wholesale power prices. The EPA agrees with these
comments.
Within the framework of the alternative RE approach, the
EPA received significant comments on a number of issues,
including the use of historical deployment rates, the interstate
nature of RE and the power system, merits of total versus
incremental RE generation as the metric by which building block
3 generation levels are quantified, types of RE technologies
that contribute to those generation levels, cost and performance
estimates associated with those RE technologies, magnitude of
the reduced cost applied to new RE capacity as an incentive to
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deploy, and application of a nationally uniform benchmark
development rate to modeled projections of economic deployment.
Based on commenter data and information, as well as further
analysis and information collection, the primary adjustments the
EPA made to the alternative RE approach are:


The basis for quantifying building block 3 generation has
been modified to incorporate historical deployment patterns
for RE technologies as well as the economic potential
identified through modeling projections. The introduction
of historical capacity additions to the final methodology
further grounds building block 3 generation in demonstrated
levels of RE deployment that have been successfully
incorporated into the power system. This adjustment also
serves to harmonize the approach across all three building
blocks in which historical data is the primary basis for
identifying emission reduction opportunities under the
BSER.



The RE technologies used to quantify building block 3
generation levels are onshore wind, utility-scale solar PV,
concentrating solar power (CSP), geothermal and hydropower.
Each of these technologies is a utility-scale, zeroemitting resource that was included under the alternative
RE approach at proposal. Additionally, the EPA received

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significant comments on the opportunities and challenges
associated with distributed RE technologies. Distributed
technologies, as a demand-side resource, present unique
data and technical challenges (such as the role of
evaluation, measurement and verification (EM&V) procedures
in verifying their production, the diverse economic
incentives of different parties involved in their
deployment, and the variety of grid integration policies
and conditions across potential deployment sites) that
complicate identifying a technically feasible and costeffective level of generation. Consequently, the EPA is, at
this time, choosing not to include distributed technologies
as part of the BSER (although, as explained in section
VIII.K of this preamble, distributed RE technologies that
meets eligibility criteria may be used for compliance).
Finally, any RE technology that has not been deployed in
the U.S., including demonstrated RE technologies for which
there is clear evidence of technical feasibility and costeffectiveness (e.g., offshore wind), contributes no
generation to building block 3 under this historicallybased methodology. These RE technologies are consequently
reserved for compliance, which offers affected EGUs
additional flexibility and will reduce their need to rely
on other emission reduction measures or building blocks.
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

Building block 3 generation levels are expressed in terms
of incremental, rather than total, RE generation. As a
metric, incremental generation is better aligned with
quantifying an amount of expanded RE to replace generation
at affected EGUs.718 Specifically, the generation levels
under building block 3 include generation from capacity
that commenced operation subsequent to 2012 (the data year
on which the BSER is evaluated). Commenters remarked that
it is unnecessary to include generation from RE capacity
that was already in operation by 2012 in building block 3
because the impact of that generation on fossil fuel-fired
EGUs is already reflected in the observed 2012 emissions
and generation data of those EGUs.



Due to the interstate nature of RE and the power system,
and consistent with the rationale provided in the October
2014 Notice of Data Availability (NODA), building block 3
generation levels are quantified for each of the three BSER
regions – the Eastern Interconnection, Western
Interconnection, and Texas Interconnection – rather than at

718

Consistent with the November 2014 Notice of Data
Availability, the final goal setting methodology assumes
replacement of affected EGU generation by incremental building
block 3 generation in calculating source-specific CO2 emission
performance rates. For additional information on the goal
setting methodology refer to Section VI.
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the state-level. This regionalized approach, as described
in the NODA, takes into account the opportunity to develop
regional RE resources and thus better aligns building block
3 generation levels with the rule’s approach to allowing
the use of qualifying out-of-state renewable generation for
compliance.


Commenters observed that the cost and performance estimates
the EPA relied on at proposal from the Energy Information
Administration’s Annual Energy Outlook 2013 do not reflect
the decline in cost and increase in performance that have
been demonstrated by current projects, particularly in
regards to wind and solar technologies. Commenters provided
data from a variety of sources to support these claims,
including Lawrence Berkeley National Laboratory, the
Department of Energy (DOE) and Lazard. Each of these
sources supported the contention that RE technologies,
particularly wind and solar, have realized gains in cost
and efficiency at a scale that has altered the competitive
dynamic between RE and conventional resources. As a result,
it has become increasingly necessary for any long-term
outlook of the utility power sector to continually assess
the development of RE technology cost and performance
trends. In performing this task, the EPA revised its data
for onshore wind and solar technologies to reflect the mid-

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case estimates from the National Renewable Energy
Laboratory’s (NREL’s) 2015 Annual Technology Baseline. The
EPA selected the NREL 2015 Annual Technology Baseline (ATB)
estimates based on the quality of its data as well as
NREL’s demonstrated success in both reflecting and
anticipating RE cost and performance trends. In addition to
wind and solar technologies, the EPA evaluated hydropower
deployment potential based on the latest cost and
performance data from NREL’s Renewable Energy Economic
Potential study.719


The benchmark development rate that constrained costeffective RE deployment under the alternative RE approach
in the proposal has been removed from the final
methodology.720 Commenters detailed several issues with
applying the benchmark development rate, including that it
does not factor in the total size of the RE resource in a
given state and is inconsistent with a regional approach to
quantifying target generation levels. EPA agrees with these

719

For additional information on the updated RE cost and
performance assumptions used to quantify building block 3
generation, refer to the GHG Mitigation Measures TSD.
720 The technical potential limiter was a nationally uniform,
technology-specific limit on cost-effective RE deployment based
on the amount of 2012 generation in a state as a share of that
state’s total technical potential.
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comments and the benchmark development rate has been
eliminated.
In addition to the comments described above, the EPA
received significant comments on a wide variety of topics
related to building block 3. Many of these comments provided
helpful information and insights, and have resulted in
improvements to the final rule. These comments, as well as the
EPA responses, are available in the Response to Comment
document.
The final methodology for quantifying incremental RE target
generation levels contains seven steps. Each step is described
below.721
First, the EPA collected data for each RE technology
(onshore wind, utility-scale solar PV, CSP, geothermal and
hydropower) to determine the annual change in capacity over the
most recent five-year period. From these data, the EPA
calculated the five-year annual average change in capacity and
the five-year maximum annual change in capacity for each
technology.
Second, the EPA determined an appropriate capacity factor
to apply to each RE technology that would be representative of

721

For supporting data, documentation, and examples for each
step of the quantification methodology, refer to the GHG
Mitigation Measures TSD.
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expected future performance from 2022 through 2030. For this
purpose the EPA relied on NREL’s ATB.
Third, the EPA calculated two generation levels for each RE
technology. The first generation level is the product of each
technology’s five-year average capacity change and the assumed
future capacity factor. The second generation level is the
product of each technology’s five-year maximum annual capacity
deployment and the assumed future capacity factor. Table 9 below
shows the data and assumptions used for these calculations.
TABLE 9. Historical Capacity Changes and Associated Generation
Levels.
Maximum
Assumed
Five-Year Generation
Generation
Annual
Future
Average
Associated
Associated
Capacity with Maximum
Capacity Capacity
with Five
Factor
Change
Year-Average Change
Annual
Capacity
(MW)
(MW)
Capacity
Change (MWh)
Change (MWh)
UtilityScale Solar
20.7%
1,927
3,934
722
PV
3,494,268
7,133,601
CSP
34.3%
251
767
754,175
2,304,590
Onshore
41.8%
6,200
13,131
Wind
22,702,416
48,081,520
Geothermal
85.0%
142
407
1,057,332
3,030,522
Hydropower
63.8%
141
294
788,032
1,643,131
Total
N/A
N/A
N/A
Generation
28,796,222
62,193,363

722

Capacity values for utility-scale solar PV are expressed in
terms of MWDC. The assumed future capacity factor for this
utility-scale solar PV includes a DC-to-AC conversion, enabling
the generation totals to be combined across all RE technologies.
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Fourth, the EPA quantified the RE generation from capacity
commencing operation after 2012 that can be expected in 2021
(the year before this rule’s first compliance period) without
the imposition of this rule. Because building block 3 is focused
on the ability of fossil fuel-fired EGUs to reduce their
emissions by deploying incremental RE, it is reasonable to take
into account the considerable amount of RE deployment that is
already taking place and is projected to continue doing so
before considering the additional deployment that would be
motivated by this rule’s mandate to reduce emissions from
affected EGUs. The EPA considered its base case power sector
modeling projections using IPM to quantify this component of
future-year RE generation, which the EPA assumes to be
213,084,125 megawatt-hours in 2021.
Fifth, the EPA applied the generation associated with the
five-year average capacity change to the first two years of the
interim period. Combining the projected 2021 RE generation from
capacity starting operation after 2012 with the generation
increment associated with the five-year average change in
capacity produces 241,880,347 megawatt-hours in 2022 and
270,676,570 megawatt-hours in 2023. The EPA believes it is
appropriate to apply the generation associated with the fiveyear average capacity change for the first two years of the
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interim period to ensure adequate opportunity to plan for and
implement any necessary RE integration strategies and
investments in advance of the higher RE deployment levels
assumed for later years.
Sixth, for all years subsequent to 2023 the EPA applied the
generation associated with the maximum annual capacity change
from the historical data analysis. In 2024, this produces a
building block 3 generation level of 332,869,933 megawatt-hours
(aggregated across all three BSER regions); by 2030, that
generation level is 706,030,112 megawatt-hours.
Seventh, to further evaluate the technical feasibility and
cost-effectiveness of the building block 3 generation levels
(aggregated across all three BSER regions), as well as to
produce interconnection-specific levels of building block 3
generation from the national totals described in steps 5 and 6,
the EPA conducted analysis using IPM of a scenario directing the
power sector to achieve those RE generation levels. IPM modeling
projections assess opportunities for RE deployment in an
integrated framework across power, fuel, and emission markets.
The modeling framework incorporates a host of constraints on the
deployment of RE resources, including resource constraints such
as resource quality, land use exclusions, terrain variability,
distance to existing transmission, and population density;
system constraints such as interregional transmission limits,
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partial reserve margin credit for intermittent RE installations,
minimum turndown constraints for fossil fuel-fired EGUs, and
short-term capital cost adders to reflect the potential added
cost due to competition for scarce labor and materials; and
technology constraints such as construction lead times and
hourly generation profiles for non-dispatchable resources by
season.723 Additionally, the EPA assumes in this analysis that
deployment of variable, non-dispatchable RE resources is limited
to 20 percent of net energy for load by technology type and 30
percent of net energy for load in total at each of IPM’s 64 U.S.
sub-regions.724 The 30 percent constraint applied to variable,
non-dispatchable RE resources reflects levels commonly modeled
in grid integration studies at the level of the interconnection.
These studies have demonstrated that impacts to the grid in
reaching levels as high as 30 percent of net energy for load are
relatively minor.725 For example, the Western Wind and Solar
Study Phase 2 found cycling costs ranged from $0.14 to $0.67 per

723

Refer to GHG Mitigation Measures TSD for more detail on
modeling methodology.
724 Regions that have already exceeded these limits are held at
historical percent of net energy for load.
725 Wind Technologies Market Report 2013. LBNL. Cochran, et al.
2014; Grid Integration and the Carrying Capacity of the U.S.
Grid to Incorporate Variable Renewable Energy. NREL. Cochran, et
al. 2015; The Western Wind and Solar Integration Study Phase 2.
NREL. Lew, et al. 2013. Refer to GHG Mitigation Measures TSD for
further analysis.
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megawatt-hour of added wind and solar generation. These
integration cost levels are not impactful in determining costeffectiveness. As such, applying the 30 percent constraints at
the IPM sub-region level is very conservative and provides a
high degree of assurance that the RE capacity deployment pattern
projected by the model would not incur significant grid
integration costs.726
In addition to facilitating the EPA’s assessment of the
feasibility and cost of reaching the aggregate building block 3
generation levels across all three BSER regions, the IPM
projections also provide the EPA with a basis for apportioning
those generation levels to each interconnection. The EPA
considered the projected regional location of the evaluated RE
deployment in this analysis, which shows the majority of such
deployment occurring in the Eastern Interconnection. The GHG
Mitigation Measures TSD describes in greater detail the process
by which the EPA calculated the apportionment of building block
3 generation levels to each of the BSER regions, taking these
modeling projections into account. Table 10 describes the annual
building block 3 generation levels for each interconnection from
2022 through 2030.
TABLE 10. Building Block 3 Generation Levels (MWh).
726

Refer to the GHG Mitigation Measures TSD for additional
information on constraints related to deployment of nondispatchable RE.
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Year

2022
2023
2024
2025
2026
2027
2028
2029
2030

Eastern
Interconnection
166,253,134
181,542,775
218,243,050
254,943,325
291,643,600
328,343,875
365,044,150
401,744,425
438,444,700

Western
Interconnection
56,663,541
60,956,363
75,244,721
89,533,078
103,821,436
118,109,793
132,398,151
146,686,508
160,974,866

Texas
Interconnection
18,963,672
28,177,431
39,382,162
50,586,893
61,791,623
72,996,354
84,201,085
95,405,816
106,610,547

Through the quantification methodology detailed above, the
EPA has identified amounts of incremental RE generation that are
reasonable, rather than the maximum amounts that could be
achieved while preserving the cost-effectiveness of the building
block. For example, assuming gradual improvement in RE
technology capacity factors consistent with historical trends,
expanding the portfolio of RE technologies that contribute to
the building block 3 generation level, and applying the fiveyear maximum capacity change values to all years of the interim
period are adjustments that would produce higher building block
3 generation levels and maintain the primacy of historical data
in quantifying RE generation potential. External analysis and
studies of RE penetration levels strongly support the technical
feasibility and cost-reasonableness of RE deployment well in
excess of the levels established by building block 3, as
detailed in section V.E.7. By identifying reasonable rather than
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maximum achievable amounts, we are increasing the assurance that
that the identified amounts are achievable by the source
category and providing greater flexibility to individual
affected EGUs to choose among alternative measures for achieving
compliance with the standards of performance established for
them in their states’ section 111(d) plans.
7. Feasibility of RE Deployment
The 2030 level of RE deployment and the rate of progress
during the interim period in getting to that level are well
supported by comments received, DOE and NREL analysis, and
external studies evaluating the costs of and potential for RE
penetration. The EPA has assessed the feasibility of RE in terms
of deployment potential, system integration, reliability, backup
capacity, transmission investments, and RE supply chains.
Historical RE deployment rates are a strong indication of
the feasibility of the 2030 level of deployment and interim
period pathway. The use of RE continues to grow rapidly in the
U.S. In 2013, electricity generated from RE, including
conventional hydropower, represented 13 percent of total U.S.
electricity, up from 9 percent in 2005. In particular, there has
been substantial growth in the wind and solar markets in the
past decade. Since 2009, wind energy has tripled and solar has
grown tenfold.

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The expected future capacity installations in 2022-2030
needed to reach the 2030 level of incremental RE generation are
consistent with historical deployment patterns. Forecasts by
Cambridge Energy Research Associates (CERA) of 17 gigawatts in
2015 and historical deployment of 16 gigawatts in 2012 are
significant. The average deployment of wind over the past five
years was 6,200 megawatts per year; 2014 deployment of solar PV,
both distributed and utility-scale, was 6,201 megawatts. This
contribution from solar PV is consistent with the rapid
reduction in costs that is currently being observed and is
expected to continue.
Grid operators are reliably integrating large amounts of
RE, including variable, non-dispatchable RE today. For example,
Iowa and South Dakota produced more than 25 percent of their
electricity from wind in 2013, with a total of nine states above
12 percent and 17 states at more than 5 percent. California
served nearly 19 percent of total load in 2013 with RE
resources, not including behind-the-meter distributed solar
resources, and approximately 25 percent of total load with RE in
2014. On an instantaneous basis, California is regularly serving
above 25 percent of load with RE resources, recently began
seeing over 5,000 megawatt-hours of solar energy, and is on
track for 33 percent of load with no serious reliability or grid
integration issues. Germany exceeded 28 percent non-hydro RE as
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a percentage of total energy in first half of 2014. Other recent
examples include: ERCOT met 40 percent of demand on March 31,
2014 with wind power; SPP met 33 percent of demand on April 6,
2013 with wind power; and, Xcel Energy Colorado met 60 percent
of demand on May 2, 2013 with wind power. Operational and
technical upgrades to the power system may be required to
accommodate high levels of variable, non-dispatchable RE like
wind and solar over longer time periods; however, the
penetration levels cited above have been achieved without
negative impacts to reliability due in large part to low-cost
measures such as expanded operational flexibility and effective
coordination with other regional markets.
RE can contribute to reliable system operation. The
abundance and diversity of RE resources in the U.S. can support
multiple combinations of RE in much higher penetrations. When
California, the Midwest, PJM, New York, and New England
experienced record winter demand and prices during the polar
vortex, wind generation played a key role in maintaining system
reliability.
Wind and solar PV are increasingly productive and capable
of being accurately forecast, which improves grid reliability.
Increasing capacity factors mean less variability and more
generation. While the wind industry develops more projects at
lower wind speed sites, wind turbine design changes are driving
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capacity factors higher among projects located in a given wind
resource regime.727 Average capacity factors have risen from the
low 30 percent range to high 30 percent range and continue to
improve. One key recent advancement is the increasing use of
turbines designed for low to medium wind speed sites (with
higher hub-heights and larger rotors, relative to nameplate
capacity) at higher wind-speed sites with low turbulence.
New variable RE generators can provide more electrical
power grid support services beyond just energy. Modern wind
turbine power electronics allow turbines to provide voltage and
reactive power control at all times. Wind plants meet a higher
standard and far exceed the ability of conventional power plants
to “ride-through” power system disturbances, which is essential
for maintaining reliability when large conventional power plants
break down. Xcel Energy sometimes uses its wind plants’
exceedingly fast response to meet system need for frequency
response and dispatchable resources. Utility-scale PV can
incorporate control systems that enable solar PV to contribute
to grid reliability and stability, such as voltage regulation,
active power controls, ramp-rate controls, fault ride through,
and frequency control. Solar generation is capable of providing

727

LBNL, Wind Technologies Market Report 2013, August 2014, p.
43, Available at:
http://emp.lbl.gov/sites/all/files/2013_Wind_Technologies_Market
_Report_Final3.pdf.
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many ancillary services that the grid needs but, like other
generators, needs the proper market signals to trade energy
generation for ancillary service provision.
The transmission network can connect distant high-quality
RE to load centers and improve reliability by increasing system
flexibility. Investments in transmission and distribution
upgrades also enable improvements in system-wide environmental
performance at lower cost.
The potential range of new transmission construction is
within historical investment magnitudes. Under nearly all
scenarios analyzed for the DOE’s Quadrennial Energy Review,
circuit-miles of transmission added through 2030 are roughly
equal to those needed under the base case, and while those base
case transmission needs are significant, they do not appear to
exceed historical annual build rates. DOE’s Wind Vision findings
project 11.5 gigawatts of wind per year from 2021-2030. This
deployment level would require 890 circuit miles per year of new
transmission; 870 miles per year have been added on average
between 1991 and 2013. 11.5 gigawatts per year is consistent
with building block 3 deployment levels for wind capacity over
the compliance period. DOE’s SunShot scenario, which increases
utility-scale PV to 180 gigawatts by 2030, required spending of
$60 billion on transmission through 2050. On an average annual

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basis, this expenditure is within the historical range of annual
transmission investments made by IOUs in recent decades.
Incremental grid infrastructure needs can be minimized by
repurposing existing transmission resources. Transmission
formerly used to deliver fossil-fired power to distant loads can
– and is – being used to deliver REwithout new infrastructure.
First Solar’s Moapa project uses transmission built to deliver
coal-fired power from Navajo to Los Angeles. NV Energy’s
retirement of Reid-Gardner will free up additional transmission
capacity. The Milford wind projects in Utah already utilize
transmission that was built to deliver coal power to Los
Angeles.
Storage can be helpful but is not essential for the
feasibility of RE deployment because there are many sources of
flexibility on the grid. DOE’s Wind Vision and many other
studies have found an array of integration options (e.g., large
balancing areas, geographically dispersed RE, weather
forecasting used in system operations, sub-hourly energy
markets, access to neighboring markets) for RE beyond storage.
Storage is a system resource, as its value for renewables is a
small share of its total value.
Increasing regional coordination between balancing areas
will increase operational flexibility. The Energy Imbalance
Market (EIM) recently implemented by the California ISO and
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Pacificorp is a good example of the increased coordination that
will be helpful in ensuring that resources across the West are
being utilized in an efficient way.
Significant wind and solar supply chains have developed in
the past decade to serve the fast-growing US RE market. For
wind, domestic production capability would likely have to
increase to accommodate projected builds under the CPP in the
2022-2030 time period; however, the global supply chain has
expanded significantly to serve multiple markets and can augment
production from the domestic supply chain, if necessary. At the
start of 2014, the U.S. domestic supply chain could produce
10,000 blades (6.2 gigawatts) and 4300 towers (8 gigawatts)
annually. It is not anticipated that expanded domestic
manufacturing will be constrained by raw materials availability
or manufacturing capability. For solar technologies, the global
supply chain has a capacity that has significantly expanded over
the past few years from 1.4 gigawatts per year in 2004 to 22.5
gigawatts per year in 2011. Current capacity exceeds these
levels and is expected to grow. For PV systems, raw materials
like tellurium and indium are at highest risk of supply
shortage, but these materials are not used in the PV
technologies currently being deployed at large-scale.
8. Cost of CO2 Emission Reductions from RE Generation

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The EPA believes that RE generation at the levels
represented in building block 3 can be achieved at reasonable
costs. In the EPA’s modeling of the building block 3 generation
level, the projected cost of achieving CO2 reductions through
this expansion of RE generation is $37 per ton on average from
2022 through 2030.728 There are a number of reasons why the EPA
believes that the cost of CO2 emission reductions from RE
generation will be lower than this analysis suggests. First,
modeling constraints that restrict variable, non-dispatchable RE
technologies to 30 percent of net energy for load at each of the
64 U.S. IPM regions is a conservative limit intended to
eliminate significant grid integration costs at increased levels
of RE penetration. In fact, many regions have already
demonstrated levels of RE penetration that exceed the
constraints, and in practice intermittency can be managed across
larger regions than the 64. Consequently, the extent to which
these regions could, in practice, achieve higher levels of RE
deployment without facing substantial grid integration costs
would lead to a lower-cost RE outcome than is estimated by this
analysis. Second, there are multiple RE technologies not
quantified under building block 3 that affected EGUs may use to
demonstrate compliance (distributed generation technologies,

728

Refer to the GHG Mitigation Measures TSD for further analysis
and IPM run results.
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offshore wind, etc.). Based on preliminary analysis from DOE and
NREL, cost-effective opportunities for distributed generation
alone could satisfy one-third to over one-half of the stringency
associated with building block 3.729 Third, as discussed in
section V and VI of the preamble, the BSER reflects the degree
of emission limitation achieved through the application of the
building blocks in the least stringent region. By definition, in
the other two regions the BSER is less stringent than the simple
combination of the three building blocks, rendering a portion of
the emission reduction potential quantified by the building
blocks unnecessary to achieving the interim and final CO2
emission performance rates. For example, the EPA has calculated
that in excess of 160,000,000 megawatt-hours of building block 3
potential is not required to achieve the final CO2 emission
performance rates in 2030 – and would be accessible to affected
EGUs for compliance.730 Therefore, it is reasonable to expect
that it would cost less to achieve the component of building
block 3 potential that is reflected in the calculation of the
final CO2 emission performance rates, as compared to the results
of this analysis which assumed achievement of the entire

729

See Section VIII.K. for a description of qualifying RE
technologies for compliance.
730 For additional discussion on how this concept impacts
building block 3 generation levels, refer to the GHG Mitigation
Measures TSD and the CO2 Emission Performance Rate and Goal
Computation TSD for Final CPP.
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quantified building block 3 potential. The EPA believes that
these factors provide significant opportunities for achievement
of the building block 3 generation levels at lower costs than
estimated in this analysis.

VI.

Subcategory-Specific CO2 Emission Performance Rates

A. Overview
In this section, the EPA sets out subcategory-specific CO2
emission performance rates to guide states in development of
their state plans. The emission performance rates reflect the
emission rates for two generating subcategories affected by the
rule (fossil steam generation and gas-fired combustion
turbines).731 These final emission performance rates reflect the
EPA’s quantification of the BSER based on the three building
blocks described in section V above. This procedure follows a
similar logic to BSER quantification at proposal, but it keeps
the emission performance rates separate for fossil steam and
NGCC subcategories instead of immediately blending them together
into a single value for all affected EGUs. Commenters noted that

731

The only natural gas fired EGUs currently considered affected
units under the 111(d) applicability criteria are NGCC units
capable of supplying more than 25 MW of electrical output to the
grid. The data and rates for these units represent all emissions
and MWh output associated with both the combustion turbines as
well as all associated heat recovery steam generating units. The
remainder of the section will use the term “NGCC” to
collectively refer to these natural gas fired EGUs.
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the proposed rule established guidelines that were based on the
aggregation of units, and their reduction potential, in a state
rather than providing technology-specific guidelines. While many
commenters appreciated the flexibility this state-focused
structure provided, some noted two concerns with this approach:
1) it would potentially create different incentives for the same
generating technology class depending on the state in which that
generator was located, and 2) it deviated from the EPA’s
previous interpretation of the 111(d) regulatory guidelines by
not providing technology-specific standards of performance. In
response to these comments and our further consideration, the
final rule establishes subcategory-specific emission performance
rates that are identical across units within a subcategory
regardless of where a unit is located within the contiguous U.S.
These subcategory-specific emission performance rates are then
translated into state-specific goals which, as in the proposal,
reflect the particular energy mix present in each state. That
translation is presented in section VII.
These performance rates reflect the average emission rate
requirement for each subcategory. Similar to the proposal, they
are presented as adjusted average emission rates that reflect
other generation components of BSER (e.g., renewable) in
addition to the fossil component. These performance rates must
be achieved by 2030 and sustained thereafter. The interim
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performance rates apply over a 2022-2029 interim period and
would be achieved on average through reasonable implementation
of the best system of emission reduction (based on all three
building blocks) described above. In other words, the interim
performance rates are consistent with a reasonable deployment
schedule of BSER technologies as they scale up to their full
BSER potential by 2030. The performance rates are meant to
reflect emission performance required across all affected EGUs
when averaged together and inclusive of lower-emitting BSER
components.
The performance rates are expressed in the form of
adjusted732 output-weighted-average CO2 emission rates for
affected EGUs. However, states are authorized to use a converted
statewide rate-based or mass-based goal as discussed in the next
section. The EPA has determined that the statewide rate-based
and mass-based CO2 goals are expressions of the emission
performance rates equivalent to application of the emission
performance rates to affected EGUs within a state.

732

As described below, the emission performance rates include
adjustments to incorporate the potential effects of emission
reduction measures that address power sector CO2 emissions
primarily by reducing the amount of electricity produced at a
state’s affected EGUs (associated with, for example, increasing
the amount of new low- or zero-carbon generation rather than by
reducing their CO2 emission rates per unit of energy output
produced).
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The EPA is finalizing the performance rates in a manner
consistent with the proposal, with appropriate adjustments based
on comments. Stakeholders had the opportunity to demonstrate
during the comment period that application of one or more of the
building blocks would not be expected to produce the level of
emission reduction quantified by the EPA because implementation
of the building block at the levels envisioned by the EPA was
technically infeasible, or because the costs of doing so were
significantly higher than projected by the EPA. The EPA has
considered all of this input in setting final performance rates.
The remainder of this section addresses two sets of topics.
First, we discuss several issues related to the form of the
performance rates. Second, we describe the performance rates,
computation procedure, and adjustments made between proposal and
final based on stakeholder feedback in the comment period.
Some of the topics addressed in this section are addressed
in greater detail in supplemental documents available in the
docket for this rulemaking, including the CO2 Emission
Performance Rate and Goal Computation TSD for CPP Final Rule and
the Greenhouse Gas Mitigation Measures TSD. Specific topics
addressed in the various TSDs are noted throughout the
discussion below.
B. Emission Performance Rate Requirements

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The EPA has developed a single performance rate requirement
for existing fossil steam units in the contiguous U.S., and a
single rate for existing gas turbines in the contiguous U.S.,
reflecting application of the BSER, based on all three building
blocks described earlier, to pertinent data. The rates are
intended to represent CO2 emission rates achievable by 2030 after
a 2022-2029 interim period on an output-weighted-average basis
by all affected EGUs, with certain computation adjustments
described below to reflect the potential to achieve mass
emission reductions by avoiding fossil fuel-fired generation.
1. Final emission performance rate requirements
The emission performance rates are set forth in Table 11
below, followed by a description of the computation methodology.
Table 11. Emission Performance Rates (Adjusted Output-WeightedAverage Pounds of CO2 Per Net MWh From All Affected Fossil FuelFired EGUs).
Subcategory

Interim Rate

Final Rate

Fossil Fuel-Fired Electric
Steam Generating Units

1,534

1,305

832

771

Stationary Combustion
Turbines

The emission performance rates are expressed as adjusted
output-weighted-average emission rates for each subcategory. As
discussed later in this section, the emission rate computation
includes an adjustment designed to reflect mass emission

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reductions associated with lower-emitting BSER components. The
adjustment is made by estimating the annual net generation
associated with an achievable amount of qualifying incremental
lower-carbon and zero-carbon generation and substituting those
MWhs for the baseline electricity generation and CO2 emissions
from the higher-emitting affected EGUs. Under the final rule
approach, regionally identified building block 3 potential
generation replaces fossil steam and NGCC generation on a prorata basis corresponding to the baseline mix of fossil
generation in each region.
2. Interim Emission Performance Rates
Some commenters suggested that the interim period starting
in 2020 provided too little time for implementation of measures
required to demonstrate compliance during the interim period. As
discussed in section V.A.3.g of this preamble, the EPA has
determined that an interim period beginning in 2022 provides
sufficient time for states to undertake necessary planning
exercises and for the implementation of measures towards
achieving the performance rates. The EPA determined the interim
rates in a manner similar to proposal, with an adaptation to
address the revised timing of the interim compliance period
(beginning in 2022 rather than in 2020 as proposed). They
reflect the averaging of estimated emission performance rates
for each year in the interim period (i.e., 2022-2029).
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The interim performance rates are less stringent than the
final 2030 emission performance rates because the amount of
emission reduction potential identified for the BSER increases
over time, as explained in section V.
C. Form of the Emission Performance Rates
1. Rate-based guidelines
The interim and final emission performance rates for fossil
steam and NGCC units are presented in the form of adjusted
output-weighted-average CO2 emission rates that the affected
fossil fuel-fired units could achieve, through application of
the measures comprising the BSER (or alternative control
methods). Several aspects of this form of emission rate are
worth noting at the outset: the use of emission rates expressed
in terms of net rather than gross energy output; the use of
output-weighted-average emission rates for all affected EGUs;
the use of adjustments to accommodate incremental NGCC
generation and RE measures that reduce CO2 emissions by reducing
the quantity of fossil fuel-fired generation and associated
emissions; and the adjustability of the goals based on the
severability of the underlying building blocks.
a.

Rationale for rate-based guidelines. First, the EPA sets an

emission rate requirement for each subcategory by identifying
the technology-specific reductions available under the building
blocks. We then give each state the choice to apply the emission
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performance rates directly to the affected EGUs within the state
or provides the opportunity to use the statewide rate-based goal
or the equivalent mass-based form translated from the emission
performance rates for state plan purposes. The emission
performance rates reflect the BSER, and the statewide rate-based
goal and statewide mass-based goal are alternative metrics for
realizing the emission performance rates at the aggregate
affected fleet level for a state.
Stakeholders have expressed support for having the
flexibility to choose from among the multiple options for
crafting an implementation plan to realize the BSER. The EPA is
providing emission performance rate-based guidelines that apply
uniformly to technology subcategories nationwide, and the EPA is
providing corresponding state emission rate goals and state mass
goals to further enhance compliance flexibility for each state.
This approach allows each state to adopt a plan that it
considers optimal and is consistent with the state flexibility
principle that is central to the EPA’s development of this
program.
b.

Net vs. gross MWh. The second aspect noted above concerns

the expression of the goals in terms of net energy output733 –

733

As discussed below in Section VIII on state plans, we are
similarly determining that states choosing a rate-based form of
emission performance level for their plans should establish a
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that is, energy output encompassing net MWh of generation
measured at the point of delivery to the transmission grid
rather than gross MWh of generation measured at the EGU’s
generator. The difference between net and gross generation is
the electricity used at a plant to operate auxiliary equipment
such as fans, pumps, motors, and pollution control devices.
Because improvements in the efficiency of these devices
represent opportunities to reduce carbon intensity at existing
affected EGUs that would not be captured in measurements of
emissions per gross MWh, goals are expressed in terms of net
generation. As noted by commenters, EGUs have familiarity and in
some places already have in place equipment necessary to collect
and report hourly net generation.734
c.

Output-weighted performance rates for all affected EGUs.

This final rule provides an expression of the BSER as
subcategory-specific emission performance rates rather than the
state goals provided at proposal. Whereas the proposal also
estimated the BSER impact on fossil steam and NGCC emissions and
generation, it went one step further by averaging these two

requirement for affected EGUs to report hourly net energy
output.
734 Specifically, commenters noted that while net generation is
not reported to the EPA under 40 CFR Part 75, affected EGUs are
generally required to report gross and net generation on a
monthly basis to EIA through form 923 submittal.
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technology rates into a single rate for each state. Under this
final rule, the EPA is identifying the fossil steam rate and the
NGCC rate separately instead of only presenting them in a
blended fashion at the state level.735 These two emission
performance rates are the expression of the BSER for the final
rule for affected EGUs located within the contiguous U.S.
The modification from a blended emission rate in the
proposed rule to a subcategory-specific emission performance
rate for affected EGU categories in the final rule was made in
response to comments that technology subcategory-specific
emission rates were more analogous to prior 111(d) efforts and
more consistent with the statute. The EPA received significant
comments suggesting a technology subcategory-specific rate is
consistent with past section 111(d) regulations. However, many
commenters also supported the flexibility provided to states
through a state goal metric provided at proposal. Therefore, the
EPA does provide alternative statewide rate-based and mass-based
goals in the next section.

735

However, as discussed in the next section, in order to
provide maximum flexibility to states, the EPA averages these
two emission rates together for each state using their adjusted
2012 baseline generation share to arrive at a single statewide
emission performance goal. The state has the option to comply
with this statewide goal through a compliance pathway of its
choice. This compliance pathway may or may not involve requiring
its affected units to meet the emission performance rates.
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The EPA’s main consideration has been to ensure that the
expression of the BSER reflects opportunities to manage CO2
emissions by shifting generation among different types of
affected EGUs. Both the performance rates in this final rule and
the state goals at proposal rely on the adjusted emission rate
metric to reflect that potential shifting. Specifically, because
CO2 emission rates differ widely across the fleet of affected
EGUs, and because transmission interconnections typically
provide system operators with choices as to which EGU should be
called upon to produce the next MWh of generation needed to meet
demand, opportunities exist to manage utilization of high
carbon-intensity EGUs based on the availability of less carbonintensive generating capacity. For states and generators, this
means that CO2 emission reductions can be achieved by shifting
generation from EGUs with higher CO2 emission rates, such as
coal-fired EGUs, to EGUs with lower CO2 emission rates, such as
NGCC units. Our analysis indicates that shifting generation
among EGUs offers opportunities to achieve large amounts of CO2
emission reductions at reasonable costs. The realization of
these opportunities can be reflected in an emission rate
established in the form of an output-weighted-average emission
rate where the weighting reflects the varying levels of
replacement generation technologies.

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d.

Severability of building blocks. Section V above discusses

the severability of the three building blocks upon which the CO2
emission performance rates are based. Because the building
blocks can be implemented independently of one another and the
emission performance rates reflect the sum of the emission
reductions from all of the building blocks, if any of the
building blocks is found to be an invalid basis for the “best
system of emission reduction ... adequately demonstrated,” the
rates would be adjusted to reflect the emissions reductions from
the remaining building blocks. The sole exception, as described
above, is the application of building block 1 in isolation,
which would not be implemented independently. The performance
rates and statewide goals that would result from any combination
of the building blocks could be computed using the formulas and
data included in the CO2 Emission Performance Rate and Goal
Computation TSD for CPP Final Rule and its appendices using the
methodology described below and elaborated on in that TSD.
D. Emission Performance Rate-Setting Equation and Computation
Procedure
The methodology used to compute the performance rates is
summarized on a step-by-step basis below in section 3. The
methodology is described in more detail in the CO2 Emission
Performance Rate and Goal Computation TSD for CPP Final Rule,
which includes a numerical example illustrating the full
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procedure. The quantification of the building blocks used in the
computation procedure is discussed in Section V above and in the
Greenhouse Gas Mitigation Measures TSD.
1. Inventory of likely affected EGUs
In order to calculate the subcategory-specific emission
performance rates reflecting the BSER, the EPA first needed to
develop a baseline inventory of likely affected EGUs in order to
estimate the impact of the BSER. The EPA developed an inventory
of likely affected units that were operating in 2012 or that
began construction prior to January 8, 2014 and that appeared to
meet the final rule’s applicability criteria.736 This inventory
does not constitute a final applicability determination, but
best reflects the EPA’s estimate of units subject to the 111(d)
applicability criteria as laid out in Section IV. The EPA
identified a list of likely affected units at proposal comprised
of approximately 3,000 EGUs. The agency took comment on this
list and has made a number of updates to the inventory in
response to those comments and in regards to applicability
criteria changes resulting from comments. However, the inventory

736

The EPA’s responsibility is to determine the BSER for all
affected EGUs. Some of these under construction units may not
enter operation until 2015 or later, but they are likely
affected units and therefore appropriate to reflect in the
baseline and corresponding subcategory-specific emission
performance rates and state goals.
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does not reflect a final applicability determination, and where
a unit’s status was unclear, the EPA generally treated the
unit’s status in a manner consistent with the proposal and
publically available reported data.737
Since the final rule’s applicability includes under
construction units, the EPA also identified units that had not
yet commenced operation by the 2012 baseline period, but that
commenced construction before January 8, 2014. The EPA received
significant comment on the proposal’s sole use of the National
Electric Energy Data System (NEEDS) to identify these under
construction units. Commenters suggested that the EPA also
utilize EIA and 2012 proposed unit-level files to help better
identify under construction units. In some cases, NEEDS did not
reflect units that had commenced construction. Therefore, the
EPA updated its approach to identifying units that had commenced
construction prior to January 8, 2014, but that had not
commenced operation in 2012. In the final rule, the EPA uses EIA

737

The EPA notes that in some cases, it may not yet be possible
to determine the status of an EGU as affected or unaffected
without additional data. There are potentially some units
excluded or included in the baseline that will ultimately have a
different status following an applicability determination.
However, these cases are limited, and the effect of any
collective changes to the affected fleet inventory will not
yield a bias in the BSER computation at the regional level.
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data, comments, as well as NEEDS data to identify these under
construction units.738,739,740
These units that were operating by 2012 along with those
that had not commenced operation by 2012 but had commenced
construction by January 8, 2014, reflect the EPA baseline
inventory of likely affected EGUs. The CO2 Emission Performance
Rate and Goal Computation TSD for CPP Final Rule explains the
prime mover, capacity, and fuel criteria used to identify the
likely affected EGUs.741
The EPA received significant comment that units that came
online during the baseline year (e.g., 2012) should be treated
as under construction rather than operating units in 2012 for
purposes of estimating baseline values, because their 2012
operation may be misrepresentative of anticipated future-year
operation due to partial year operation in 2012. The EPA has
made an adjustment to flag these units as having commenced

738

The NEEDS database was also updated to reflect the latest
data and commenter input on under construction units.
739 For purposes of determining emission performance rates, the
EPA classifies any unit that had begun construction prior to
Jan. 8, 2014, but had not commenced operation by Dec. 31, 2011
as “under construction”. Many of these “under construction”
units have commenced operation at some point during 2012 or
prior to signature of this final rule.
740 “Commence” and “construction” are defined in 40 CFR 60.2.
741 The baseline inventory relies on historical data and does not
incorporate anticipated future retirements. Most commenters
supported this treatment as they viewed those scheduled
retirements (and corresponding emission reductions) as an
alternative compliance flexibility.
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operation during 2012 and treat them as under construction
units, consistent with commenters’ suggestion; for BSER
computational purposes, generation and emissions for these units
are estimated based on a representative first full year of
operation for that technology class.
2. Data year
In the proposed rule, the EPA considered using a
historical-year data set or a projected-year data set as a
starting point for applying the technology assumptions
identified under BSER. The EPA proposed using 2012 data as it
was the most recent data year for which complete data were
available when the EPA undertook analysis for the proposed rule
and it reflected actual performance at the state level. The EPA
took comment on alternative data sets. In particular, the EPA
issued a NODA on October 30, 2014 (79 FR 64543) in which we
provided 2010 and 2011 historic data for consideration.
The EPA received a significant number of comments
supporting the use of historical data as the basis from which to
quantify performance rates reflecting BSER. Some commenters
supported the 2012 data year as the best reflection of the power
fleet, and some suggested that the EPA use a different year or a
historical average to control for data anomalies in 2012.
Moreover, some commenters pointed out that using 2010, 2011,
2012 data, or an average of the three would not address their
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concerns about recent year anomalies in hydro generation due to
high snow pack. Some commenters also suggested the EPA use a
baseline including years prior to 2012, not to increase
representativeness of the power sector, but as a means of
recognizing early action.
In this final rule, the EPA is taking an approach to the
baseline year where we still largely rely on reported 2012 data
as the best and most recent available data representing the
power sector from which to apply the BSER, but also including
targeted baseline adjustments to address commenter concerns with
2012 data.742 Below, we explain why – at the nationwide level 2012 data are preferable, more objective, and more accurate than
a prior year, or an average of years, for informing the
baseline. Then, we explain the adjustments that we are making to
the 2012 data along with our rationale for such adjustments, in
response to comments we received.
Some commenters supported the EPA’s use of 2012 data to
inform performance rates, and the EPA agrees that 2012 data with
targeted adjustments, relative to other historical years, best
reflects the power sector and best informs the performance rates
that pertain to the BSER. The EPA believes that starting with

742

The EPA recognizes that more recent emissions and generation
data have become available since 2012, but 2012 data constituted
the most recent year for which full data was available at the
time the EPA began its analysis for proposal.
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2012 data is more accurate and better informs the BSER than an
earlier historical year or historical multi-year average for the
following reasons:
1) Of the historical data fully available at the time the
proposal analysis began, 2012 was the most recent and
best reflects the power fleet. Approximately 43 GW of new
capacity came online in 2010 and 2011. In other words,
there was 43 GW of capacity online as of 2012 that had
not been in service at some point during the 2010-2011
period. Likewise, approximately 17 GW of capacity that
were operable in 2010 and/or 2011 were retired prior to
2012.743 Using state-level, prior year data, either on its
own, or as part of a multi-year baseline, is not as
representative of the current power fleet as the 2012
data, which better reflects significant changes in power
sector infrastructure.
2) A three-year baseline would not address some of the
substantive concerns raised by commenters. Many
commenters pointed out that using a three-year baseline
would not address their critical concern about variation
in the hydrological cycle due to snow pack (particularly
in the Northwest), because the snow pack was

743

EIA Form 860, 2012.

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significantly above average in both 2011 and 2012. The
EPA agrees with commenters that we can better address
their baseline data concerns regarding an average hydro
year by identifying those states with a significant share
of hydro generation and variation in that hydro
generation, and making targeted adjustments to those
states’ affected fossil generation levels in order to
reflect a more typical snow-pack year. This procedure is
described in more detail below and in the Technical
Support Documents.
3) In addition to being, in the EPA’s view, a less
representative baseline of the existing power fleet, a
multi-year baseline would also likely entail complexity
when determining how to average together yearly fleet
data while appropriately accounting for fleet changes
occurring during those years. The 2012 baseline starting
point maximizes the EPA’s reliance on latest reported
operating data and minimizes the need for fleet capacity
adjustments. For instance, because of year-to-year fleet
turnover, the averaging of multiple baseline years would
require additional assumptions in regards to which
generation to consider from a fleet that is changing in a
given state or region (or even where units are switching
fuel sources such as a coal-to-gas conversion).
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4) Due to the region-based approach to quantify building
blocks and the BSER as subcategory-specific emission
performance rates, variations in unit-level data do not
significantly impact the calculation of emission
performance rates. For instance, if one fossil unit is
operating less in a given year due to an outage, another
fossil unit in the same region is generally operating
more. Therefore, at the regional level, fossil generation
and emissions do not vary to the same degree that unitlevel data varies. Moreover, the variation at the
regional level that does exist in 2012 relative to
previous years is not necessarily unrepresentative
variation, but illustrates trends in the power sector
infrastructure that are desirable to capture for purposes
of determining a representative year from which further
improvements in CO2 emissions performance can be made.
Because the EPA is moving from a state approach at
proposal to a regional approach for calculating the
expression of the BSER in this final rule, unit-level
operational variation from year to year becomes even less
relevant to the calculation of regional emission
performance rates.
5) Some commenters suggested the EPA use an earlier baseline
year as a means of recognizing early action. They noted
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that an earlier baseline would reflect a higher-emitting
fleet and therefore when the same level of building block
MWhs are applied, they would result in a higher (i.e.,
less stringent) state goal. The EPA disagrees with this
view for several reasons. First, the objective of
selecting a baseline to inform BSER is to have one that
best reflects the power sector and consequently the best
system of emission reductions of which the power fleet is
capable. Using an earlier baseline that “inflates” the
starting point would undermine this objective, not serve
it. Second, the EPA disagrees with the premise of this
comment – that the baseline would change and building
block potentials would stay the same. For instance,
building block 2 functions based on incremental
generation potential (incremental generation = potential
generation – baseline generation). This incremental value
would increase if an earlier baseline period was used
that had less existing NGCC generation.
6) Some commenters pointed out that the EPA relied on multiyear historical data in allowance allocation in previous
rulemakings (e.g., CAIR and/or CSAPR allocations).
However, that comparison is not relevant to the
quantification of emission reduction potential under
111(d). In those previous instances, the EPA was
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considering typical unit-level behavior for allowance
allocation purposes – not for determining the emission
reduction requirements of the program. Those allowance
allocation determinations were independent of and
subsequent to the determination of emission reduction
requirements in those rulemakings.
7) The EPA received significant comment that 2012 was not a
representative year for natural gas prices, and thus the
EPA should use another year. The EPA disagrees with this
comment, and does not view it as grounds for a change to
the baseline period. While the EPA does recognize that
Henry Hub natural gas prices were lower in 2012 relative
to previous years, this does not invalidate the
suitability of the data year selection. The EPA’s
objective in selecting a baseline is to identify
potential reductions when BSER technologies are applied;
year-to-year variation in market prices for natural gas
does not frustrate this effort. For instance, a region
may have generated only 5 MWh of NGCC generation in 2011
when gas prices were higher, and 10 MWh of NGCC
generation in 2012 when gas prices dropped. However, this
does not change the outcome of the quantification of the
BSER, because the building block is based on the emission
reduction potential of the fleet. That potential (e.g., a
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fuller realization of the existing NGCC generation
potential equivalent to 15 MWh) does not change
regardless of the year used for baseline NGCC generation.
Therefore, a different data year may change a baseline
data point, but it would not change the total potential
NGCC generation for quantifying the emission performance
rates in these circumstances.
In summary, the EPA believes that continuing to rely on
2012 data while incorporating select data adjustments as
detailed below is not only a reasonable choice and adequately
supported, but a more reliable and preferable starting point for
determining the BSER requirements.
3. Adjustments that the EPA made to the 2012 data
The EPA made corrections to unit-level 2012 data based on
commenter feedback. In addition, we also made some adjustments
to 2012 data, not to address a correction, but to address a
concern about the representativeness of the data. Although the
EPA determined that the 2012 data year better informed its BSER
determination than a preceding year or a multi-year average,
commenters did identify some limitations that we are addressing
through targeted adjustments. These are discussed below:
1) Adjustments to state-level data to account for annual
variation in the hydrologic cycle as it relates to fossil
generation.
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Hydropower plays a unique role in a handful of states in
that 1) it is a significant portion of their generation
portfolio, 2) it varies on an annual basis, and 3) 2012 was
an outlier year for snow-pack (meaning hydropower was above
and fossil generation was below its historical average).The
EPA notes that these three conditions are not present in
other weather-based RE technologies like solar or wind.744
Therefore, no similar adjustment was needed to account for
weather patterns with these technologies.
Unlike market conditions (e.g., changes in natural gas
prices) that may produce different generation profiles
year-to-year but that do not change the overall generating
potential of the state’s power fleet, variation in the
hydrologic cycle does fundamentally change the generating
potential of the state’s power fleet in hydro-intensive
states as they no longer have the same generating potential
in an average year as they had in a “high hydro” year. The
CO2 Emission Performance Rate and Goal Computation TSD for
CPP Final Rule provides analysis and explains the
adjustment that the EPA made to the state-level 2012 data

744

While solar and wind generation may vary on an hourly or daily
basis, their annual generation profiles are subject to notably
less variation compared to hydropower. The EPA’s calculation of
the BSER relies on annual generation data, not on hourly or
daily generation data.
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for Idaho, Maine, Montana, Oregon, South Dakota, and
Washington to better reflect fossil generation levels when
hydro generation performed at its average level as observed
over a 1990-2012 timeframe. The EPA agrees with commenters
that using a 2010-2012 baseline would not address the
concern as 2011 was also an outlier year relative to
historical snow-pack and hydro generation.
2) Extended unit outages due to maintenance.
Generally, because of the regional-level approach to
calculate performance rates, the EPA does not believe that
unit-level variations in operation influence the
subcategory-specific performance rates reflecting BSER. For
instance, as some units ramp down, and others ramp up to
replace their load at the regional level, total fossil
generation changes little due to these fossil-for-fossil
substitutions. Unit-level variation does not inherently
entail region-wide variation.
However, the EPA did receive comment that in limited cases,
this could have a substantial impact on an individual state
if it chooses to use a rate-based or mass-based statewide
goal. Even though the EPA is calculating subcategoryspecific performance rates that it believes are not
affected by this type of unit-level variation, it still
evaluated the possible impacts it may have when converting
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to state goals in the next section. The EPA examined units
nationwide with 2012 outages to determine where an
individual unit-level outage might yield a significant
difference in state goal computation. When applying this
test to all of the units informing the computation of the
BSER, emission performance rates, and statewide goals, the
EPA determined that the only unit with a 2012 outage that
1) decreased its output relative to preceding and
subsequent years by 75 percent or more (signifying an
outage), and 2) could potentially impact the state’s goal
as it constituted more than 10 percent of the state’s
generation was the Sherburne County Unit 3 in Minnesota.
The EPA therefore adjusted this state’s baseline coal steam
generation upwards to reflect a more representative year
for the state in which this 900 MW unit operates.
3) Many commenters also noted that because the EPA uses annual
data, 2012 was not representative for units coming online
part way through the year. The EPA relies on annual data,
so if a unit is underrepresented in a certain part of the
year because it is not yet online, then another unit is
likely over-represented as it is operating more than it
otherwise would when the second unit commences operation.
Therefore, the resulting state-level and regional-level
aggregate annual generation level used in determining the
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BSER may be considered to be representative and there is
not necessarily a need for any adjustment.
However, the EPA recognizes that the over-represented and
under-represented units do not necessarily fall within the
same state, and therefore this potential difference in the
state location of the affected units could have an impact
when estimating appropriate statewide goals. To address
this comment, the EPA adjusted the 2012 generation data for
fossil units coming online during 2012 to a more
representative annual operating level for that type of unit
reflecting its incremental impact on generation and
emissions. This effectively resulted in increased baseline
emissions and generation assumed for those units beyond
their reported partial-year operations in 2012.
Conceptually, the assumption of full-year operation at
units that came online partway through 2012 could pair with
an assumed reduction in the operation of other units
somewhere in the same region. However, the EPA made no
corresponding deduction to represent this likely decreased
utilization at other affected units because it was
impossible to project the state location of such units with
certainty and the assumed utilization level was meant to
reflect the incremental impact on the baseline. As a
result, this data adjustment increases the total generation
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and emissions for units reporting in the 2012 baseline
beyond the 2012 reported levels.
Additionally, as done in proposal, the EPA continued to
identify under construction units that did not begin
operation in 2012, but had commenced construction prior to
January 8, 2014 and would commence operation sometime after
2012. As described in the next section, the EPA estimated
baseline generation and emissions for these units as they
had no 2012 reported data.
In summary, this final rule continues to rely on the latest
reported 2012 data as the foundation for quantifying the BSER.
However, the EPA has made limited adjustments, in addition to
corrections identified by commenters, to the 2012 data to
address some of the relevant concerns raised by commenters.
Therefore, the baseline is informed by 2012 data, but not
limited to 2012 data.745
4. Equations
In this section we describe how we develop the equations
used to determine the emission performance rates for fossil
steam and NGCC units that express and implement BSER. More

745

Updated unit-level data reflecting corrections identified by
commenters to the underlying 2012 file are provided in Appendix
1 of the CO2 Emission Performance Rate and Goal Computation TSD
for CPP Final Rule. The adjustments made to the aggregate data
to address representativeness concerns are provided in Appendix
3.
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detailed information regarding rate computation, including
example calculations, can be found in the CO2 Emission
Performance Rate and Goal Computation TSD for CPP Final Rule,
which is available in the docket for this action. Here we first
present the general principles we follow when developing
equations to express the BSER; then, we summarize the steps
taken to

assemble baseline data to reflect 2012 baseline

emissions and generation, and apply the building blocks that
constitute the BSER to derive performance rates that will be
used by states to implement BSER. Section VII then explains how
these nationwide performance rates are reconstituted into a
statewide goal metric similar to the proposal in order to allow
a state (at its discretion) to use a statewide goal as a
mechanism for demonstrating compliance at the aggregate state
level in a state plan, as an alternative to applying the
emission performance rates to its affected EGUs directly.
When developing equations to implement BSER, we adhere to a
number of basic principles. First, we ensure that the equations
are consistent with the BSER itself, and in particular, reflect
the redistribution of generation among fossil steam, NGCC and
renewables embodied in building blocks 2 and 3. In doing this,
we account for the interactions between building blocks in a way
that is consistent with the assessment of incremental building
block generation potential and the compliance framework for
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Emission Reduction Credits (ERCs). In particular, we must ensure
that each increment of building block 3 emission reduction
potential is applied to either fossil steam or NGCC units but
not both. The equations we develop must also take account of the
dual status of existing NGCC units, which are simultaneously
affected units and provide generation that is an element of the
BSER itself.
In addition, we are applying the BSER, as we have done in
calculating other section 111(d) standards, to a defined
population of existing affected sources, represented in this
case by the generation of the source category in the 2012
adjusted baseline. This provides an empirical historical
baseline against which we define the performance rates and their
state goal equivalents. In doing so, we must account for any
offsetting increases in emissions that result from applying the
BSER control measures, as we have done in setting other
standards. For example, when determining BSER for particulate
matter control, a number of pollution control devices (such as
sorbent injection technologies) themselves create particulate
matter. If the particulate matter created by these control
devices were not appropriately accounted for when developing the
standard intended to address the primary emissions of
particulate, this could create an unreasonably stringent PM
standard. In the current context, this means recognizing that
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increasing NGCC capacity utilization in accordance with building
block 2 both offsets higher emitting steam generation and
increases emissions at the NGCC units themselves, which are also
affected entities that must demonstrate compliance with the
BSER. Thus, it is essential that we apply the building blocks in
a way that avoids creating a level of stringency in the
performance standards for affected EGUs that goes beyond what we
have determined to be the BSER – while at the same time ensuring
that equations apply the building blocks to generate performance
standards that represent the full application of the BSER to the
affected EGUs.
Under section 111, the EPA adopts emission performance
standards that are based on the BSER. The emission performance
rates reflect our recognition of the value of giving sources the
flexibility to adopt equivalent emissions reduction strategies
and measures that for them may be preferable (in a specific
circumstance) to the technologies and measures that we define as
the BSER. An important function of the emission performance
rates representing the BSER is to provide the flexibility needed
to allow alternative compliance options, including the
development of new technologies or the deployment of effective
technologies outside of the BSER technologies. In the guidelines
we issued under section 111(d) for landfill gas, for example, we
adopted the primary standard based on flaring of any captured
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landfill gas, but we also developed equations that led to an
expression of the BSER that allowed for the alternative of
capturing the gas and combusting it in an electrical generating
unit.
Finally, in deriving the

emission performance rates, there

are a number of considerations we took into account. First, it
is important that the baseline from which the rates are derived
be transparent and based on observable, historical data. Second,
the emission performance rates must reflect the emission
reductions achievable through the best system of emission
reduction. Because the BSER includes shifting of emissions from
higher-emitting to lower-emitting sources, state compliance
frameworks will likely involve a combination of physical
measures at the plant (where either rate or generation may be
reduced) and some form of credit for lower-emitting generation
(or demand side measures) outside of the plant. In this context,
the emission performance rates must provide appropriate
incentives for affected entities to achieve the emission
reductions encompassed in the BSER, including through state
plans that provide crediting for lower-emitting generation.
Third, and as set forth below, we must account for the EPA’s
determination that pro rata implementation of building block 3
is the best reflection of the potential for RE to displace both

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fossil steam and NGCC, and the dual role of NGCC units as both
affected sources and a BSER compliance technology.
This set of considerations was central to the development
of the BSER equations that the EPA describes next. They were
particularly important for steps five through seven below which
address building blocks 2 and 3, building blocks that have both
significant overlap with each other and which impact steam and
NGCC units in an integrated way.
Step-by-Step Discussion of Equations
Step one (compilation of baseline data). On a unit-level
basis, the EPA obtained total annual quantities of CO2 emissions,
net generation (MWh), and capacity (MW) from reported 2012 data
for likely affected EGUs that had commenced operation prior to
2012.746 The EPA made changes to the historical unit-level data

EGUs whose capacity or fossil fuel combustion were
insufficient to qualify them as likely affected EGUs were not
included in the subcategory-specific rate and goal computations.
Most simple cycle combustion turbines (CTs) were excluded on
this basis at proposal, and all simple cycle CTs were excluded
at final reflecting changes to the applicability language.
IGCC’s were designated as “other” generation at proposal, but
they are grouped with coal units for purposes the final rule
category-specific rates. Useful thermal output (UTO) was also
translated to a MWh equivalent and included in state goals at
proposal, resulting in more stringent rates for states with more
cogeneration sources, but UTO is not included in this final rule
emission performance rate or state goal calculations as a result
of comments regarding potentially adverse impacts on
cogeneration units and uncertainty of thermal load outputs. As
described in the state plan section of the preamble, units may
still quantify and convert UTO (i.e., taking credit for waste
746

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based on comments received at proposal. For each state and
region, the agency aggregated the 2012 operating data for all
coal-fired steam EGUs as one group, all oil- and gas-fired steam
EGUs as a second group, and all NGCC units as a third group. The
EPA adjusted these state values upwards in a limited number of
instances to reflect the hydropower and unit outage concerns
raised in comments and described above. As discussed above, the
EPA first only aggregated the reported data for units that
commenced operation prior to 2012. For those likely affected
units that commenced operation during 2012, the EPA treated that
capacity consistent with its framework for under construction
affected units, which were added next. This was done in response
to comments recognizing the fact that the year during which a
unit commences operation may not have been representative of its
potential generation and emissions.
For the under construction units (i.e., those under
construction prior to January 8, 2014 but which had not
commenced operation by December 31, 2011), the EPA estimated
their incremental impact on the baseline generation and
emissions using their capacity. The EPA assumed a 55 percent
capacity factor for under construction NGCC units and a 60

heat capture) when demonstrating compliance. See the
applicability criteria described in Section IV.D above.
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percent capacity factor for under construction fossil steam
units, which are consistent with the values and methodology the
EPA proposed for under construction units.747 These values are
informed by the 2012 capacity factors for other units in these
technology classes that recently commenced operation.748 Using
these capacity factors along with the capacity for the units,
the EPA estimated an annual baseline generation value for these
units. The agency then estimated annual baseline CO2 emissions
for these under construction units using the average emission
rate of generating units of the same technology in the state
where the under construction unit is located. Where no
generators of the same technology existed in a given state, the

747

The EPA notes that we did not identify any under construction
coal units at proposal, but we are using a methodology in this
final rule for newly categorized under construction coal units
similar to our under construction assessment of NGCC at
proposal.
748 The EPA received comment on the assumed 55 percent capacity
factor for under construction NGCC EGUs. Some comments suggested
the value was too large of an estimation for incremental
generation as some of that 55 percent utilization would have a
replacement impact on 2012 operating generation. Others
suggested it should be larger as a particular planned under
construction unit was anticipated to have a higher utilization
rate. The EPA reviewed operating patterns of EGUs that came
online, and determined a 55 percent and 60 percent capacity
factor assumption for under construction NGCC and coal EGUs
respectively are a reasonable estimate for informing the
incremental emissions and generation from under construction
units. It recognizes that some of these units may indeed operate
at a higher utilization level, but also recognizes that some of
the generation may have a replacement effect instead of an
incremental one.
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EPA used the national baseline average for that technology. This
is similar to the adjustment made at proposal for under
construction units, with the main difference being units that
commenced operation in 2012 are now also treated as under
construction for baseline data purposes in the final rule.
The estimated emissions and generation for under
construction units were added to the 2012 reported emissions and
generation data for the affected units that had already
commenced operation prior to 2012 to derive an adjusted
historical baseline total for each state that was reflective of
all likely affected 111(d) sources.749
Step two (aggregation to the regional level). The EPA took
comment on applying building blocks at the regional level, and
received significant comment supporting such an approach.
Therefore, whereas the proposal aggregated the baseline data to
the state level, the final rule further aggregated it to the
regional level prior to building block application. The regions
reflect the Eastern, Western, and Texas Interconnections. The
shift to a regional framework was based on comments suggesting
that the EPA would better capture the interstate impacts of the

749

The EPA received some comments suggesting that under
construction units should not be included in the quantification
of BSER and/or rate calculations, and other comments supporting
their inclusion. The EPA determined that including it was
consistent with our responsibility under the 111(d) statute to
define a Best System of Emission Reduction for existing units.
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building blocks and reflect the interconnected nature of the
electric grid under a regional structure. The basis for the
regions is defined and discussed in Section V.A.3.
Step three (identification of source category baseline
emission rates). As discussed in the beginning of this section,
the EPA took a technology-specific approach to quantifying
guidelines. Therefore, whereas the proposal first averaged the
fossil steam rate and NGCC rate together before applying the
building blocks and defining state goals, the final rule applied
the building blocks at the regional level to give a separate
fossil steam rate and NGCC rate for each region. The starting
point for calculating the subcategory-specific emission
performance rates was the baseline regional emission rates for
both fossil steam and NGCC in the year 2012 with the
modifications discussed above.
Step four (application of building block 1). The baseline
CO2 emissions amount for the coal-fired steam EGU fleet in each
region was reduced by 2.1, 2.3, and 4.3 percent in the Western,
Texas, and Eastern Interconnections respectively, while the coal
generation level was held constant, reflecting the EPA’s
assessment of the average opportunities in each region to reduce
CO2 emission rates across the existing fleet of coal-fired steam
EGUs through heat rate improvements that are technically
achievable at a reasonable cost. The EPA then averaged together
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the region’s baseline oil- and natural gas-fired steam rate with
its building block 1 adjusted coal steam rate to get a fossil
steam rate post-building block 1.750,751
Step five (application of building block 3). At proposal,
the EPA incorporated incremental RE MWhs (where incremental
means the amount above the adjusted 2012 baseline) by adding
them to the denominator of the emission rate goal. In response
to comments on this approach, the EPA issued a NODA discussing
an alternative methodology of incorporating building block 3 in
a manner more analogous to building block 2 treatment, where the
incremental MWhs identified for the building block replace
baseline fossil MWhs on a one-to-one basis. The EPA is adopting
this replacement methodology for building block 3 in the final
rule consistent with comments noting that such a computational
procedure better reflects the reduction potential of that
building block.
Under this methodology, all of building block 2 incremental
NGCC potential and part of building block 3 incremental RE
potential were ultimately applied to replace higher-emitting

Building block 1 analysis acknowledges some variation in heat
rate improvement potential at different units. The
implementation of this building block reflects a heat rate
improvement on average across a region’s coal fleet, not
necessarily a heat rate improvement at every unit.
751 Baseline OG steam emissions are added to adjusted coal
emissions and divided by baseline OG steam generation and
baseline coal generation.
750

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 Page 809 of 1560
fossil steam generation and emissions, while the remaining
building block 3 potential was applied to replace NGCC
generation and emissions. Commenters noted that under this
approach building block 3 should be applied first, or the EPA
would understate the potential of building block 2 by
subtracting out some NGCC generation after the 75 percent
utilization level of NGCC had been applied to replace fossil
steam. The EPA agrees and calculated the building block 3
impacts first in developing the emission performance rates.
To implement this, first, building block 3 replacement
potential was identified for each region to arrive at a total
amount of incremental zero-emitting generation hours available
to replace fossil generation in the region. Because renewable
generation can replace both fossil steam and NGCC on the grid,
the EPA determined that it was appropriate to apply these
incremental zero-emitting generation hours to replace generation
and associated emissions from each of the fossil steam and NGCC
fleets in the region on a pro-rata basis in the following
manner.752 The EPA determined the percent of fossil steam

The EPA took comment on a pro-rata or an intensity-based
replacement approach. In this final rule, the EPA agrees with
commenters that a pro-rata approach is a better reflection of
the BSER. Incremental RE generation has, and is likely to
continue, to replace both steam and gas turbine generation and
the BSER captures this through a pro-rata distribution of
identified building block 3 potential.
752

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generation and the percent of NGCC generation of total affected
fossil generation in each region’s baseline. We then assigned
those percentages of the incremental zero-emitting MWhs to each
of those technology source categories.753 The incremental zeroemitting generation assigned to each technology replaced the
same amount of fossil generation from that technology’s baseline
value.
Step six (application of building block 2). If the
remaining generation level for the NGCC fleet in a region,
taking into account the previous step’s replacement of NGCC
generation, was less than 75 percent of the fleet’s potential
summertime generating capacity (the potential capacity factor
the EPA determined to represent the BSER), then the NGCC
generation in the region was assumed to increase to levels equal
to the lesser of 1) its potential at a 75 percent capacity
factor754 or 2) a generation level above which there is no longer
fossil steam generation remaining within the same region to
replace. In other words, the regional NGCC capacity factor was

For example, if 100 MWh of incremental zero emitting
generation is available in a given region and that region had 70
percent of its affected fossil generation coming from fossil
steam units in the baseline and 30 percent from NGCC units –
then 70 MWhs of the incremental zero-emitting generation are
applied to baseline fossil steam generation and 30 MWhs are
applied to baseline NGCC generation.
754 In early years, will be less than 75 percent due to building
block 2 gradual deployment.
753

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only assumed to reach 75 percent if there was sufficient higheremitting fossil steam generation that it could replace after
step five. The increase in NGCC generation at this step compared
to the post-building block 3 level was matched by an equal
decrease in fossil steam generation reflecting the 1 for 1 MWh
hour replacement. At this point, the generation for both steam
and NGCC reflect the final distribution of generation between
the subcategories after application of the building blocks. But
the emission performance rates must account for CO2 emissions and
generation from incremental gas and renewable generation that
comprise building blocks 2 and 3, to reflect and enable the
emission reductions achievable under the best system of emission
reduction, and ensure that the shared implementation of the BSER
by steam and NGCC generation is reflected in the rates.
Step seven (accounting for and facilitating the emission
reductions achievable through the implementation of the best
system of emission reduction).
This step quantifies the aggregate emission changes
associated with the emission rate improvement and generation
replacement patterns described in steps four, five, and six to
arrive at an adjusted fossil steam emission rate and an adjusted
NGCC emission rate for each region that will, as discussed
above, (1) enable the implementation of all three building

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blocks, (2) be based on observable, concrete baselines, and (3)
reflect the BSER.
First, in developing the emission performance rates, the
EPA had to answer the question of how to reflect the building
blocks in the equations defining the rates in a manner that
would enable the generation shifts that are essential components
of the BSER. In the case of building block 3, the EPA
accomplished this by incorporating the pro rata share of
incremental (above baseline) zero emitting generation into the
emission rates for each group of affected EGUs, thus ensuring
that these EGUs would have to include a corresponding amount of
zero-emitting generation in their compliance calculations,
either through the acquisition of credits or through some other
mechanism as determined by their state in its implementation
plan.
For building block 2, a similar mechanism is needed.
Accordingly, a portion of the NGCC generation and emissions used
to replace fossil steam must be averaged into the steam rate,
analogous to what was done with building block 3. The EPA
considered two approaches to define the quantity of NGCC
generation and emissions to be averaged into the steam rate: (1)
incremental NGCC generation after the implementation of building
block 3 and (2) incremental NGCC generation from baseline
levels. For the reasons below, the EPA has determined that the
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second approach better reflects the considerations discussed
above.
As discussed above, it is beneficial that the baseline from
which emission performance rates are derived be transparent and
based on observable historical data. The first approach,
however, depends on the level of incremental NGCC generation
relative to what is available after the implementation of
building block 3. This level of NGCC generation (obtained after
replacing baseline levels of generation with NGCC’s pro rata
share of incremental RE generation) only exists as an
intermediate step in the BSER calculation. It is not based on an
observable or concrete level of generation.
In Section VIII we discuss methods for creating ERCs for
implementing shifting of generation from steam to NGCC, and this
discussion illustrates the value of relying on an observable and
concrete baseline. In that section we suggest that incentivizing
and facilitating the purchase of ERCs as a compliance option for
steam units could be implemented through the use of a factor
that creates a fraction of an allowable credit for each hour
that an NGCC operates. This factor is derived from the
incremental generation of NGCC post-building block 2, relative
to the baseline. While a different factor could be derived from
the hypothetical intermediate level resulting from the pro rata
application of zero emitting generation to NGCC in building
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block 3 (by transferring the full amount of NGCC emissions and
generation replacing steam generation in building block 2), the
EPA believes that grounding baselines in historical data (such
as those used to derive the 2012 baseline) is both more
transparent and easier to understand in a way that is more
useful to states and utilities, in contrast to the practical
challenges of relying on a calculated level that corresponds to
an interim step within the emission performance rate
calculation. As long as the crediting framework for creating
ERCs is consistent with the amount of gas emissions and
generation that is transferred to the coal rate, either the
chosen option or the option of transferring the entire quantity
of gas emissions and generation that occurred in step six to the
coal rate would provide an incentive for the power market to
implement the shift in generation from coal to gas.755
Also as discussed above, it is important that the
compliance equations reflect the BSER pro rata allocation of RE
to fossil steam and NGCC generation. The first approach to

755

The EPA recognizes that real world market dynamics will
necessarily differ from the BSER assumptions, and has designed
the emission guidelines to provide flexibility beyond the
emission reduction opportunities identified in the BSER. The
essential criteria, however, are that the emission rates and
crediting framework are consistent with the BSER and provide the
incentives needed to facilitate the emission reduction measures
reflected in the BSER and together produce an achievable
compliance framework for sources.
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define the quantity of NGCC generation and emission to be
averaged into the steam rate would require the steam rate to
take into account the total additional NGCC generation that
results from the application of building block 3 before building
block 2 has been applied. This approach would reflect in the
compliance rate for steam units a greater share of the
implementation of building block 3. Ensuring that emission
performance rates for both steam and gas units reflect the
emission reduction potential of building block 3 is integral to
the building block 3 methodology and also recognizes that
application of building block 3 on a pro-rata basis was intended
to achieve emission reductions from both NGCC and fossil steam
commensurate with their emissions reduction opportunities.
If the EPA were to use the increment of NGCC emissions and
generation derived at the intermediary step after the
application of building block 3, rather than the increment
relative to the 2012 baseline, the effect would be to largely
assign to fossil steam the building block 3 generation shift
apportioned to NGCC. That, in turn, would have undermined the
fact that building block 3 was determined to be a BSER measure
applicable to the entire source category, comprising NGCC as
well as fossil steam, and would have conflicted with the
preceding steps we are taking to develop the equations. Instead,
by using only the incremental NGCC generation relative to the
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 Page 816 of 1560
baseline, the EPA has ensured that the logic behind the pro rata
displacement of fossil generation by RE generation is reflected
in the emission rates. Having established the appropriate way to
measure the amount of incremental gas generation placed in the
fossil steam rate, the EPA is able to calculate the subcategoryspecific emission performance rates. For the numerator of the
fossil steam rate, the EPA multiplied the remaining fossil steam
generation (post-step six) by the fossil steam rate reflecting
the heat rate improvement from building block 1 (step four). We
then added in the emissions associated with the incremental NGCC
generation from step six by multiplying the incremental NGCC
generation as discussed above (difference between the baseline
NGCC generation level and post-step six NGCC generation) by the
baseline NGCC rate for that region.756 This constitutes the
numerator of the fossil steam emission rate.
For the fossil steam denominator, the EPA added the
remaining fossil steam generation (post-step six), the
incremental NGCC generation defined above, and the amount of
zero emitting building block 3 MWhs apportioned to fossil steam
generation in the region (step five). Dividing the fossil steam

See CO2 Emission Performance Rate and Goal Computation TSD for
CPP Final Rule for an illustration of this step. The EPA defined
the “incremental NGCC generation” in this step in a manner
consistent with its measurement and use described in section
VIII of this preamble.
756

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numerator described above by this fossil steam denominator
resulted in a regional adjusted fossil steam rate reflecting the
three building blocks.
For the NGCC performance rate, the EPA calculated a
numerator in a similar manner. First, we took the remaining NGCC
generation (post step six) and multiplied it by the regional
baseline NGCC rate to calculate the total emissions in the
numerator. For the denominator, the EPA added the remaining NGCC
generation (post step six) to the amount of zero-emitting
building block 3 generation assigned to that technology in step
five. Dividing the emissions by this total generation value
(inclusive of the RE generation apportioned to NGCC) provided a
regional adjusted NGCC rate.757
Step eight (determining the nationwide subcategory-specific
emission performance rate).

757

See CO2 Emission Performance Rate and Goal Computation TSD for
CPP Final Rule for an illustration of this step. We note that
the entire NGCC generation level (inclusive of the amount
assigned to the fossil steam rate) expected post building block
application is included in the NGCC rate calculation. Including
the entire NGCC generation in the NGCC rate recognizes the
simultaneous compliance responsibility of affected NGCC units
while the fossil steam rate recognizes its mitigation potential
through incorporation of the incremental NGCC generation
component. Failing to do so would result in a NGCC rate lower
than that expected after full implementation of the building
blocks and create a compliance inconsistency when reporting all
generation.
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Following step seven, we evaluated the resulting adjusted
fossil steam rates and NGCC rates for each region and identified
the highest (least stringent) emission rate among the three
regions for each technology category. This becomes the
nationwide emission performance rate for that technology class.
This ensures that the same rates are applied to facilities in
each region and that these rates are achievable by facilities in
all three regions.
Finally, the EPA repeated steps four through eight for each
year 2022-2030.758 The resulting annual rates vary because the
amount of building block 2 and 3 potential in each year varies.
The rates for years 2022-2029 were averaged together to
calculate an interim rate, and the 2030 value becomes the final
emission performance rate for that year forward.
It bears emphasis that the procedure described above was
used only to determine emission performance rates, and the
particular data inputs used in the procedure are not intended to
represent specific requirements that would apply to any
individual EGU or to the collection of EGUs in any state. The

At proposal, the EPA repeated this step over a 10 year period.
The building blocks and corresponding BSER emission rates
increased for ten consecutive years (2020-2029) in the EPA’s
rate calculation. In this final rule, the EPA has maintained the
same 2030 compliance period for final rates but adjusted the
start date to 2022 based on comments. Therefore, the deployment
of building blocks is spread over a nine year period (2022-2030)
instead of the proposed 10 year period.
758

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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specific requirements applicable to individual EGUs, to the EGUs
in a given state collectively, or to other affected entities in
the state, would be based on the emission standards established
through that state’s plan. The details of how states could
demonstrate compliance with the emission performance rates or
statewide goals through different state plan approaches that
recognize emission reductions achieved through all the building
blocks are discussed further in section VIII on state plans.
Finally, the procedures and assumptions in the equation to
calculate emission performance rates are not intended to reflect
a compliance scenario in a future year, but rather reflect a
representative year in which the building blocks are applied.
The power sector fleet will continue to turn over, and in some
cases has already experienced turnover beyond the baseline
period. However, while the system’s fleet may change, the EPA
believes this turnover will only further promote the feasibility
of the emission performance rates. Fleet turnover has trended
towards, and is expected to continue to trend towards, loweremitting generation sources that will make reductions more
readily available.
VII. State-Specific CO2 Goals
A. Overview
In section VI of this preamble, the EPA provides the
methodology for computing subcategory-specific CO2 emission
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performance rates, based on the BSER. The subcategory-specific
CO2 emission performance rates are the quantitative expression of
the BSER as determined by the EPA. In this section, we provide
state rate-based goals and mass-based goals that can be used in
the alternative, by states, as an equivalent quantitative
expression of the BSER in establishing standards of performance
for affected EGUs in state plans. In this section, the EPA also
describes reasons for providing state-specific rate-based goals
and mass-based goals equivalent to the emission performance
rates, supported by the many requests from commenters for the
provision of these alternative expressions of the BSER
established by the EPA. We further ensure this equivalence, and
therefore reflection of the BSER, by requiring that rate-based
state goals and mass-based state goals fully implement the BSER,
including by ensuring that affected EGUs operating under massbased emission standards are not incented by dint of the massemissions constraint to shift generation to unaffected fossil
fuel-fired sources to an extent that deviates from, or negates,
the implementation of the BSER.
The EPA is reconstituting the emission performance rates
discussed in section VI into statewide CO2 emission performance
goals for each state for the purpose of facilitating states’
development of state plans encompassing maximum flexibilities in
implementing the BSER. This state-specific goal is not a
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compliance requirement, but rather an alternative yet equivalent
expression of the BSER that the state may choose to use to
establish emission standards for its affected EGUs. The state
goal is the equivalent of the technology-specific CO2 emission
performance rates and represents the equivalent of the state’s
applying the emission performance rates directly to its affected
EGUs in the form of standards of performance. As discussed
further in section VIII on state plans, the states are charged
with setting emission standards for the affected EGUs in their
respective jurisdictions such that the affected EGUs operating
under those standards together satisfy the requirements of the
final emission guidelines and statute by meeting the emission
performance rates or equivalent statewide emission performance
goals, and thereby meet emission standards that reflect the
BSER.
In the June 2014 proposal, the EPA proposed a set of statespecific emission rate-based CO2 goals (in lbs of CO2 per MWh of
electricity generated). In addition, the EPA proposed emission
rate-based CO2 goals for areas of Indian country and U.S.
territories with affected EGUs in a supplemental proposal on
November 4, 2014. To provide flexibility to states, territories,
tribes and implementing authorities, the proposals authorized
each implementing authority to translate the form of the goal to
a mass-based form (i.e., goals expressed in terms of total tons
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of CO2 per year from affected EGUs), as long as the translated
goal was equivalent to the rate-based goal. Upon issuance of the
proposed rule, the EPA continued the extensive outreach effort
to stakeholders and members of the public that the EPA had
engaged in for many months preceding the proposal. We also
issued a notice of data availability (79 FR 67406, November 13,
2014) and technical support document (Docket ID: EPA-HQ-OAR2013-0602-22187) to further clarify potential methods for the
translation to a mass-based equivalent. The outreach provided
additional opportunities for all jurisdictions with affected
EGUs – both individually and in regional groups – as well as
numerous industry groups and non-governmental organizations, to
meet with the EPA and ask clarifying questions about, and give
initial reactions to, the proposed components, requirements and
timing of the rulemaking. As a result of the outreach and notice
of data availability, the EPA received informed substantive
comments for the EPA to consider for the final rule.
Numerous commenters encouraged and supported the EPA’s
efforts to allow states the maximum possible degree of
flexibility in developing plans for their affected EGUs, either
as a mass-based or rate-based CO2 goal. States and other
stakeholders supported the option to translate rate-based goals
to mass-based goals for state plans and requested a simple and
transparent method for determining mass-based statewide CO2 goals
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that are equivalent to statewide rate-based CO2 goals and thus
reflective of the BSER. We received substantial comments on the
potential methodologies for the translation of rate-based goals
to mass-based goals. Several commenters requested that the EPA
provide the translation to a statewide mass-based goals directly
while others requested flexibility to translate to mass using a
variety of methodologies and tools. In the context of these
comments, the EPA has considered the appropriateness of ratebased and mass-based goals as an expression of BSER and their
equivalence to the quantitative expression of BSER through the
two CO2 emission performance rates.
Based on the comments received, the EPA is providing a
straightforward translation methodology from the CO2 emission
performance rates to yield statewide rate-based and mass-based
CO2 emission performance goals described in this section. The EPA
is providing state mass-based goals in this final rule in place
of having states determine the mass themselves. The mass-based
goals are the result of a mathematical derivation that provides
goals that are an equivalent expression of the BSER. Section
VIII below discusses mechanisms for states to plan for and
demonstrate achievement of the statewide CO2 emission performance
goals.
CAA section 111(d) requires states to submit a plan that
establishes standards of performance for affected EGUs that
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implement the BSER. States meet the statutory requirements of
CAA section 111(d) and the requirements of the final emission
guidelines by submitting emission standards for affected EGUs
that meet the performance rates, which reflect the application
of the BSER as determined by the EPA. Therefore, as a first step
for states that choose to submit plans that meet the rate-based
or mass-based goals, the goals must be determined to have
equivalence as an application of the BSER. For the rate-based
and mass-based state goals provided here, this equivalence is
evident in the mathematical derivation of the goals, as is
described in sections VII.B and VII.C below.
Further (as described in section VIII.J), the state plan
must demonstrate that it has measures in place to ensure that
any alternative to the performance rates (i.e., rate-based or
mass-based state goals that it uses to establish standards of
performance) does not result in affected EGUs’ failing to
implement either the BSER measure themselves or alternative
methods of compliance with emission standards that achieve
equivalent reductions in emissions or carbon intensity. The EPA
has identified one way in which affected EGUs could fail to
meet, at a minimum, of the emission performance levels that
would result from implementing the BSER, which state plans must
do.
Specifically, the EPA has determined that the three
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building blocks are the BSER, including shifting generation from
an affected EGU to a lower-emitting affected EGU or to a nonemitting EGU and that states are required to establish standards
of performance that require affected EGUs to achieve, at a
minimum, the emission performance levels that reflect the BSER
(recognizing that affected sources may choose from a range of
equivalent actions (e.g., undertaking the measures included in
the building blocks, shifting generation to low-emitting or
zero-emitting resources not included in the building blocks or
achieving demand-side EE or transmission efficiency – either
through operational undertakings, direct investment or emissions
trading). Substantial shifting of generation from affected EGUs
to new fossil fuel-fired EGUs, such as new NGCC units,
represents a deviation from implementing the BSER or its
compliance equivalent.
Since the two subcategory-specific emission performance
rates represent the BSER, states that established standards of
performance at or below those rates, by definition, would be
implementing state plans that created no risk that affected EGUs
would shift generation to new fossil-fired EGUs to an extent
that would deviate from the BSER. Similarly, the EPA has
determined that states using rate-based goals as the foundation
for plans implementing the BSER are unlikely to foster
generation shifts to new fossil fuel-fired sources to an extent
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that would deviate from the BSER. In contrast, however, EPA
analysis has identified a concern that a mass-based state plan
that failed to include appropriate measures to address leakage
could result in failure to achieve emission performance levels
consistent with the BSER.759 Section VII.B. describes how the
form of the rate-based state goals minimizes the risk of
generation shifts to new fossil fuel-fired sources, or
“leakage,” by providing affected EGUs with a sufficient
incentive to run, similar to the performance rates. Section
VII.D. discusses how there is a potential for leakage under
mass-based state goals because affected EGUs are incented to
operate in a manner – in particular, by shifting generation to
new NGCC units (as opposed to shifting generation as
contemplated by the BSER or undertaking equivalent alternative
compliance actions) –that would result in negating the
equivalence with the emission performance rates and thus the
BSER, and specifies that requirements are needed in mass-based
implementation to assure those incentives are realigned.760
B. Reconstituting Statewide Rate-based CO2 Emission Performance
Goals from the Subcategory-Specific Emission Performance
Rates

759

See Chapter 3 of the Regulatory Impact Analysis for more
information on this analysis, which is available in the docket.
760 The specific mass-based plan requirements are explained in
detail in section VIII.J.
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In order to provide states flexibility for planning
purposes, the EPA is providing a state-specific averaging of the
subcategory-specific emission performance rates to determine a
statewide goal. While the emission performance rates reflect the
quantification of performance based on the BSER and embody the
reductions estimated under building blocks 1, 2, and 3, the
state goals reflect an equivalent approach through which states
may choose to adopt and implement those subcategory-specific
performance rates.
The EPA quantified the potential reductions of the BSER in
the subcategory-specific emission performance rates established
in section VI. These rates themselves reflect the reduction
potential expected in emission rates under the BSER for each
year from 2022 to 2030. To establish state goals, the EPA
applied these rates to the baseline generation levels to
estimate the affected fleet emission rate that would occur if
all affected EGUs in the fleet met the subcategory-specific
rates. This step respects the flexibility of sources to meet the
rates in any manner that they see fit (e.g., on-site abatement
technology, fuel switching, co-firing, credit purchase, etc.),
and does not limit them to their building block assumptions. For
example, the EPA derived the statewide rate-based CO2 emission
performance goals for 2030 by multiplying the fossil steam
emission performance rate for 2030 by the baseline fossil steam
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generation in a state and multiplying the NGCC emission
performance rate for 2030 by the baseline NGCC generation in a
state. The resulting emissions for fossil steam and NGCC are
then added together for each state. This emission total is
divided by that state’s baseline generation values from the
likely affected EGUs in order to develop a state’s rate-based CO2
emission performance goal for 2030. This blended rate reflects
the collective emission rate a state may expect to achieve when
its baseline fleet of likely affected EGUs continues to operate
at baseline levels while meeting its subcategory-specific
emission performance rates reflecting the BSER. The EPA believes
that using the adjusted 2012 baseline is the most appropriate
way to combine the rates. First, as explained in Section VI, the
EPA believes there are significant advantages to using real
world data to set a baseline rather than using projected data.
The adjusted 2012 data is the logical starting point because it
is the data that all of the emission performance rates
(discussed in Section VI) are based upon. Furthermore, it is
clear that generation shifts as projected under the BSER are not
the appropriate baseline. The emission performance rates already
factor in the BSER assumptions about changes in generation
(e.g., implementation of building block 2 significantly lowers
the emission performance rate for fossil-steam units). If, on
top of that, changes in generation were factored into the
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calculation of a combined rate, those changes in generation
would be factored into the combined rate twice (once when
calculating the individual emission performance rates and a
second time, when incorporating those rates into a combined
state rate).
This step is repeated for each year from 2022-2029 using
the emission performance rates calculated for each of those
years in the previous section. The EPA also repeats this step
for the interim state goal using the interim subcategory rates.
The EPA then averages together the annual amounts in increments
of 3 years, 3 years, and 2 years for 2022-2024, 2025-2027, and
2028-2029 to estimate emission rate averages for those periods
that can provide one illustrative pathway for states to consider
in meeting their interim goals. These 3- and 2-year increment
are not regulatory guidelines or equivalents for interim goals,
but rather benchmarks for demonstrating plan performance as
discussed in Section VIII.F illustrative of a potential gradual
reduction compliance strategy that states may use to reach their
interim and final stategoals.
As described in the steps above, the statewide goals
represent an equivalent arithmetic combination of the
subcategory-specific emission performance rates, weighted by the
historical baseline generation levels upon which the BSER is
premised. In particular, as discussed above, the method for
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deriving these goals assures equivalent flexibility by applying
the CO2 emission performance rates to the baseline levels, which
respects the flexibility of affected EGUs to meet the rates in
whatever way they wish. This corresponding treatment of affected
EGUs based on the adjusted 2012 baseline ensures sufficient
incentive to affected existing EGUs to generate and thus avoid
leakage, similar to the CO2 emission performance rates (this is
further discussed in section VII.D below). Consequently, the
statewide goals are equivalent to the CO2 emission performance
rates and are thus an equivalent expression of the BSER. The
rate-based statewide goals are provided below in Table 12.
C. Quantifying Mass-based CO2 Emission Performance Goals from the
Statewide Rate-based CO2 Emission Performance Goals
The EPA is also establishing mass-based statewide CO2
emission performance goals for each state, which are provided
below in Table 12. For state plans choosing to meet a mass-based
goal, such a goal must be equivalent to the CO2 emission
performance rates in their application of the BSER, as required
by the statute and the final emission guidelines. In the
following discussion we describe the mathematical calculations
that provide an equivalent expression of the BSER. In evaluating
the equivalence of the form of mass goals, the EPA must also
recognize the impact that the form of the standard has on the
relative incentives that the implementation of these goals
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provides to affected and unaffected EGUs. This section specifies
how we have established a quantitative basis for mass goals that
is equivalent to CO2 emission performance rates. The next section
(section VII.D) specifies how we require state plans to ensure
equivalence to the CO2 emission performance rates through certain
requirements that realign the potential difference in incentives
provided to affected and unaffected EGUs to generate under a
mass-based implementation compared to a rate-based
implementation that could result in leakage.
The starting place for quantifying mass-based statewide CO2
emission performance goals is the emission amounts directly
represented in the numerator of the statewide rate-based CO2
emission performance goals. Each state-specific emission amount
is the product of the fossil steam emission performance rate and
historical fossil steam generation, added to the product of the
NGCC emission performance rate and historical NGCC generation.
The resulting emission amounts for each state represent the
emissions associated with rate-based compliance at historical
generation levels.
However, under a rate-based state plan, all affected EGUs
have the opportunity to increase utilization, provided that
sufficient emission reduction measures are available to maintain
the necessary ratio of emissions to generation as quantified by
the subcategory-specific emission performance rates. Due to the
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nature of the emission performance rate methodology, which
selects the highest of the three interconnection-based values
for each source category as the CO2 emission performance rate,
there are cost-effective lower-emitting generation opportunities
quantified under the building blocks that are not necessary for
affected EGUs in the Western and Texas interconnections to
demonstrate compliance at historical generation levels. The EPA
recognizes that these lower-emitting generation opportunities
are available to affected EGUs at a national level as a means to
increase their own output (and, as a result, their own
emissions) while maintaining the relevant emission performance
rate. To afford affected EGUs subject to a mass-based goal
similar compliance flexibility as EGUs subject to a rate-based
goal, the EPA has quantified the emissions associated with the
potential realization of these lower-emitting generation
opportunities and incorporated those additional tons into each
state’s mass-based goal.761 Because the derivation of these massbased goals respects the arithmetic of the subcategory-specific
emission performance rates and the flexibility of affected EGUs
to achieve those rates while utilizing up to the full potential
quantified in the building blocks, the derivation of these mass-

761

For more detail on this methodology, please refer to the CO2
Emission Performance Rate and Goal Computation TSD for CPP Final
Rule, which is available in the docket.
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based state goals offers an equivalent expression of BSER in
mass form.
The mass goals for existing sources are presented in Table
13. Although their derivation is equivalent to the subcategoryspecific emission performance rates, in order to maintain this
equivalence in the establishment of emission standards in state
plans mass goals must be implemented in combination with
requirements that align the incentives provided to affected and
unaffected EGUs, specifically in order to prevent leakage.
D. Addressing Potential Leakage in Determining the Equivalence
of State-Specific CO2 Emission Performance Goals
As described in section VI, the subcategory-specific
emission performance rates reflect the BSER as determined by the
EPA. This final rule allows states to establish emission
standards that meet either rate-based or mass-based state goals.
As stated above, rate-based state goals were published in the
proposed rule, and commenters not only supported having the
flexibility to use rate-based goals or mass-based goals as part
of state plans, but also requested that the EPA include massbased goals in this final rule. But to ensure the equivalence of
mass-based state goals, we must consider how the form of the
goal affects its implementation and how the incentives it
provides to affected EGUs on the interstate grid affect whether
or not the BSER is fully implemented.
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Because of the integrated nature of the utility power
sector, the form of the emission performance requirements for
existing sources may ultimately impact the relative incentives
to generate and emit at affected EGUs as opposed to shifting
generation to new sources, with potential implications for
whether a given set of standards of performance is, at a
minimum, consistent with the BSER, in the context of overall
emissions from the sector. In this context, we, again, define as
“leakage” the potential of an alternative form of implementation
of the BSER (e.g., the rate-based and mass-based state goals) to
create a larger incentive for affected EGUs to shift generation
to new fossil fuel-fired EGUs relative to what would occur when
the implementation of the BSER took the form of standards of
performance incorporating the subcategory-specific emission
performance rates representing the BSER. In the proposal, the
EPA recognized that the statutory construction regarding the
BSER is to reduce emissions, which can be achieved through
shifts of generation. Movement of generation between and among
sources is needed to produce overall reductions, particularly
movement from higher-emitting affected EGUs to lower-emitting
affected EGUs, and from all affected EGUs to zero-emitting RE.
In all of these cases, the fossil sources involved in these

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generation shifts are subject to obligations under this final
rule.762
However, leakage, where shifts in generation to unaffected
fossil fuel-fired sources result in increased emissions,
relative to what would have happened had generation shifts
consistent with the BSER occurred, is contrary to this
construction. Therefore, if the form of the standard does not
address leakage or incents the kinds of generation shifts that
we identify as leakage, the states must otherwise address
leakage in order to ensure that the standards of performance
applied to the affected EGUs are, in the aggregate, at least
equivalent with the emission performance rates, and therefore
appropriately reflect the BSER as required by the statute.
Commenters noted that shifting generation and emissions from
existing sources to new sources undermined the intent of this
rule and the overall emission reduction goals, and that
requiring states to address leakage is consistent with the the

762

The final rule includes state plan conditions to prevent
perverse incentives that could otherwise result in greater
overall emissions when generation shifts across affected EGUs.
For example, states that wish to engage in rate-based trading
through an emission standards plan type must adopt plans
designed to achieve either a common rate-based state goal or the
subcategory-specific emission performance rates (see section
VIII.L). Such a state plan condition avoids encouraging
generation to shift from a state with a relatively lower state
goal to a state with a relatively higher state goal solely as a
response to the form of CPP implementation.

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obligation that states establish standards of performance that,
in the aggregate, at a minimum, reflect the BSER for affected
EGUs operating in the interconnected electricity sector.
This section specifically addresses the need for state
plans designed to achieve either rate- or mass-based state goals
to ensure that their plans succeed in implementing standards of
performance that reflect the BSER by minimizing the difference
in incentives provided to affected EGUs and new sources to
generate in order to maintain equivalent emission performance
with the CO2 emission performance rates.
Rate-based goals do not in our view implicate leakage to an
extent that would negate or limit the implementation of the BSER
because under a rate-based state goal, similar to the
subcategory-specific emission performance rates, existing loweremitting affected EGUs, primarily NGCC units, are incentivized
to increase their utilization in order to improve the average
emission rates of affected EGUs overall. New units that are not
subject to the rate-based state goal, and that are not an
allowable measure for adjusting an EGU’s CO2 emission rate, will
not have this incentive to increase utilization, and as a
result, the imposition of a rate-based goal on affected EGUs is
unlikely to encourage increased generation and emissions from
unaffected new EGUs. The form of the rate-based state goals
provides an equivalent or greater incentive to affected existing
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EGUs as they are provided in the CO2 emission performance rates,
and similarly avoid the potential for leakage. Under both
approaches, existing NGCC units can generate ERCs. These ERCs
provide an economic incentive to utilize existing NGCC units
rather than new NGCC units. Further, ERCs from incremental RE
incentivize new renewable generation over new NGCC generation.
Both of these features, which exist in the context of
implementation with a state rate-based goal or CO2 emission
performance rates, provide significant incentives to ensure
that, consistent with the BSER, shifting of generation does not
occur between existing fossil fuel-fired units and new NGCC
units.
Mass-based goals for existing sources, however, incur a
leakage risk to the extent that they incent generation shifts
from affected EGUs to unaffected fossil fuel-fired sources in a
way that negates the reliance on the BSER. In contrast to
various forms of rate-based implementation, mass-based
implementation in a state plan can unintentionally incentivize
increased generation from unaffected new EGUs as a substitute
action for reducing emissions at units subject to the existing
source mass goal in ways that would negate the implementation of
the BSER and would result in increased emissions. This occurs
because, unlike in a rate-based system where rate-based
averaging lowers the cost of generation from existing NGCC units
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relative to generation from new NGCC units, in a mass-based
system the allowance price increases the cost of generation from
existing NGCC units relative to generation from new NGCC units.
The extent to which electricity providers opt to rely on this
increase in unaffected new source utilization as a substitute
for improving the emissions performance across existing sources
would be fundamentally inconsistent with relying on the BSER to
reduce emissions as the basis of the subcategory-specific
emission performance rates.
As a result, notwithstanding the fact that mass goals for
existing sources are quantified in a way that is an equivalent
expression of the BSER, the form of mass goals is only
equivalent if leakage is satisfactorily addressed in the state
plan’s establishment of emission standards and implementation
measures. The EPA is therefore requiring that states adopting a
mass-based state plan include requirements that address leakage,
or otherwise provide additional justification that leakage would
not occur under the state’s implementation of mass-based
emission standards. This requirement enables states to establish
standards of performance that meet a mass-based goal equivalent
to the performance rates and therefore reflect the BSER, as
required by section 111(d). The required demonstration and
options for state plans to minimize leakage are discussed in
detail in section VIII.J of this preamble.
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Further supporting the need for this requirement, the EPA
has evaluated the mass goals in concert with some of the options
to minimize leakage described in that section. As mentioned
above, the EPA analysis identified a concern regarding leakage
in a mass-based approach, namely that the mass-based
implementation without measures to address leakage produced
higher generation from new NGCC units and lower emission
performance when compared to a rate-based implementation.
Further analysis where implementation of the mass-based goals
was coupled with measures to address leakage produce utility
power sector emissions performance that is similar to emissions
performance under the rate goals.763
E. State Plan Adjustments of State Goals
The EPA notes that it is the emission performance rates in
section VI that constitute the application of the BSER to the
affected EGUs and serve as the chief regulatory requirement of
this rulemaking. The statewide CO2 rate-based and mass-based
emission performance goals provided here are metrics that states
may choose to adopt when demonstrating compliance at the state
level, and states may consider these goals when determining how
to set unit-level compliance requirements. The EPA believes that
the regional nature of determining the emission performance

763

See Chapter 3 of the Regulatory Impact Analysis for more
information on this analysis, which is available in the docket.
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 Page 840 of 1560
rates encompasses a large population size and makes it robust
against unit-level variation and unit-level inventory
discrepancies. The EPA does acknowledge that state-level ratebased goals or mass-based goals may be sensitive to
applicability changes within a state’s affected population. In
the proposal, the EPA used a baseline that aggregated data for
what it believed to be affected units and asked states,
companies and other stakeholders to provide corrections in their
comments. We received input from many commenters and have
corrected information as appropriate. Therefore, we believe the
baseline to be accurate. However, if subsequent applicability
review or formal applicability determinations change the status
of units in regards to being affected or unaffected by this
rulemaking, states can, via state plan submittal or revision,
adjust their statewide rate or mass goal to reflect this change
of status.
This adjustment flexibility provision is based on comments
received at proposal. For example, some stakeholders noted that
the affected status of particular units was unclear. The EPA
recognizes that all the necessary data to determine the affected
status of some units may not be available at this time. As
stated above, the EPA does not believe unit-level variation or
inclusion/exclusion disparities between baseline inventory and
affected units will impact the regionally determined emission
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 Page 841 of 1560
performance rates discussed in the previous section. However,
variations in baseline data or inventory may have an impact on
the state-level rate-based or mass-based goals provided in this
section. Therefore, the EPA is allowing the flexibility for
states to demonstrate the need for this type of adjustment under
the justifications above and utilize an adjusted value for
compliance purposes when submitting or revising its state plan.
The EPA will evaluate the appropriateness of such an adjusted
value based on the state’s demonstration and evaluate the
approvability of a plan or plan revision accordingly.
Rate-based statewide CO2 emission performance goals are
listed below in Table 12. Mass-based statewide CO2 emission
performance goals are found in Table 13.
Table 12. Statewide764 Rate-Based CO2 Emission Performance Goals
(Adjusted Output-Weighted-Average Pounds of CO2 Per Net MWh From
All Affected Fossil Fuel-Fired EGUs)

State Name
Alabama
Arizona*
Arkansas
California
Colorado
Connecticut
Delaware
Florida

Interim
Goal Step 1
1,244
1,263
1,411
961
1,476
899
1,093
1,097

Interim
Goal Step 2
1,133
1,149
1,276
890
1,332
836
1,003
1,006

Interim
Goal Step 3
1,060
1,074
1,185
848
1,233
801
946
949

Interim
Goal
1,157
1,173
1,304
907
1,362
852
1,023
1,026

Final
Goal
1,018
1,031
1,130
828
1,174
786
916
919

The EPA has not developed statewide rate-based or mass-based
CO2 emission performance goals for Vermont and the District of
Columbia because current information indicates those
jurisdictions have no affected EGUs.
764

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Georgia
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Lands of the Fort
Mojave Tribe
Lands of the
Navajo Nation
Lands of the
Uintah and Ouray
Reservation
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico*
New York
North Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah*
Virginia

1,290
877
1,582
1,578
1,638
1,654
1,643

1,173
817
1,423
1,419
1,472
1,485
1,476

1,094
784
1,313
1,309
1,355
1,366
1,358

1,198
832
1,456
1,451
1,505
1,519
1,509

1,049
771
1,245
1,242
1,283
1,293
1,286

877

817

784

832

771

1,671

1,500

1,380

1,534

1,305

1,671
1,398
888
1,644
956
1,468
1,535
1,136
1,621
1,671
1,658
1,001
1,006
937
1,435
1,095
1,419
1,671
1,501
1,319
1,026
1,359
877
1,449
1,465
1,531
1,279
1,483
1,120

1,500
1,265
827
1,476
885
1,325
1,383
1,040
1,457
1,500
1,488
924
929
869
1,297
1,005
1,283
1,500
1,353
1,197
945
1,232
817
1,309
1,323
1,380
1,163
1,339
1,026

1,380
1,175
793
1,359
844
1,228
1,277
978
1,342
1,380
1,369
877
881
829
1,203
948
1,191
1,380
1,252
1,116
896
1,146
784
1,213
1,225
1,275
1,086
1,239
966

1,534
1,293
842
1,510
902
1,355
1,414
1,061
1,490
1,534
1,522
942
947
885
1,325
1,025
1,311
1,534
1,383
1,223
964
1,258
832
1,338
1,352
1,411
1,188
1,368
1,047

1,305
1,121
779
1,287
824
1,169
1,213
945
1,272
1,305
1,296
855
858
812
1,146
918
1,136
1,305
1,190
1,068
871
1,095
771
1,156
1,167
1,211
1,042
1,179
934

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Washington
1,192
1,088
1,021
1,111
983
West Virginia
1,671
1,500
1,380
1,534
1,305
Wisconsin
1,479
1,335
1,236
1,364
1,176
Wyoming
1,662
1,492
1,373
1,526
1,299
* Excludes EGUs located in Indian country within the state.
Table 13. Statewide Mass-Based CO2 Emission Performance Goals
(Adjusted Output-Weighted-Average Tons of CO2 from All Affected
Fossil Fuel-Fired EGUs)
Interim
Interim
Interim
Goal Goal Goal Interim
State
Step 1
Step 2
Step 3
Goal
Final Goal
Alabama
66,164,470 60,918,973
58,215,989
62,210,288
56,880,474
Arizona*
35,189,232 32,371,942
30,906,226
33,061,997
30,170,750
Arkansas
36,032,671 32,953,521
31,253,744
33,683,258
30,322,632
California
53,500,107 50,080,840
48,736,877
51,027,075
48,410,120
Colorado
35,785,322 32,654,483
30,891,824
33,387,883
29,900,397
Connecticut
7,555,787
7,108,466
6,955,080
7,237,865
6,941,523
Delaware
5,348,363
4,963,102
4,784,280
5,062,869
4,711,825
Florida
119,380,477 110,754,683 106,736,177 112,984,729 105,094,704
Georgia
54,257,931 49,855,082
47,534,817
50,926,084
46,346,846
Idaho
1,615,518
1,522,826
1,493,052
1,550,142
1,492,856
Illinois
80,396,108 73,124,936
68,921,937
74,800,876
66,477,157
Indiana
92,010,787 83,700,336
78,901,574
85,617,065
76,113,835
Iowa
30,408,352 27,615,429
25,981,975
28,254,411
25,018,136
Kansas
26,763,719 24,295,773
22,848,095
24,859,333
21,990,826
Kentucky
76,757,356 69,698,851
65,566,898
71,312,802
63,126,121
Lands of the
Fort Mojave
Tribe
636,876
600,334
588,596
611,103
588,519
Lands of the
Navajo Nation 26,449,393 23,999,556
22,557,749
24,557,793
21,700,587
Lands of the
Ute Tribe of
the Uintah
and Ouray
Reservation
2,758,744
2,503,220
2,352,835
2,561,445
2,263,431
Louisiana
42,035,202 38,461,163
36,496,707
39,310,314
35,427,023
Maine
2,251,173
2,119,865
2,076,179
2,158,184
2,073,942
Maryland
17,447,354 15,842,485
14,902,826
16,209,396
14,347,628
Massachusetts 13,360,735 12,511,985
12,181,628
12,747,677
12,104,747
Michigan
56,854,256 51,893,556
49,106,884
53,057,150
47,544,064
Minnesota
27,303,150 24,868,570
23,476,788
25,433,592
22,678,368
Mississippi
28,940,675 26,790,683
25,756,215
27,338,313
25,304,337
Missouri
67,312,915 61,158,279
57,570,942
62,569,433
55,462,884
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Montana
13,776,601 12,500,563
11,749,574
12,791,330
Nebraska
22,246,365 20,192,820
18,987,285
20,661,516
Nevada
15,076,534 14,072,636
13,652,612
14,344,092
New Hampshire 4,461,569
4,162,981
4,037,142
4,243,492
New Jersey
18,241,502 17,107,548
16,681,949
17,426,381
New Mexico*
14,789,981 13,514,670
12,805,266
13,815,561
New York
35,493,488 32,932,763
31,741,940
33,595,329
North
Carolina
60,975,831 55,749,239
52,856,495
56,986,025
North Dakota 25,453,173 23,095,610
21,708,108
23,632,821
Ohio
88,512,313 80,704,944
76,280,168
82,526,513
Oklahoma
47,577,611 43,665,021
41,577,379
44,610,332
Oregon
9,097,720
8,477,658
8,209,589
8,643,164
Pennsylvania 106,082,757 97,204,723
92,392,088
99,330,827
Rhode Island 3,811,632
3,592,937
3,522,686
3,657,385
South
Carolina
31,025,518 28,336,836
26,834,962
28,969,623
South Dakota 4,231,184
3,862,401
3,655,422
3,948,950
Tennessee
34,118,301 31,079,178
29,343,221
31,784,860
Texas
221,613,296 203,728,060 194,351,330 208,090,841
Utah*
28,479,805 25,981,970
24,572,858
26,566,380
Virginia
31,290,209 28,990,999
27,898,475
29,580,072
Washington
12,395,697 11,441,137
10,963,576
11,679,707
West Virginia 62,557,024 56,762,771
53,352,666
58,083,089
Wisconsin
33,505,657 30,571,326
28,917,949
31,258,356
Wyoming
38,528,498 34,967,826
32,875,725
35,780,052
* Excludes EGUs located in Indian country within the state.

11,303,107
18,272,739
13,523,584
3,997,579
16,599,745
12,412,602
31,257,429
51,266,234
20,883,232
73,769,806
40,488,199
8,118,654
89,822,308
3,522,225
25,998,968
3,539,481
28,348,396
189,588,842
23,778,193
27,433,111
10,739,172
51,325,342
27,986,988
31,634,412

F. Geographically Isolated States and Territories with Affected
EGUs
Alaska, Hawaii, Guam, and Puerto Rico constitute a small
set of states and U.S. territories representing about one
percent of total U.S. EGU GHG emissions. Based on the current
record, the EPA does not possess all of the information or the
analytic tools needed to quantify the application of the BSER
for these states and territories, particularly data regarding RE
costs and performance characteristics needed for building block

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 Page 845 of 1560
3 of the BSER. The NREL data for RE that the EPA is relying upon
for building block 3 does not cover the non-contiguous states
and territories.
The EPA acknowledges that NREL has collaborated with the
state of Hawaii to provide technical expertise in support of the
state’s aggressive goals for clean energy, including analyses of
the grid integration and transmission of solar and wind
resources.765 The EPA also recognizes that there are studies and
data for some renewable resources in some of the other noncontiguous jurisdictions. However, taken as a whole, the data we
currently possess do not allow us to quantify the emissions
reductions available from building block 3 using the same
methodology used for the contiguous states encompassed by the
three interconnections. Lastly, the IPM model used to support
the EPA’s analysis is geographically limited to the contiguous
U.S. As a result of these factors, the EPA currently lacks the
necessary analytic resources to set emission performance goals
for these areas.
Because of the lack of suitable data and analytic tools
needed to develop area-appropriate building block targets as
defined in section V, the EPA is not setting CO2 emission
performance goals for Alaska, Hawaii, Guam, or Puerto Rico in

765

Hawaii Solar Integration Study, NREL Technical Report
NREL/TP-5500-57215, June 2013.
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 Page 846 of 1560
this final rule at this time. The EPA believes it is within its
authority to address performance goals only for the contiguous
U.S. states in this final rule. Under section 111(d), the EPA is
not required, at the time that the EPA promulgates section
111(b) requirements for new sources, to promulgate emission
guidelines for all of the sources that, if they were new
sources, would be subject to the section 111(b) requirements if
there is a reasonable basis for deferring certain groups of
sources. As discussed, in this rule, the EPA has a reasonable
basis for deferring setting goals for these four jurisdictions.
In addition, the Courts have recognized the authority of
agencies to develop regulatory programs in step-by-step fashion.
As the U.S. Supreme Court noted in Massachusetts v. EPA, 549
U.S. 497, 524 (2007): “Agencies, like legislatures, do not
generally resolve massive problems in one fell regulatory
swoop;” and instead they may permissibly implement such
regulatory programs over time, “refining their preferred
approach as circumstances change and as they develop a more
nuanced understanding of how best to proceed.”766

766

See, e.g., Grand Canyon Air Tour Coalition v. F.A.A., 154
F.3d 455, 471 (D.C. Cir. 1998) (ordinarily, agencies have wide
latitude to attack a regulatory problem in phases and that a
phased attack often has substantial benefits); National
Association of Broadcasters v. FCC, 740 F.2d 1190, 121-11 (D.C.
Cir. 1984) (“We have therefore recognized the reasonableness of
[an agency’s] decision to engage in incremental rulemaking and
to defer resolution of issues raised in a rulemaking....”).
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 Page 847 of 1560
The EPA recognizes, however, that EGUs in Alaska, Hawaii,
Puerto Rico, and Guam emit CO2 and that there are opportunities
to reduce the carbon intensity of generation in those areas over
time. We recognize further that there are efforts underway to
increase the use of RE in these jurisdictions. In particular, we
recognize that Hawaii has tremendous opportunities for RE and
has adopted very ambitious goals: 40 percent clean energy by
2030 and 100 percent by 2045. Since 2008, Alaska has apportioned
in excess of $1.34 billion pursuing its aspirational goal of 50
percent of the state’s total yearly electric load from renewable
and alternative energy sources by 2025. Puerto Rico’s goal is to
achieve 20 percent RE sales by 2035, and the territory is
working hard to meet the requirements of the Mercury and Air
Toxics Standards, which will reduce emissions from its power
plants substantially. Guam’s RPS is to achieve 25 percent
REsales by 2035.
The agency intends to continue to consider these issues and
determine what the appropriate BSER is for these areas. As part
of that effort, the agency will investigate sources of
information and types of analysis appropriate to devise the
appropriate levels for building block 3 and BSER performance
levels. Because we recognize that these areas face some of the
most urgent climate change challenges, severe public health
problems from air pollution and some of the highest electricity
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 Page 848 of 1560
rates in the U.S., the EPA is committed to obtaining the right
information to quantify the emission reductions that are
achievable in these four areas and putting goals in place soon.
VIII. State Plans
A. Overview
After the EPA establishes the emission guidelines that set
forth the BSER, each state with one or more affected EGUs767
shall then develop, adopt and submit a state plan under CAA
section 111(d) that establishes standards of performance for the
affected EGUs in its jurisdiction in order to implement the
BSER. Starting from the foundation of CAA section 111(d) and the
EPA’s implementing regulations (40 CFR part 60 subpart B), the
EPA’s proposal laid out a number of options, variations and
flexibilities that were intended to provide states and affected
EGUs the ability to design state plans that accorded with
states’ specific situations and policies (now and in the
future), and to ensure reliability and affordability of
electricity across the system and for all ratepayers. The

767

As stated previously, states with one or more affected EGUs
will be required to develop and implement plans that set
emission standards for affected EGUs. The CAA section 111(d)
emission guidelines that the EPA is promulgating in this action
apply to only the 48 contiguous states and any Indian tribe that
has been approved by the EPA pursuant to 40 CFR 49.9 as eligible
to develop and implement a CAA section 111(d) plan. Because
Vermont and the District of Columbia do not have affected EGUs,
they will not be required to submit a state plan.
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 Page 849 of 1560
proposal has prompted numerous discussions between and among
stakeholders, especially states and groups of states, including
state environmental and energy regulators and policy officials.
The EPA has received many comments from a wide range of
stakeholders seeking a final rule that afforded freedom and
flexibility to consider a wide range of standards of performance
to implement the BSER, but also providing significant feedback
on the elements and options in the proposal and constructive
suggestions for alternative approaches. The EPA has carefully
considered all of this input, and is finalizing emission
guidelines that continue to provide a variety of options for
states to fashion their plans in ways legally supportable by the
CAA, while also making certain adjustments to address key
comments.
The next few paragraphs present an overview of the main
features of the final emission guidelines, highlighting key
changes from proposal. In the rest of this section, we describe
in detail the various elements of the final emission guidelines’
requirements for state plans.
The proposal contained rate-based goals for each state,
reflecting a blended reduction target for that state’s fossil
fired EGUs, and provided that states could either meet that
rate-based goal or convert it to a mass-based equivalent goal.
Reflecting the final BSER described in section V and in response
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 Page 850 of 1560
to many comments desirous that the EPA establish mass-based
goals in the final rule, these final guidelines include three
approaches that states may adopt for purposes of implementing
the BSER, any one of which a state may use in its plan. These
are: 1) establishing standards of performance that apply the
subcategory specific CO2 emission performance rates to their
affected EGUs, 2) adopting a combination of standards and/or
other measures that achieve state-specific rate-based goals that
represent the weighted aggregate of the CO2 emission performance
rates applied to the affected EGUs in each state, and 3)
adopting a program to meet mass-based CO2 emission goals that
represent the equivalent of the rate-based goal for each state.
These alternatives, as well as the other options we are
finalizing, ensure that both states and affected EGUs enjoy the
maximum flexibility and latitude in meeting the requirements of
the emission guidelines and that the BSER is fully implemented
by each state.
In the proposal, we provided two designs for state plans:
one where all the reduction obligations are placed directly on
the affected EGUs and one, which we called the “portfolio
approach,” that could include measures to be implemented, in
whole or in part, by parties other than the affected EGUs. In
the final guidelines, we retain that basic choice, but with some
modifications to respond to comments we received, especially on
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the portfolio approach. In their plans, states will be able to
choose either to impose federally enforceable emission standards
that fully meet the emission guidelines directly on affected
EGUs (the “emission standards” approach) or to use a “state
measures" approach, which would be composed, at least in part,
of measures implemented by the state that are not included as
federally enforceable components of the plan but result in the
affected EGUs meeting the requirements of the emission
guidelines. A state measures type plan must include a backstop
of federally enforceable standards on affected EGUs that fully
meet the emission guidelines and that would be triggered if the
state measures fail to result in the affected EGUs achieving on
schedule the required emission reductions.
States that choose an emission standards plan may establish
as standards of performance for their affected EGUs the
subcategory specific CO2 emission performance rates, which
express the BSER.768 This would satisfy the requirement described
in section VIII.D.2.a.3 that a state demonstrate its plan would
achieve the CO2 emission performance rates; in this case, no
further demonstration would be necessary. Alternatively, a state
may establish emission standards for affected EGUs at different
levels from the uniform subcategory-specific emission

768

Rate-based and mass-based emission standards may incorporate
the use of emission trading.
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performance rates, provided that when implemented, the emission
standards achieve the CO2 emission performance rates or state
rate- or mass-based CO2 emission goal set forth by the EPA for
the state. States that adopt differential standards of
performance among their affected EGUs must demonstrate that, in
the aggregate, the differential standards of performance will
result in their affected EGUs meeting the CO2 emission
performance rates, the state’s rate-based CO2 emission goal or
its mass-based CO2 emission goal.
In the proposal, we proposed that states could use the
portfolio approach to meet either a rate- or mass-based goal. In
these final emission guidelines, the state measures approach is
available only for a state choosing a mass-based CO2 emission
goal, to provide certainty that the state measures are achieving
the required emission reductions. Similar to emission standards
plans with differential standards of performance, states that
adopt state measures plans must demonstrate that the state
measures, alone or in conjunction with any federally enforceable
emission standards on affected EGUs also included in the state
plan, will result in the affected EGUs in the state meeting the
state’s mass-based CO2 emission goal. A “state measures” type
plan must also include a backstop provision – triggered if,
during the interim period, the state plan fails to achieve the
emission reduction trajectory identified in the plan or if,
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during the final phase, the state plan fails to meet the final
state mass-based CO2 emission goal – that would impose federally
enforceable emission standards on the affected EGUs adequate to
meet the emission guidelines when fully implemented.
The final guidelines reflect the changes to the timing of
the reductions within the interim period, which is laid out in
section V as part of the determination of the BSER. States may
adopt in their plans emission reduction trajectories different
from the illustrative three-step trajectory included in these
guidelines for purposes of creating a “glide path” between 2022
and 2029, provided that the interim and final CO2 emission
performance rates or state CO2 emission goals are met.
We recognize that while we are establishing 2022 as the
date by which the period for mandatory reductions must start as
part of our BSER determination, utilities and other parties are
moving forward with projects that reduce emissions of CO2 from
affected EGUs. We received numerous comments urging us to allow
credit for these early actions. The final guidelines encourage
those early reductions, by making clear that states may, in
their plans, allow EGUs to use allowances or ERCs generated
through the CEIP. The final guidelines also require that states
include in their final plans a schedule of the actions they will
be taking to ensure that the period for mandatory reductions
will begin as required starting in 2022, and submit a progress
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report on those actions.
For all types of plans, the final guidelines make clear
that states may adopt programs that allow trading among affected
EGUs. The final guidelines retain the flexibility for states to
do individual plans, or to join with other states in a multistate plan. In addition, and in response to comments from many
states and other stakeholders, the guidelines provide that
states may design their programs so that they are “ready for
interstate trading,” that is, that they contain features
necessary and suitable for their affected EGUs to engage in
trading with affected EGUs in other “trading ready” states
without the need for formal arrangements between individual
states.
We have been mindful of the concerns raised by stakeholders
about reliability. The final BSER, especially the changes in the
timing of the interim period, substantially address these
concerns. The flexibilities provided for the design of state
plans, including the ability to use trading programs, further
enhance system reliability. We have included, as an additional
assurance, a reliability safety valve for use where the built-in
flexibilities are not sufficient to address an immediate,
unexpected reliability situation.
The EPA believes that all the flexibilities provided in the
final rule are not only appropriate, but will enhance the
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success of the program. CO2 is a global pollutant, and where and
when the reductions occur is not as significant to the
environmental outcome as compared to many other conventional
pollutants. The flexibilities provided in the final guidelines
will better reflect the unique interconnectedness of the
electricity system, and will allow states and EGUs to reduce CO2
emissions while maintaining reliability and affordability for
all consumers.
In developing the plan, the state rulemaking process must
meet the minimum public participation requirements of the
implementing regulations as applicable to these guidelines,
including a public hearing and meaningful engagement with all
members of the public, including vulnerable communities. In the
community and environmental justice considerations section,
section IX of this preamble, the EPA addresses the actions that
the agency is taking to help ensure that vulnerable communities
are not disproportionately impacted by this rule. These actions
include conducting a proximity analysis, setting expectations
for states to engage meaningfully with vulnerable communities
and requiring that they describe their plans for doing so as
they develop their state plans, providing communities with
access to additional resources, providing communities with
information on federal programs and resources available to them,
recommending that states take a multi-pollutant planning
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approach that examines the potential impacts of co-pollutants on
overburdened communities, and conducting an assessment to
determine if any localized air quality impacts need to be
further addressed. Additionally, the EPA outlines the continued
engagement that it will be conducting with states and
communities throughout the state plan development process.
As discussed in more detail in section VIII.E, commenters,
particularly states, provided compelling information
establishing that for some, and perhaps many, states it will
take longer than the agency initially anticipated to develop and
submit their required plans. In response to those comments, we
are finalizing a plan submittal process that provides additional
time for states that need it to submit a final plan submittal to
the EPA after September 6, 2016. Within the time period
specified in the emission guidelines (from as early as September
6, 2016, to as late as September 6, 2018, depending on whether
the state receives an extension), the state must submit its
final state plan to the EPA. The EPA then must determine whether
to approve or disapprove the plan. If a state does not submit a
plan, or if the EPA disapproves a state’s plan, then the EPA has
the express authority under CAA section 111(d) to establish a

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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federal plan for the state.769 During and following
implementation of its approved state plan, each state must
demonstrate to the EPA that its affected EGUs are meeting the
interim and final performance requirements included in this
final rule through monitoring and reporting requirements.
This section is organized as follows. First, we discuss the
timeline for state plan performance and provisions to encourage
early action. Second, we describe the types of plans that states
can submit. Third, we summarize the components of an approvable
state plan submittal. Fourth, we address the process and timing
for submittal of state plans and plan revisions. Fifth, we
address plan implementation and achievement of CO2 emission
performance rates or state CO2 emission goals for affected EGUs,
and the consequences if they are not met. Sixth, we discuss
general considerations for states in developing and implementing
plans, including consideration of a facility’s “remaining useful
life” and “other factors” and electric reliability. Seventh, we
note certain resources that are available to facilitate state
plan development and implementation. Finally, we discuss
additional considerations for inclusion of CO2 emission reduction

769

A federal plan may be withdrawn if the state submits, and
the EPA approves, a state plan that meets the requirements of
this final rule and section 111(d) of the CAA. More details
regarding the federal plan are addressed in the EPA’s proposed
federal plan rulemaking.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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measures in state plans, including: accounting for emission
reduction measures in state plans; requirements for mass-based
and rate-based emission trading approaches; EM&V requirements
for RE and demand-side EE resources and other measures used to
adjust a CO2 rate; and treatment of interstate effects.
B. Timeline for State Plan Performance and Provisions to
Encourage Early Action
This section describes state plan requirements related to
the timing of achieving the emission reductions required in the
guidelines and the state plan performance periods. This section
also describes the CEIP the EPA is establishing to encourage
early investment in certain types of RE projects, as well as in
demand-side EE projects implemented in low income communities.
1. Timeline for state plan performance
The final guidelines establish three types of performance
periods: 1) a final deadline by which and after which affected
EGUs must be in compliance with the final reduction
requirements, 2) an interim period, and 3) within that interim
period, three multi-year interim step periods. As discussed
below and in section V, these performance periods are consistent
with our determination of the BSER and are also responsive to
the key comments we received on this aspect of the state plans.
A performance period is a period for which the final plan
submittal must demonstrate that the required CO2 emission
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performance rates or state CO2 emission goal will be met. The
final guidelines establish 2030 as the deadline for compliance
by affected EGUs with the final CO2 emission performance rates or
CO2 rate or mass emission goal; 2030 is the beginning of the
final performance period. The interim performance period is 2022
to 2029, and there are three interim step periods - 2022-2024,
2025-2027, and 2028-2029 — where increasingly stringent emission
performance rates or state emission goals must be met. The state
may submit a plan that incorporates alternative interim step
emission performance rates or state emission goals to those
provided by EPA, as long as on average or cumulatively, as
appropriate, they result in the equivalent of the interim
emission performance rates or state emission goals in the
emission guidelines. These timelines are based on careful
consideration of the substantial comments we received on both
the timing of the interim period and the trajectory of
compliance by affected EGUs over the interim period and our
determination of the BSER, discussed in section V above. The
modifications we have made to the timelines included in the
proposal respond to these comments and to concerns about, among
other things, reliability, feasibility, and cost.
As previously discussed, the EPA has determined that the
BSER includes implementation of reduction measures over the
period of 2022 through 2029, with final compliance by affected
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EGUs in 2030. Therefore, the final rule requires that interim CO2
emission performance rates or state CO2 emission goals be met for
the interim period of 2022-2029. Many commenters expressed a
desire that the EPA designate steps during the interim period to
create an interim goal that offered states and utilities greater
flexibility and choice in determining their own emission
reduction trajectories over the course of the interim period.
Since our intent at proposal was to provide such flexibility and
choice, and since it remains our intent to do so in this final
rule, we are addressing these comments by including in the 20222029 interim period three interim step periods (2022-2024, 20252027, 2028-2029), which correspond roughly to the phasing in of
the BSER. We note, however, that the final rule also allows
states the flexibility to define an alternate trajectory of
emission performance between 2022 and 2029, provided that 1) the
state plan specifies its own interim step CO2 emission
performance rates or state CO2 emission goals, 2) meeting the
alternative interim step CO2 emission performance rates or state
CO2 emission goals will result in the interim emission
performance rates or state CO2 emission goal being met on an 8year average or cumulative basis, and, 3) the final CO2 emission
performance rates or state CO2 emission goal is achieved. To be
approvable, a state plan submittal must demonstrate that the
emission performance of affected EGUs will meet the interim step
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CO2 emission performance rates or interim step state CO2 emission
goals over the 2022-2024, 2025-2027, and 2028-2029 periods and
the final CO2 emission performance rates or state CO2 emission
goal no later than 2030.770
This relatively long period – first for planning, then for
implementation and achievement of the interim and final CO2
emission performance rates or state CO2 emission goals – provides
states and utilities with substantial flexibility regarding
methods and timing of achieving emission reductions from
affected EGUs. The EPA believes that timing flexibility in
implementing measures provides significant benefits that allow
states to develop plans that will help achieve a number of
goals, including, but not limited to: reducing cost, addressing
reliability concerns, addressing concerns about stranded assets,
and facilitating the integration of meeting the emission
guidelines and compliance by affected EGUs with other air
quality and pollution control obligations on the part of both
states and affected EGUs. Moreover, we note that over the course
of time between submittal of final plans and 2030, circumstances

770

States are free to establish different interim step
performance rates or interim step state goals than those the EPA
has specified in this final rule. If states choose to determine
their own interim step performance rates or state goals, the
state must demonstrate that the plan will still meet the interim
performance rates or state goal for 2022-2029 finalized in this
action.
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may change such that states may need or wish to modify their
plans. The relatively lengthy performance periods provided in
the final rule should help keep those situations to a minimum
but will also accommodate them if necessary.771 The EPA envisions
that the agency, states and affected EGUs will have an ongoing
relationship in the course of implementing this program. Since
the record also indicates a high degree of interest on the part
of states and stakeholders in pursuing banking and trading
programs, the timing and level of stringency of the interim CO2
performance rates or state CO2 emission goals we are finalizing
should provide states and affected EGUs with ample capacity to
accommodate such changes without necessitating changes in state
plans in many instances.
The timelines established in the final rule respond to the
issues raised in numerous comments regarding the concept of the
interim period, including comments supporting the flexibility
afforded states in developing their plans and the timing
necessary to meet the 2030 emission requirements. Some
commenters supported beginning the interim goal plan period at
2020. Others stated that the investments necessary to meet the
proposed interim emission performance goals beginning in 2020
are unachievable in that timeframe or would place too great a

771

Modifications to state plans are addressed more specifically
in section VIII.E.7 below.
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burden on affected EGUs, states, and ratepayers. Some suggested
that the 2020 interim goal step should be eliminated in favor of
later start dates, including 2022, 2025, or other years. Some
commenters urged the EPA to establish phased interim steps
creating a steady downward trajectory that allowed several years
for each step, compatible with the “chunkiness” of utility
planning processes. Yet other commenters provided input
suggesting that states be allowed to establish their own set of
emission performance steps during the interim plan performance
period and thereby control their own emission reduction
trajectory or “glide path” for achievement of the interim goal
and the 2030 goal, or that the EPA not establish any interim
standards at all. Commenters also noted that for some states,
there was not a significant difference between the interim and
final goal, and, therefore, no glide path for those states. As
discussed in previous sections, based on this input and our
final determination of the BSER, the EPA has adjusted the
interim period to include 2022-2029, is establishing three
interim performance periods creating a reasonable trajectory
from 2022 to 2030, and is also retaining the flexibility for
states to establish their own emission reduction trajectory
during the interim period.
As noted, the EPA has determined that the period for
mandated reductions should begin in 2022, instead of 2020 as we
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proposed, because of the substantial amount of comment and data
we received indicating that states and utilities reasonably
needed that additional time to take the steps necessary to start
achieving reductions. In order to assure the EPA and the public
that states are making progress in implementing the plan between
the time of the state plan submittal and the beginning of the
interim period, and as discussed in further detail in section
VIII.D, the final rule requires that the state plan submittal
include a timeline with all the programmatic milestone steps the
state will take between the time of the state plan submittal and
2022 to ensure the plan is effective as of 2022.
2. Provisions to encourage early action
Many commenters supported providing incentives for states
and utilities to deploy CO2-reducing investments, such as RE and
demand-side EE measures, as early as possible. In the proposal,
the EPA requested comment on an approach that would recognize
emission reductions that existing programs provide prior to the
initial plan performance period starting from a specified date.
We also requested comment on options for that specified date and
on conditions that should apply to counting those pre-compliance
emission reductions toward a state goal. The EPA received many
comments requesting that the agency recognize early actions for
the emission reductions they provide prior to the performance
period, that the EPA allow those pre-compliance impacts to be
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counted toward meeting requirements under the rule, and that
certain conditions should be applied to recognition of early
reductions so as to ensure the emission reductions required in
the rule. We also received comments from stakeholders regarding
the disproportionate burdens that some communities already bear,
and stating that all communities should have equal access to the
benefits of clean and affordable energy. The EPA recognizes the
validity and importance of these perspectives, and as a result
has determined to provide a program – called the Clean Energy
Incentive Program (CEIP) – in which states may choose to
participate. This section describes this program.
The CEIP is designed to incentivize investment in certain
RE and demand-side EE projects that commence construction in the
case of RE, or commence operation in the case of EE, following
the submission of a final state plan to the EPA, or after
September 6, 2018, for states that choose not to submit a final
state plan by that date, and that generate MWh (RE) or reduce
end-use energy demand (EE) during 2020 and/or 2021. State
participation in the program is optional; the EPA is
establishing this program as an additional flexibility to
facilitate achievement of the CO2 emission reductions required by
this final rule, regardless of the type of state plan a state
chooses to implement.
Under the CEIP, a state may set aside allowances from the
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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CO2 emission budget it establishes for the interim plan
performance period or may generate early action ERCs (ERCs are
discussed in more detail in section VIII.K.2), and allocate
these allowances or ERCs to eligible projects for the MWh those
projects generate or the end-use energy savings they achieve in
2020 and/or 2021. A state implementing a mass-based plan
approach, as described in section VIII.C, may issue early action
allowances; a state implementing a rate-based plan approach,
also described in section VIII.C, may issue early action ERCs.
For each early action allowance or ERC a state allocates to such
projects, the EPA will provide the state with an appropriate
number of matching allowances or ERCs, as outlined below, for
the state to allocate to the project. The EPA will match stateissued early action ERCs and allowances up to an amount that
represents the equivalent of 300 million short tons of CO2
emissions. The EPA intends that a portion of this pool will be
reserved for eligible wind and solar projects, and a portion
will be reserved for low-income EE projects. In the proposed
federal plan, the EPA is taking comment on the size of each
reserve, and is proposing provisions to provide that any
unallocated amounts would be redistributed among participating
states.
The EPA has determined that the size of this 300 million
short ton CO2-equivalent matching pool is an appropriate
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reflection of the CO2 emission reductions that could be achieved
by the additional early investment in RE and demand-side EE the
agency expects will be incentivized by the CEIP. For example, in
2012, 13 GW of utility scale wind were deployed,772 and, in 2014,
3.4 GW of utility-scale solar773 plus 2-3 GW of distributed solar
were deployed,774 according to industry estimates. Assuming 19 GW
per year of RE from 2017-2020 based on these historic maximums
yields an installed base of 76 GW of RE potentially eligible for
CEIP incentives in 2020 and/or 2021. Assuming an average
capacity factor of 30 percent, this would translate into
approximately 200 TWh/year of generation, which would be
eligible for approximately 300 million short tons of matching
allowances over the 2-year period, if the RE MWh were converted
to allowances based on the 2012 carbon intensity of 0.8 short
tons per MWh. This would leave the remaining half of the pool of
matching federal allowances available for EE projects
implemented in low-income communities, and additional growth in
RE deployment beyond these historic maximums as potentially

772

U.S. Energy Information Administration Electric Power Annual
2013. http://www.eia.gov/electricity/annual. Table 4.6: Capacity
additions, retirements and changes by energy source. March 2015.
773 U.S. Energy Information Administration Electric Power
Monthly. http://www.eia.gov/electricity/monthly. Table 6.3: New
Utility Scale Generating Units by Operating Company, Plant,
Month, and Year.
774 GTM Research/Solar Energy Industries Association: U.S. Solar
Market Insight Q1 2015.
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enabled by reductions in cost and improvements in performance.
For a state to be eligible for a matching award of
allowances or ERCs from the EPA, it must demonstrate that it
will award allowances or ERCs only to eligible projects. These
are projects that:


Are located in or benefit a state that has submitted a
final state plan that includes requirements establishing
its participation in the CEIP;



Are implemented following the submission of a final state
plan to the EPA, or after September 6, 2018, for a state
that chooses not to submit a complete state plan by that
date;



For RE: Generate metered MWh from any type of wind or solar
resources;



For EE: Result in quantified and verified electricity
savings (MWh) through demand-side EE implemented in lowincome communities; and



Generate or save MWh in 2020 and/or 2021.
The following provisions outline how a state may award

early action ERCs or allowances to eligible projects, and how
the EPA will provide matching ERCs or allowances to states.


For RE projects that generate metered MWh from any type of
wind or solar resources: for every two MWh generated, the

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project will receive one early action ERC (or the
equivalent number of allowances) from the state, and the
EPA will provide one matching ERC (or the equivalent number
of allowances) to the state to award to the project.


For EE projects implemented in low-income communities: for
every two MWh in end-use demand savings achieved, the
project will receive two early action ERCs (or the
equivalent number of allowances) from the state, and the
EPA will provide two matching ERCs (or the equivalent
number of allowances) to the state to award to the project.
Early action allowances or ERCs awarded by the state, and

matching allowances or ERCs awarded by the EPA pursuant to the
CEIP, may be used for compliance by an affected EGU with its
emission standards and are fully transferrable prior to such
use.
The EPA discusses the CEIP in the proposed federal plan
rule, and will address design and implementation details of the
CEIP, including the appropriate factor for determining
equivalence between allowances and MWh and the definition of a
low-income community for project eligibility purposes, in a
subsequent action. Before doing so, the EPA will engage states
and stakeholders to gather additional information concerning
implementation topics, and to solicit information about the
concerns, interests and priorities of states, stakeholders and
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the public.
In order for a state that chooses to participate in the
CEIP to be eligible for a future award of allowances or ERCs
from the EPA, a state must include in its initial submittal a
non-binding statement of intent to participate in the program.
In the case of a state submitting a final plan by September 6,
2016, the state plan would either include requirements
establishing the necessary infrastructure to implement such a
program and authorizing its affected EGUs to use early action
allowances or ERCs as appropriate, or would include a nonbinding statement of intent as part of its supporting
documentation and revise its plan to include those requirements
at a later date.
Following approval of a final state plan that includes
requirements for implementing the CEIP, the agency will create
an account of matching allowances or ERCs for the state that
reflects the pro rata share – based on the amount of the
reductions from 2012 levels the affected EGUs in the state are
required to achieve relative to those in the other participating
states – of the 300 million short ton CO2 emissions-equivalent
matching pool that the state is eligible to receive. Thus,
states whose EGUs have greater reduction obligations will be
eligible to secure a larger proportion of the federal matching
pool upon demonstration of quantified and verified MWh of RE
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generation or demand side-EE savings from eligible projects
realized in 2020 and/or 2021.
Any matching allowances or ERCs that remain undistributed
after September 6, 2018,775 will be distributed to those states
with approved state plans that include requirements for CEIP
participation. These ERCs and allowances will be distributed
according to the pro rata method outlined above. Unused matching
allowances or ERCs that remain in the accounts of states
participating in the CEIP on January 1, 2023, will be retired by
the EPA.
For purposes of establishing a state plan program eligible
for an award of matching allowances or ERCs from the EPA, such a
program must include a mechanism for awarding early action
emission allowances or ERCs for eligible actions that reduce or
avoid CO2 emissions in 2020 and/or 2021, and that is implemented
in a way such that the early action allowances or ERCs allocated
by the state would maintain the stringency of the state’s goal
for emission performance from affected EGUs in the performance
periods established in this rule. Specifically, the state must
demonstrate in its plan that it has a mechanism in place that
enables issuance of ERCs or allowances from the state to parties
effectuating reductions in 2020 and/or 2021 in a manner that

775

This may occur because not all states may elect to include
requirements for CEIP participation in their state plans.
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would have no impact on the aggregate emission performance of
affected EGUs required to meet rate-based or mass-based CO2
emission standards during the compliance periods.776 This
demonstration is not required to account for matching ERCs or
allowances that may be issued to the state by the EPA.
Participation in this program is entirely voluntary, and nothing
in these provisions would have the effect of requiring any
particular affected EGU to achieve reductions prior to 2022, or
requiring states to offer incentives for emission reductions
achieved prior to 2022.777 These and other details will be
developed in the subsequent action.

776

For example, under a mass-based implementation, the state
plan could include a set-aside of early action allowances from
an emissions budget that itself reflects the state goals.
Allocation of those early action allowances to parties
effectuating reductions in 2020 and 2021 would have no impact on
the total emissions budget, which sets the total allowable
emissions in the compliance periods. Alternatively, under a
rate-based implementation, the state plan could require that
early action ERCs issued to parties effectuating reductions in
2020 and 2021 would be “borrowed” from a pool of ERCs created by
the state during the interim plan performance period. States
could limit the size of the “borrowed” pool of ERCs to be
equivalent to the size of the federal matching pool, or could
take into consideration the potential for each state’s federal
matching pool to expand after a redistribution of unused
credits. For every early action ERC awarded for actions in 2020
and 2021, the state would retire one ERC from the pool of ERCs
created as a result of reductions achieved from 2022 onward.
777 In addition to the CEIP, states may also offer credit for
early investments in RE and demand-side EE according to the
provisions of section VIII.K.1 of this final rule: a state may
award ERCs to qualified providers that implement projects from
2013 onward that realize quantified and verified MWh results in
2022 and subsequent years.
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The EPA is providing the CEIP as an option for states
implementing plans – and is including a similar program for the
federal plan proposal being issued concurrently – for several
reasons. Chief among them is that offered by commenters to the
effect that the overall cost of achievement of the emission
performance rates or state goals could be reduced by an approach
that granted some form of beneficial recognition to emissions
reduction investments that both occur and yield reductions prior
to the first date on which the program of the interim plan
performance period. Other commenters pointed out that to the
extent that states and utilities would benefit from the
availability of low-cost RE and other zero-emitting generation
options during the interim and final plan performance periods,
the EPA should include in the final emission guidelines
provisions that accelerate deployment of RE resources, since in
so doing the final emission guidelines would speed achievement
of expected reductions in the cost of those technologies
commensurate with their accelerated deployment. In addition, the
incentives and market signal generated by the CEIP can help
sustain the momentum toward greater RE investment in the period
between now and 2022 so as to offset any dampening effects that
might be created by setting the start date 2 years later than at
proposal.
The specific criteria the EPA is establishing for eligible
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RE projects reflect a variety of considerations. First, the EPA
seeks to preserve the incentive for project developers to
execute on planned investments in all types of solar and wind
technologies. Commenters raised concerns that the fast pace of
reductions underlying the emission targets in the proposed rule
could potentially shift investment from RE to natural gas, thus
dampening the incentive to develop wind and solar projects, in
particular. Second, the EPA, consistent with the CAA’s directive
to incentivize technology and to accelerate the decline in the
costs of technology, seeks to drive the widespread development
and deployment of wind and solar, as these broad categories of
renewable technology are essential to longer term climate
strategies. Finally, in contrast to other CO2-reducing
technologies – including other zero-emitting or RE technologies
– solar and wind projects often require lead times of shorter
duration, which would allow them to generate MWh beginning in
2020.
The specific criterion the EPA is establishing for eligible
EE projects – namely that these projects be implemented in lowincome communities - is also consistent with the technologyforcing and development purposes of section 111. The EPA
believes it is appropriate to offer an additional incentive to
remove current barriers to implementing demand-side EE programs
in low-income communities. While the EPA acknowledges that a
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number of states have demand-side EE programs focused on these
communities,778 the agency also recognizes that there have been
historic economic, logistical, and information barriers to
implementing programs in these communities. As a result, the
costs of implementing demand-side EE programs in these
communities are typically higher than in other communities and
stand as barrier to harvesting potentially cost effective
reductions and advancing these technologies. The EPA intends for
the CEIP to help incentivize increased deployment of projects
that will deliver demand-side EE benefits to these communities,
which will in turn lower the costs of these approaches. These
lower costs will help new technologies and delivery mechanisms
penetrate in the future, thus improving the cost of
implementation of the emission guidelines overall, consistent
with Congress’ goals in the New Source Performance Standard
provisions of the CAA. Further, reducing barriers to demand-side
EE in low-income communities will help ensure that the benefits
of the final rule are shared broadly across society and that
potential adverse impacts on low-income ratepayers are avoided.
It complements other steps the federal government is taking to
bring clean energy technologies to these communities, as we

778

Several of these programs are discussed in section IX of this
preamble, including, for example, Maryland’s EmPOWER Low Income
Energy Efficiency Program (LIEEP) and New York’s EmPower New
York program.
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discuss in section IX of this preamble.
More broadly, the CEIP responds to the urgency of meeting
the challenge of climate change in two key ways. First, of
course, it fosters reductions before 2022. Second, in targeting
investments in wind, solar and low-income EE, it focuses on the
kinds of measures and technologies that are the essential
foundation of longer-term climate strategies, strategies that
inevitably depend on the further development and widespread
deployment of highly adaptable zero-emitting technologies.
We are not requiring that projects demonstrate to states
that they are “additional” or surplus relative to a business-asusual or state goal-related baseline in order to be eligible. At
the same time, we believe that including an incentive to develop
projects that benefit low-income communities will increase the
likelihood of investments being made that would not have been
made otherwise.
In order to be awarded matching ERCs or allowances by the
EPA for projects that meet the eligibility criteria, a final
state plan must have requirements establishing the appropriate
infrastructure to issue early action ERCs or allowances to
eligible project providers by 2020. The state must require that
the state or its agent will, in accordance with state plan
requirements approved as meeting the ERC issuance and EM&V
requirements included in section VIII.K: (1) evaluate project
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proposals from eligible RE and demand-side EE project providers,
including the EM&V plans that must accompany such proposals; (2)
evaluate monitoring and verification reports submitted by
eligible providers following project implementation, which
contain the quantified and verified MWh of RE generation or
energy savings achieved by the project in 2020 and/or 2021; (3)
issue ERCs or allowances to eligible providers for these MWh
results; (4) ensure that no MWh of renewable generation or
energy savings receives early action or matching ERCs or
allowances more than once.779
The CEIP will provide a number of benefits. First, the
program will provide incentives designed to reduce energy bills
early in the implementation of the guidelines through earlier
and broader application of energy saving technologies, and help
ensure that these benefits are fully shared by low-income
communities. Second, the EPA believes that stimulating or
supporting early investment in RE generation technologies could
accelerate the rate at which the costs of these technologies

779

For a state plan incorporating the use of ERCs or allowances
to be approvable by the EPA, such a plan must use an EPAapproved or EPA-administered tracking system for ERCs or
allowances. The EPA received a number of comments from states
and stakeholders about the value of the EPA’s support in
developing and/or administering tracking systems to support
state administration of rate-based emission trading programs.
The EPA is exploring options for providing such support and is
conducting an initial scoping assessment of tracking system
support needs and functionality.
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fall over the course of the interim performance period. Third,
the CEIP will provide affected EGUs and states with additional
emission reduction resources to help them achieve their state
plan obligations. Finally, the program will improve the
liquidity, in the early years of the program, of the ERC and
allowance markets we expect to emerge for compliance with the
requirements of these guidelines.780
The EPA is establishing this program as an option for
states that wish to drive investments in RE and low-income EE
that will result in actual, early reductions in CO2 emissions
from affected EGUs. States are also authorized to set their own
glide path, or interim step performance rates or goals, so long
as the interim and final performance rates or goals are met, and
could do so in a way that takes into account the availability of
the CEIP to assist affected EGUs in meeting the applicable glide
path and performance rates or goals. While the EPA is not
requiring states to take advantage of this program, its
availability simply enhances these already-existing
implementation and compliance flexibilities while at the same

780

The CEIP is expected to provide states and affected EGUs
additional flexibility in meeting the guidelines, and bears
similarity in both design and purpose to the Compliance
Supplement Pool, which the agency established as a part of the
NOx SIP Call. See 63 FR 57356, 57428-30 (Oct. 27, 1998). Certain
aspects of the Compliance Supplement Pool were challenged in
litigation and upheld by the D.C. Circuit Court of Appeals. See
Michigan v. EPA, 213 F.3d 663, 694 (D.C. Cir. 2000).
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time delivering meaningful benefits, particularly for low-income
communities. The EPA looks forward to an upcoming public
dialogue about the implementation details of the CEIP.
C. State Plan Approaches
1. Overview
Under the final emission guidelines, states may adopt and
submit either of two different types of state plans. The first
would apply all requirements for meeting the emission guidelines
to affected EGUs in the form of federally enforceable emission
standards.781 We refer to this as an “emission standards” state

781

40 CFR 60.21(f) defines “emission standard” as “a legally
enforceable regulation setting forth an allowable rate of
emissions into the atmosphere, establishing an allowance system,
or prescribing equipment specifications for control of air
pollution emissions.” This definition is promulgated and
effective, and we note that it authorizes the use of allowance
systems as a form of emission standard. To resolve any doubt
that allowance systems are an acceptable form of emission
standard in the final rule, we are including regulatory text in
the final subpart UUUU regulations authorizing the use of
allowance systems as a form of emission standard under section
111(d). Section 60.21(f) was originally amended in 2005 to
include recognition of allowance systems as a form of emission
standard in the Clean Air Mercury Rule (CAMR) (70 FR 28606,
28649; May 18, 2005). CAMR was vacated in its entirety in New
Jersey v. EPA, 517 F.3d 574 (D.C. Cir. 2008). However, the
reason for vacatur was wholly unrelated to the question of
whether an allowance system could be a form of emission
standard. In response to the New Jersey decision, the agency
removed CAMR provisions from the Code of Federal Regulations.
The agency chose to retain the language of 60.21(f) and
60.24(b)(1) generally recognizing allowance systems. This
language is broader than CAMR and unrelated to the reasons for
its vacatur. The EPA re-promulgated these provisions in February
of 2012 (77 FR 9304, 9447; Feb. 16, 2012). Even if this were not
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plan type. The second, which we refer to as a “state measures”
plan type, would allow the state mass CO2 emission goals to be
achieved by affected EGUs in part, or entirely, through state
measures782 that apply to affected EGUs, other entities, or some
combination thereof. The state measures plan type also includes
a mandatory contingent backstop of federally enforceable
emission standards for affected EGUs that would apply in the
event the plan does not achieve its anticipated level of
emission performance as specified in the state plan during the
period that the state is relying on state measures. The
inclusion of a backstop of federally enforceable emission
standards in a state measures plan type is legally necessary for
a state plan to meet the terms of 111(d), which specifically
require a state to submit standards of performance.
These two types of state plans and their respective
approaches, either of which could be implemented on a single-

the case, the agency would not concede that simply because
“allowance systems” were not provided for in the framework
regulations of subpart B, they could not be relied upon in
specific emission guidelines, such as these for CO2. The
implementing regulations generally serve a gap-filling role
where there are not more specific provisions laid out in the
relevant emission guidelines. In order to resolve any question
whether allowance systems are authorized under the final rule,
we are including regulatory text in subpart UUUU to make this
authorization explicit.
782 “State measures” refer to measures that the state adopts and
implements as a matter of state law. Such measures are
enforceable only per state law, and are not included in and
codified as part of the federally enforceable state plan.
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state or multi-state basis, allow states to meet the statutory
requirements of CAA section 111(d) while accommodating the wide
range of regulatory requirements and other programs that states
have deployed or will deploy in the electricity sector that
reduce CO2 emissions from affected EGUs. Further, as described in
detail below, both types of plans are responsive to comments we
received from states and other stakeholders. In addition to
providing states the option of developing an emission standards
or state measures type plan, the final rule makes clear that
states that choose an emission standards plan can adopt either a
rate-based or mass-based CO2 emission goal.
Under these two basic plan types, the final emission
guidelines provide states with a number of potential plan
pathways for meeting the emission guidelines. A plan pathway
represents a specific plan design approach used to meet the
emission guidelines. These plan pathways are discussed in
section VIII.C.2 through C.5 below, and further elaborated in
sections VIII.J (for mass-based emission standards) and VIII.K
(for rate-based emission standards).
The final emission guidelines provide four streamlined plan
pathways. These streamlined plan pathways represent
straightforward plan approaches for meeting the emission
guidelines, and avoid the need to meet additional plan

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requirements and include additional elements in a plan
submittal. The streamlined plan pathways include the following:


Establishing federally enforceable, mass-based CO2 emission
standards for affected EGUs, complemented by stateenforceable mass-based CO2 emission standards for new fossil
fuel-fired EGUs.783 This approach could involve an emission
budget trading program that includes affected EGUs as well
as new fossil fuel-fired EGUs. This approach facilitates
interstate emission trading, through either a single-state
“ready-for-interstate-trading” plan approach or through a
multi-state plan. Under a “ready-for-interstate-trading”
plan, interstate emission trading may occur without the
need for a multi-state plan.784



Establishing federally enforceable, mass-based CO2 emission
standards for affected EGUs.785 This approach facilitates
interstate emission trading, through either a single-state

783

New source CO2 emission complements are discussed in section
VIII.J.2.b, which also provides EPA-derived new source CO2
emission complements for states.
784 Mass-based trading-ready plans are addressed in section
VIII.J.3. Multi-state plans, where a group of states are meeting
a joint CO2 goal for affected EGUs, are addressed in section
VIII.C.5.
785 This plan approach would meet a state mass-based CO goal for
2
affected EGUs, or a joint multi-state mass-based CO2 goal for
affected EGUs. These plan approaches are discussed in sections
VIII.J.2 and VIII.C.5, respectively.
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“ready-for-interstate-trading” plan approach or through a
multi-state plan. In a separate concurrent action, the EPA
is proposing a model rule for states that could be used in
a plan implementing this approach.786


Establishing federally enforceable, subcategory-specific
rate-based CO2 emission standards for affected EGUs,
consistent with the CO2 emission performance rates in the
emission guidelines. This approach provides for interstate
emission trading, through either a single-state “ready-forinterstate-trading” plan approach or through a multi-state
plan.787 In a separate concurrent action, the EPA is
proposing a model rule for states that could be used in a
plan implementing this approach.



Establishing federally enforceable rate-based CO2 emission
standards at a single level that applies for all affected
EGUs, consistent with the state rate-based CO2 goal for
affected EGUs in the emission guidelines.788 This approach
provides for interstate emission trading, through a multi-

786

Submission of a state plan based on the EPA’s finalized model
rule for a mass-based emission trading program could be
considered presumptively approvable. The EPA would evaluate the
approvability of such submission through an independent notice
and comment rulemaking.
787 Rate-based trading-ready plans are addressed in section
VIII.K.4.
788 This plan approach is addressed in section VIII.C.2.a.
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state plan that meets a single weighted average multi-state
rate-based CO2 goal.789
The final emission guidelines also provide for a range of
additional custom plan approaches that a state may pursue, if it
chooses, to address specific circumstances or policy objectives
in a state. The custom plan pathways, while viable options for
meeting the emission guidelines, come with additional plan
requirements and plan submittal elements. These additional plan
requirements and plan submittal elements are necessary to ensure
that the emission guidelines are met and that the necessary
level of CO2 emission performance is achieved by affected EGUs.
Based on this overall approach, the final emission
guidelines provide for a range of state options – both easily
implementable approaches that can be used to meet the emission
guidelines, and more customizable approaches that can be used,
if a state chooses, to address special circumstances or state
policy objectives.
2. “Emission standards” state plan type
The emission standards type of state plan imposes
requirements solely on affected EGUs in the form of federally
enforceable emission standards. This type of state plan, as
described below, may consist of rate-based emission standards

789

This multi-state plan approach is addressed in section
VIII.C.5.
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for affected EGUs or mass-based emission standards for affected
EGUs.
The state plan submittal for an emission standards type
plan must demonstrate that these federally enforceable emission
standards for affected EGUs will achieve the CO2 emission
performance rates or the applicable state rate-based or massbased CO2 emission goal for affected EGUs.
Both rate-based and mass-based emission standards included
in a state plan must be quantifiable, verifiable, enforceable,
non-duplicative and permanent. These requirements are described
in more detail at section VIII.D.2.
Rate-based and mass-based emission standards may
incorporate the use of emission trading, as described below. The
EPA anticipates the use of emission trading in state plans,
given the advantages of this approach and comments suggesting a
high degree of interest on the part of states, utilities, and
independent power producers in the inclusion of emission trading
in state plans.790
The EPA notes it is proposing model rules for both massbased and rate-based emission trading programs. States could
adopt and submit the finalized model rules for either emission
trading program to meet the requirements of CAA section 111(d)

790

The legal basis for authorizing trading in emission standards
is discussed in section VIII.C.6.
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and these emission guidelines. The EPA will evaluate the
approvability of such submission, as with any state plan
submission, through independent notice-and-comment rulemaking.
The EPA notes that state plan submittals that adopt the
finalized model rule may be administratively and technically
more straightforward for the EPA in evaluating approvability, as
the EPA will have determined that the model rule meets the
applicable requirements of the emission guidelines through the
process of finalization of such rule.
a. Rate-based approach. The first type of “emission standards”
plan approach a state may choose is one that uses rate-based
emission standards. Under this plan approach, the plan would
include federally enforceable emission standards for affected
EGUs, in the form of lb CO2/MWh emission standards.
A rate-based “emission standards” plan may be designed to
either meet the CO2 emission performance rates for affected EGUs
or achieve the state’s rate-based CO2 emission goal for affected
EGUs. A plan could be designed such that compliance by affected
EGUs would assure achievement of either the CO2 emission
performance rates for affected EGUs or the state rate-based CO2
emission goal. To meet the CO2 emission performance rates for
affected EGUs, a plan would establish separate rate-based
emission standards for affected fossil fuel-fired electric
utility steam generating units and stationary combustion
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turbines (in lb CO2/MWh) that are equal to or lower than the CO2
emission performance rates in the emission guidelines. To meet a
state rate-based CO2 goal, a plan would establish a uniform ratebased emission standard (in lb CO2/MWh) that applies to all
affected EGUs in the state. This uniform emission rate would be
equal to or lower than the applicable state rate-based CO2 goal
specified in the final emission guidelines.
Under these two approaches, compliance by affected EGUs
with the rate-based emission standards in a plan would ensure
that affected EGUs meet the CO2 emission performance rates in the
emission guidelines or the state rate-based CO2 goal for affected
EGUs. No further demonstration would be necessary by the state
to demonstrate that its plan would achieve the CO2 emission
performance rates or the state’s rate-based CO2 goal.
Alternatively, if a state chooses, it could apply ratebased emission standards to individual affected EGUs, or to
categories of affected EGUs, at a lb CO2/MWh rate that differs
from the CO2 emission performance rates or the state’s rate-based
CO2 goal. In this case, compliance by affected EGUs with their
emission standards would not necessarily ensure that the
collective, weighted average CO2 emission rate for these affected
EGUs meets the CO2 emission performance rates or the state’s

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rate-based CO2 goal.791
Under this type of approach, therefore, the state would be
required to include a demonstration,792 in the state plan
submittal, that its plan would achieve the CO2 emission
performance rates or applicable state rate-based CO2 goal. This
demonstration would include a projection of the collective,
weighted average CO2 emission rate the fleet of affected EGUs
would achieve as a result of compliance with the emission
standards in the plan. Once the plan is implemented, if the CO2
emission performance rates or applicable state rate-based CO2
goal are not achieved, corrective measures would need to be
implemented, as described in section VIII.F.3.
Under a rate-based approach, a state may include in its
plan a number of provisions to facilitate affected EGU
compliance with the emission standards. First, a state may
encourage (or require) EGUs to undertake actions to reduce CO2

791

The weighted average CO2 emission rate that will be achieved
by the fleet of affected EGUs in a state that applies different
rate-based emission standards to individual affected EGUs or
groups of affected EGUs will depend upon the mix of electric
generation from affected EGUs subject to different emission
standards. For example, if a state applies higher emission
standards for affected steam generating units and lower emission
standards for affected NGCC units, the greater the projected
amount of electric generation from steam generating units, the
higher the projected weighted average emission rate that will be
achieved for all affected EGUs.
792 A demonstration of how a plan will achieve a state’s ratebased or mass-based CO2 emission goal is one of the required plan
components, as described in section VIII.D.2.
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emissions at the affected EGU level, such as heat rate
improvements or fuel switching. These measures are discussed in
section VIII.I. Second, a state may implement a market-based
emission trading program, which enables EGUs to generate and
procure ERCs, a tradable compliance unit representing one MWh of
electric generation (or reduced electricity use) with zero
associated CO2 emissions. Considerations and requirements for
rate-based trading programs are discussed in section VIII.K.
ERCs would be issued by the administering state regulatory
body. The state may issue ERCs to affected EGUs that emit below
a specified CO2 emission rate, as well as for measures that
provide substitute generation for affected EGUs or avoid the
need for generation from affected EGUs. These ERCs may then be
used to adjust the reported CO2 emission rate of an affected EGU
when demonstrating compliance with a rate-based emission
standard. For each submitted ERC, one MWh is added to the
denominator of the reported CO2 emission rate, resulting in a
lower adjusted CO2 emission rate.
Eligible measures that may generate ERCs, as well as the
accounting method for adjusting a CO2 emission rate, are
discussed in section VIII.K.1. Requirements for rate-based
emission trading approaches are discussed in section VIII.K.2.
Quantification and verification requirements for measures
eligible to generate ERCs are discussed in section VIII.K.3.
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(1) Rate-based emission standards based on operational or other
standards. As discussed in further detail in section
VIII.D.2.d.3, regarding the legal considerations and statutory
language of CAA section 111(h), the EPA is finalizing that
design, equipment, work practice, and operational standards
cannot be considered to be “standards of performance” for this
final rule. However, a state may elect to use emission standards
for affected EGUs that result in a reduced CO2 lb/MWh emission
rate for affected EGUs because of operational or other
standards. The state would include in its state plan an emission
standard that is the rate standard that results from the
applicable operational or other standard. For example, a state
might choose to recognize that an individual affected EGU has
plans to retire, and those plans could be codified in the state
plan by adopting an emission standard of 0 CO2 lb/MWh as of a
certain date. The state would thus include in the state plan an
emission standard of 0 CO2 lb/MWh for that affected EGU that
applies after a specified date.
An approvable plan could apply such emission standards to a
subset of affected EGUs or all affected EGUs. As with any ratebased plan, the state would need to demonstrate that the plan
would achieve the required level of emission performance for
affected EGUs, in CO2 lb/MWh. A plan could also apply such
emission standards to a subset of affected EGUs in the state
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while applying other rate-based emission standards to the
remainder of affected EGUs in the state. For example, a plan
might include an emission standard of 0 CO2 lb/MWh reflecting a
retirement mandate for one or more affected EGUs in a state and
apply a rate-based emission standard equal to the CO2 emission
performance rates or a state’s rate-based CO2 emission goal to
the remainder of affected EGUs.
As with all emission standards, emission standards based on
design, equipment, work practice, and operational standards must
be quantifiable, verifiable, enforceable, non-duplicative and
permanent. These requirements are described in more detail at
section VIII.D.2.
(2) Additional considerations for rate-based approach.
Additional considerations and requirements for rate-based
emission standards state plans are addressed in section VIII.K.
This includes the basic accounting method for adjusting the
reported CO2 emission rate of an affected EGU, as well as
requirements for the use of measures to adjust a CO2 emission
rate, both of which are discussed in sections VIII.K.1 through
3. Such requirements include eligibility, accounting, and
quantification and verification requirements (EM&V) for the use
of CO2 emission reduction measures that provide substitute
generation for affected EGUs or avoid the need for generation
from affected EGUs in rate-based state plans. Section VIII.K.4
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addresses multi-state coordination among rate-based emission
trading programs.
b. Mass-based approach. The second “emission standards” approach
a state may elect to use is mass-based emission standards
applied to affected EGUs. Under this approach, the plan would
include federally enforceable emission standards for mass CO2
emissions from affected EGUs. The plan would be designed to
achieve the mass-based CO2 goal for a state’s affected EGUs (see
section VII) or a level of CO2 emissions equal to or less than
the mass-based CO2 goal plus the new source complement CO2
emissions (see section VIII.J.2.b, Table 14).793
Under a mass-based approach, a state could require that
individual affected EGUs meet a specified mass emission
standard. Alternatively, a state could choose to implement a
market-based emission budget trading program. The EPA envisions
that the latter option is most likely to be exercised by states
seeking to implement a mass-based emission standard approach, as
it would maximize compliance flexibility for affected EGUs and
enable the state to meet its mass goal in the most economically

793

For example, a state plan designed to meet a state mass-based
CO2 goal for affected EGUs plus a new source complement could
include a mass-based emission budget trading program that
applies to both affected EGUs, as well as new fossil fuel-fired
EGUs. The program requirements for affected EGUs would be
federally enforceable, while the program requirements for other
fossil fuel-fired EGUs would be state-enforceable. This approach
is described further in section VIII.J.2.
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efficient manner possible.
(1) Mass-based emission standard applied to individual
affected EGUs.
One pathway a state could take to achieve its mass-based CO2
goal would be to apply mass-based emission standards to
individual affected EGUs, in the form of a limit on total
allowable CO2 emissions. These emission standards would be
designed such that total allowable CO2 emissions from all
affected EGUs in a state are equal to or less than the state’s
mass-based CO2 goal, or a state’s mass-based CO2 goal plus the
new source complement CO2 emissions specified in section
VIII.J.2.b, Table 14. The individual affected EGUs would be
required to emit at or below their mass-based standard to
demonstrate compliance. Under this approach, individual affected
EGUs would be required to undertake source-specific measures to
assure their CO2 emissions do not exceed their assigned emission
standard. Affected EGU compliance with the emission standards
prescribed under this type of mass-based approach would ensure
that the affected EGUs in a state achieve the state’s mass-based
CO2 goal, or mass-based CO2 goal plus new source complement.
(2) Mass-based emission standard with a market-based
emission budget trading program.
A second pathway a state could take to achieve its massbased CO2 goal would be to implement a market-based emission
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budget trading program. This type of program provides maximum
compliance flexibility to affected EGUs, and as a result, may be
attractive to states that choose to implement a mass-based
approach in their state plan.
An emission budget trading program establishes a combined
emission standard for a group of emission sources in the form of
an emission budget. Emission allowances are issued in an amount
up to the established emission budget.794 Allowances may be
distributed to affected emission sources (as well as to other
parties) through a number of different methods, including direct
allocation to affected sources or auction. These allowances can
be traded among affected sources and other parties. The emission
standard applied to individual emission sources is a requirement
to surrender emission allowances equal to reported emissions,
with each allowance representing one ton of CO2.
The EPA views an emission budget trading program as a
highly efficient, market-based approach for reducing CO2
emissions from affected EGUs. Such programs include a limit on
mass CO2 emissions while providing both short-term and long-term
price signals that encourage the owners or operators of affected
EGUs, as well as other entities, to determine the most efficient

794

An emission allowance represents a limited authorization to
emit, typically denominated in one short ton or metric ton of
emissions.
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means of achieving the mass emission standard. Notably, such an
approach incentivizes actions taken at affected EGUs to reduce
CO2 emissions, as well as the use of strategies such as RE and
demand-side EE as complementary measures that reduce CO2
emissions. However, unlike under a rate-based approach, for this
latter set of measures there is no need to address and describe
these state measures in a state plan submission or quantify and
verify the RE and EE MWh of generation and savings. As a result,
a mass-based emission budget trading program incentivizes and
recognizes a wide range of emission reduction actions while
being relatively simple for a state to implement and administer.
Furthermore, the EPA notes that such an approach still allows
for a state to address electricity load growth, as load growth
can be met through low- and zero-emitting generating resources,
as well as avoided through demand-side EE and demand-side
management (DSM) measures.
Additional considerations and requirements for mass-based
emission standards state plans are addressed in section VIII.J.
This includes use of emission budget trading programs in a state
plan, including provisions required for such programs (section
VIII.J.2.a) and the design of such programs in the context of a
state plan. Section VIII.J addresses program design approaches
that ensure achievement of a state mass-based CO2 emission goal
(section VIII.J.2.c), as well as how states can use emission
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budget trading programs with broader source coverage and other
flexibility features in a state plan, such as the programs
currently implemented by California and the RGGI participating
states (section VIII.J.2.d). Section VIII.J.2.e addresses other
considerations for the design of emission budget trading
programs that states may want to consider, such as allowance
allocation approaches. Section VIII.J.3 addresses multi-state
coordination among emission budget trading programs used in
states that retain their individual state mass-based CO2 goals.
(3) Mass-based emission standards based on operational or
other standards.
As discussed in section VIII.C.2.a.(1) above, a state may
elect to use mass-based emission standards for affected EGUs
that result in a reduced total tonnage of CO2 emissions from
affected EGUs because of operational or other standards. The
state would include in its state plan an emission standard that
is the mass standard that results from the applicable
operational or other standard. For example, a state might choose
to recognize that an individual affected EGU has plans to
retire, and those plans could be codified in the state plan by
adopting an emission standard of 0 total tons of CO2, as of a
certain date. The state would thus include in the state plan an
emission standard of 0 total tons of CO2 for that affected EGU
that applies after a specified date. Under a mass-based
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approach, the state could also include an emission standard
(e.g., a mass limit) that reflects the result of a limit on an
affected EGU’s total operating hours over a specified period.
Such an emission standard would be based on an affected EGU’s
potential to emit given a specified number of operating hours.
An approvable plan could apply such emission standards to a
subset of affected EGUs or all affected EGUs. As with any massbased plan, the state would need to demonstrate that the plan
would achieve the required level of emission performance for
affected EGUs, in total tons of CO2. A plan could also apply such
emission standards to a subset of affected EGUs in the state
while applying other emission standards to the remainder of
affected EGUs in the state. For example, a plan might include an
emission standard of 0 tons of CO2 for one or more affected EGUs,
reflecting a retirement mandate for one or more affected EGUs in
a state, and include the remainder of affected EGUs in an
emission budget trading program.
3. “State measures” state plan type
The second type of state plan is what we refer to as a
“state measures” plan. As previously discussed, the EPA believes
states will be able to submit state plans under the emission
standards plan type, and its respective approaches, and achieve
the CO2 emission performance rates or state rate-based or massbased CO2 goals by imposing federally enforceable requirements on
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affected EGUs. Upon further consideration of the requirements of
CAA section 111(d), in consideration of the comments we received
on the proposed portfolio approach and the state commitments
approach, and in order to provide flexibility and choice to
states that may wish to adopt a plan that does not place all the
obligations on affected EGUs, the EPA is finalizing the state
measures plan type in addition to the emission standards plan
type. The EPA believes the state measures plan type will provide
states with additional latitude in accommodating existing or
planned programs that involve measures implemented by the state,
or by entities other than affected EGUs, that result in avoided
generation and CO2 emission reductions at affected EGUs. This
includes market-based emission budget trading programs that
apply, in part, to affected EGUs, such as the programs
implemented by California and the RGGI participating states in
the Northeast and Mid-Atlantic, as well as RE and demand-side EE
requirements and programs, such as renewable portfolio standards
(RPS), EERS, and utility- and state-administered incentive
programs for the deployment of RE and demand-side EE
technologies and practices. The EPA believes this second state
plan type will afford states with appropriate flexibility while
meeting the statutory requirements of CAA section 111(d).
Measures implemented under the state measures plan type
could include RE and demand-side EE requirements and deployment
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programs. This type of plan could align with existing state
resource planning in the electricity sector, including RE and
demand-side EE investments by state-regulated electric
utilities. The state measures plan type also can accommodate
emission budget trading programs that address a broader set of
emission sources than just affected EGUs subject to CAA section
111(d), such as the programs currently implemented by California
and the RGGI participating states. The EPA also notes that the
state measures plan type could accommodate imposition by a state
of a fee for CO2 emissions from affected EGUs, an approach
suggested by a number of commenters.
This plan type would allow the state to implement a suite
of state measures that are adopted, implemented, and enforceable
only under state law, and rely upon such measures795 in achieving
the required level of CO2 emission performance from affected
EGUs. The state measures under this plan type could be measures
involving entities other than affected EGUs, or a combination of
such measures with emission standards for affected EGUs, so long
as the state demonstrates that such measures will result in
achievement of a state’s mass-based CO2 goal (or mass-based CO2
goal plus new source complement), as discussed below. The EPA

795

“State measures” refer to measures that the state adopts and
implements as a matter of state law. Such measures are
enforceable only per applicable state law, and are not included
in the federally enforceable state plan.
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notes that under this plan type, a state could also choose to
include any emission standards for affected EGUs, which are
required to be included in the plan as federally enforceable
measures, to be implemented alongside or in conjunction with
state measures the state would implement and enforce.
For a state measures plan to be approvable, it must include
a demonstration of how the measures, whether state measures
alone or state measures in conjunction with any federally
enforceable emission standards for affected EGUs, will achieve
the state mass-based CO2 emission goal for affected EGUs (or
mass-based CO2 goal plus new source complement). However, because
the state measures would not be federally enforceable emission
standards, the plan must also include a backstop of federally
enforceable emission standards for all affected EGUs, in order
for the state measures plan type to satisfy the requirement of
CAA section 111(d) that a state establish standards of
performance for affected EGUs. This backstop would impose
federally enforceable emission standards on the state’s affected
EGUs in the case that the state measures fail to achieve the
state mass-based CO2 goal. The backstop, discussed further below,
would assure that the state CO2 emission goal or CO2 emission
performance rates are fully achieved by affected EGUs in the
form of federally enforceable emission standards.
a. Requirements for state measures under a state measures type
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plan. Under the state measures plan type, state measures must be
satisfactorily described in the supporting material for a state
plan submittal. The supporting material would need to
demonstrate that the state measures meet the same integrity
elements that would apply to federally enforceable emission
standards. Specifically, the state plan submittal must
demonstrate that the state measures are quantifiable,
verifiable, enforceable, non-duplicative and permanent. These
requirements are described in more detail at section VIII.D.2.
Under the state measures plan, if a state chooses to impose
emission standards on affected EGUs, such emission standards
must be included in the federally enforceable plan as they would
be under an emission standards plan.
The EPA would assess the overall approvability of a state
measures plan based, in part, on the state’s satisfactory
demonstration that the state measures, in conjunction with any
federally enforceable emission standards on the affected EGUs
that might be included in the plan, would result in the state
plan’s achievement of the mass-based CO2 goal for the state’s
affected EGUs (or mass-based CO2 goal plus new source
complement). This includes a demonstration of adequate legal
authority and funding to implement the state plan and any
associated measures. The EPA’s determination that such a plan is
satisfactory would be based in part on whether the state
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measures are adequately described in the supporting
documentation and the plan submittal demonstrates that the state
measures are quantifiable, verifiable, enforceable, nonduplicative and permanent as described above. This is necessary
for the EPA to ensure that the results achieved through the plan
are quantifiable and verifiable, and to assess whether the state
measures are anticipated to achieve the state mass-based CO2 goal
for affected EGUs (or mass-based CO2 goal plus new source
complement).
The EPA’s evaluation of the approvability of a state
measures plan would also include an assessment of whether the
backstop consisting of federally enforceable emission standards
for the state’s affected EGUs would ensure that the required
emission performance level is fully achieved by affected EGUs,
in the case that the state measures fail to achieve the state
mass-based CO2 goal (or mass-based CO2 goal plus new source
complement), or the state does not meet programmatic milestones
during the interim period. The trigger for the backstop must
also satisfactorily provide for the implementation of the
backstop emission standards.
b. Considerations for the backstop included in a state measures
type plan. As further discussed in section VIII.C.6.c, the EPA
believes a backstop, composed of federally enforceable emission
standards for the affected EGUs that are sufficient to achieve
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the state CO2 emission goal or the CO2 emission performance rates
in the event that state measures do not result in the required
CO2 emission performance, is necessary for the state measures
plan type to meet the requirements of CAA section 111(d). The
state plan must specify the backstop that would apply federally
enforceable emission standards to the affected EGUs if the state
measures plan does not achieve the anticipated level of CO2
emission performance by affected EGUs, or a state does not meet
programmatic milestones during the interim period. The state
plan must include promulgated regulations (or other
requirements) that fully specify these emission standard
requirements, which must be quantifiable, verifiable,
enforceable, non-duplicative and permanent. These requirements
are described in more detail at section VIII.D.2.
These federally enforceable emission standards must be
designed such that compliance by affected EGUs with the emission
standards would achieve the state’s mass-based interim and final
goals for affected EGUs. The backstop emission standards must
specify CO2 emission performance levels (in mass) that would
apply for the interim plan performance period (including
specifying levels for each of the interim step 1 through step 3

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periods) and the final two-year plan performance periods.796 If a
state chose, these backstop emission standards could be based on
a model rule or federal plan promulgated by the EPA.
The state measures plan must specify the trigger and
conditions under which the backstop federally enforceable
emission standards would apply that is consistent with the
requirements in the emission guidelines. The trigger and
attendant conditions for deployment of the backstop would
address the CAA section 111(d) requirement that states submit a
program that provides for the implementation of standards of
performance. The state measures plan must specify the level of
emission performance that will be achieved by affected EGUs as a
result of implementation of the state measures plan during the
interim and final plan performance periods. This includes the
level of emission performance during the interim plan periods
2022-2024, 2025-2027 and 2028-2029, as well as the performance
level that would be achieved during every subsequent 2-year
final plan performance period (2030-2031, and subsequent 2-year
periods). If actual CO2 emission performance by affected EGUs
fails to meet the level of emission performance specified in the

796

This includes the level of emission performance during the
interim plan periods 2022-2024, 2025-2027 and 2028-2029, as well
as the performance level that would be achieved during every
subsequent 2-year final plan performance period (2030-2031, and
subsequent 2-year periods).
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plan over the 8-year interim performance period (2022-2029) or
for any 2-year final goal performance period, the state measures
plan must require that the backstop federally enforceable
emission standards would take effect and be applied to affected
EGUs. Similarly, the plan must require that the backstop
standards take effect if actual emission performance is
deficient by 10 percent or more relative to the performance
levels that the state has chosen to specify in the plan for the
interim step 1 period (2022-2024) or the interim step 2 period
(2025-2027). The backstop standards are also triggered if, at
the time of the state’s annual reports to the EPA during the
interim period, the state has not met the programmatic
milestones for the reporting period. The state measures plan
must provide that, in the event the backstop is triggered, such
emission standards would be effective within 18 months of the
deadline for the state’s submission of its periodic report to
the EPA on state plan implementation and performance, as
described in section VIII.D.2.c.797,798

797

States may choose to establish an effective date for backstop
emission standards that is sooner than 18 months.
798 In the event a state does not implement the backstop as
required if actual emission performance triggers the backstop,
the EPA will take appropriate action. The EPA notes that as part
of the proposed federal plan rulemaking, it is proposing a
regulatory mechanism to call plans in the instances of
substantial inadequacy to meet applicable requirements or
failure to implement an approved plan.
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The backstop emission standards must make up for the
shortfall in CO2 emission performance. The shortfall must be made
up as expeditiously as practicable. The state may address the
requirement to make up for the shortfall in CO2 emission
performance by submitting, as part of the final plan, backstop
emission standards that assure affected EGUs would achieve the
state’s interim and final CO2 emission goals or the CO2 emission
performance rates for affected EGUs, and then later submit
appropriate revisions to the backstop emission standards
adjusting for the shortfall through the state plan revision
process. The state may alternately effectuate this by
submitting, along with the backstop emission standards,
provisions to adjust the emission standards to account for any
prior emission performance shortfall, such that no modification
of the emission standards is necessary in order to address the
emission performance shortfall.
For example, assume a state measures plan identified a
mass-based CO2 standard for affected EGUs of 100 million tons
during the interim step 1 performance period (2022-2024), 90
million tons during the interim step 2 performance period (20252027), and 80 million tons during the interim step 3 performance
period (2028-2029). Over the entire interim plan performance
period (2022-2029), the interim mass-based CO2 goal is cumulative
emissions of 270 million tons. Assume that CO2 emissions from
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affected EGUs in the interim step 1 period were actually 115
million tons, triggering implementation of the backstop. In this
instance, the mass-based standard for affected EGUs implemented
as part of the backstop during subsequent plan performance
periods would need to ensure that cumulative CO2 emissions during
the 2022-2029 interim period do not exceed 270 million tons.
This could be achieved, for example, by implementing a mass
standard of 75 million tons during the interim step 2
performance period (rather than the 90 million tons originally
specified in the plan), or some other combination during the
remaining interim step 2 and 3 performance periods.799 The
emission standards included as the backstop in the plan must
specify calculations for how such adjustments will be made.
4. Summary of comments on state plan approaches
The EPA received a wide range of comments on the basic plan
approaches in the proposal. Numerous commenters supported
providing states with the option of implementing a rate-based or
mass-based approach. Some commenters expressed concern that a
rate-based approach would not reduce overall emissions, and
could actually lead to increased emissions. The EPA does not

799

In this example, states could elect to implement different
combinations of mass-based standards during the remaining
interim step 2 and 3 plan performance periods, provided that
cumulative CO2 emissions during the full interim plan performance
period (2022-2029) do not exceed 270 million tons.
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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agree with this latter comment, because both approaches would
result in adequate and appropriate constraints on CO2 emissions.
As documented in the RIA, a rate-based approach would result in
a substantial reduction in CO2 emissions relative to emissions
under a business-as-usual case.
Numerous commenters supported allowing states to implement
a rate-based emission standard approach applied to affected
EGUs. There was also broad support in comments for allowing
states to pursue a mass-based approach in the form of mass
emission standards on affected EGUs. The EPA is finalizing both
of these approaches.
The EPA received a mix of comments for and against the
proposed portfolio approach, in which state requirements and
other measures that apply to non-EGU entities would be part of a
state’s federally enforceable state plan. Multiple commenters
supported the portfolio approach because it would align with
existing state and utility planning processes in the electric
power sector, and would maximize state discretion and
flexibility in developing plans. Commenters mentioned the range
of state requirements and utility programs overseen by states
that could be used under a portfolio approach and result in
achieving the CO2 emission goal for affected EGUs, including
state RPS, EERS and utility-administered EE programs. Commenters
noted that the portfolio approach would provide states maximum
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flexibility to take local circumstances, economics and state
policy into account when developing their plans.
By contrast, multiple commenters opposed the portfolio
approach. Some commenters questioned how a portfolio approach
would work, and whether the EPA had provided sufficient detail
explaining how such a plan approach could be implemented by a
state. In particular, multiple commenters questioned how
different state programs, such as utility-administered EE
programs, could be made federally enforceable in practice under
CAA section 111(d).800 Multiple commenters expressed concern
about making state requirements and utility programs for RE and
demand-side EE enforceable under the CAA. Some of these
commenters supported the state commitments plan approach that
the EPA took comment on in the proposal, which was a variant of
the portfolio approach. Under the state commitment variant,
measures that applied to entities other than affected EGUs would
not be federally enforceable under the CAA, but state
commitments to implement those measures would be federally
enforceable elements of a state plan under the CAA.
After considering these comments, the EPA is not finalizing
the portfolio approach or the state commitment variant. However,
the EPA is finalizing the state measures plan type, as described

800

Legal considerations with the proposed portfolio approach are
explored in section VIII.C.6.d.
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above, which would accommodate state choices and allow states to
rely upon a variety of measures, as was envisioned under the
portfolio approach, in a way that meets the statutory
requirements of CAA section 111(d).
5. Multi-state plans and multi-state coordination
The EPA views the ability of a state to implement an
individual plan or a multi-state plan as a significant
flexibility that allows a state to tailor implementation of its
plan to state policy objectives and circumstances. The EPA sees
particular value in multi-state plans and multi-state
coordination, which allow states to implement a plan in a
coordinated fashion with other states. Such approaches can lead
to more efficient implementation, lower compliance costs for
affected EGUs and lower impacts on electricity ratepayers.
Coordinated approaches also will help states identify and
address any potential electric reliability impacts when
developing plans.
The EPA received broad support in comments for allowing
states to implement multi-state plan approaches, and has made
multiple changes in the final rule to address many suggestions
outlining different approaches states may want to take. These
changes are intended to provide streamlined approaches for
multi-state coordination while maintaining transparency and
assuring that the CO2 emission performance rates or state CO2
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emission goals are achieved.
The EPA is finalizing two approaches that allow states to
coordinate implementation in order to meet the emission
guidelines.801
First, states may meet the requirements of the emission
guidelines and CAA section 111(d) by submitting multi-state
plans that address the affected EGUs in a group of states. The
EPA is finalizing the proposed approach by which multiple states
aggregate their rate or mass CO2 goals and submit a multi-state
plan that will achieve a joint CO2 emission goal for the fleet of
affected EGUs located within those states (or a joint mass-based
CO2 goal plus a joint new source CO2 emission complement).802
Second, the EPA is also finalizing another approach, in
response to comments received on the proposed rule. This
approach enables states to retain their individual state goals
for affected EGUs and submit individual plans, but to coordinate
plan implementation with other states through the interstate

801

The EPA notes that in addition to these approved approaches,
other types of multi-state approaches may be acceptable in an
approvable plan, provided the obligations of each state under
the multi-state plan are clear and the submitted plan(s) meets
applicable emission guideline requirements.
802 The concept of a new source CO
2 emission complement is
addressed in section VIII.J.2.b. Table 14 provides individual
state new source CO2 emission complements. For a multi-state
plan, a joint new source CO2 emission complement would be the sum
of the individual new source CO2 emission complements in Table 14
for the states participating in the multi-state plan.
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transfer of ERCs or emission allowances.803 This approach
facilitates interstate emission trading without requiring states
to submit joint plans.804 The EPA considers these to be
individual state plans, not multi-state plans.
States have the option to implement this second approach in
different ways, as discussed in section VIII.C.5.c. These
different implementation options allow states to tailor their
implementation of linked emission trading programs, based on
state policy preferences, as well as economic and other
considerations. These different options provide varying levels
of state control over emission trading system partners and
require varying levels of coordination in the course of state
plan development.
In response to comments, the EPA is also further clarifying
how multi-state plans with a joint goal for affected EGUs may be
implemented. The EPA is clarifying that states may participate
in more than one multi-state plan, if necessary, for example, to
address affected EGUs in states that are served by more than one
ISO or RTO. The EPA is further clarifying that a subset of
affected EGUs in a state may participate in a multi-state plan.

803

This approach also applies where a state plan is designed to
meet a state mass-based CO2 goal plus a state’s new source CO2
emission complement.
804 States may submit individual plans with such linkages, or if
they choose, provide a joint submittal. Forms of joint
submittals are described at section VIII.E.
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These clarifications are discussed in section VIII.C.5.d.
a. Summary of comments on multi-state plans. Multiple commenters
supported the EPA’s proposed approach that would allow states to
implement a multi-state plan to meet a joint CO2 emission goal.
However, a number of states commented that states should also be
allowed to coordinate without aggregating multiple individual
state goals into a single joint goal. Many states questioned the
incentives that a state would have to aggregate its goal with
other states that have different goals, and also noted the
administrative complexities presented by states seeking to
formally coordinate state plans with one another.
The EPA notes that there are multiple incentives for states
to collaborate by implementing a multi-state plan to meet an
aggregated joint goal, regardless of the specific level of their
individual goals, because states share grid regions and impacts
from plan implementation will be regional in nature. Further,
multiple analyses, including those by ISOs and RTOs, indicate
that regional approaches could achieve state goals at lesser
cost than individual state plan approaches. However, the EPA
also recognizes the value in allowing for collaboration where
states retain individual goals. These approaches could provide
some of the benefits of a joint goal while reducing the
negotiations among states necessary to develop a multi-state
plan with a joint goal. As a result, the EPA has finalized the
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additional approaches described in section VIII.C.5 to provide
for coordination while maintaining individual goals. These
approaches would allow for interstate transfer of ERCs or
emission allowances while retaining individual state goals.
Many commenters suggested that states should be encouraged
to join or form regional market-based programs. Many commenters
touted the economic efficiency benefits of such approaches, and
noted that such programs have features that support electric
reliability.
The EPA agrees with these comments, and notes that it
encouraged such approaches in the proposal. While the EPA is not
requiring states to join and/or form regional market-based
programs, we note that such programs can be helpful for many
reasons, including features that support reliability. Marketbased programs allow greater flexibility for affected EGUs both
in the short-term and long-term. Under a market-based program,
affected EGUs have the ability to obtain sufficient allowances
or credits to cover their emissions in order to comply with
their emission standards. Additionally, we continue to encourage
states to cooperate regionally. Regional cooperation in planning
and reliability assessments is an important tool to meeting
system needs in the most cost-effective, efficient, and reliable
way.
b. Multi-state coordination through a joint emission goal.
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Multiple states may submit a multi-state plan that achieves an
aggregated joint CO2 emission goal for the affected EGUs in the
participating states (or a joint mass-based CO2 goal plus a joint
new source CO2 emission complement).805 The joint emission goal
approach is acceptable for both types of state plans, the
“emission standards” plan type and the “state measures” plan
type. However, the EPA is requiring that a joint goal may apply
only to states implementing the same type of plan, either an
“emission standards” plan or a “state measures” plan.806

805

As a conceptual and legal matter, the relationship between
states coordinating to meet a joint CO2 emission goal under this
rule is similar to the relationship between states coordinating
SIP submissions to attain the NAAQS in an interstate
nonattainment area. In both cases, the states coordinate their
actions in a way that, cumulatively, the measures applicable in
each state will lead to achievement of a common interstate goal
(with the EPA evaluating the sufficiency and success of the
plans on a holistic, interstate basis). Despite the shared goal,
in both cases, the mere fact of coordination has no effect on
each state’s sovereign legal authority. For example, the legally
applicable rules in a given state are adopted by that state
individually, not by a joint entity or other interstate
mechanism. Similarly, the fact that the states coordinate their
rules does not grant them the authority to directly enforce each
other’s rules, or to take direct legal action against a state
that is failing to implement its own rules. Although some states
may jointly submit their coordinated rules to the EPA as a
matter of administrative convenience, the state rules within
such a plan are nothing more than reciprocal laws of the sort
that states routinely enact in voluntary coordination with each
other.
806 This is necessary because if the joint goal is not achieved
during a plan performance period, different remedies would apply
under an emission standards plan and a state measures plan.
Under an emission standards plan, corrective measures would be
triggered. Under a state measures plan, the federally
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Under this approach, a rate-based multi-state plan would
include a weighted average rate-based emission goal, derived by
calculating a weighted average CO2 emission rate based on the
individual rate-based goals for each of the participating states
and 2012 generation from affected EGUs. A mass-based multi-state
plan would include an aggregated mass-based CO2 emission goal for
the participating states, in cumulative tons of CO2, derived by
summing the individual mass-based CO2 emission goals of the
participating states.807
Such plans could include emission standards in the form of
a multi-state rate-based or mass-based emission trading
program.808 Alternatively, states could submit a multi-state plan

enforceable backstop emission standards would be triggered. See
section VIII.F.3.
807 Where a multi-state plan is designed to meet a joint massbased CO2 goal plus a joint new source CO2 emission complement,
the joint new source CO2 emission complement would be the sum of
the individual new source CO2 emission complements in section
VIII.J.2.b, Table 14, for the states participating in the multistate plan.
808 A potential example of this approach is the method by which
the states participating in RGGI have implemented individual CO2
Budget Trading Program regulations in a linked manner using a
shared emission and allowance tracking system. Each state’s
regulations implementing RGGI stand alone on a legal basis, but
provide for the use of CO2 allowances issued in other
participating states for compliance under the state regulations.
These states are not listed by name in state regulations, which
instead refer to participating states that have established a
corresponding CO2 Budget Trading Program regulation. More
information is available at http://www.rggi.org.
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using a state measures approach.809 Both approaches could provide
for implementation of a multi-state emission trading program.
c. Multi-state coordination among states retaining individual
state goals. States that do not wish to pursue a joint CO2
emission goal with other states may pursue a second pathway to
multi-state collaboration. States may submit individual plans
that will meet the CO2 emission performance rates or a state mass
CO2 goal for affected EGUs (or mass-based CO2 goal plus the new
source CO2 emission complement), but include implementation in
coordination with other state plans by providing for the
interstate transfer of ERCs or CO2 allowances, depending on
whether the state is implementing a rate-based or mass-based
emission trading program. This form of coordinated
implementation may occur under both an “emission standards” type
of plan and a “state measures” type of plan, where states are
implementing emission trading programs.810 For rate-based plans,
this type of coordinated approach is limited to state plans with
rate-based emission standards that are equal to the CO2 emission
performance rates in the emission guidelines.

809

Under this approach, a state measure could include, if a
state chose, a multi-state emission trading program that is
enforceable at the state level.
810 ERCs may only be transferred among states implementing ratebased emission limits. Likewise, emission allowances may only be
transferred among states implementing mass-based emission
limits.
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Under this approach, a state plan could indicate that ERCs
or CO2 allowances issued by other states with an EPA-approved
state plan could be used by affected EGUs for compliance with
the state’s rate-based or mass-based emission standard,
respectively. Such plans must indicate how ERCs or emission
allowances will be tracked from issuance through use by affected
EGUs for compliance,811 through either a joint tracking system,
interoperable tracking systems, or an EPA-administered tracking
system.812
The EPA would assess the approvability of each state’s plan
individually — the use of ERCs or emission allowances issued in
another state would not impact the approvability of the
components of the individual state plan.813 However, the EPA
would also assess linkages with other state plans, to ensure

811

Referred to in different programs as “surrender,”
“retirement,” or “cancellation.”
812 The EPA received a number of comments from states and
stakeholders about the value of the EPA’s support in developing
and/or administering tracking systems to support state
administration of rate-based emission trading programs. The EPA
is exploring options for providing such support and is
conducting an initial scoping assessment of tracking system
support needs and functionality.
813 Note that for mass-based plans, the approvability
requirements for a state plan would differ, depending on the
structure of the emission budget trading program included in the
state plan. For example, approvability requirements and basic
accounting with regard to whether a plan achieves a state’s mass
CO2 goal would differ for emission budget trading programs that
cover only affected EGUs subject to CAA section 111(d) vs.
programs that apply to a broader set of emission sources. These
considerations are addressed in section VIII.J.
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that the joint tracking system or interoperable tracking systems
used to implement rate-based or mass-based emission trading
programs across states are properly designed with necessary
components, systems, and procedures to maintain the integrity of
the linked emission trading programs.
Coordinated state plan implementation among states that
retain individual state mass-based CO2 goals (or that implement
individual state plans with rate-based emission standards
consistent with the CO2 emission performance rates in the
emission guidelines) is discussed in more detail in sections
VIII.J and K. Section VIII.J discusses coordinated
implementation among states implementing individual mass-based
emission budget trading programs and section VIII.K discusses
coordinated implementation among states implementing individual
rate-based emission trading programs.
d. Multi-state plans that address a subset of EGUs in a state.
The EPA is clarifying in the final emission guidelines that a
state may participate in more than one multi-state plan. Under
this approach, the state would identify in its submittal the
subset of affected EGUs in the state that are subject to the
multi-state plan or plans. This could involve a subset of
affected EGUs that are subject to a multi-state plan, with the
remainder of affected EGUs subject to a state’s individual plan.
Alternatively, different affected EGUs in a state may be subject
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to different multi-state plans. In all cases, the state would
need to identify in each specific plan which affected EGUs are
subject to such plan, with each affected EGU subject to only one
multi-state plan or subject only to the state’s individual plan
(if relevant).
These scenarios may occur where a state chooses to cover
affected EGUs in different ISOs or RTOs in different multi-state
plans. This will provide states with flexibility to participate
in multi-state plans that address the affected EGUs in a
respective grid region, in the case where state borders cross
grid regions.
These scenarios may also occur where a state is served by
multiple vertically integrated electric utilities with service
territories that cross state lines. This will provide states
with flexibility to participate in multi-state plans that
address the affected EGUs owned and operated by a utility with a
multi-state service territory.
6. Legal bases and considerations for state plan types and
approaches
a. Legal basis for emission standards approach. The emission
standards approach is consistent with the requirements of CAA
section 111(d). If a state simply adopts the CO2 emission
performance rates, then the corresponding rate-based emission
standards in the state plan establish standards of performance
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for affected EGUs as required under section 111(d)(1)(A).
Similarly, if a state chooses to achieve the rate-based CO2
emission goal through rate-based emission standards applicable
only to affected EGUs, or to achieve the mass-based CO2 emission
goal through mass-based emission standards applicable only to
affected EGUs (or, alternatively, to achieve the mass CO2 goal
and a new source CO2 emission complement through federally
enforceable mass-based emission standards in conjunction with
state enforceable emission standards on new sources), then the
set of rate-based emission standards or the set of mass-based
emission standards in the state plan establishes standards of
performance for affected EGUs as required under section
111(d)(1)(A). The EPA has the authority to approve emission
standards for affected EGUs as part of a state plan under all
three cases (as long as such emission standards meet the
requirements of CAA section 111(d) and the final emission
guidelines), thereby making such emission standards federally
enforceable upon approval by the EPA. In all three cases, the
emission standards must be quantifiable, verifiable,
enforceable, non-duplicative and permanent; this ensures that
the plan provides for implementation and enforcement of the
standards of performance (i.e. the emission standards) as
required by section 111(d)(1)(B). Finally, as described in
section VIII.B.7.b below, standards of performance may include
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emission trading. Thus, the credit and allowance trading that is
allowed under the emission standards approach is consistent with
the statutory requirement that the plan establish standards of
performance.
We note that the standard the statute provides for the
EPA’s review of a state plan is whether it is “satisfactory.” We
interpret a “satisfactory” plan as one that meets all applicable
requirements of the CAA, including applicable requirements of
these guidelines. Some commenters suggested that “satisfactory”
should be taken to mean something less (such as mostly or
substantially meeting requirements) but the structure of 111(d)
shows otherwise. When a state plan is unsatisfactory, section
111(d)(2) gives the EPA the “same” authority to promulgate a
federal plan as the EPA has under section 110(c). Under section
110(c), the EPA has authority to promulgate a federal
implementation plan if a SIP does not comply with all CAA
requirements (see sections 110(k)(3) and 110(l)).
For example, if an emission standards type plan includes an
emission standard that is unenforceable due to defective rule
language, then the plan is not satisfactory because it does not
comply with the guideline requirement that emission standards
must be enforceable. On the other hand, if a state plan complies
with all applicable requirements of the CAA (including these
guidelines), then the EPA must approve it as satisfactory. This
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is true even if the emission standards in the state plan are
more stringent than the minimum requirements of these
guidelines, or the state plan achieves more emission reductions
than required by these guidelines. This follows from section 116
of the CAA as interpreted by the U.S. Supreme Court in Union
Elec. Co. v. EPA, 427 U.S. 246, 263-64 (1976).
b. Legal basis for emissions trading in state plans. There are
three legal considerations with respect to emissions trading in
state plans. First, we explain how the definition of “standard
of performance” in section 111(a)(1) allows section 111(d) plans
to include standards of performance that authorize emissions
trading. Second, we explain how the EPA interprets the phrase
“provides for implementation and enforcement of [the] standards
of performance” in the context of a rate-based ERC trading
program. Third, we give a similar explanation of the EPA’s
interpretation of the same phrase in the context of a mass-based
allowance trading program.
(1). In the proposal, the EPA proposed that CAA section 111(d)
plans may include standards of performance that authorize
emissions averaging and trading. 79 FR 34830, 34927/1 (June 18,
2014). We are finalizing that states may include the use of
emission trading in approvable state plans.
For purposes of this legal discussion, in the case of an
emission limitation expressed as an emission rate, trading takes
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the form of buying or selling ERCs that an affected EGU may
generate if its actual emission rate is lower than its allowed
emission rate or that an eligible resource may generate. In the
case of an emission limitation expressed as a mass-based limit,
trading takes the form of buying or selling allowances.
To reiterate for convenience, the definition of “standard
of performance” under CAA section 111(a)(1) is:
The term ‘standard of performance’ means a standard
for emissions of air pollutants which reflects the
degree of emission limitation achievable through the
application of the best system of emission reduction
which (taking into account the cost of achieving such
reduction and any nonair quality health and
environmental impact and energy requirements) the
Administrator determines has been adequately
demonstrated.
Both an emission rate that may be met through tradable
ERCs, and a mass limit requirement that emissions not exceed the
number of tradable allowances surrendered by an affected source,
qualify as a “standard for emissions.” The term “standard” is
not defined, but its everyday meaning is a rule or

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requirement,814 which, under the only (or at least a permissible)
reading of the provision, would include an emission rate that
may be met through tradable ERCs and a requirement to retire
tradable allowances.
Treating a tradable emission rate or mass limit requirement
as a “standard of performance” is consistent with past EPA
practice. In the Clean Air Mercury Rule, promulgated in 2005,
the EPA established tradable mass limits as the emission
guidelines for certain air pollutants from fossil fuel-fired
EGUs, and explained that a tradable mass limit qualifies as a
“standard for emissions.”815 In addition, in the 1995 Municipal
Solid Waste (MSW) Combustor rule the EPA authorized emission
trading by sources.816
It should be noted that CAA section 302(l) includes another
definition of “standard of performance,” which is “a requirement
of continuous emission reduction, including any requirement
relating to the operation or maintenance of a source to assure
continuous emission reduction.” As described above, section
111(d) contains its own, more specific definition of “standard

814

E.g., “Something that is set up and established by authority
as a rule for the measure of quantity, weight, value, or
quality.” Webster’s Third New International Dictionary 2223
(1967); see also The American College Dictionary (C.L. Barnhart,
ed. 1970) (“an authoritative model or measure”).
815 70 FR 28606, 28616-17 (May 18, 2005).
816 60 FR 65387, 6540/2 (Dec. 19, 1995).
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of performance,” which a tradable emission rate or mass limit
satisfies. Whether or not section 302(l) applies in light of
section 111(d)’s more specific definition, a tradable emission
rate or mass limit also meets section 302(l)’s requirements. A
tradable emission rate applies continuously in that the source
is under a continuous obligation to meet its emission rate, and
that is so regardless of the averaging time, e.g., a rate that
must be met on an annual basis. Similarly, a mass limit
requirement implemented through the use of allowances applies
continuously in that the source is continuously under an
obligation to assure that at the appropriate time, its emissions
will not exceed the allowances it will surrender. In this
respect, a tradable emission rate or mass limit requirement is
similar to a non-tradable emission rate that must be met over a
specified period, such as one year. In all of these cases, a
source is continuously subject to its requirement although it
may be able to emit at different levels at different points in
time. It should also be noted that a tradable emission rate or
mass limit requirement is appropriate for CO2 emissions, the air
pollutant covered by this rule, because the environmental
effects of CO2 emissions are not dependent on the location of the
emissions.
(2). In our final rule, we are prescribing certain specific
requirements for trading systems for ERCs in a rate-based
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approach. These specific requirements are in addition to the
generic requirements for any state plan (see section VIII.D.2.d
below for the legal basis for the generic components for state
plans) and are intended to ensure the integrity of the ERC
trading system. The integrity of the trading system is key to
ensuring that a state plan provides for implementation and
enforcement of the standards of performance, as required by
section 111(d)(1)(B). Requirements relating to ERCs in a ratebased trading system, and allowances in a mass-based system,
must also be submitted as federally enforceable components of
the state plan, as such requirements provide for the
implementation and enforcement of a tradable emission rate or
mass limit for an affected EGU.
However, as described in section VIII.C.6.d, the EPA has
legal concerns regarding whether federally enforceable
requirements under a CAA section 111(d) state plan can be
imposed on entities other than affected EGUs. It is important to
note that the use of ERCs and inclusion of state plan
requirements regarding a rate-based trading system, and the use
of allowances and inclusion of state plan requirements regarding
a mass-based trading system, does not run afoul of these legal
concerns, as neither the requirements of section 111(d) nor of
the federally enforceable state plan in either case extend to
non-EGU generators or third-party verifiers of such compliance
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units.
(3). In our final rule, we are prescribing certain specific
requirements for trading systems for allowances in a mass-based
approach. These specific requirements are in addition to the
generic requirements for any state plan (see section VIII.D.2.d
below for the legal basis for the generic requirements for state
plans) and are intended to ensure the integrity of the allowance
trading system. The integrity of the trading system is key to
ensuring that a state plan provides for implementation and
enforcement of the standards of performance.
Our interpretation of the phrase “provides for
implementation and enforcement of [the] standards of
performance” in the context of the integrity of a trading system
for allowances under a mass-based approach is further explained
in the Legal Memorandum.
c. Legal basis for state measures plan type. The EPA believes
the state measures plan type is consistent with CAA section
111(d). Section 111(d)(1) requires a state to submit a plan that
“(A) establishes standards of performance for any existing
source for [certain] air pollutant[s] ... and (B) provides for
the implementation and enforcement of such standards of
performance.” Section 111(d)(2)(A) indicates that the EPA must
approve the state plan if it is “satisfactory.”
For states that choose to adopt and submit a state measures
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plan, such state must submit a state plan that includes
standards of performance for CO2 emissions from affected EGUs in
the form of a federally enforceable backstop in order to meet
the requirements of section 111(d). Section 111(d) unambiguously
requires a state to submit a plan that establishes standards of
performance for certain sources, but does not mandate when such
standards of performance must be in effect or implemented in
order to meet applicable compliance deadlines. Instead, Congress
has delegated to the EPA the determination of the appropriate
effective date of standards of performance submitted under state
plans to meet the requirements of section 111(d). In other
words, where the statute is silent, the EPA has authority to
provide a reasonable interpretation. The EPA’s interpretation is
that for states that submit state plans establishing standards
of performance under section 111(d), the effective date of such
standards of performance may be later in time, perhaps
indefinitely, for a number of reasons and under certain
conditions. A key condition is that the state plan provides for
the achievement of the required reduction by means other than
the standards of performance on the timetable required by the
BSER, with provision for federally enforceable standards of
performance to be implemented if those other means fall short.
The EPA believes it is reasonable to defer the effective date
for standards of performance for affected EGUs as long as
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affected EGU CO2 emissions are projected to achieve, and do
achieve, the requisite state goal.
Additionally, under the state measures plan type, if a
state chooses to impose emission standards for the affected EGUs
in conjunction with state measures that apply to other entities
for any period prior to the triggering of the backstop, this
final rule requires such emission standards to be submitted as
federally enforceable measures included in the state plan. The
EPA believes this is appropriate to help ensure the performance
of a state measures plan will meet the requirements of this
final rule. Section 111(d) clearly authorizes states to impose,
and the EPA to approve, federally enforceable emission standards
for affected EGUs. Though federally enforceable emission
standards for affected EGUs in a state measures plan themselves
would not necessarily achieve the requisite state goals, the EPA
is authorized to approve state plans when they satisfactorily
meet applicable requirements. The EPA can evaluate whether a
state measures plan is satisfactory by determining whether any
federally enforceable emission standards for affected EGUs in
conjunction with state measures on other entities will result in
the achievement of the requisite emissions performance level. As
previously explained in this final rule, the performance rates
and the state goals are the arithmetic expression of BSER as
applied across affected EGUs in a state as a source category. In
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a state measures plan, the evaluation of whether a state
measures plan is satisfactory goes to evaluating both the state
measures and any federally enforceable emission standards on the
affected EGUs to determine whether the plan as a whole will
result in the affected EGUs achieving the applicable goals that
reflect BSER.
Section 111(d)(1)(B) also requires a state to submit a
program that provides for the implementation and enforcement of
the applicable standards of performance. Under the state
measures approach, this requirement regarding implementation is
satisfied in part by the submission of an approvable trigger
mechanism for the backstop and appropriate monitoring, reporting
and recordkeeping requirements. The trigger mechanism provides
for the “implementation” of the backstop, i.e., the standards of
performance, by putting the backstop into effect once the
associated trigger is deployed. In other words, when the CO2
performance level under a state plan exceeds the trigger as
described in section VIII.C.4.b, the emission standards that
were submitted as the federally enforceable backstop and any
attendant requirements must be implemented and in effect. The
statutory requirement under CAA section 111(d)(2) regarding
enforcement is also satisfied under the state measures plan type
by the state submitting standards of performance sufficient to
meet the requisite emission performance rates or state goal, in
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the form of the backstop, for inclusion as part of the federally
enforceable state plan.
Additionally, by requiring states that choose to impose
emission standards on affected EGUs under the state measures
approach to submit such emission standards for inclusion in the
federally enforceable plan, this requirement further provides
for implementation and enforcement as required by the statute.
Regulating the affected EGUs through federally enforceable
emission standards themselves in conjunction with any state
measures the state chooses to rely upon further assures the
likelihood of the affected EGUs achieving the state goals as
required under this rule and section 111(d).
The state measures plan is a variation of the proposed
portfolio approach in that both plan types allow the state to
rely upon measures that impose requirements on sources other
than affected EGUs in meeting the requisite state CO2 emission
goal. The state measures plan type is also a variation of the
proposed state commitment approach in that the measures
involving entities other than affected EGUs are not included as
part of the federally enforceable 111(d) state plan, but the
state may rely upon such measures that have the effect of
reducing CO2 emissions from affected EGUs as a matter of state
law. The EPA took comment on the proposed portfolio approach and
state commitment approach, and on the utilization of measures on
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entities other than affected EGUs in meeting the requirements of
the emission guidelines and CAA section 111(d). With respect to
the proposed state commitment approach, the EPA received
comments recommending that the EPA require a federally
enforceable backstop with emission standards sufficient to
achieve the requisite CO2 emission performance. The backstop
component the EPA is finalizing as part of the state measures
plan type is consistent with the EPA’s statements in the
proposal regarding states’ obligations under section 111(d) to
establish emission standards for affected EGUs, as the backstop
contains federally enforceable emission standards for affected
EGUs that will achieve the requisite CO2 emission performance,
and is consistent with comments received regarding the proposed
state commitment approach.
The state measures plan type the EPA is finalizing is also
a logical outgrowth of the comments received on the proposed
portfolio approach. As further explained below, legal questions
remain as to whether state plans under section 111(d) can
include federally enforceable measures that impose requirements
on sources other than affected EGUs. However, a number of
commenters and stakeholders expressed robust support for the
ability to rely on measures and programs that do not impose
requirements on affected EGUs themselves through plan types such
as the proposed portfolio and state commitment approaches. The
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EPA is reasonably interpreting 111(d) as authorizing the state
measures plan type, and believes this plan type is also
responsive to, and accommodating of, states and stakeholders who
have expressed the importance of being able to rely upon various
measures that have the effect of reducing CO2 emissions from
affected EGUs. The EPA is finalizing the state measures plan
type upon careful consideration of statutory requirements and
comments received based on the proposed portfolio approach and
state commitment approach.
The EPA additionally notes that the state measures plan
type is not precluded by the recent Ninth Circuit Court of
Appeals’ decision in Committee for a Better Arvin et al. v. US
EPA et al., Nos. 11-73924 and 12-71332 (May 20, 2015). The court
held that the EPA violated the CAA by approving a California SIP
which relied on emission reductions from state-only mobile
source standards (“waiver measures”) without including those
standards in the SIP. The court first looked at the plain
language of section 110(a)(2)(A) of the CAA, which states that
SIPs “shall include” the emission limitations and other control
measures on which a state relies to comply with the CAA. The
court then stated that the EPA’s action was also inconsistent
with the structure of the CAA. The EPA has the primary
responsibility to protect the nation’s air quality, but in the
court’s view, the EPA itself would be unable to enforce the
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state-only standards. In addition, the court stated that the
EPA’s action was inconsistent with citizens’ right to enforce
SIP provisions under section 304.
There are a number of reasons why this decision does not
preclude the state measures plan type. The Ninth Circuit’s
textual analysis does not apply here, as the language of section
110(a)(2)(A) does not control for 111(d) state plans. Section
111(d)(1) requires state plans to “establish standards of
performance” and to “provide for implementation and enforcement”
of the standards of performance, but, unlike section
110(a)(2)(A), section 111(d) does not specifically say that
every emission reduction measure must be “included” in the state
plan and be made federally enforceable. Even if section 111(d)
did impose such requirements, the state measures approach
satisfies them because the trigger is included in the plan as a
federally enforceable implementation measure, and the backstop
included in the plan also contains standards of performance that
reflect the BSER and are federally enforceable once they are
triggered.
The Ninth Circuit’s structural analysis also does not
apply. The availability of the trigger and backstop gives the
EPA and citizens a federally enforceable route to ensure that
all necessary emission reductions take place in order to achieve
the standards of performance. This is markedly different than
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the state-only standards, where according to the Ninth Circuit,
the EPA and citizens had no route to ensure that all necessary
emission reductions took place in order to attain the NAAQS. In
addition, case law suggests that federal enforceability for
every requirement may not be necessary when there are sufficient
federally enforceable requirements to satisfy the statute, see
National Mining Ass'n v. United States EPA, 59 F.3d 1351 (D.C.
Cir. 1995); in this case federal enforceability for the stateonly measures is not necessary to meet the statutory
requirements of section 111(d)(1) as the federally enforceable
trigger and backstop are sufficient.
d. Legal considerations with proposed portfolio approach. The
EPA is not finalizing the portfolio approach that was included
in the proposed rulemaking, 79 FR 34830, 34902 (June 18, 2014).
In the proposal, the EPA noted that the portfolio approach
raised legal questions. 79 FR 34830, 34902-03. A number of
commenters stated that the portfolio approach is unlawful
because it exceeds the limitations that section 111(d)(1) places
on state plans. Upon further review, we agree with these
comments.
Section 111(d)(1) provides that state plans shall
“establish[] “standards of performance for any existing source”
and “provide[] for the implementation and enforcement of . . .
standards of performance” under CAA section 111(d)(1). Although
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in the proposal we identified possible interpretations of
section 111(d)(1) that could justify the proposed portfolio
approach, after reviewing the comments, we are not adopting
those interpretations. Because section 111(d)(1) specifically
requires state plans to include only (A) standards for emissions
imposed on affected sources and (B) measures that implement and
enforce such standards,817 we interpret it as allowing federal
enforceability only of requirements or measures that are in
those two specifically required provisions. We therefore do not
interpret the term “implementation of ... such standards of
performance” to authorize the EPA to approve state plans with
obligations enforceable against the broad array of non-emitting
entities that would have been implicated by the portfolio
approach. Thus, the EPA is not finalizing the portfolio
approach, and in the event that states submit such measures to
the EPA for inclusion in the state plan, the EPA would not
approve them into the state plan and therefore would not make
them federally enforceable.
We note that section 111(d) limits on federal
enforceability of requirements against non-affected sources do
not imply that the BSER cannot be based on actions by nonaffected sources. As discussed in section V, the BSER may be

817

Such measures include, for example, in this rule,
requirements for ERCs.
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based on the ability of owners/operators of affected sources to
engage in commercial relationships with a wide range of other
entities, from the vendors, installers, and operators of air
pollution control equipment to, in this rulemaking,
owners/operators of RE.
The EPA notes it is also not finalizing the proposed state
commitment approach or state crediting approach. The EPA
believes the finalized state measures plan type provides states
with the same flexibilities as would have been allowed under
these two proposed approaches, and does so in a way that is
legally supportable by the CAA. Therefore, the EPA does not
believe it necessary to finalize the state commitment approach
or state crediting approach.
e. Legal basis for multi-state plans. While nothing in section
111(d)(1) explicitly authorizes either states to adopt and
submit multi-state plans, or the EPA to approve them as
satisfactory, nothing in section 111(d)(1) explicitly prohibits
it, either. In addition, nothing in section 111(d)(2)(A)’s
standard of “satisfactory” prohibits the EPA from considering
multi-state plans as satisfactory. There is thus a gap that the
EPA may reasonably fill.
In light of the purpose of these emission guidelines, to
reduce emissions of a pollutant that globally mixes in the
stratosphere, and the mechanisms to reduce those emissions,
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which may have beneficial effects across state lines, it is
reasonable to allow for multi-state plans. Thus, our gap-filling
interpretation of section 111(d) in this context is reasonable.
D. State Plan Components and Approvability Criteria
1. Approvability criteria
In the “Criteria for Approving State Plans” section of the
preamble to the June 2014 proposal (section VIII.C), the EPA
proposed the following as necessary components of an approvable
state plan:
1. The plan must contain enforceable measures that reduce
EGU CO2 emissions;
2. The projected CO2 emission performance by affected EGUs
must be equivalent to or better than the required CO2 emission
performance level in the state plan;
3. The EGU CO2 emission performance must be quantifiable and
verifiable;
4. The plan must include a process for state reporting of
plan implementation, CO2 emission performance outcomes, and
implementation of corrective measures, if necessary.
After reviewing the comments we received concerning the
approvability criteria, the EPA has decided against maintaining
the four proposed approvability criteria separately from the
list of components required for an approvable plan, which may be
confusing and potentially redundant. The EPA has determined that
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a satisfactory state plan that meets the required plan
components discussed below will inevitably meet the proposed
approvability criteria. The EPA, therefore, has incorporated the
proposed approvability criteria into the section titled
“Components of a state plan submittal” (section VIII.D.2 below).
There is no functional change in the approvability criteria or
the components of a state plan addressed in the proposal; they
are simply combined and this change does not have a substantive
effect on state plan development or approval.
Under the proposed “Enforceable Measures” criterion
(section VIII.C.1 of the proposal preamble), the EPA
specifically requested comment on the appropriateness of
applying existing EPA guidance on enforceability to state plans
under CAA section 111(d), considering the types of entities that
might be included in a state plan.818
The EPA also requested comment on whether the agency should
provide guidance on enforceability considerations related to
requirements in a state plan for entities other than affected

818

The existing guidance documents referenced were: (1)
September 23, 1987 memorandum and accompanying implementing
guidance, “Review of State Implementation Plans and Revisions
for Enforceability and Legal Sufficiency,” (2) August 5, 2004
“Guidance on SIP Credits for Emission Reductions from ElectricSector Energy Efficiency and Renewable Energy Measures,” and (3)
July 2012 “Roadmap for Incorporating Energy Efficiency/Renewable
Energy Policies and Programs into State and Tribal
Implementation Plans, Appendix F.”
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EGUs, and if so, what types of entities. Comments received
strongly suggested that the EPA provide guidance on
enforceability considerations for non-EGU affected entities,
particularly for RE and EE. Comments also requested additional
guidance specific to this rulemaking, including examples of
enforceable measures for specific activities, such as solar
thermal technologies, waste heat recovery, net-metering energy
savings and state RPS.
These enforcement considerations arose primarily under the
proposed portfolio approach for state plans, which would have
allowed state plans to include federally enforceable measures
that apply to entities that are not affected EGUs. In this
action, the EPA is finalizing the state measures approach
instead of the portfolio approach, under which a state can rely
upon measures that are not federally enforceable as long as the
plan also includes a backstop of federally enforceable emission
standards that apply to affected EGUs. As explained in depth in
section VIII.C, if the state is adopting the state measures
approach, the state plan submittal will need to specify, in the
supporting materials, the state-enforceable measures that the
state is relying upon, in conjunction with any federally
enforceable emission standards for affected EGUs, to meet the
emission guidelines. As part of the state measures approach, the
EPA is finalizing a requirement for a federally enforceable
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backstop, which requires the affected EGUs to meet emission
standards that fully achieve the CO2 emission performance rates
or the state’s CO2 emission goal if the state measures do not
meet the intended emission performance levels. Because the EPA
is not finalizing the portfolio approach, which would have
allowed states to include federally enforceable measures in a
state plan that apply to entities that are not affected EGUs,
the agency is not providing additional guidance on federal
enforceability of measures that might apply to such entities. As
proposed, we are requiring that state plans include a
demonstration that plan measures are enforceable, which for
emission standards plan types is discussed in section
VIII.D.2.b.3 below and for state measures plan types is
discussed in section VIII.D.2.c.6 below.
Commenters also requested that the EPA allow states to rely
on provisions with flexible compliance mechanisms in state plans
and clarify how to address flexible compliance mechanisms when
demonstrating achievement of a state CO2 emission goal.
Additionally, a commenter requested that the enforceability
mechanisms that the EPA requires in state plans should support
existing programs, as well as new programs in other states, by
minimizing program changes required purely to conform with
federal requirements, while still providing enough additional
program review and accounting to ensure that CO2 emission
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reductions are achieved. These and related comments contributed
to the EPA’s decision to finalize the option for states to
submit a state measures plan, which would be comprised, at least
in part, of measures implemented by the state that are not
included as federally enforceable components of the plan, with a
backstop of federally enforceable emission standards for
affected EGUs that fully meet the emission guidelines and that
would be triggered if the plan failed to achieve the CO2 emission
performance levels specified in the plan on schedule. For more
information on the state measures plan approach, see section
VIII.C.3 of this preamble above.
2. Components of a state plan submittal
In this action, the EPA is finalizing that a state plan
submittal must include the components described below. As a
result of constructive comments received from many commenters
and additional considerations, the EPA is finalizing state plan
components that are responsive to that input and are appropriate
for the types of state plans allowed in the final emission
guidelines. A state plan submittal must also be consistent with
additional specific requirements elsewhere in this final rule
and with the EPA implementing regulations at 40 CFR 60.23-60.29,
except as otherwise specified by this final rule. These
requirements apply to both individual state plan submittals and
multi-state plan submittals. When a state plan submittal is
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approved by the EPA, the EPA will codify the approved CAA
section 111(d) state plan in 40 CFR part 62. Section VIII.D.3
discusses the components of a state plan submittal that would be
codified as the state CAA section 111(d) plan when the state
plan submittal is approved by the EPA.
The EPA is finalizing that states can choose to meet the
emission guidelines through one of two types of state plans: an
emission standards plan type or a state measures plan type. A
state pursuing the emission standards plan type may opt to
submit a plan that meets the CO2 emission performance rates for
affected EGUs or meets the state rate-based or mass-based CO2
emission goal for affected EGUs. A state implementing a state
measures approach plan type must submit a plan that meets the
state mass-based CO2 goal for affected EGUs. The content of the
state plan submittal will vary depending on which plan type the
state decides to adopt. States that choose to participate in
multi-state plans must adequately address plan components that
apply to all participating states in the multi-state plan.
The rest of this section covers components that are
required for all types of plans, as well as components specific
to each specific type of plans. Section VIII.D.2.a addresses the
components required for all plan submittals. Section VIII.D.2.b
addresses the additional components required for submittals
under the emission standards plan type. Section VIII.D.2.c
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addresses additional components required for submittals under
the state measures plan type.
a. Components required for all state plan submittals. The EPA is
finalizing requirements that a final plan submittal must contain
the following components, in addition to those in either section
VIII.D.2.b (for the emission standards plan type) or VIII.D.2.c
(for the state measures plan type) of this section.
(1) Description of the plan approach and geographic scope.
The description of the plan type must indicate whether the
state will meet the emission guidelines on an individual state
basis or jointly through a multi-state plan, and whether the
state is adopting an emission standards plan type or a state
measures plan type. For multi-state plans this component must
identify all participating states and geographic boundaries
applicable to each component in the plan submittal. If a state
intends to implement its individual plan in coordination with
other states by allowing for the interstate transfer of ERCs or
emission allowances, such links must also be identified.819
(2) Applicability of state plans to affected EGUs.
The state plan submittal must list the individual affected
EGUs that meet the applicability criteria of 40 CFR 60.5845 and

819

If applicable, this plan component must also identify if the
plan is being submitted as a “ready-for-interstate-trading”
plan, as discussed in section VIII.J.3 and VIII.K.4.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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provide an inventory of CO2 emissions from those affected EGUs
for the most recent calendar year prior to plan submission for
which data are available.
(3) Demonstration that a state plan will achieve the CO2
emission performance rates or state CO2 emission goal.
A state plan submittal must demonstrate that the federally
enforceable emission standards for affected EGUs and/or state
measures are sufficient to meet either the CO2 emission
performance rates or the state’s CO2 emission goal for affected
EGUs in the emission guidelines for the interim and final plan
performance periods. This includes during the interim period of
2022-2029, including the interim step 1 period (2022-2024);
interim step 2 period (2025-2027); and interim step 3 period
(2028-2029) period, as well as during the final period of 20302031 and subsequent 2-year periods.820 A demonstration of CO2
emission performance is required through 2031. For the post-2031
period, the demonstration requirement may be satisfied by
showing that emission standards or state measures on which the

820

State plans may meet the CO2 emission performance rates in the
emission guidelines during the interim plan performance step
periods, or assign different interim step CO2 emission
performance rates, provided the CO2 emission performance rates in
the emission guidelines are achieved during the full interim
period. Likewise, a state plan may meet the interim step state
CO2 emission goals in the emission guidelines or establish
different interim step CO2 emission levels, provided the state
interim CO2 goal is achieved during the full interim period.
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demonstration through 2031 is based are permanent and will
remain in place. As discussed in more detail in section VIII.J,
states adopting a plan based upon a mass-based state CO2 emission
goal must demonstrate that they have addressed the risk of
potential emission leakage in their mass-based state plan.
The type of demonstration of CO2 emission performance and
documentation required for such a demonstration in a state plan
submittal will vary depending on how the CO2 emission standards
for affected EGUs and/or state measures in a state plan are
applied across the fleet of affected EGUs in a state, as
discussed below.821
(a) State plan type designs that require a projection of CO2
emission performance. Whether a projection of affected EGU CO2
emission performance must be included in a state plan submittal
depends on the design of the state plan. The following plan
designs do not require a projection of CO2 emission performance
by affected EGUs under the state plan because they ensure that
the CO2 emission performance rates or state rate-based or mass-

821

For simplicity, the EPA refers here to state measures under a
state measures plan as being included “in the state plan”
although such state-enforceable measures are not codified as
part of the federally enforceable approved state plan. However,
the approval of a state measures plan is dependent on a
demonstration in the state plan submittal that those stateenforceable measures meet the requirements in the emission
guidelines and that those state measures, alone or in
combination with federally enforceable emission standards for
affected EGUs, will meet the mass-based CO2 goal.
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taken steps to ensure the accuracy of this version, but it is not the official version. 

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based CO2 goals are achieved when affected EGUs comply with the
emission standards:


State plan establishes separate rate-based CO2 emission
standards for affected fossil fuel-fired electric utility
steam generating units and stationary combustion turbines
(in lb CO2/MWh) that are equal to or lower than the CO2
emission performance rates in the emission guidelines
during the interim and final plan performance periods.



State plan establishes a single rate-based CO2 emission
standard for all affected EGUs that is equal to or lower
than the state’s rate-based CO2 goal in the emission
guidelines during the interim and final plan performance
periods.



State plan establishes mass-based CO2 emission standards
for affected EGUs that cumulatively do not exceed a
state’s mass-based CO2 goal in the emission guidelines
during the interim and final plan performance periods.



State plan establishes mass-based CO2 emission standards
for affected EGUs that, together with state enforceable
limits on mass emissions from new EGUs, cumulatively do
not exceed the state’s EPA-specified mass CO2 emission

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budget822 in the emission guidelines during the interim
and final plan performance periods.
All other state plan designs must include a projection of
CO2 emission performance by affected EGUs under the state plan.
For example, if a state chooses to apply rate-based CO2 emission
standards to individual affected EGUs, or to subcategories of
affected EGUs (such as fossil fuel-fired electric utility steam
generating units and stationary combustion turbines), at a lb
CO2/MWh rate that differs from the CO2 emission performance rates
or the state’s rate-based CO2 goal in the emission guidelines,
then a projection is required. Also, if a state chooses to
implement a mass-based program including both affected EGUs and
new EGUs, but with total allowable emissions in excess of the
presumptively approvable EPA-specified mass CO2 emission budget
for that state, the state must provide a projection of CO2
emission performance. Likewise, if a state chooses a state
measures state plan approach, a projection of CO2 emission
performance is required.
(b) Methods and tools. A satisfactory demonstration of the
future CO2 emission performance of affected EGUs must use
technically sound methods that are reliable and replicable. A

822

A state’s EPA-specified mass CO2 emission budget is the
state’s mass-based CO2 goal for affected EGUs plus the EPAspecified new source CO2 emission complement. See section
VIII.J.2.b.
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state plan submittal must explain how the projection method
and/or tool works and why the method and/or tool chosen is
appropriate considering the type of emission standards and/or
state measures included (or relied upon, in the case of state
measures) in a state plan. The results of the demonstration must
be reproducible using the documented assumptions described in
the state plan submittal. The method and projection of EGU
generation and CO2 emissions can differ from the EPA’s forecast
in the RIA. The EPA received comments on whether it would
require specific modeling tools and input assumptions.
Commenters raised concerns that the EPA may require states to
use proprietary models, and that states do not have the
financial resources to use such models. The EPA is not requiring
a specific type of method or model, as long as the one chosen
uses technically sound methods and tools that establish a clear
relationship between electricity grid interactions and the range
of factors that impact future EGU economic behavior, generation,
and CO2 emissions. The EPA will assess whether a method or tool
is technically sound based on its capability to represent
changes in the electric system commensurate to the set of
emission standards and state measures in a state plan while
accounting for the key parameters specified in section
VIII.D.2.a.(3)(c) below. Including a base case CO2 emission
projection in the state plan submittal (i.e., one that does not
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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include any federally enforceable CO2 emission standards included
in a plan or state-enforceable measures referenced in a plan
submittal), will help facilitate the EPA’s assessment of the CO2
emission performance projection. Methods and tools could range
from applying future growth rates to historical generation and
emissions data, using statistical analysis, or electric sector
energy modeling.
(c) Required documentation of projections. When required to
provide a CO2 emission performance projection, the state must
also provide comprehensive documentation of analytic parameters
for the EPA to assess the reasonableness of the projection. The
analytic parameters, when considered as a whole, should reflect
a logically consistent future outlook of the electric system.
Refer to the Incorporating RE and Demand-side EE Impacts into
State Plan Demonstrations TSD of the final rule for further
details on quantifying impacts of eligible RE and demand-side EE
measures.
The CO2 emission performance projection documentation must
include:


Geographic representation, which must be appropriate for
capturing impacts and/or changes in the electric system



Time period of analysis, which must extend through 2031



Electricity demand forecast (MWh load and MW peak demand)

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at the state and regional level. If the demand forecast
is not from NERC, an ISO or RTO, EIA, or other publicly
available source, then the projection must include
justification and documentation of underlying assumptions
that inform the development of the demand forecast, such
as annual economic and demand growth rate, population
growth rate.


Planning reserve margins



Planned new electric generating capacity



Analytic treatment of the potential for building
unplanned new electric generating capacity



Wholesale electricity prices



Fuel prices, when applicable;



Fuel CO2 content



Unit-level fixed operations and maintenance costs, when
applicable;



Unit-level variable operations and maintenance costs,
when applicable;



Unit-level capacity



Unit-level heat rate



If applicable, EGU-specific actions in the state plan
designed to meet the required CO2 emission performance,
including their timeline for implementation

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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

If applicable, state-enforceable measures, with
electricity savings and renewable electricity generation
(MWhs) expected for individual and collective measures,
as applicable. Quantification of MWhs expected from EE
and RE measures will involve assumptions that states must
document, as described in the Incorporating RE and
Demand-side EE Impacts into State Plan Demonstrations
TSD.



Annual electricity generation (MWh) by fuel type and CO2
emission levels, for each affected EGU



ERC or emission allowance prices, when applicable

The state must also provide a clear demonstration that the state
measures and/or federally enforceable emission standards
informing the projected achievement of the emission performance
requirements will be permanent and remain in place.
The EPA encourages participation in regional modeling
efforts which are designed to allow sharing of data and help
promote consistent approaches across state boundaries. A state
that submits a single-state plan must consider interstate
transfer of electricity across state boundaries, taking into
account other states’ plan types reflecting the best available
information at the time of the CO2 emission performance
projection. Projections of CO2 emission performance for multi-

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state plans and single-state plans that include multi-state
coordination must either use a single (regional) electricity
demand forecast or must document the use of electricity demand
forecasts from different information sources and demonstrate how
any inconsistencies between the individual electricity demand
forecasts have been reconciled.
(d) Additional projection requirements under a rate-based
emission standards plan. For an emission standards plan that
applies rate-based CO2 emission standards to individual affected
EGUs, or to subcategories of affected EGUs, at a lb CO2/MWh rate
that differs from the CO2 emission performance rates or the
state’s rate-based CO2 goal in the emission guidelines, a
projection of affected EGU CO2 emission performance is required.
The state must demonstrate that the weighted average CO2 emission
rate of affected EGUs, when weighted by generation (in MWh) from
affected EGUs subject to the different rate-based emission
standards, will be equal to or less than the CO2 emission
performance rates or the state's rate-based CO2 emission goal
during the interim and final plan performance periods.
The projection will involve an analysis of the change in
generation of affected EGUs given the compliance costs and
incentives under the application of different emission rate
standards across affected EGUs in a state. It must accurately
represent the emission standards in the plan, including the use
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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of market-based aspects of the emission standards (if
applicable), such as use of ERCs or emission allowances as
compliance instruments.
In addition to the elements described in the previous
section (c), the projection under this plan design must include:
•

The assignment of federally enforceable emission
standards for each affected EGU;

•

A projection showing how generation is expected to shift
between affected EGUs and across affected EGUs and nonaffected EGUs over time;

•

Underlying assumptions regarding the availability and
anticipated use of the MWh of electricity generation or
electricity savings from eligible measures that can be
issued ERCs;

•

The specific calculation (or assumption) of how eligible
MWh of electricity generation or savings that can be
issued ERCs are being used in the projection to adjust
the reported CO2 emission rate of affected EGUs,
consistent with the accounting methods for adjusting the
CO2 emission rate of an affected EGU specified in section
VIII.K.1 of the emission guidelines, if applicable;

•

ERC prices, if applicable;

•

If a state plan provides for the ability of RE resources

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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located in states with mass-based plans to be issued ERCs
for use in adjusting the reported CO2 emission rates of
affected EGUs, consideration in the projection that such
resources must meet geographic eligibility requirements,
based on power purchase agreements or related
documentation, consistent with the requirements at
section VIII.K.1 and section VIII.L; and
•

Any other applicable assumptions used in the projection.

(e) Additional projections requirements for a state measures
plan. For a state measures plan, a projection of affected EGU CO2
emission performance must demonstrate that the state measures,
whether alone or in conjunction with any federally enforceable
CO2 emission standards for affected EGUs, will achieve the
state’s mass-based CO2 goals in the emission guidelines for the
interim and final periods. The projection must accurately
represent individual state-enforceable measures (or bundled
measures) and timing for implementation of these state measures.
A state must demonstrate that its state-enforceable
measures, along with any federally enforceable CO2 emission
standards for affected EGUs included in a state plan, will
achieve the state mass-based CO2 goal. In addition to the
elements described in section VIII.D.2.a.(3).(c), the state must
clearly document, at a minimum:
•

the assignment of federally enforceable emission

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standards for each affected EGUs, if applicable; and
•

the individual state measures, including their
projected impacts over time.

Because different types of state measures could have
varying degrees of impact on reducing or avoiding CO2 emissions
from affected EGUs, and different state measures may interact
with one another in terms of CO2 emission reduction impacts, the
method and tools a state uses to project CO2 emissions impacts
must have the capability to project how the combined set of
state-enforceable measures are likely to impact CO2 emissions at
affected EGUs. If a state chooses to use an emission budget
trading program as a mass-based state measure, for example, the
state must choose an analytic method or tool that can account
for and properly represent any program flexibilities that impact
CO2 emissions from affected EGUs, such as use of out-of-sector
GHG offsets and cost-containment provisions. The state would
show that the emissions budget trading program included in the
state measures plan, as well as any other state measures, ensure
that the sum of emissions at all affected EGUs will be lower
than or equal to the state’s CO2 emission goal in the time
periods specified in these guidelines. All flexibilities must be
clearly documented in the demonstration.
(4) Monitoring, reporting and recordkeeping requirements
for affected EGUs.
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The state plan submittal must specify how each emission
standard is quantifiable and verifiable by describing the CO2
emission monitoring, reporting and recordkeeping requirements
for affected EGUs. The applicable monitoring, recordkeeping and
reporting requirements for affected EGUs are outlined in section
VIII.F.
In the June 2014 proposal, the EPA proposed that states
must include in their state plans a record retention requirement
for affected EGUs to maintain records for at least 10 years
following the date of each occurrence, measurement, maintenance,
corrective action, report or record. Commenters requested
clarification of the record retention requirements for states as
compared to for affected EGUs and also requested that the EPA
clarify onsite versus offsite record maintenance requirements
for affected EGUs. The EPA is finalizing that states must
include in their plans a record retention requirement for
affected EGUs of not less than 5 years following the date of
each compliance period, compliance true-up period, occurrence,
measurement, maintenance, corrective action, report, or record,
whichever is latest. Affected EGUs must maintain each record
onsite for at least 2 years after the date of the occurrence of
each record and may maintain records offsite and electronically
for the remaining years. Each record must be in a form suitable
and readily available for expeditious review. The EPA finds that
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these final recordkeeping requirements are appropriate and
consistent with the requirements for other CAA section 111(d)
emission guidelines.
(5) State reporting and recordkeeping requirements.
A state plan submittal must contain the process, content
and schedule for state reporting to the EPA on plan
implementation and progress toward meeting the CO2 emission
performance rates or state CO2 emission goal.
The EPA requested comments on whether full reports
containing all of the report elements should only be required
every 2 years and on the appropriate frequency of reporting of
the different proposed elements, considering both the goals of
minimizing unnecessary burdens on states and ensuring program
transparency and effectiveness. Commenters recognized that
different reporting frequencies may be appropriate for different
types of state plans. The EPA agrees with the commenters and is
finalizing state reporting requirements based on the type of
plan the state chooses to adopt and implement. These state
reporting requirements and reporting periods are discussed in
section VIII.D.2.b (for emission standards plan types) and
VIII.D.2.c (for state measures plan types). The EPA finalizes
that each state report is due to the EPA no later than the July
1 following the end of each reporting period. The EPA recognizes
the multiple comments received recommending extending the state
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report due date from July 1 to a later date or to allow the
states the flexibility to propose an alternative report
submittal date. The EPA is not pursuing these recommendations
due to the implications of the state reports’ due date and the
trigger and schedule for implementation of corrective measures
(for the emission standards approach) or the backstop federally
enforceable emission standards (for the state measures
approach). The EPA believes the July 1 deadline for states to
submit reports to the EPA on plan implementation is feasible
given that the information required to be included in the
reports will be available per the reporting requirements for
affected EGUs in state plans.
In addition to the state reporting requirements discussed
in section VIII.D.2.b (for emission standards approach) and
VIII.D.2.c (for state measures approach) and as discussed below,
states must include in the supporting material of a final state
plan submittal a timeline with all the programmatic milestone
steps the state will take between the time of the final state
plan submittal and 2022 to ensure the plan is effective as of
2022. The EPA is also finalizing a requirement that states must
submit a report to the EPA in 2021 that demonstrates that the
state has met the programmatic milestone steps that the state
indicated it would take from the submittal of the final plan
through the end of 2020, and that the state is on track to
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implement the approved state plan as of January 1, 2022. A final
state plan submission must include a requirement for the state
to submit this report to the EPA no later than July 1, 2021.
This report will help the EPA further assist and facilitate plan
implementation with states as part of an ongoing joint effort to
ensure the necessary reductions are achieved.
The EPA is finalizing the requirement that submissions
related to this program be submitted electronically.
Specifically, this includes negative declarations, state plan
submittals (including any supporting materials that are part of
a state plan submittal), any plan revisions, and all reports
required by the state plan. The EPA is developing an electronic
system to support this requirement that can be accessed at the
EPA’s Central Data Exchange (CDX) (http://www.epa.gov/cdx/). See
section VIII.E.8 for additional information on electronic
submittal requirements.
In the June 2014 proposal, the EPA proposed that states
must keep records, for a minimum of 20 years, of all plan
components, plan requirements, plan supporting documentation and
status of meeting the plan requirements, including records of
all data submitted by each affected EGU used to determine
compliance with its emission standards. The EPA received
multiple comments recommending that the EPA reduce recordkeeping
requirements due to the burden in expenditure of resources and
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manpower to maintain records for at least 20 years. Commenters
recommended that recordkeeping requirements be reduced to 5
years consistent with emission guidelines for other existing
sources.
After considering the comments received, this final rule
requires that a state must keep records of all plan components,
plan requirements, supporting documentation, and the status of
meeting the plan requirements defined in the plan for the
interim plan period from 2022-2029 (including interim steps 1, 2
and 3). After 2029, states must keep records of all information
relied upon in support of any continued demonstration that the
final CO2 emission performance rates or goals are being achieved.
The EPA agrees with comments that a 20-year record retention
requirement could be unduly burdensome, and has reduced the
length of the record retention requirement for the final rule.
During the interim period, states must keep records for 10 years
from the date the record is used to determine compliance with an
emission standard, plan requirement, CO2 emission performance
rate or CO2 emission goal. During the final period, states must
keep records for 5 years from the date the date the record is
used to determine compliance with an emission standard, plan
requirement, CO2 emission performance rate or CO2 emissions goal.
All records must be in a form suitable and readily available for
expeditious review. States must also keep records of all data
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submitted by each affected EGU that was used to determine
compliance with each affected EGU’s emission standard, and such
data must meet the requirements of the emission guidelines,
except for any information that is submitted to the EPA
electronically pursuant to requirements in 40 CFR part 75. If
the state is adopting and implementing the state measures
approach, the state must also maintain records of all data
regarding implementation of each state measure and all data used
to demonstrate achievement of the CO2 emission goal and such data
must meet the requirements of the emission guidelines. The EPA
finds that these final recordkeeping requirements balance the
need to maintain records while reducing the strain on state
resources.
(6) Public participation and certification of hearing on
state plan.
A robust and meaningful public participation process during
state plan development is critical. For the final plan
submittal, states must meaningfully engage with members of the
public, including vulnerable communities, during the plan
development process. This section describes how the EPA will
evaluate a state plan for compliance with the minimum required
elements for public participation provided in the existing
implementing regulations as well as recommendations for other
steps the state can take to assure robust and inclusive public
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participation.
The existing implementing regulations regarding public
participation requirements are in 40 CFR 60.23(c)-(f). Per the
implementing regulations, states must conduct a public hearing
on a final state plan before such plan is adopted and submitted.
State plan development can be enhanced by tapping the expertise
and program experience of several state government agencies. The
EPA encourages states to include utility regulators (e.g. the
PUCs) and state energy offices as appropriate early on and
throughout in the development of the state plan.823 The EPA notes
that utility regulators and state energy offices have the
opportunity during the public participation processes required
for state plans to provide input as well. The EPA also
encourages states to conduct outreach meetings (that could
include public hearings or meetings) with vulnerable communities
on its initial submittal before the plan is submitted. In its
final plan submittal, a state must provide certification that
the state made the plan submittal available to the public and
gave reasonable notice and opportunity for public comment on the
state plan submittal. The state must demonstrate that the public
hearing on the state plan was held only after reasonable notice,

823

While we specifically encourage state environmental agencies
and utility regulators to consult here, we note that, under CAA
programs, state agencies have a history of consultation with one
another as appropriate.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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which will be considered to include, at least 30 days prior to
the date of such hearing, notice given to the public by
prominent advertisement announcing the date(s), time(s) and
place(s) of such hearing(s). For each hearing held, a state plan
submittal must include in the supporting documentation the list
of witnesses and their organizational affiliations, if any,
appearing at the hearing, and a brief written summary of each
presentation or written submission pursuant to the requirements
of the implementing regulations at 40 CFR 60.23. Additionally,
the EPA recommends that states work with local municipalities,
community-based organizations and the press to advertise their
state public hearing(s). The EPA also encourages states to
provide background information about their proposed final state
plan or their initial submittal in the appropriate languages in
advance of their public hearing and at their public hearing.
Additionally, the EPA recommends that states provide translators
and other resources at their public hearings, to ensure that all
members of the public can provide oral feedback.
As previously discussed in this rule, recent studies also
find that certain communities, including low-income communities
and some communities of color (more specifically, populations
defined jointly by ethnic/racial characteristics and geographic
location) are disproportionately affected by certain climate

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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change related impacts.824 Also as discussed in this rule,
effects from this rule can be anticipated to affect vulnerable
communities in various ways. Because certain communities have a
potential likelihood to be impacted by state plans, the EPA
believes that the existing public participation requirements
under 40 CFR 60.23 are effectuated for the purposes of this
final rule by states engaging in meaningful, active ways with
such communities.
In addition, certain communities whose economies are
significantly dependent on coal, or whose economies may be
affected by ongoing changes in the utility power and related
sectors, may be particularly concerned about the final rule. The
EPA encourages states to make an effort to provide background
information about their proposed initial submittal and final
state plans to these communities in advance of their public
hearing. In particular, the EPA encourages states to engage with
workers and their representatives in the utility and related
sectors, including the EE sector.
The EPA notes that meaningful public involvement goes beyond
the holding of a public hearing. The EPA envisions meaningful
engagement to include outreach to vulnerable communities,

824

USGCRP 2014: Melillo, Jerry M., Terese (T.C.) Richmond, and
Gary W. Yohe, Eds., 2014: Climate Change Impacts in the United
States: The Third National Climate Assessment. U.S. Global
Change Research Program, 841 pp.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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sharing information and soliciting input on state plan
development and on any accompanying assessments, such as those
described in section IX. The agency uses the terms “vulnerable”
and “overburdened” in referring to low-income communities,
communities of color, and indigenous populations that are most
affected by, and least resilient to, the impacts of climate
change, and are central to our community and environmental
justice considerations. In section VIII.E, the EPA provides
states with examples of resources on how they can engage with
vulnerable communities in a meaningful way. With respect
specifically to ensuring meaningful community involvement in
their public hearing(s), however, the EPA recommends that states
have both a website and toll-free number that all stakeholders,
including overburdened communities, labor unions, and others can
access to get more information regarding the upcoming hearing(s)
and to get their questions related to upcoming hearings
answered. Furthermore, the EPA recommends that states work with
their local government partners to help them in reaching out to
all stakeholders, including vulnerable communities, about the
upcoming public hearing(s).
(7) Supporting documentation.
The state plan submittal must provide supporting material
and technical documentation related to applicable components of
the plan submittal.
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(a) Legal authority.
In its submittal, a state must adequately demonstrate that
it has the legal authority (regulations/legislation) and funding
to implement and enforce each component of the state plan
submittal, including federally enforceable emission standards
for affected EGUs and state measures. A state can make such a
demonstration by providing supporting material related to the
state’s legal authority used to implement and enforce each
component of the plan, such as copies of statutes, regulations,
PUC orders, and any other applicable legal instruments. For
states participating in a multi-state plan, the submittal(s)
must also include as supporting documentation each state’s
necessary legal authority to implement the portion of the plan
that applies within the particular state, such as copies of
state regulations and statutes, including a showing that the
states have the necessary authority to enter into a multi-state
agreement.
(b) Technical documentation.
As applicable, the state submittal must include materials
necessary to support the EPA’s evaluation of the submittal
including analytical materials used in the calculation of
interim goal steps (if applicable), analytical materials used in
the multi-state goal calculation (if multi-state plan),
analytical materials used in projecting CO2 emission performance
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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that will be achieved through the plan, relevant implementation
materials and any additional technical requirements and guidance
the state proposes to use to implement elements of the plan.
(c) Programmatic milestones and timeline.
As part of the state plan supporting documentation, the
state must include in its submittal a timeline with all the
programmatic milestone steps the state will take between the
time of the state plan submittal and 2022 to ensure the plan is
effective as of January 1, 2022. The programmatic milestones and
timeline should be appropriate to the overall state plan
approach included in the state plan submittal.
(d) Reliability.
As discussed in more detail in section VIII.G.2, each state
must demonstrate as part of its state plan submission that it
has considered reliability issues while developing its plan.
b. Additional components required for the emission standards
plan type. The EPA is finalizing requirements that a final plan
submittal using the emission standards plan type must contain
the following components, in addition to the components
discussed in the preceding section VIII.D.2.a.
(1) Identification of interim period emission performance
rates or state goal (for 2022-2029), interim step performance
rates or interim state goals (2022-2024; 2025-2027; 2028-2029)
and final emission performance rates or state goal (2030 and
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beyond).
The state plan submittal must indicate whether the plan is
designed to meet the CO2 emission performance rates or the state
CO2 emission goal. As noted in the emission guidelines, the EPA
is finalizing CO2 emission performance rates for fossil fuelfired steam generating units and for stationary combustion
turbines. The EPA has translated the source category-specific CO2
emission performance rates into equivalent state-level ratebased and mass-based CO2 goals in order to maximize the range of
choices that states will have in developing their plans. The
state may choose to develop a state plan that meets the CO2
performance rates for the two subcategories of affected EGUs or
develop a plan that adopts either the rate-based or the massbased state CO2 emission goal provided in the emission
guidelines.
Each state plan must identify the emission performance
rates or rate-based or mass-based CO2 emission goal that must be
achieved through the plan (expressed in numeric values,
including the units of measurement, such as pounds of CO2 per net
MWh of useful energy output or tons of CO2). The plan submittal
must identify the CO2 interim period performance rates or state
goal (for 2022-2029), interim step performance rates or state
goals (interim step performance rates or state goal 1 for 20222024; interim step performance rates or state goal 2 for 2025This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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2027; interim step performance rates or state goal 3 for 20282029) and final CO2 emission performance rates or state goal of
2030 and beyond.
The EPA has finalized an interim performance rates or state
goal for the interim period of 2022-2029 and a final performance
rates or state goal to be met by 2030. For the interim period,
the EPA has also finalized three interim step performance rates
or state goals: interim step 1 performance rates or state goal
for 2022-2024, interim step 2 performance rates or state goal
for 2025-2027 and interim step 3 performance rates or state goal
for 2028-2029.825 States are free to establish different interim
step performance rates or interim step state goals than those
the EPA has specified in this final rule. If states choose to
determine their own interim step performance rates or state
goals, the state must demonstrate that the plan will still meet
the interim performance rates or state goal for 2022-2029
finalized in the emission guidelines and the plan submittal must
include in its supporting documentation a description of the
analytic process, tools, methods, and assumptions used to make
this demonstration.
For states participating in a multi-state plan with a joint

825

In this action, the EPA is providing interim state goals in
the form of a CO2 emission rate (emission rate-based goal) and in
the form of tonnage CO2 emissions (mass-based goal).
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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goal (for interim and final periods), the individual state goals
in the emission guidelines would be replaced with an equivalent
multi-state goal for each period (interim and final). For a
rate-based multi-state plan this would be a weighted average
rate-based emission goal, derived by the participating states,
by calculating a weighted average CO2 emission rate based on the
individual rate-based goals for each of the participating states
and 2012 generation from affected EGUs. For a mass-based multistate plan, the joint goal would be a sum of the individual
mass-based goals of the participating states, in tons of CO2. The
plan submittal must include in its supporting documentation a
description of the analytic process, tools, methods, and
assumptions used to calculate the joint multi-state goal.
(2) Identification of federally enforceable emission
standards for affected EGUs.
The state plan submittal for an emission standards plan
type must include federally enforceable emission standards that
apply to affected EGUs. The emission standards must meet the
requirement of component (3) of this section, “Demonstrations
that each emission standard is quantifiable, non-duplicative,
permanent, verifiable, and enforceable.” The plan must identify
the affected EGUs to which these standards apply. The compliance
periods for each emission standard for affected EGUs, on a
calendar year basis, must be as follows for the interim period:
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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January 1, 2022 – December 31, 2024; January 1, 2025 – December
31, 2027; and January 1, 2028 – December 31, 2029. Starting on
January 1, 2030, the compliance period for each emission
standard is every 2 calendar years. States can choose to set
shorter compliance periods for the emission standards than the
compliance periods the EPA is finalizing in this rulemaking, but
cannot set longer periods. As discussed in more detail in
section VIII.F, the EPA recognizes that the compliance periods
provided for in this rulemaking are longer than those
historically and typically specified in CAA rulemakings. The EPA
determined that the longer compliance periods provided for in
this rulemaking are acceptable in the context of this specific
rulemaking because of the unique characteristics of this
rulemaking, including that CO2 is long-lived in the atmosphere,
and this rulemaking is focused on performance standards related
to those long-term impacts.
For state plans in which affected EGUs may rely upon the
use of ERCs for meeting a rate-based federally enforceable
emission standard, the emission standards in the state plan must
include requirements addressing the issuance, tracking and use
for compliance of ERCs consistent with the requirements in the
emission guidelines. These requirements are discussed in
sections VIII.K.1-2. The state plan must also demonstrate that
the appropriate ERC tracking infrastructure that meets the
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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requirements of the emission guidelines will be in place to
administer the state plan requirements regarding ERCs and
document the functionality of the tracking system. State plan
requirements must include provisions to ensure that ERCs are
properly tracked from issuance to submission for compliance. The
state plan must also demonstrate that the MWh for which ERCs are
issued are properly quantified and verified, through plan
requirements for EM&V and verification that meet the
requirements in the emission guidelines. EM&V requirements are
discussed in section VIII.K.3. Rate-based emission standards
must also include monitoring, reporting, and recordkeeping
requirements for CO2 emissions and useful energy output for
affected EGUs; and related compliance demonstration requirements
and mechanisms. These requirements are discussed in more detail
in sections VIII.F and VIII.K.
For state plans using a mass-based emission trading program
approach, the state plan must include implementation
requirements that specify the emission budget and related
compliance requirements and mechanisms. These requirements must
include: CO2 emission monitoring, reporting, and recordkeeping
requirements for affected EGUs; provisions for state allocation
of allowances; provisions for tracking of allowances, from
issuance through submission for compliance; and the process for
affected EGUs to demonstrate compliance (allowance “true-up”
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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with reported CO2 emissions).
(3) Demonstration that each emission standard is
quantifiable, non-duplicative, permanent, verifiable and
enforceable.
The plan submittal must demonstrate that each emission
standard is quantifiable, non-duplicative, permanent, verifiable
and enforceable with respect to an affected EGU, as outlined
below.
An emission standard is quantifiable if it can be reliably
measured, using technically sound methods, in a manner that can
be replicated.826
An emission standard is non-duplicative with respect to an
affected EGU if it is not already incorporated in another state
plan, except in instances where incorporated as part of a multistate plan. An example of a duplicative emission standard would
occur, for example, where a quantified and verified MWh from a
wind turbine could be applied in more than one state’s CAA

826

A CO2 continuous emissions monitoring system (CEMS) is the
most technically reliable method of emission measurement for
EGUs. A CEMS provides a measurement method that is performance
based rather than equipment specific and is verified based on
NIST traceable standards. A CEMS provides a continuous
measurement stream that can account for variability in the fuels
and the combustion process. Reference methods have been
developed to ensure that all CEMS meet the same performance
criteria, which helps to ensure a level playing field and
consistent, accurate data.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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section 111(d) plan to adjust the reported CO2 emission rate of
an affected EGU (e.g., through issuance and use of an ERC),
except in the case of a multi-state plan where CO2 emission
performance is demonstrated jointly for all affected EGUs
subject to the multi-state plan or where states are implementing
coordinated individual plans that allow for the interstate
transfer of ERCs.827 This does not mean that measures used to
comply with an emission standard cannot also be used for other
purposes. For example, a MWh of electric generation from a wind
turbine could be used by an electric distribution utility to
comply with state RPS requirements and also be used by an
affected EGU comply with emission standard requirements under a
state plan. Another example is when actions taken pursuant to
CAA section 111(d) requirements can satisfy other CAA program
requirements (e.g., Regional Haze requirements, MATS).
An emission standard is permanent if the emission standard
must be met for each applicable compliance period.

827

For example, an ERC that is issued by a state under its ratebased emission standards may be used only once by an affected
EGU to adjust its reported CO2 emission rate when demonstrating
compliance with the emission standards. However, an ERC issued
in one state could be used by an affected EGU to demonstrate
compliance with its emission standard in another state, where
states are collaborating in the implementation of their
individual emission trading programs through interstate transfer
of ERCs, or participating in a multi-state plan with a ratebased emission trading program. These coordinated multi-state
approaches are addressed in sections VIII.C.5, VIII.J.3, and
VIII.K.4.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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An emission standard is verifiable if adequate monitoring,
recordkeeping and reporting requirements are in place to enable
the state and the Administrator to independently evaluate,
measure, and verify compliance with it.
An emission standard is enforceable if: (1) it represents a
technically accurate limitation or requirement and the time
period for the limitation or requirement is specified; (2)
compliance requirements are clearly defined; (3) the entities
responsible for compliance and liable for violations can be
identified; and (4) each compliance activity or measure is
enforceable as a practical matter in accordance with EPA
guidance on practical enforceability,828 and the Administrator,
the state, and third parties, maintain the ability to enforce
against affected EGUs for violations and secure appropriate
corrective actions, in the case of the Administrator pursuant to
CAA sections 113(a)–(h), in the case of a state, pursuant to its
state plan, state law or CAA section 304, as applicable, and in
the case of third parties, pursuant to CAA section 304.

828

The EPA guidance on enforceability includes: (1) September
23, 1987, memorandum and accompanying implementing guidance,
“Review of State Implementation Plans and Revisions for
Enforceability and Legal Sufficiency,” (2) August 5, 2004,
“Guidance on SIP Credits for Emission Reductions from ElectricSector Energy Efficiency and Renewable Energy Measures,” and (3)
July 2012 “Roadmap for Incorporating Energy Efficiency/Renewable
Energy Policies and Programs into State and Tribal
Implementation Plans, Appendix F.”
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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In developing its CAA section 111(d) plan, to ensure that
the plan submittal is enforceable and in conformance with the
CAA, a state should follow the EPA’s prior guidance on
enforceability.829 These guidance documents serve as the
foundation for the types of monitoring, reporting, and emission
standards that the EPA has found can be, as a practical matter,
enforced.
In the proposed regulatory text describing the enforcing
measures that states must include in state plans, the EPA
inadvertently excluded a required demonstration that states and
other third parties can enforce against affected EGUs for
violations of an emission standard included in a state plan via
civil action pursuant to CAA section 304. Commenters noted the
EPA’s intent to require this demonstration based on statements
in both the proposal preamble text and “State Plan
Considerations” TSD830 and based on the requirements of CAA
section 304. We are finalizing a requirement for a demonstration
that states and other third parties can enforce against affected
EGUs for violations of an emission standard included in a state
plan via civil action as part of the required plan component

829

See prior footnote.
State Plan Considerations technical support document for the
Clean Power Plan Proposed Rule: http://www2.epa.gov/carbonpollution-standards/clean-power-plan-proposed-rule-state-planconsiderations.
830

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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demonstrating enforceability. We are finalizing this requirement
as a logical outgrowth of proposal preamble text, the proposal
preamble citation to existing enforceability guidance documents
that discuss this requirement, comments received, and the clear
statutory foundation.
(4) State reporting requirements.
After consideration of the comments received regarding
state reporting requirements, the EPA is finalizing for state
plans using the emission standards approach that a state report
is due to the EPA no later than the July 1 following the end of
each reporting period. Within the interim period (2022-2029) the
EPA is finalizing the following interim reporting periods:
interim step 1 covers the three calendar years 2022-2024,
interim step 2 covers the three calendar years 2025-2027, and
interim step 3 covers the two calendar years 2028-2029. A
biennial state report is required starting in 2030 and beyond
covering the two calendar years of each reporting period. This
final reporting schedule reduces the reporting frequency for
states implementing the emission standards approach and is
responsive to comments received that different reporting
frequencies may be appropriate for different type of state
plans. The EPA believes that because of the federally
enforceable emission standards that apply to affected EGUs and
their corresponding monitoring, reporting and recordkeeping
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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requirements under the emission standards plan type, a lesser
frequency of reporting by the state is warranted.
The state must include in each report to the EPA the status
of implementation of emission standards for affected EGUs under
the state plan, including current aggregate and individual CO2
emission performance by affected EGUs during the reporting
period. The state report must include compliance demonstrations
for affected EGUs and identify whether affected EGUs are on
schedule to meet the applicable CO2 emission performance rate or
emission goal during the performance periods and compliance
periods, as specified in the state plan. For rate-based emission
trading programs, the report must also include for EPA review
the state’s review of the administration of their state ratebased emission trading program, as discussed in section
VIII.K.2.g.
As discussed in more detail in section VIII.F, the state
must include an interim performance check in the report
submitted after each of the first two interim step periods. The
interim performance check will compare the CO2 emission
performance level identified in the state plan for the
applicable interim step period with the actual CO2 emission
performance achieved by affected EGUs during the period. In the
report due to the EPA on July 1, 2030, the state must include a
comparison of the actual CO2 emission performance achieved by
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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affected EGUs for the interim period (2022-2029) with the
interim CO2 emission performance rates or state rate-based or
mass-based CO2 interim goal, as applicable. The report due on
July 1, 2030, must also include the actual CO2 emission
performance achieved by affected EGUs during the interim step 3
period (2028-2029). Starting in 2032, the biennial state report
must include a final performance check to demonstrate that the
affected EGUs continue to meet the final CO2 emission performance
rates or state rate-based or mass-based CO2 goal.
For state plans that use the emission standards approach
and are subject to the corrective measures provisions in the
emission guidelines, if actual CO2 emission performance (i.e.,
the emissions or emission rate) of affected EGUs exceeds the
specified level of CO2 emission performance in the state plan by
10 percent or more during the interim step 1 or step 2 reporting
periods, the state report must include a notification to the EPA
that corrective measures have been triggered. The same
notification is required if actual CO2 emission performance fails
to meet the specified level of emission performance in the state
plan for the 8-year interim performance period or any final plan
reporting period. Corrective measures are discussed in detail in
section VIII.F.
c. Additional components required for the state measures
approach. The EPA is finalizing requirements that a final plan
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submittal using the state measures approach must contain the
following components, in addition to the components discussed in
section VIII.D.2.a. We note again that states choosing the state
measures plan type must use a mass-based state goal.
(1) Identification of interim state mass goal (for 20222029), interim step state mass goals (2022-2024; 2025-2027;
2028-2029) and final state mass goal (2030 and beyond).
The state plan submittal must identify the mass-based CO2
emission goal that must be achieved through the plan (expressed
in tons of CO2). The plan submittal must identify the state CO2
interim period goal (for 2022-2029), interim step goals (interim
step goal 1 for 2022-2024; interim step goal 2 for 2025-2027;
interim step goal 3 for 2028-2029) and final CO2 emission goal of
2030 and beyond.
For each state, the EPA has finalized an interim goal for
the interim period of 2022-2029 and a final goal to be met by
2030. For the interim period, the EPA has also finalized three
interim step goals: interim step 1 goal for 2022-2024, interim
step 2 goal for 2025-2027 and interim step 3 goal for 20282029.831 States are free to establish different interim step
goals than those the EPA has specified in this final rule. If

831

In this action, the EPA is providing interim state goals in
the form of a CO2 emission rate (emission rate-based goal) and in
the form of tonnage CO2 emissions (mass-based goal).
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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states choose to determine their own interim step goals, the
state must demonstrate that it will still meet the interim goal
for 2022-2029 finalized in this action and the plan submittal
must include in its supporting documentation a description of
the analytic process, tools, methods, and assumptions used to
make this demonstration.
For states participating in a multi-state plan with a joint
goal (for interim and final periods), the individual state goals
in the emission guidelines would be replaced with an equivalent
multi-state goal for each period (interim and final). The joint
goal would be a sum of the individual mass-based goals of the
participating states, in tons of CO2. The plan submittal must
include in its supporting documentation a description of the
analytic process, tools, methods, and assumptions used to
calculate the joint multi-state goal.
(2) Identification of federally enforceable emission
standards for affected EGUs (if applicable).
If applicable, the state plan submittal must include any
federally enforceable CO2 emission standards that apply to
affected EGUs, and demonstrate that those emission standards
meet the requirements that apply in the context of an emission
standards approach, discussed in the preceding section
VIII.D.2.b. Specifically, the state plan submittal must
demonstrate that each federally enforceable emission standard is
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quantifiable, non-duplicative, permanent verifiable, and
enforceable. If a state measures plan type includes CO2 emission
standards that apply to affected EGUs, these emission standards
must be federally enforceable.
(3) Identification of backstop of federally enforceable
emission standards.
A state measures plan must include a backstop of federally
enforceable emission standards for affected EGUs that fully
achieve the interim and final CO2 emission performance rates or
the state’s interim and final CO2 emission goal if the state plan
fails to achieve the intended level of CO2 emission performance.
The backstop emission standards could be based on the finalized
model rule that the EPA is proposing in a separate action. For
the federally enforceable backstop, the state plan submittal
must identify the federally enforceable emission standards for
affected EGUs, demonstrate that those emission standards meet
the requirements that apply in the context of an emission
standards approach, discussed in the preceding section, identify
a schedule and trigger for implementation of the backstop that
is consistent with the requirements in the emission guidelines
as discussed in section VIII.C.3.b and identify all necessary
state administrative and technical procedures for implementing
the backstop (e.g. how and when the state would notify affected
EGUs that the backstop has been triggered). Aspects of the
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backstop are discussed in detail in section VIII.C.3.b.
(4) Identification of state measures.
A state adopting a state measures plan type must provide as
a part of the supporting documentation of its plan submittal, a
description of all the state enforceable measures the state will
rely upon to achieve the requisite state mass-based goal, the
applicable state laws or regulations related to such measures,
and identification of parties or entities implementing or
complying with such state measures. The state must also include
in its supporting documentation the schedule and milestones for
the implementation of the state measures, showing that the
measures are expected to achieve the mass-based CO2 emission goal
for the interim period (including the interim step periods) and
meet the final goal by 2030. A state measures plan submittal
that relies upon state measures that include RE and demand-side
EE programs and projects must also demonstrate in its supporting
documentation that the minimum EM&V requirements in the emission
guidelines apply to those programs and projects as a matter of
state law.
(5) State reporting requirements.
After consideration of the comments received regarding
state reporting requirements, the EPA is requiring in this final
rule for states using the state measures approach that an annual
state report is due to the EPA no later than July 1 following
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the end of each calendar year during the interim period. This
annual state report must include the status of implementation of
federally enforceable emission standards (if applicable) and
state measures, and must include a report of the periodic
programmatic milestones to show progress in program
implementation. The programmatic milestones with specific dates
for achievement should be appropriate to the state measures
included in the state plan submittal. The EPA believes that
annual state reporting is appropriate for state measures
approach due to the flexibility inherent to the approach
described in section VIII.C.3 including the potential use by the
state of a wider variety of state measures, responsible parties,
etc. This reporting frequency will also increase the degree of
certainty on plan performance for states pursuing the state
measures approach.
As discussed in section VIII.F, for states using the state
measures approach, the EPA is finalizing that at the end of the
first two interim step periods, the state must also include in
their annual report to the EPA the corresponding emission
performance checks. The interim performance checks will compare
the CO2 emission performance level identified in the state plan
for the applicable interim step period versus the actual CO2
emission performance achieved by the aggregate of affected EGUs.
In the report submitted to the EPA on July 1, 2030, the state
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must also report the actual CO2 performance check for the interim
period (2022-2029) with the interim mass-based CO2 goal, as well
as the actual CO2 emission performance achieved by affected EGUs
during the interim step 3 period (2028-2029).
Beginning with the final period, the state must submit
biennial reports no later than July 1 after the end of each
reporting period that includes an actual performance check to
demonstrate that the state continues to meet the final state CO2
goal.
If, at the time of the state report to the EPA, the state
has not met the programmatic milestones for the reporting
period, or the performance check shows that the actual CO2
emission performance of affected EGUs warrants implementation of
backstop requirements,832 the state must include in the state
report a notification to the EPA that the backstop has been
triggered and describe the steps taken by the state to inform
the affected EGUs that the backstop has been triggered. In the

832

As explained in section VIII.C.3.b, state plans subject to the
backstop requirement must require the backstop to take effect if
actual CO2 emission performance by affected EGUs fails to meet
the level of emission performance specified in the plan over the
8-year interim performance period (2022-2029), or for any 2-year
final goal performance period. The plan also must require the
backstop to take effect if actual emission performance is
deficient by 10 percent or more relative to the performance
levels that the state has chosen to specify in its plan for the
interim step 1 period (2022-2024) or the interim step 2 period
(2025-2027).
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event of such an exceedance under the state measures approach,
the backstop federally enforceable emission standards for the
EGUs must be effective within 18 months of the deadline for the
state reporting to the EPA on plan implementation and progress
toward the meeting the state CO2 emission goal. For example, if a
state report due on July 1, 2025, shows that actual CO2 emission
performance of affected EGUs is deficient by 10 percent or more
relative to the specified level of emission performance for
2022-2024 in the state plan, the backstop federally enforceable
emission standards for affected EGUs must be effective as of
January 1, 2027.
(6) Supporting documentation.
(a) Demonstration that each state measure is quantifiable,
non-duplicative, permanent, verifiable and enforceable.
A state using the state measures approach, in support of
its plan, must also include in the supporting documentation of
the state plan submittal the state measures833 that are not
federally enforceable emission standards, and describe how each
state measure is quantifiable, non-duplicative, permanent,
verifiable, and enforceable with respect to an affected entity.

833

“State measures” refer to measures that the state adopts and
implements as a matter of state law. Such measures are
enforceable only per applicable state law, and are not included
in the federally enforceable state plan.
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A state measure is quantifiable if it can be reliably
measured, using technically sound methods, in a manner that can
be replicated.
A state measure is non-duplicative with respect to an
affected entity if it is not already incorporated as a state
measure or an emission standard in another state plan or state
plan supporting material, except in instances where incorporated
in another state as part of a multi-state plan. This does not
mean that measures in a state measure cannot also be used for
other purposes. For example actions taken pursuant to CAA
section 111(d) requirements can satisfy other CAA program
requirements (e.g., Regional Haze requirements, MATS) and state
requirements (e.g., RPS).
A state measure is permanent if the state measure must be
met for each applicable compliance period.
A state measure is verifiable if adequate monitoring,
recordkeeping and reporting requirements are in place to enable
the state to independently evaluate, measure and verify
compliance with it.
A state measure is enforceable834 if: (1) it represents a
technically accurate limitation or requirement and the time
period for the limitation or requirement is specified; (2)

834

Under the state measures approach, state measures are
enforceable only per applicable state law.
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compliance requirements are clearly defined; (3) the affected
entities responsible for compliance and liable for violations
can be identified; and (4) each compliance activity or measure
is practically enforceable in accordance with EPA guidance on
practical enforceability,835 and the state maintains the ability
to enforce against affected EGUs for violations and secure
appropriate corrective actions pursuant to its plan or state
law.
The EPA will disapprove a state plan if the documentation
is not sufficient for the EPA to be able to determine whether
the state measures are expected to yield CO2 emission reductions
sufficient to result in the necessary CO2 emission performance
from affected EGUs for the state CO2 emission goal to be
achieved.
d. Legal basis for the components.
(1) General legal basis.

835

The EPA’s prior guidance on enforceability serves as the
foundation for the types of measures that the EPA has found can
be, as a practical matter, enforced. The EPA’s guidance on
enforceability includes: (1) September 23, 1987, memorandum and
accompanying implementing guidance, “Review of State
Implementation Plans and Revisions for Enforceability and Legal
Sufficiency,” (2) August 5, 2004, “Guidance on SIP Credits for
Emission Reductions from Electric-Sector Energy Efficiency and
Renewable Energy Measures,” and (3) July 2012 “Roadmap for
Incorporating Energy Efficiency/Renewable Energy Policies and
Programs into State and Tribal Implementation Plans,” Appendix
F.
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Under section 111(d), state plans must “provide for the
implementation and enforcement of [the] standards of
performance.” Similar language occurs elsewhere in the CAA.
First, for SIPs, section 110(a)(1) requires SIPs to “provide for
implementation, maintenance, and enforcement” of the NAAQS.
However, section 110(a)(2), unlike 111(d), details a number of
specific requirements for SIPs that, in part, speak exactly to
how a SIP should “provide for implementation, maintenance, and
enforcement” of the NAAQS. We note that section 111(d) provides
explicitly only that the “procedures,” and not the substantive
requirements, for section 111(d) state plans should be “similar”
to those in section 110, and thus a substantive requirement in
section 110(a)(2) is not an independent source of authority for
the EPA to require the same for section 111(d) plans. However,
when there is a gap for the EPA to fill in interpreting how a
section 111(d) plan should “provide for implementation and
enforcement of the] standards of performance,” and Congress
explicitly addressed a similar gap in section 110, then it may
be reasonable for the EPA to fill the gap in section 111(d)
using an analogous mechanism to that in section 110(a)(2), to
the extent that the section 110(a)(2) requirement makes sense
and is reasonable in the context of section 111(d). On the other
hand, that Congress did not explicitly provide such details as
are found in section 110(a)(2) indicates that Congress intended
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to give the EPA considerable leeway in interpreting the
ambiguous phrase “provides for implementation and enforcement of
[the] standards of performance.”
For example, section 110(a)(2)(E)(i) explicitly requires
states to provide necessary assurances that they have adequate
personnel, funding and authority to carry out the SIP. Section
111(d), on the other hand, does not explicitly contain this
requirement. Thus, there is a gap to fill with respect to this
issue when the EPA interprets section 111(d)’s requirement that
plans “provide for implementation and enforcement” of the
standards of performance, and it is reasonable for the EPA to
fill the gap by requiring adequate funding and authority, both
because adequate funding and authority are fundamental
prerequisites to adequate implementation and enforcement of any
program, and because Congress has explicitly recognized this
fundamental nature in the section 110 context.836
We note two other places where the CAA requires a state
program to satisfy similar language regarding implementation and
enforcement. First, section 112(l)(1) allows states to adopt and

836

On the other hand, there are specific requirements in
110(a)(2) that are fundamental for SIPs, but would not make
sense in the 111(d) context. For example, the specific
requirement for an ambient air quality monitoring network in
110(a)(2)(B) is irrelevant in the 111(d) context. For a detailed
discussion of the specific legal basis for each component,
please see the Legal Memorandum for this final rule.
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submit a program for “implementation and enforcement” of section
112 standards. Section 112(l)(5) further provides that the
program must (among other things) have adequate authority to
enforce against sources, and adequate authority and resources to
implement the program. Second, section 111(c) provides that, if
a state develops and submits “adequate procedures” for
“implementing and enforcing” section 111(b) standards of
performance for new sources in that state, the Administrator
shall delegate to the state the Administrator’s authority to
“implement and enforce” those standards. The EPA has interpreted
these ambiguous provisions in the EPA’s “Good Practices Manual
for Delegation of NSPS and NESHAPS” and recommended (in the
context of guidance) that state programs have a number of
components, such as source monitoring, recordkeeping, and
reporting, in order to adequately implement and enforce section
111(b) or 112 standards. This again indicates it is reasonable
for the EPA to fill a gap in section 111(d)’s language and
similarly require source monitoring, recordkeeping, and
reporting, as these are fundamental to implementing and
enforcing standards of performance that achieve the state
performance rates or goals.
Some commenters argued that states have primary authority
over the content of state plans and that the EPA lacks authority
to disapprove a state plan as unsatisfactory simply because it
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lacks one or more of these components. We disagree. The EPA has
the authority to interpret the statutory language of section
111(d) and to make rules that effectuate that interpretation.
With respect to the components of an approvable plan, we are
interpreting the statutory phrase “provide for implementation
and enforcement” and making rules that set out the minimum
elements that are necessary for a state plan to be
“satisfactory” in meeting this statutory requirement. This does
not in any way intrude on the state’s ability to decide what mix
of measures should be used to achieve the necessary emission
reductions. Nor does it intrude in any way on the state’s
ability to decide how to satisfy a component. For example, for
legal authority, we are not dictating which state agencies or
officials must specifically have the necessary legal authority;
that is entirely up to the state so long as the fundamental
requirement to have adequate legal authority to implement and
enforce the plan is met.
In addition, the EPA has already determined in the 1975
implementing regulations that certain components, such as
monitoring, recordkeeping, and reporting, are necessary for
implementation and enforcement of section 111(d) standards of
performance. 40 FR 53340, 53348/1 (Nov. 17, 1975). Thus, EPA’s
position here is hardly novel. The EPA notes in discussing the
implementing regulations, nothing in this final rule reopens
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provisions or issues that were previously decided in the
original promulgation of the regulations unless otherwise
explicitly reopened for this rule.
(2) Legal considerations with changes to affected EGUs.
In the proposed rulemaking, the EPA proposed the
interpretation that if an existing source is subject to a
section 111(d) state plan, and then undertakes a modification or
reconstruction, the source remains subject to the state plan,
while also becoming subject to the modification or
reconstruction requirements. 79 FR 34830, 34903–4. The EPA is
not finalizing a position on this issue in this final rule, and
is re-proposing and taking comment on this issue through the
federal plan rulemaking being proposed concurrently with this
action. The EPA’s deferral of action on this issue does not
impact states’ and affected EGUs’ pending obligations under this
final rule relating to plan submission deadlines, as this issue
concerns potential obligations or impacts after an existing
source is subject to the requirements of a state plan. The EPA
will propose and finalize its position on this issue through the
federal plan rulemaking, which will be well in advance of the
plan performance period beginning in 2022, at which point state
plan obligations on existing sources are effectuated.
(3) Legal considerations regarding design, equipment, work
practice or operational standards.
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In the proposal, the EPA asked for comment on three
approaches to inclusion of design, equipment, work practice and
operational standards in section 111(d) plans. 79 FR 34830,
34926/3 (June 18, 2014). Under the first approach, states would
be precluded from including these standards in section 111(d)
plans unless the design, equipment, work practice or operational
standard could be understood as a “standard of performance” or
could be understood to “provide for implementation and
enforcement” of standards of performance. We also asked, for the
first approach, whether it was even possible, given the
statutory language of 111(h), to consider a design, equipment,
work practice or operational standard as a “standard of
performance.” Under the second approach, states could include
design, equipment, work practice or operational standards in the
event that it could be shown a “standard of performance” was not
feasible, as set out in section 111(h). Under the third
approach, a state could include design, equipment, work practice
and operational standards in a 111(d) plan without any
constraints. We also asked whether, if there was legal
uncertainty as to the status of these standards, the EPA should
authorize states to include them in their 111(d) plans with the
understanding that if the EPA’s authorization were invalidated
by a court, states would have to revise their plans accordingly.
The EPA is finalizing the first approach. Specifically, a
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state’s standards of performance (in other words, either the
federally enforceable backstop under the state measures approach
or the emission standards under the emission standards approach)
cannot consist of (in whole or part) design, equipment, work
practice or operational standards. A state may include such
standards in a 111(d) plan in order to implement the standards
of performance. For example, a state taking a mass-based
approach may include in its 111(d) plan a limit on hours of
operation on a particular affected EGU, but that operational
standard itself cannot substitute for a mass-based emission
standard on the affected EGU.837
This follows from the statute. First, section 111(h)(1)
authorizes the Administrator, when it is not feasible for
certain reasons (specified in 111(h)(2)) to prescribe or enforce
a standard of performance, to instead promulgate a design,
equipment, work practice or operational standard. If a standard
of performance could include design, equipment, work practice or
operational standards, such authority would be unnecessary.
Second, 111(h)(5) states that design, equipment, work practice
or operational standards “described in” 111(h) shall be treated
as standards of performance for the purposes of the CAA. This

837

In particular, a state may include in its 111(d) state plan
an emission standard that is reflective of the CO2 performance
resulting from operational standards the state imposes on an
affected EGU.
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creates a strong inference that standards of performance
otherwise should not include design, equipment, work practice,
or operational standards. Finally, the general definition of
“standard of performance” in section 302(l) is similar to the
definition of “emission limitation” (or “emission standard”) in
section 302(k), with the exception that the definition of
“emission limitation” explicitly includes design, equipment,
work practice and operational standards, but the definition of
“standard of performance” omits them. Thus, as with our
discussion of the term “standard of performance” above in
VIII.C.6.b, even if the general definition of “standard of
performance” in 302(l) applies to 111(d), the omission of
design, equipment, work practice, and operational standards in
302(l) confirms our interpretation that they cannot be a 111
“standard of performance” (except under the limited
circumstances in 111(h)). We conclude that it is reasonable, and
perhaps compelled, to interpret the term “standards of
performance” in 111(d) to not include design, equipment, work
practice and operational standards.
However, section 111(d) requires plans to “provide for
implementation and enforcement of [the] standards of
performance.” This language does not explicitly prohibit a plan
from including design, equipment, work practice and operational
standards, and allows for them to be included so long as they
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are understood to provide for implementation of the standards of
performance. If they are included, the 111(d) plan must still be
“satisfactory” in other respects, in particular in establishing
standards of performance that are not in whole or in part
design, equipment, work practice, and operational standards.
(4) Legal basis for engagement with communities.
As previously discussed, section 111(d)(1) requires the EPA
to promulgate procedures “similar” to those in section 110 under
which states adopt and submit 111(d) plans. Section 110(a)(1)
requires states to adopt and submit implementation plans “after
reasonable notice and public hearings.” The implementing
regulations under 40 CFR 60.27 reflect similar public
participation requirements with respect to section 111(d) state
plans. The EPA is sensitive to the legal importance of adequate
public participation in the state plan process, including public
participation by affected communities. As previously discussed
in this rule, recent studies also find that certain communities,
including low-income communities and some communities of color,
are disproportionately affected by certain climate changerelated impacts. Because certain communities have a potential
likelihood to be impacted by state plans for this rule, the EPA
believes that the existing public participation requirements
under 40 CFR 60.23 are effectuated for the purposes of this
final rule by states engaging in meaningful, active ways with
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such communities. By requiring states to demonstrate how they
have meaningfully engaged with vulnerable communities
potentially impacted by state plans as part of the state plan
development process, states meeting this requirement will
satisfy the applicable statutory and regulatory requirements
regarding public participation.
3. Components of the federally approved state plan
In this action the EPA finalizes that, to be fully
approved, a state plan submittal must meet the criteria and
include the required components described above. The EPA will
propose and take final action on each state plan submittal in
the Federal Register and provide an opportunity for notice and
comment. When a state plan submittal is approved by the EPA, the
EPA will codify the approved 111(d) state plan in 40 CFR part
62. The following components of the state plan submittal will
become the federally enforceable state 111(d) plan:


Federally enforceable emission standards for affected EGUs



Federally enforceable backstop of emission standards for
affected EGUs



Implementing and enforcing measures for federally
enforceable emission standards including EGU monitoring,
recordkeeping and reporting requirements



State recordkeeping and reporting requirements

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E. State Plan Submittal and Approval Process and Timing
1. Overview
In this action the EPA is finalizing that state plan
submittals are due on September 6, 2016, with the option of an
extension to submit final state plans by September 6, 2018,
which is 3 years after finalization of this rule. The compelling
nature of the climate change challenge, and the need to begin
promptly what will be a lengthy effort to implement the
requirements of these guidelines, warrant this schedule. The EPA
also believes, for reasons further described in the next
section, why this schedule is achievable for states to submit
final plans. We discuss the timing of state plans in more detail
in this section below.
Discussed in the following sections are state plan
submittal and timing, required components for initial submittals
and the 2017 update, multi-state plan submissions, process for
EPA review of state plans, failure to submit a plan, state plan
modifications (including modifications to interim and final CO2
emission goals), plan templates and electronic submittal, and
legal bases regarding state plan process.
2. State plan submittal and timing
The implementing regulations (40 CFR 60.23) require that
state plans be submitted to the EPA within 9 months of
promulgation of the emission guidelines, unless the EPA
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specifies otherwise.838 For these 111(d) guidelines, the EPA is
finalizing that each state must by September 6, 2016, either
submit a final plan submittal or seek an extension to submit a
final plan by September 6, 2018. In the case of a state electing
to participate in the CEIP, this 2016 submittal must include a
non-binding statement of intent to participate in the program.
To seek an extension of the September 6, 2016 deadline until no
later than September 6, 2018, a state must submit an initial
submittal by September 6, 2016, that addresses three required
components sufficiently to demonstrate that a state is able to
undertake steps and processes necessary to timely submit a final
plan by the extended date of September 6, 2018. If an extension
is requested and granted, states must also submit a 2017 update
by September 6, 2017, that documents the state’s continued
progress towards meeting the September 6, 2018 final plan
submittal deadline.
In the proposal, EPA proposed a 13 month final state plan
submittal deadline, with a 1 year possible extension for states
submitting individual state plans and a 2 year possible
extension for states submitting multi-state plans as part of a
multi-state region. The EPA received substantive comment on the
achievability of these proposed deadlines for state plan

838

40 CFR 60.23(a)(1).

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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submittals. Multiple commenters expressed concern that due to
timing of legislative cycles (some of which are every 2 years),
regulatory processes, and other necessary tasks, states would
find it extremely difficult to submit plans in 1 or 2 years,
whether or not they were planning to submit as part of a multistate region. The EPA agrees based on this input that a schedule
shorter than 3 years will be challenging for many — though not
all - states. In light of the comments received and in order to
provide maximum flexibility to states while still taking timely
action to reduce CO2 emissions, in this final rule the EPA is
allowing for a 2 year extension until September 6, 2018, for
both individual and multi-state plans, to provide a total of 3
years for states to submit a final plan if an extension is
received. Based on comments received, information the EPA has
regarding steps states have already begun taking towards plan
development, and extensive experience with similar state plan
submission deadlines under CAA section 110 SIPs, the EPA
believes states will be able to submit final plans within 3
years by September 6, 2018, in the event states are not required
to submit a final plan by September 6, 2016. We address the
substantive requirements of initial submittals and the 2017
update in the next section. States that receive 2-year
extensions may submit the final plan earlier than September 6,
2018, if they so choose.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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The EPA highlights one purpose of the initial submittal is
to encourage and potentially facilitate states to do necessary
planning and engagement with stakeholders so states are able to
submit an approvable final state plan by the extended deadline
of September 6, 2018. Some states have well-developed existing
programs and the attendant legal authority underpinning such
programs to more easily meet the September 6, 2016 deadline by
submitting a final plan which largely contains or relies upon
such existing programs.839 Based on comments and stakeholder
feedback, however, the EPA anticipates that many states
intending to develop and submit a final plan will seek the
optional extension given the time it may take to undergo
necessary legislative, stakeholder, and planning processes. The
EPA acknowledges that the initial submittal of September 6,
2016, is not essential to the ability for states to submit final
plans by September 6, 2018, so that even without this 2016
deadline, the EPA could require states to meet the 2018
deadline. Even so, this earlier date in the 3 year planning
process serves as a useful “check-in” that provides several
significant advantages. First, this earlier date provides all
states an opportunity to understand what approaches other states

839

Based on comments received, we understand that the Northeast
and Mid-Atlantic states that participate in RGGI may be in this
position.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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are considering. Because there are significant benefits to
regional cooperation, the EPA believes that a formal process to
collect and then provide this information will help all states
develop better plans. Second, because the guidelines provide
significant flexibility, the ability for the EPA to provide
early input to states who may be pursuing more innovative
approaches will help ensure that all state plans are ultimately
approvable. The EPA therefore believes the initial submittal is
an appropriate means by which to offer the optional extension,
and for reasons further described in section VIII.E.3, that the
requirements of the initial submittal are achievable by
September 6, 2016, so states will be able to develop and submit
a plan that meets the requirements of the final emission
guidelines and section 111(d) of the CAA by the extended date.
Additionally, some states may not submit a state plan as
required by the final emission guidelines and section 111(d) of
the CAA. For states that do not submit a state plan, the CAA
gives the EPA express authority to implement a federal plan for
sources in that state upon determination by the EPA that a state
has failed to submit a state plan by the required date. For
states that do not intend to submit a state plan to meet the
obligations of this final rule, by promulgating a federal plan
for affected EGUs in states that do not submit a plan by
September 6, 2016, such affected EGUs would have an additional 2
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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years to plan for and determine compliance strategies than had
promulgation of a federal plan been predicated on states failing
to submit a plan by September 6, 2018. The EPA also notes that
this final rule affords states and affected EGUs with many
implementation flexibilities and approaches for state plans that
the EPA itself may not have the authority to implement through a
federal plan. Therefore, affected EGUs subject to a federal plan
promulgated for a state that refuses to submit a state plan may
benefit from an additional 2 years to plan for compliance with a
federal plan with potentially fewer flexibilities.
If no affected EGU is located within a state, the state
must submit a letter to the EPA certifying that no such
facilities exist by September 6, 2016.840 The EPA will publish a
notice in the Federal Register to notify the public of receipt
of such letters. If an affected EGU is later found to be located
in that state, the state must submit a final plan addressing
such affected EGU or the EPA will determine the state has failed
to submit a plan as required by the emission guidelines and CAA
section 111(d), and begin the process of implementing a federal
plan for that affected EGU.
In the case of a tribe that has one or more affected EGUs
located in its area of Indian country, if the tribe either does

840

40 CFR 60.23(b).

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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not submit a CAA section 111(d) plan or does not receive EPA
approval of a submitted plan, the EPA has the responsibility to
establish a CAA section 111(d) plan for that area if it
determines that such a plan is necessary or appropriate to
protect air quality.841 See the proposed federal plan rulemaking
for further information.
The EPA notes that the current implementing regulations at
40 CFR part 60 do not specify who has the authority to make a
formal submission of the state plan to the EPA for review. In
order to clarify who on behalf of a state is authorized to
submit an initial submittal, 2017 update, final state plan (or
negative declaration, if applicable), and any revisions to an
approved plan, the EPA has included a requirement in this final
rule mirroring that of the requirement in 40 CFR part 51 App.
V.2.1.(a) with respect to SIPs that identifies the Governor of a
state as the authorized official for submitting the state plan
to the EPA. If the Governor wishes to designate another
responsible official the authority to submit a state plan, the
EPA must be notified via letter from the Governor prior to the
2016 deadline for plan submittal so that they have the ability
to submit the initial submittal or final plan in the State Plan
Electronic Collection System (SPeCS). If the Governor has

841

See 40 CFR 49.1 to 49.11.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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previously delegated authority to make CAA submittals on the
Governor’s behalf, a state may submit documentation of the
delegation in lieu of a letter from the Governor. The letter or
documentation must identify the designee to whom authority is
being designated and must include the name and contact
information for the designee and also identify the state plan
preparers who will need access to SPeCS discussed in section
VIII.E.8. A state may also submit the names of the state plan
preparers via a separate letter prior to the designation letter
from the Governor in order to expedite the state plan
administrative process. Required contact information for the
designee and preparers includes the person’s title, organization
and email address. The EPA recommends this information be
submitted early in the state planning process to allow
sufficient time for completion of SPeCS registration so that
those authorized to use the system are provided access.
3. Components of an initial submittal and 2017 update
As noted, states may request a 2-year extension to submit a
final plan through making an initial submittal by September 6,
2016. For the extension to be granted, the EPA is finalizing
that the initial submittal must address three required
components sufficiently to demonstrate that a state is able to
undertake steps and processes necessary to timely submit a final

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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plan by the extended date of September 6, 2018:842


An identification of final plan approach or approaches
under consideration, including a description of progress
made to date.



An appropriate explanation for why the state requires
additional time to submit a final plan by September 6,
2018.



Demonstration or description of opportunity for public
comment on the initial submittal and meaningful
engagement with stakeholders,843 including vulnerable
communities, during the time in preparation of the
initial submittal and plans for engagement during
development of the final plan.

During the public comment period, multiple commenters
stated that the proposed timeframe for states to submit an
initial submittal was not achievable, citing, among other
things, the number of decisions needed to be made by a state or
states, and that the EPA needed to clarify the requirements for
an initial submittal. Multiple commenters also expressed concern

842

As stated previously, in the case of a state electing to
participate in the CEIP, this 2016 submittal must include a nonbinding statement of intent to participate in the program.
843 Such stakeholders may include labor unions and workers that
have an interest in the state plan, and communities whose
economies are dependent on coal.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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that the requirements for an initial submittal required final
decisions to be made by states, and that the initial submittal
deadline was not enough time for states to make these decisions.
It is important to note that the EPA is not requiring the
adoption of any enforceable measures or final decisions in order
for the state to address any of the initial submittal components
by September 6, 2016. The EPA believes the absence of requiring
enforceable measures to be included with the initial submittal
greatly supports the ability of states intending to develop a
final state plan to submit an initial submittal by September 6,
2016. States are required to submit enforceable measures
supported by technically complex documentation, such as
modeling, and adopted through state public participation and
regulatory or legislative processes as part of SIPs under other
parts of the CAA within timeframes comparable to the time the
EPA is providing for initial submittals.844
In order to further address the commenters’ concerns
regarding possible ambiguity of the requirements for an initial
submittal so that an extension is granted, the EPA is providing

844

For example, 13 states were required to submit SIP revisions
sufficient to regulate GHGs under the Prevention of Significant
Deterioration (PSD) permitting requirements of the CAA within
either 3 weeks or 12 months in response to the EPA’s SIP call.
See “Action To Ensure Authority To Issue Permits Under the
Prevention of Significant Deterioration Program to Sources of
Greenhouse Gas Emissions: Finding of Substantial Inadequacy and
SIP Call”, 75 FR 77698, (December 13, 2010).
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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clarity regarding the required components for an initial
submittal. Regarding the component that states address an
appropriate explanation for an extension, the EPA proposed that
appropriate explanations for seeking an extension beyond 2016
for submitting a final plan include: a state’s required schedule
for legislative approval and administrative rulemaking, the need
for multi-state coordination in the development of an individual
state plan, or the process and coordination necessary to develop
a multi-state plan. In this final rule, the EPA is finalizing
these as appropriate explanations for seeking an extension
beyond 2016, but makes clear — as explained further below — that
other appropriate explanations will be acceptable as well. It is
important to note that the initial submittal does not require
legislation and/or regulations to be passed prior in order for
the state to be granted an extension, but the initial submittal
should describe any concrete steps the state has already taken
on legislation and/or administrative rulemaking and detail what
the remaining steps are in those processes before a final plan
can be submitted. The EPA also sought comment on other
circumstances for which an extension of time would be
appropriate, and also whether some explanations for extensions
should not be permitted. Commenters stated that states should be
able to seek extensions whenever an extension can be reasonably
justified, and that the EPA should take at face value states’
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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good faith efforts by accepting any state assertion that more
time is needed to develop a plan unless there is clear evidence
to the contrary. The EPA believes there may be appropriate
explanations states may submit in addition to the ones described
in this final rule sufficient to demonstrate that a state is
able to undertake steps and processes necessary to timely submit
a final plan by the extended date of September 6, 2018. Given
the opportunity for states to submit appropriate explanations
other than the ones detailed here, the EPA believes addressing
this component requiring an appropriate explanation for an
extension is easily achievable by September 6, 2016.
In order to additionally clarify the required components of
the initial submittal, the following are types of explanations
of information states may provide as part of the initial
submittal to sufficiently address each of the three required
components for getting an extension:


Details on whether a state is considering a single or
multi-state plan, a plan that meets the CO2 emission
performance rates or state CO2 rate or mass emission
goal, and/or an emission standards or state measures plan
type.



A description of how the state intends to address
development of the required components of the final state

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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plan, including describing what actions have already been
taken, what steps remain, and the schedule for completing
those steps.


A commitment to maintain any existing measures the state
intends to rely upon for its final plan in order to
achieve the necessary reductions once the performance
period begins.



Describing public participation opportunities such as
stakeholder and community meetings, or public hearings,
throughout the 3 year plan development process. This
could also include leverage of public participation
approaches that states already use to identify and engage
potentially affected communities.

The EPA emphasizes the required initial submittal
components are intended to provide a reasonable pathway for
states to demonstrate whether they will be able to submit an
approvable plan by the extended date of September 6, 2018. The
EPA also anticipates that through the requirement to address
these components, the initial submittal will also facilitate
state planning and stakeholder engagement, particularly as one
component requires the public and stakeholders to have an
opportunity to comment on the initial submittal. As previously
described, these components do not require final decisions to be

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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made by states, and this is further illustrated by the
clarifications on how states may meet each of the three required
components. Accordingly, the EPA believes none of these
components is onerous for states to address in an initial
submittal by the September 6, 2016 deadline. To further
underscore this point, the EPA is further explaining the
clarifying examples listed above of how states may address the
three required components, and highlighting the achievability of
these examples for states to address through the initial
submittal by September 6, 2016.
For identification of the final plan approach or approaches
the state is considering, and description of progress made to
date, states could identify whether the state is considering the
option of the CO2 emission performance rates, a rate-based CO2
goal, or a mass-based CO2 goal, and whether the state is
intending to pursue a single-state or multi-state plan.
Stakeholders commented that states will not be far enough along
in the rule development process to have made these decisions.
Commenters also stated that many state legislatures would need
to pass legislation giving state environmental agencies legal
authority and direction before they could begin to make
decisions such as rate or mass-based approach or single or
multi-state plan submittal. In order to address the commenters’
concerns, the EPA wishes to clarify that state approaches
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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identified in the initial submittal do not need to be final
and/or formalized through a state legislature, and that states
may opt to identify pursuit of more than one approach at the
same time, or to indicate the status of the deliberation of this
issue within the state.
The EPA received substantive comment regarding the
potential adverse consequences for states pursuing a multi-state
approach and receiving an extension until 2018, where, for
various reasons, a state or states then decide(s) to pursue the
single state approach. Commenters viewed this as being
potentially problematic since, as proposed, a single state could
only receive an extension until 2017, and if a multi-state plan
effort does not work out the deadline for seeking the extension
until 2017 would have passed. The EPA notes finalizing a 2 year
extension that is available for any state, whether they are
pursuing an individual state plan or a multi-state plan resolves
the commenters’ concern about conflicting extension deadlines if
states involved in a multi-state effort decide not to pursue the
multi-state approach. Importantly, such identification in an
initial submittal does not obligate the state to then actually
adopt that approach in their final plan as the EPA acknowledges
that based on state processes and public input through plan
development during the extended submission period, a state may
end up adopting a state plan approach more suitable to the needs
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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of that state and its affected EGUs than previously identified
in the initial submittal.
States can also describe progress made to date by
identifying steps already taken to address development of the
final state plan, as the EPA recognizes that states in general
have already taken a number of steps to prepare for state plan
development to meet the obligations of this rule. For example,
since proposal, states have: begun exploring tradeoffs among
various state plan approaches such as individual versus
multistate coordination, increased utilization of demand-side EE
and RE programs, and implementing rate-based versus mass-based
programs; increased their understanding of existing state
programs and policies that reduce carbon emissions; built
relationships and communications between key state institutions
such as environmental agencies, PUCs, governors’ offices, and
energy regulators; hosted public stakeholder meetings to educate
and solicit input from the public; and begun discussing state
processes for developing potential state plans. States may meet
the first required component by describing steps such as these
already undertaken.
The EPA underscores that states may easily address the
first component of the initial submittal by describing such
steps, and also address the second required component by
identifying next steps (which may be a natural extension of
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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these already implemented activities), and laying out a schedule
for development of a final plan. States that have taken these
steps would especially be able to address the component
regarding an appropriate explanation for an extension as the EPA
recognizes the substantial work such states have begun to put
towards development of state plans, and the continuation of this
work justifies additional time to complete necessary steps to
result in an approvable state plan. The EPA emphasizes that for
states who intend to submit a final plan and need an extension,
the components of the initial submittal are not intended to
require burdensome final action by states by September 6, 2016,
but to identify a viable path to completing a final plan by
September 6, 2018.
An initial submittal that contains a commitment to maintain
any existing measures the state intends to rely upon for its
final plan in order to get the necessary reductions once the
performance period begins (e.g. RE standards and demand-side EE
programs the state intends to rely upon through a state measures
plan type), at least until the final plan is approved, also
addresses the requirement that states provide an appropriate
explanation for an extension. Given the state’s request for
additional time prior to putting in place enforceable measures
to reduce CO2, it would be reasonable and appropriate, and in
keeping with the goals of 111(d) to ensure that any existing CO2
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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reduction measures that the state intends to rely upon remain in
place while the state is developing a final plan. Such
commitment would demonstrate that the state is taking
substantive steps towards successful development of a final plan
within 3 years.
Regarding the required public participation component of
the initial submittal, the EPA believes this requirement is both
achievable for states to submit an initial submittal by the
September 6, 2016 deadline, and provides a benefit in
facilitating state plan development so that states are more
likely to be able to submit a final plan within 3 years if the
extension is granted. The EPA can use a comment opportunity on
the initial submittal to advise the state whether aspects of the
draft initial submittal and overall plan development are
appropriate for purposes of meeting the requirements of the
final rule so that the state will be able to procure the
extension through an acceptable initial submittal and submit a
final plan by the extended deadline. The EPA notes the comment
period on the initial submittal is only one opportunity the EPA
has to assist a state in the state plan development process. The
EPA has historically worked with states throughout the state
plan development process to help ensure that the state plan is
approvable once submitted to the EPA, and expects this level of
engagement with states to continue throughout the plan
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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development process. This requirement will also facilitate early
identification of concerns stakeholders and the public may have
with aspects of a final plan the state is considering. As states
have longtime and extensive experience with responding to public
comments in numerous contexts, including in the context of other
CAA programs such as section 110 SIP development and in permit
issuance under NSR and Title V, the EPA anticipates states will
be able to timely address the initial submittal public
participation.
As previously discussed, because certain communities have a
potential likelihood to be impacted by state plans, the EPA
believes that the existing public participation requirements
under 40 CFR 60.23 are effectuated for the purposes of this
final rule by states engaging in meaningful, active ways with
such communities. Therefore, the public participation component
of the initial submittal includes meaningful engagement with
vulnerable communities, throughout the state plan development
process and including through the initial submittal. In order to
demonstrate to the EPA that states are actively engaging with
communities, states could provide in their initial submittal a
summary of steps they have already taken to engage the public
and how they intend to continue meaningful engagement, including
with vulnerable communities, during the additional time (if an
extension is granted) for development of the final plan. In
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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addition to approaches that states already use to identify and
engage potentially affected communities, the EPA encourages
states to use the proximity analysis conducted for this
rulemaking (which is described in section IX.A) as a tool to
help them identify overburdened communities that could be
potentially impacted by their plans. Other tools, such as EJ
screen, can also be helpful. The EPA in its continued outreach
with states during the implementation phase will also provide
resources to assist them in engaging with communities. The EPA
believes that through the provision of these resources states
will also more easily be able to address this required component
of the initial submittal regarding public engagement, including
with vulnerable communities, by September 6, 2016.
In addition to the resources the EPA intends to provide to
states, there are existing resources states can take advantage
of to address this component as well. On the steps that states
could take to engage vulnerable communities in a meaningful way,
the Agency recommends that states consult the EPA’s May 2015
Guidance on Considering Environmental Justice During the
Development of Regulatory Actions. In this document, the EPA
defines meaningful involvement as ensuring that “potentially
affected community members have an appropriate opportunity to
participate in decisions about a proposed activity (i.e.,
rulemaking) that may affect their environment and/or health; the
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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population’s contribution can influence the EPA’s [regulatory
authority’s] rulemaking decisions; the concerns of all
participants involved will be considered in the decision-making
process; and the EPA [decision-makers] will seek out and
facilitate the involvement of those potentially affected by the
EPA’s [or other regulatory authority’s] rulemaking process.”845
Additionally, this guidance document also encourages those
writing rules to consider the positive impacts that a rulemaking
will have on communities).846 Another resource that the EPA
recommends that states consult when devising their state plans
is the document “Considering Environmental Justice in
Permitting” available on the agency’s website.847 Both of the
resources discussed above can add to what states may already
have in place to effectively engage vulnerable communities in
the rulemaking process.
The EPA recommends that as part of their meaningful
engagement with vulnerable communities, states work with
communities to ensure that they have a clear understanding of
the benefits and any potential adverse impacts that a state plan

845

Guidance on Considering Environmental Justice During the
Development of Regulatory Actions.
http://epa.gov/environmentaljustice/resources/policy/considering
-ej-in-rulemaking-guide-final.pdf. May 2015.
846 Ibid.
847 Considering Environmental Justice in Permitting.
http://www.epa.gov/environmentaljustice/planej/permitting.html#actions.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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might have on their overburdened communities and that there is a
clear process for states to respond to input from communities.
If a state seeks an extension by submitting an appropriate
initial submittal addressing the three required components as
described above by September 6, 2016, the EPA will grant the
extension. If the state does not submit an initial submittal by
September 6, 2016, that contains the three required components,
the EPA will notify the state by letter, within 90 days, that
the agency cannot grant the extension request based the state’s
initial submittal. The EPA will notify a state by letter only if
the initial submittal does not address the three required
components. An extension for submitting a final plan will be
deemed granted if the EPA does not deny the extension request
based on the initial submittal. The EPA has determined this
approach is authorized by, and consistent with, 40 CFR 60.27(a)
of the implementing regulations.
For states that request and receive a 2-year extension, the
state must submit an update halfway through that extension, by
September 6, 2017. In the proposal the EPA included a
requirement regarding a 2017 check in. Because the EPA is
finalizing that states are able to get a 2-year extension
regardless of whether they are submitting an individual or multi
state final plan, the EPA believes it appropriate to ensure
through the 2017 update that the state is making continuous
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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progress on its initial submittal and that it is on track to
meet the final plan submittal deadline of September 6, 2018. The
EPA will also be able to use the information provided through
the 2017 update to further assist states in plan development.
The final rule requires that states address in the 2017
update the following components:


A summary of the status with respect to required
components of the final plan, including a list of which
components are not yet complete.



A commitment to a plan approach (e.g., single or multistate, rate or mass emission performance level),
including draft or proposed legislation and/or
regulations.



An updated comprehensive roadmap with a schedule and
milestones for completing the plan, including progress to
date in developing a final plan and steps taken in
furtherance of actions needed to finalize a final plan.

In order to assess whether a state is on track to submit a
final plan by the 2018 extension deadline, the EPA is requiring
that the 2017 update must contain a progress update on
components from the initial submittal and a list of which final
plan components are still not complete. This progress update
must demonstrate that state is meeting any steps and schedule it

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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outlined in its initial submittal.
The EPA is also requiring that the 2017 update include a
commitment to the type of plan approach the state will take in
the final plan submittal. During the public comment period, many
commenters stated that legislative action would be required to
enact this final rule at the state level, and that the proposal
did not provide enough time for legislative action or other
regulatory actions needed for a state to be granted an
extension. In order to respond to these comments, the EPA is
clarifying that proposed or passed legislation or regulations
are not required in the initial submittal due by September 6,
2016. While a state may indicate consideration of multiple state
plan approaches in the initial submittal, the EPA is requiring
that the state commit to one approach in the 2017 update. This
commitment must include draft or proposed legislation or
regulations that must become final at the state level prior to
submitting a final plan submittal to the EPA. While commenters
expressed concern with not being able to have legislation
enacted in time to receive an extension until 2018, the EPA has
determined that 2 years is a reasonable timeframe for a state to
decide on the type of approach it will take in the final plan
submittal and to draft legislation or regulations for this
approach in order to timely meet the extended September 6, 2018
deadline.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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4. Multi-state plan submittals
For states wishing to participate in a multi-state plan,
the EPA is finalizing three forms of submittal that states may
choose for the submittal of a multi-state plan.
First, the EPA is finalizing its proposed approach where
one multi-state plan submittal is made on behalf of all
participating states. The joint submittal must be signed by
authorized officials for each of the states participating in the
multi-state plan and would have the same legal effect as an
individual submittal for each participating state. The joint
submittal must adequately address plan components that apply
jointly for all participating states and for each individual
state in the multi-state plan, including necessary state legal
authority to implement the plan, such as state regulations and
statutes. Because the multi-state plan functions as a single
plan, each of the required plan components (e.g., plan emission
goals, program implementation milestones, emission performance
checks, and reporting) would be designed and implemented by the
participating states on a multi-state basis.
The EPA received comments from states requesting
flexibility for multi-state plan submittals. In response to
these comments, the EPA is also finalizing two additional
options on which it solicited comment. First, states
participating in a multi-state plan can provide a single
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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submittal — signed by authorized officials from each
participating state — that addresses common plan elements. This
option requires individual participating states to provide
supplemental individual submittals that provide state-specific
elements of the multi-state plan. The common multi-state
submittal must address all relevant common plan elements and
each individual participating state submittal must address all
required plan components (including common plan elements, even
if only through cross reference to the common plan submittal).
Under this approach, the combined common submittal and each of
the individual participating state submittals would constitute
the multi-state plan submitted for EPA review. The joint common
submittal must be signed by authorized officials for each of the
states participating in the multi-state plan and would have the
same legal effect as an individual submittal for each
participating state.
Second, the EPA is finalizing an approach where all states
participating in a multi-state plan separately make individual
submittals that address all elements of the multi-state plan.
These submittals would need to be materially consistent for all
common plan elements that apply to all participating states, and
would also address individual state-specific aspects of the
multi-state plan. Each individual state plan submittal would
need to address all required plan components. The EPA encourages
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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states participating in this type of multi-state plan to use as
much common material as possible to ease review of the state
plans.
These approaches will provide states with flexibility in
addressing contingencies where one or more states submit plan
components that are not approvable. In such instances, these
options simplify the EPA’s approval of remaining common or
individual portions of a multi-state plan and help address
contingencies during plan development where a state fails to
finalize its participation in a multi-state plan, with minimal
disruption to the submittals of the remaining participating
states. These additional submittal approaches also facilitate
multi-state plans where the participating states are
coordinating the implementation of their plans but are not
taking on a joint multi-state emission goal for affected EGUs.
For example, states may seek to engage in a multi-state approach
that links rate-based or mass-based emission trading programs
through appropriate authorizations (e.g. reciprocity agreements,
or state regulations) that allow affected EGUs to use emission
allowances or RE/EE credits issued in one state for compliance
with an emission standard in another state.
In order to avoid a multi-state plan becoming unapprovable
due to one state submitting an unapprovable portion of a multistate plan, withdrawing from the multi-state plan, or failing to
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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implement the multi-state plan, states may include express
severability clauses if their multi-state plan is able to stand
without further revision if one of the situations described
above occurs. The severability clause must specify how the
remainder of the multi-state plan or individual state plan would
continue to function with the withdrawal of a state or states,
and may also include pre-specified revisions. The EPA will
evaluate the appropriateness of such a clause as part of its
review of the multi-state plan submittal.
5. Process for EPA review of state plans
Our proposal laid out the basic steps for the EPA’s review
and action on submitted state plans and, at some length,
discussed the required components of state plans, as further
described in the preceding sections. We received a number of
thoughtful and helpful comments on these issues. We are
finalizing the basic requirements in this rule and are
proposing, in the companion proposed federal plan under section
111(d), some additional procedural elements we believe will be
helpful to states, stakeholders and the EPA moving forward.
Following the September 6, 2016 deadline for state plan
submittals, the EPA will review plan submittals. For a state
that submits an initial submittal by September 6, 2016, and
requests an extension of the deadline for the submission of a
final state plan submittal, the EPA will determine if the
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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initial submittal meets the minimum requirements for an initial
submittal. If the state does not submit an initial submittal by
September 6, 2016, that contains the three required components,
the EPA will notify the state by letter, within 90 days, that
the agency cannot grant the extension request based the state’s
initial submittal. If the initial submittal meets the minimum
requirements specified in the emission guidelines, the state’s
request for a deadline extension to submit a final plan
submittal will be deemed granted, and the final plan submittal
must be submitted to the EPA by no later than September 6, 2018.
After receipt of a final plan submittal, the EPA will
review the plan submittal and, within 12 months, approve or
disapprove the plan through a notice-and-comment rulemaking
process publicized in the Federal Register, similar to that used
for acting upon SIP submittals under section 110 of the CAA. The
implementing regulations currently provide for the EPA to act on
a final plan within 4 months after the deadline for submission,
which is consistent with versions of section 110 prior to the
1990 Amendments to the CAA. 40 CFR 60.27(b). To be consistent
with the current version of section 110, the EPA intends to
adopt a timeline of 12 months to review final plan submittals
upon receipt of complete submittals, as is generally consistent
with the timing requirements of section 110 with respect to
complete SIP submittals. Such a timeline would also provide the
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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EPA with adequate time for review and rulemaking procedures, and
ensuring an opportunity for public notice and opportunity for
comment. We note, however, that we proposed this timeline for
review and action on state plans in our proposal, but our
proposal was specific to the timeline for state plans submitted
pursuant to this rule rather than for state plans submitted
under 111(d) generally.848 We are finalizing as part of this rule
that state plans submitted to meet the requirements of this rule
will be reviewed and acted upon by the EPA within 12 months of
submission. Because such timeline would be appropriate to be
made to 111(d) state plans more generally, we are also proposing
the appropriate revisions to the implementing regulations as
part of the federal plan proposal for section 111(d).
In addition, while the proposal and this final rule lay
out in considerable detail the required components of a state
plan, the EPA believes that it would also be helpful to include
in the rule a completeness determination process, similar to
that used for SIP submittals under section 110, which will allow
the EPA to determine whether a final plan submittal contains the
components necessary to enable the EPA to determine through
notice and comment rulemaking whether such submittal complies

848

The EPA proposed 12 months after the date required for
submission of a plan or plan revision to approve or disapprove
such plan or revision or each portion thereof.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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with the requirements of section 111(d). This is a procedural
requirement under CAA section 110(k)(1) for SIPs, and the EPA
believes this requirement is appropriate to establish under
section 111(d)’s direction to the EPA to prescribe through
regulations a procedure similar to that provided by section 110.
However, because the EPA did not propose such regulations as
part of the proposal for this action, the EPA is proposing such
regulations as part of the federal plan proposal for section
111(d). The EPA notes that this preamble (in section VIII.D) and
final rule lay out required components of state plans and all
the requirements for a state plan submittal, and therefore
states have the necessary information at this time to develop
state plans. The upcoming completeness criteria will not add to
or change these required components, but only add a procedural
step that allows the EPA to identify whether there are absent or
insufficient components in the plan submittal that would render
the EPA unable to act on such submittal because it is
incomplete. As we further explain in the federal plan proposal,
a determination by the EPA that a plan submittal is incomplete
has the effect of a state having a still-pending statutory
obligation to submit a plan that meets the requirements of
section 111(d).
The EPA is planning to propose an amendment to the section
111(d) implementing regulations that will add the partial
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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approval/disapproval and conditional approval mechanisms in
section 110(k)(3) and (4) to the procedure for acting on section
111(d) plans. The input the agency received in response to the
proposal for these guidelines indicated that the flexibility
provided by these mechanisms could be useful getting state plans
in place. The EPA agrees, and is proposing to amend the
implementing regulations as part of the rulemaking for the
federal 111(d) plan. The EPA is not taking final action on these
changes in this action.
The later timing for our action on partial
approval/disapproval and conditional procedures does not create
any issue with finalizing this rule. These procedural
adjustments will only come into play after states have submitted
their plans and the EPA is required to act on them, and we
intend to finalize these procedural changes prior to September
6, 2016, when the first plan submittals would occur. Until then,
the EPA believes that every plan is submitted with the intent to
be fully approvable and there is no need for states to rely on
the possibility of these procedures when developing their plans.
Conditional approval and partial approval/disapproval should be
used to deal with approvability issues that arise despite the
best efforts of states and the EPA to work together to make sure
a submittal in the first instance is fully approvable. The EPA
plans to finalize any changes in the implementing regulations
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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before the EPA is required to act on state submittals, so that
the EPA and states will have appropriate flexibility in the plan
approval process.
6. Failure to submit a plan
If a state does not submit a final plan submittal by the
applicable deadline, or submits a final plan the EPA determines
to be incomplete, the EPA will notify the state by letter of its
failure to submit. The EPA will publish a Federal Register
notice informing the public of its finding of failure to submit.
Upon a finding of failure to submit for a state, a statutory
clock will run requiring the EPA to promulgate a federal plan
for such state no later than 1 year after the EPA makes the
finding unless the state submits, and the EPA approves, a state
plan during this time. Refer to the federal plan proposal for
more details on how and when a federal plan would be triggered.
7. State plan modifications
a. Modifications to an approved state plan. During the course of
implementation of an approved state plan, a state may wish to
update or alter one or more of the enforceable measures in the
state plan, or replace certain existing enforceable measures
with new measures. The EPA received broad support for allowing
states to submit modifications to approved state plans, and we
agree that this is an important aspect of this program. In this
rulemaking, therefore, the EPA is finalizing that a state may
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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revise its state plan, and states in a multi-state plan may
revise their joint plan. Consistent with the timing for final
plan submittals originally submitted by states, the EPA will act
on state plan revisions within 12 months of a complete
submittal. The EPA expects that the long plan performance
timeframes in this final rule and flexibility provided to states
in developing state plans will lessen the need for modifications
to approved state plans.
A state may enter or exit a multi-state plan through a plan
modification, with certain limitations. Multiple commenters
stated that the EPA should clarify the plan modification process
in such instances.
Where a state with a single-state approved plan seeks to
join a multi-state plan, the state may submit a modification of
its plan indicating that it is joining the multi-state plan and
including the necessary plan components under the multi-state
plan. The current participants of the multi-state plan will also
need to submit a plan modification, to acknowledge the new state
participant and to recalculate the multi-state rate-based or
mass-based CO2 goal. Functionally, both the modification of the
single-state plan of the new participant and the multi-state
plan of the current plan participants could be addressed through
the same plan modification submittal or addressed under a plan
modification submittal comparable to the alternate formats for
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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multi-state plan submittals addressed in section VIII.E.4.
The entry or exit of a state to/from a multi-state plan
involves the recalculation of the multi-state rate-based or
mass-based CO2 goal for affected EGUs in the participating
states. The recalculated multi-state rate-based or mass-based CO2
goal must take into account and ensure achievement of the
individual state rate-based or mass-based CO2 goal for any state
that is joining the multi-state plan. If implementation of the
individual state plan has triggered corrective measures or
backstop emission standards prior to the plan modification, as
described in Section VIII.F.3, the modification must take into
account the need to make up for any shortfall in CO2 emission
performance in the individual state plan prior to joining the
multi-state plan. Where one or more states are leaving a multistate plan through a plan modification, the process is similar
and the same considerations must be taken into account in
connection with the states that are leaving the multi-state
plan.
As a result of these requirements and considerations, the
EPA is finalizing certain requirements for multi-state plan
modifications. A multi-state plan modification may be submitted
to the EPA at any time. However, an approved multi-state plan
modification may only take effect at the beginning of a new
interim or final plan performance period. These requirements are
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

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necessary to ensure that state rate-based or mass-based CO2 goals
in the emission guidelines are achieved. In addition, such
requirements for the timing of the effective date of multi-state
plan modifications are necessary for coordination of the
implementation of multi-state plans, especially where such plans
include a multi-state emission trading approach. This approach
is also consistent with the approach the EPA is proposing for
the implementation of federal plan, where relevant for a
state(s).
The EPA solicited comment on whether, for new projections
of emission performance included in a submitted plan
modification, the projection methods, tools, and assumptions
used should match those used for the projection in the original
demonstration of plan performance, or should be updated to
reflect the latest data and assumptions, such as assumptions for
current and future economic conditions and technology cost and
performance. Comments received on this topic were generally
supportive of allowing the use of updated data in state plan
modifications, citing that states should have the ability to
determine whether the original data and assumptions or updated
data and assumptions are appropriate. The EPA is finalizing that
new projections of emission performance, the projection methods,
tools, and assumptions do not have to match those used for the
projection in the original demonstration of plan performance;
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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they can be updated to reflect the latest data and assumptions,
such as assumptions for current and future economic conditions
and technology cost and performance.
As discussed in more detail in section VIII.G.2, the final
rule has several measures to ensure that it does not interfere
with the industry’s ability to maintain reliability. One such
measure is that if a state cannot address a reliability issue in
accordance with an approved state plan, the state can submit a
request to the EPA to modify the state plan. See section
VIII.G.2 for a more detailed discussion of this issue.
The EPA is not finalizing any circumstances under which a
state may or may not revise its state plan, with the exception
that a state may not revise its state plan in a way that results
in the affected EGU or EGUs not meeting the requisite CO2
emission performance levels.
b. Modifications to interim and final CO2 emission goals. As
discussed in section VII, the final rule specifies that the
state interim and final CO2 emission goals for affected EGUs in a
state may be adjusted to address changes within a state’s fleet
of affected EGUs. If these changes occur before a state submits
its initial submittal or final plan, the state should indicate
in its submittal the circumstance that necessitates the goal
adjustment and the revised interim or final CO2 emission goal. If
the circumstances occur after a state has an approved plan, a
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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state must submit a modification to its approved plan. The plan
revision submittal must indicate the circumstance that
necessitates the goal adjustment, the revised interim and/or
final CO2 emission goal, and the adjustments to the enforceable
measures in the plan.
8. Plan templates and electronic submittal
The EPA is finalizing the requirement that submissions
related to this program be submitted electronically.
Specifically, that includes negative declarations, state plan
submittals (including any supporting materials that are part of
a state plan submittal), any plan revisions, and all reports
required by the state plan. The rule provides that files that
are submitted to the EPA in an electronic format may be
maintained by states in an electronic format. The submission of
the information by the authorized official must be in a noneditable format. In addition to the non-editable version, the
EPA is also requiring that all plan components designated as
federally enforceable must be submitted in an editable version
as well, as discussed below.
a. Submittal of an editable version of federally enforceable
plan components. To ensure that the EPA has the ability to
identify, evaluate, merge, update and track federally
enforceable plan components in a timely and comprehensive
manner, the EPA is requiring states to submit an editable copy
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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of the specific plan components in their submittals that are
designated as federally enforceable, either effective upon the
EPA plan approval or as a state plan backstop measure. The
editable version is in addition to the non-editable version.
Examples of editable file formats include Microsoft Word, Apple
Pages and WordPerfect.
b. Revisions to an approved plan. States shall provide the EPA
with both a non-editable and editable copy of any submitted
revision to existing approved federally enforceable plan
components, including state plan backstop measures. The editable
copy of any such submitted plan revision must indicate the
changes made, if any, to the existing approved federally
enforceable plan components, using a mechanism such as
redline/strikethrough. This approach to identifying the changes
made to the existing federally enforceable plan components is
consistent with the criteria for determining the completeness of
SIP submissions set forth in Section 2.1(d) of Appendix V to 40
CFR part 51.
c. Electronic submittal. It is the EPA’s experience that
electronic submittal of information has increased the ease and
efficiency of data submittal and data accessibility. The EPA is
developing the SPeCS, a web accessible electronic system to
support this requirement that will be accessed at the EPA’s
Central Data Exchange (CDX) (http://www.epa.gov/cdx/). The EPA
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will pre-register authorized officials and plan preparers in
CDX. See section VIII.E.2 for additional information on the preregistration process for authorized officials and plan
preparers. Detailed instructions for accessing CDX and SPeCS
will be outlined in the “111(d) SPeCS User Guide: How to submit
state 111(d) plan material to EPA” which will be available on
the EPA’s Clean Power Plan Toolbox for States. The EPA will
provide SPeCS training for states prior to the state plan
submittal due date.
Once in CDX, SPeCS can be selected from the Active Program
Service List. The preparer (e.g., state representative compiling
a state plan submittal) assembles the submission package. The
preparer can upload files and complete electronic forms.
However, the preparer may not formally submit and sign packages.
Only registered authorized officials may submit and sign for the
state with the exception of draft submittals. The EPA’s intent
is to allow submittal of draft plans or parts of plans for early
EPA review prior to formal submission by the authorized official
and will allow preparers, as well as authorized officials, to
submit draft documents. The authorized official will be able to
assemble submission packages and will be able to modify
submission packages that a preparer has assembled. The key
difference between the preparer and the authorized official is
that the authorized official can submit and sign a package for
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formal EPA review using an electronic signature. In the case of
a multi-state plan, each participating state’s authorized
official must provide an electronic signature.
The process has been designed to be compliant with the
Cross-Media Electronic Reporting Rule (CROMERR), under 40 CFR
part 3, which provides the legal framework for electronic
reporting under all of the EPA’s environmental regulations. The
framework includes criteria for assuring that the electronic
signature is legally associated with an electronic document for
the purpose of expressing the same meaning and intention as
would a handwritten signature if affixed to an equivalent paper
document. In other words, the electronic signature is as equally
enforceable as a paper signature. For more information on
CROMERR, see the Web site: http://www.epa.gov/cromerr/. States
who claim that a state plan submittal or supporting
documentation includes confidential business information (CBI)
must submit that information on a compact disc, flash drive, or
other commonly used electronic storage media to the EPA. The
electronic media must be clearly marked as CBI and mailed to
U.S. EPA/OAQPS/CORE CBI Office, Attention: State and Local
Programs Group, MD C539-01, 4930 Old Page Rd., Durham, NC 27703.
The EPA received a number of comments on the electronic
submittal of state plans. Some commenters preferred the option
to submit electronically rather than the requirement to do so.
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In the final rule, for the reasons discussed below, the EPA is
requiring electronic submittal of state plans and not allowing
alternate options for plan submittal (e.g. paper submittal).
Requiring electronic submittal is in keeping with current
trends in data availability and will result in less burden on
the regulated community. Electronic submittal will facilitate
two-way business communication between states and the EPA, will
guide states through the submittal process to ensure submission
of all required plan components, and will enable states to
submit proposed plans to the EPA electronically for early EPA
comments. Electronic submittal will also facilitate, expedite
and promote national consistency in the EPA’s review of state
plans and promote transparency by providing stakeholder-specific
access to updated information on state plan status and posting
of plan requirements for viewing by the public, government
regulators and regulated entities. The EPA recently implemented
an electronic submittal process for SIPs under CAA section 110
and continues to explore opportunities to increase the ease and
efficiency with which states and the regulated community can
meet regulatory data submittal requirements. In summary, the EPA
believes electronic submittal will be enormously beneficial in
terms of improving coordination and cooperation between the EPA
and its state partners in developing approvable state plans. We
note, however, that there may be some circumstances where having
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paper copies of the plan is needed to facilitate public
engagement, and encourage states to take those considerations
into account.
d. Plan templates. In the proposal, the EPA requested comment on
the creation of templates for initial submittals and final state
plan submittals. Multiple commenters requested the EPA provide
state plan templates. One commenter requested templates for
different plan designs (e.g. a mass-based trading framework, a
rate-based trading framework, multi-state compliance and a
utility-based portfolio approach) and for specific plan
components (e.g. how to incorporate a state RE standard and an
EE program into a state plan, how to assess the emission
reductions delivered by RE and EE). The EPA has determined that
the broad range of approaches states may take in preparing
individual or multi-state plans makes the development of
specific templates challenging and likely not useful to states.
However, concurrent with this final rule, the EPA is proposing
model rules for both rate- and mass-based programs in
conjunction with the proposed federal plan. These effectively
can serve as a template for states when preparing their state
plan submittals. The EPA will continue extensive outreach to
states and work closely with them on the need for additional
tools and guidance to facilitate the development of approvable
state plans.
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9. Legal basis regarding state plan process
Section 111(d)(1) requires the EPA to promulgate procedures
“similar” to those in section 110 under which states adopt and
submit 111(d) plans. The EPA has interpreted this provision
previously in the implementing regulations found in 40 CFR part
60 subpart B. As discussed above, the EPA intends that planned
revisions to the part 60 implementing regulations will clarify
(among other things) whether certain procedures are appropriate
for the EPA’s action on 111(d) state plans, and if so, precisely
how those procedures should apply. The EPA is proposing these
revisions to the 111(d) implementing regulations in the notice
of proposed rulemaking for the federal plan being issued
concurrently with this final rule. In this section we discuss
the legal basis for procedures that the EPA is finalizing in
this action: initial submittals, extensions, and plan revisions.
First, by using the ambiguous word “similar,” Congress
delegated authority to the EPA to determine precisely what
procedures would govern 111(d) plans. “Similar” does not have an
identical meaning as the word “same.” One definition of
“similar” is “having likeness or resemblance, especially in a
general way.” The American College Dictionary 1127 (C.L.
Barnhart, ed. 1970). On the other hand, “same” is defined as
“alike in kind, degree, quality; that is, identical” or
“unchanged in character.” Id. at 1073.
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Had Congress intended that the procedures for section
111(d) plans be indistinguishable from those in section 110,
Congress knew how to say so. See, e.g., 36 U.S.C. §
2352(b)(2)(B) (“same procedures”). And had Congress intended
that the procedures for section 111(d) plans be as close as
possible to those in section 110, Congress knew how to say that.
See, e.g., 38 U.S.C. § 4325(c) (agency “shall ensure, to the
maximum extent practicable, that the procedures are similar to”
certain other procedures). Therefore, Congress must have
intended to give the EPA leeway to create procedures for section
111(d) state plans that somewhat vary from those in section 110,
so long as the section 111(d) procedures are reasonably tied to
the purpose and text of section 111(d). In other words,
“similar” creates a gap in the statute that the EPA may
reasonably fill.
a. Initial submittals and extensions. Initial submittals in this
instance are a reasonable gap-filling procedural step. As
explained in our proposal, certain aspects of section 111(d)
plan development for these particular guidelines warrant our
creation of this procedural step, even though section 110 does
not provide for initial submittals. As explained above, though,
we are not bound under section 111(d)(1) to follow exactly the
same procedures.
With respect to the timing of initial submittals, final
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submittals, and extensions, we note that section 111 does not
prescribe any particular deadlines, instead leaving it to EPA’s
discretion to establish “similar” procedures to section 110. The
implementing regulations for section 111(d) plans require state
plans to be submitted within 9 months of finalization of
emission guidelines. Section 110(a)(1) provides that states
should adopt and submit SIPs that provide for implementation,
maintenance, and enforcement of the NAAQS within 3 years, or
such shorter period as the Administrator may prescribe.849 As
further explained in Section VIII.E., the EPA is providing
states with up to 3 years to submit a final plan under this
rule, contingent upon the grant of an extension through an
initial submittal due by September 6, 2016. Section 110(a)(1)
does not provide any particular factors for the Administrator to
consider in prescribing a shorter period. Thus, the EPA’s
prescription of a shorter period for either an initial submittal
or a final plan submittal is consistent with the discretion
granted in section 110(a)(1). We further discuss why the
September 6, 2016 initial submittal deadline is reasonable in
Section VIII.E., and such deadline is achievable by states
seeking to submit a final plan within 3 years. We also note that

849

Under this grant of authority to prescribe shorter deadlines,
the EPA has in a number of occasions required SIPs to be
submitted in 1 year.
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section 110(b) provides for extensions of 2 years for plans to
implement secondary NAAQS, that other provisions in part D
provide for extensions of due dates of attainment plans in
certain circumstances, and that the section 111(d) implementing
regulations provide for extensions generally. We conclude, in
view of the above discussion of “similar,” that the approach of
initial submittals and extensions of due dates as proposed are
reasonable procedures that, while not identical to the
procedures in section 110, are still similar.
Some commenters argued that the 1-year period for initial
submittals and, even assuming an extension, the additional 1- to
2-year period for final submittals were unreasonably short,
particularly in light of the possibility that some state
legislatures might need to act to provide adequate legal
authority for these particular plans. We are not finalizing the
1-year extension for single state submittals, and we have
addressed concerns about legal authority for the initial
submittals by allowing states to identify remaining legislative
action in those submittals.
With respect to the overall period of up to 3 years for
submittals, we continue to find it reasonable and consistent
with other deadlines in the CAA. First, section 110(a)(1)
requires states to submit a plan for implementation,
maintenance, and enforcement of new NAAQS within 3 years of
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promulgation of that NAAQS. This is true even if the EPA
promulgates a NAAQS for a previously non-criteria pollutant. In
that case, it is possible and even likely that at least some
state agencies will lack statutory authority to regulate the new
pollutant. Nonetheless, Congress dictated that states should
submit section 110(a)(1) plans within 3 years.
Furthermore, we note that under subpart 1 of Part D of
Title 1, attainment plans are generally due no later than 3
years after designation of a nonattainment area, and under other
subparts of Part D, plans are due even more quickly. For
example, under subpart 4, attainment plans for particulate
matter are generally due 18 months after designation, and under
subpart 5, the same deadline applies for attainment plans for
sulfur oxides, nitrogen dioxide and lead. Developing attainment
plans may or may not require states to seek additional
legislative authority, but certainly in terms of complexity they
are similar to section 111(d) plans for this guideline. In
general, attainment plans must contain (among other things) a
comprehensive inventory of sources of the relevant pollutant and
its precursors (which in populated areas can be very numerous),
control measures for those sources (including individualized
control measures for the larger sources), and modeled
demonstrations of attainment (which in some instances requires
photochemical grid modeling). Thus, it is reasonable to have the
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same timeline for these section 111(d) plans as Congress
generally provided for attainment plans in section 172(b).
b. State plan modifications. Section 110(l) provides for states
to revise their SIPs, as does 40 CFR 60.28 for section 111(d)
plans. Section 110(l) also sets out a standard for revisions: it
prohibits the EPA from approving a SIP revision that would
interfere with any applicable requirement concerning attainment
or reasonable further progress, or any other applicable
requirement of the CAA. Under the existing section 111(d)
implementing regulations, the Administrator will disapprove
section 111(d) plan revisions as unsatisfactory when they do not
meet the requirements of subpart B to part 60. See 40 CFR
60.27(c)(3). However, the implementing regulations do not set
forth a substantive standard like that in section 110(l).
Section 111(d)(1) does not mention revisions (except
indirectly through the reference to section 110) and, therefore,
does not explicitly provide any substantive requirements for
them. There is, therefore, a gap in the statute that the EPA may
reasonably fill, since many stakeholders commented on the
desirability of states being able to modify their plans, and the
EPA agrees. It is reasonable, at a minimum, that the state plan
as revised should continue to provide for implementation and
enforcement of the standards of performance, and to achieve the
CO2 emission performance rates or state CO2 emission performance
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goal. This is analogous to the substantive requirements of
section 110(l), which as explained above for section 110(a)(2),
we may consider in determining how to reasonably fill statutory
gaps for section 111(d) plans.
In our proposal, we stated that certain revisions to state
plans under these emission guidelines, those that revised
enforceable measures for affected EGUs, should satisfy some
additional conditions. First, the state should demonstrate that
the plan continues to achieve the CO2 emission performance rates
or state CO2 emission performance goal. We proposed that this
demonstration might be simple for minor revisions, but for major
revisions a more complete demonstration may be required. We are
finalizing this proposal. As legal basis for this position, we
note that a demonstration is necessary to show that a state plan
provides for implementation of standards of performance that
achieve the CO2 emission performance rates or state CO2 emission
performance goal, and as explained above we can reasonably
require the same of revisions.
It is also reasonable to tailor the requirements of the
demonstration to the magnitude of the revision. The EPA has
taken a similar approach to tailoring the requirements for a
technical demonstration that, under section 110(l), a SIP
revision does not interfere with any applicable requirement
concerning attainment of the NAAQS. If a SIP revision does not
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relax the stringency of any SIP measure, then the demonstration
is simple. If the SIP revision does relax the stringency of SIP
measures, then a qualitative or quantitative analysis may be
necessary to show non-interference, depending on the nature of
the revision, the current air quality in the area, and other
factors.
Finally, we proposed that revisions “should not result in
reducing the required emission performance for affected EGUs
specified in the original approved plan. In other words, no
‘backsliding’ on overall plan emission performance through a
plan modification would be allowed.” 79 FR 34917/1. We received
adverse comments that this standard did not have a basis in
section 111(d). According to commenters, since the standard for
EPA approval of a section 111(d) plan is whether the plan is
satisfactory in establishing and providing for implementation
and enforcement of standards of performance that achieve the
emission performance rates or goal, the same standard should
apply to revisions. In other words, the standard for revisions
should be whether the plan as revised is satisfactory. We
believe that our proposal was unclear as to this point, and we
agree that the same standard for revisions should be the same as
for submittals. We have finalized this position.
F. State Plan Performance Demonstrations
This section describes state plan requirements related to
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compliance periods, monitoring and reporting for affected EGUs;
plan performance demonstrations; consequences if the CO2 emission
performance rates or state CO2 emission goals are not met; and
out-year requirements.
1. Compliance periods, monitoring and reporting requirements for
affected EGUs
For plans that include emission standards on affected EGUs,
the EGU emission standards for the interim period must have
schedules of compliance for each interim step 1, 2 and 3 for the
calendar years 2022-2024, 2025-2027 and 2028-2029, respectively.
For the final period, EGUs must have emission standards that
have schedules of compliance for each 2 calendar years starting
in 2030 (i.e., 2030-2031, 2032-2033, 2034-2035, etc.). If a
backstop is triggered for a state measures plan, the schedule of
compliance for the federally enforceable emission standards must
begin no later than 18 months after the backstop is triggered
and end at the end of the same compliance period. For example,
if a backstop is triggered on July 1, 2025, the compliance
period for the backstop emission standards must begin no later
than January 1, 2027, and end on December 31, 2027. The next
compliance period for the backstop emission standards would be
January 1, 2028-December 31, 2029.
In the June 2014 proposal, the EPA proposed that the
appropriate averaging time for any rate-based emission standard
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for affected EGUs be no longer than 12 months within a plan
performance period and no longer than 3 years for a mass-based
standard. The EPA solicited comments on longer and shorter
averaging times for emission standards included in state plans.
The EPA received comments stating that the proposed 12-month
averaging was too short and that there was no reason why the
compliance period under a rate-based plan should be different
from a mass-based plan. Comments stated that a multi-year
averaging period is appropriate for rate-based and mass-based
plans to account for variations that can occur in a single year,
allowing operators the flexibility they need to manage
unforeseen events. The commenters also recommended that the
final rule use discrete 3-year periods for compliance
reconciliation instead of the rolling-average approach proposed.
The EPA has considered all comments received on this matter
and is finalizing the compliance periods specified above, which
respond to the comments by applying to both rate- and mass-based
programs, providing compliance periods longer than 1 year, and
establishing block compliance periods rather than a rolling
average approach. We agree with comments that longer averaging
periods allow for operational and seasonal variability to even
out. The EPA finalizes that states can choose to set shorter
compliance periods for their emission standards but none that
are longer than the compliance periods the EPA is finalizing in
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this rulemaking. If a state chooses to set shorter compliance
periods, we urge them to make efforts to be cognizant of other
deadlines facing EGUs to assure that there will not be
conflicts. The EPA recognizes that the compliance periods
provided for in this rulemaking are longer than those
historically and typically specified in CAA rulemakings. “The
time over which [the compliance standards] extend should be as
short term as possible and should generally not exceed one
month.” See e.g., June 13, 1989 “Guidance on Limiting Potential
to Emit in New Source Permitting” and January 25, 1995 “Guidance
on Enforceability Requirements for Limiting Potential to Emit
through SIP and §112 Rules and General Permits.” However, the
EPA has determined that the longer compliance periods provided
for in this rulemaking are acceptable in the context of this
specific rulemaking because of the unique characteristics of
this rulemaking, including that CO2 is long-lived in the
atmosphere, and this rulemaking is focused on performance
standards related to those long-term impacts. The distinction
between these unique characteristics and the EPA’s general
practice regarding compliance periods is bolstered by the EPA
guidance on appropriate averaging periods for emission
limitations in NAAQS implementation. For example, the EPA
guidance has stated that in implementation of the ozone
standards, which have a short averaging period, the averaging
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period for VOC emission limitations should be correspondingly
short. See 51 FR 43857. A longer averaging period for VOC
emission limitations (VOCs are one of the key precursors to
ozone formation) can allow spikes in emissions that adversely
impact ambient air and violate the short term ozone standards.
This is precisely the opposite of the unique characteristics
cited above: the long-lived persistence of CO2 in the
stratosphere and the intent of these guidelines to address the
long-term impacts.
State plans must contain requirements for tracking and
reporting actual plan performance during implementation, which
includes reporting of CO2 emissions from affected EGUs. Affected
EGUs must comply with emissions monitoring and reporting
requirements that are largely incorporated from 40 CFR part 75
monitoring and reporting requirements. The majority of affected
EGUs are already familiar with the reporting requirements of
part 75, and because of this, the EPA has chosen to streamline
the applicable reporting requirements for affected EGUs under
the state plans in the final rule. States must require all
affected EGUs to monitor and report hourly CO2 emissions and net
energy output (including total net MWh output that is comprised
of generation, and where applicable, useful thermal output
converted to net MWhs) on a quarterly basis in accordance with
40 CFR part 75. Note that this requirement applies for all types
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of state plans, regardless of whether the state chooses the
option of the CO2 emission performance rates, a state rate-based
CO2 emission goal, or a state mass-based CO2 emission goal.
In the June 2014 proposal, the EPA proposed that state
plans must include monitoring, reporting and recordkeeping
requirements for useful energy output from affected EGUs.
Multiple commenters questioned whether gross rather than net
electrical production should be reported by affected EGUs and
recommended that the EPA should utilize gross rather than net
generation. Many commenters recommended electricity be reported
in the form used in the 111(b) rules for consistency between
reporting requirements and simplification of calculation of
emission limitations between new and old sources. Commenters
also stated that to the extent the EPA seeks to provide guidance
to states regarding its preferred monitoring and reporting
procedures, the EPA should encourage states to avoid imposing
additional monitoring and reporting burdens by taking advantage
of the monitoring requirements that already exist to the
greatest extent possible. For example, the commenters noted that
the 40 CFR part 75 monitoring procedures used to comply with
other programs, such as the Title IV Acid Rain Program, provide
much of the data that would be needed to demonstrate compliance
under the rule. Comments stated that the June 2014 proposal
appeared to mandate a monitoring approach that would eliminate
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key flexibilities provided in the part 75 regulations, thus
requiring utilities to maintain separate document collection and
reporting procedures and potentially eliminating important
alternative monitoring options intended to ensure
representative, cost-effective monitoring approaches are
available. The commenters asked the EPA to revise its proposal
to make clear that the procedures established under part 75 will
suffice or explain the need for any exceptions. Commenters
indicated that the rule should require all affected EGUs to
monitor CO2 emissions and net hourly electric output under 40 CFR
part 75, and report the data using the EPA's Emission Collection
and Monitoring Plan System (ECMPS) assuring a more uniform
monitoring and reporting process for all EGUs. The EPA believes
that the final monitoring and reporting requirements (via ECMPS)
address the issue of duplicative requirements and alleviate
concern about lost flexibility raised by commenters.
2. Plan performance demonstrations
The state plan must include emission performance checks,
and for state measures plans, periodic program implementation
milestones. The state plan must provide for tracking of emission
performance, and for measures to be implemented if the emission
performance of affected EGUs in the state does not meet the
applicable CO2 emission performance rates or state CO2 emission
goal during a performance period.
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As discussed above in section VII, the agency is finalizing
CO2 emission performance rates or state-specific CO2 emission
goals that represent emission levels to be achieved by 2030 and
emission levels to be achieved over the 2022-2029 interim
period, and over three interim steps of 2022-2024, 2025-2027 and
2028-2029. A state may choose to define different interim step
emission levels for achieving its required 2022-2029 average
performance rate. The EPA recognizes the importance of ensuring
that, during the 8-year interim period (2022-2029) for the
interim performance rates or interim state goal, a state is
making steady progress toward achieving the required level of
emission performance. For both emission standards plans and
state measures plans, the final rule requires periodic checks on
overall emission performance leading to corrective measures or
implementation of the backstop, if necessary, as described in
section VIII.F.3 below. States must demonstrate that the interim
steps were achieved at the end of the first two interim step
periods.
In 2032 and every 2 years thereafter, states must
demonstrate that affected EGUs achieved the final performance
rates or state goal on average or cumulatively, as appropriate,
during each 2-year reporting period (i.e., 2030-31, 2032-33,
2034-2035 etc.). The multi-year performance periods for
measuring actual plan performance against the performance rates
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or state goals allow states some flexibility that accounts for
seasonal operation of affected EGUs, and inclusion of RE and
demand-side EE efforts.
For a rate-based plan, emission performance is an average
CO2 emission rate for affected EGUs representing cumulative CO2
emissions for affected EGUs over the course of each reporting
period divided by cumulative MWh energy output850 from affected
EGUs over the reporting period, with rate adjustments for
qualifying measures, such as RE and demand-side EE measures. For
a mass-based plan, emission performance is total tons of CO2
emitted by affected EGUs over the reporting period.
For emission standards plans, as discussed in section
VIII.D, the state must submit a report to the EPA containing the
emissions performance comparison for each reporting period no
later than the July 1 following the end of each reporting period
(i.e., by July 1, 2025; July 1, 2028; July 1, 2030; July 1,
2032; and so on). As discussed in section VIII.D, the emission
comparison required in the July 1, 2030 report must compare the
actual emissions from affected EGUs over the interim period
(2022-2029) with the interim CO2 emission performance rates or
state CO2 emission goal. The report is not required to include a

850

For EGUs that produce both electric energy output and other
useful energy output, there would also be a credit for nonelectric output, expressed in MWh.
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comparison for the interim step 3 period, but must include the
actual emissions from affected EGUs during the interim step 3
period.
The EPA notes that for certain types of emission standards
plans, with mass-based emission standards in the form of an
emission budget trading program, achievement of a state’s massbased CO2 goal (including interim step goals and final goal) will
be assessed by the EPA based on compliance by affected EGUs with
their emission standards under the program, rather than CO2
emissions during a specific interim step period or final period.
This approach is limited to plans with emission budget trading
programs where compliance by affected EGUs with the emission
standards will ensure that, on a cumulative basis, the state
interim and final mass-based CO2 goals are achieved.851 This
approach allows for CO2 allowance banking across plan performance
periods, including from the interim period to the final period.
As a result, CO2 emissions by affected EGUs could differ from the
state mass-based CO2 goal during an individual plan performance
period, but on a cumulative basis CO2 emissions from affected
EGUs would not exceed what is allowable if the interim and final

851

Emission budget trading programs in such plans establish CO2
emission budgets equal to or less than the state mass CO2 goal,
as specified for the interim plan performance period (including
specified levels in interim steps 1 through 3) and the final 2year plan performance periods.
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CO2 goals are achieved.
Also as discussed in section VIII.D, states that choose a
state measures plan must submit an annual report no later than
July 1 following the end of each calendar year in the interim
period. This annual report must include the status of the
implementation of programmatic milestones identified in the
state plan submittal. The annual report that follows the end of
each reporting period (i.e., 2022-2024, 2025-2027, and 20282029) must also include an emissions performance comparison for
the reporting period, as described above for the emission
standards plan. As discussed in section VIII.D, the emission
comparison required in the July 1, 2030 report must compare the
actual emissions from affected EGUs over the interim period
(2022-2029) with the interim CO2 emission performance rates or
state CO2 emission goal. The report is not required to include a
comparison for the interim step 3 period, but must include the
actual emissions from affected EGUs during the interim step 3
period. Beginning with the final period of 2030 and onward,
states using a state measures plan must submit a biennial report
no later than July 1 following the end of each reporting period
with an emission performance comparison for each reporting
period, consistent with the reporting requirements for emission
standards plans.
In the June 2014 proposal, the EPA proposed that a state
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report is due to the EPA no later than July 1 of the year
immediately following the end of each reporting period. The EPA
requested comment on the appropriate frequency of reporting of
the different proposed reporting elements, considering both the
goals of minimizing unnecessary burdens on states and ensuring
program effectiveness. In particular, the agency requested
comment on whether full reports containing all of the elements
should only be required every 2 years rather than annually and
whether these reports should be submitted electronically, to
streamline transmission.
The EPA mainly received adverse comments for requiring
annual state reporting; commenters stated that this requirement
was too burdensome for both states and the EPA. Commenters also
requested that the EPA extend the due date of the annual report
from July 1 to at least December 31. Commenters stated that
because of the timing of current data collection and the need to
leave time to organize and submit the reports, allowing only 6
months after the close of the year is problematic. Commenters
asked that the EPA consider reducing the amount of data required
if annual reporting was required.
Considering the comments received and the goals of
minimizing unnecessary burdens on states and ensuring program
effectiveness, the EPA has reduced the frequency of reporting of
emissions data to every 3 years for the first two interim steps
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and every 2 years thereafter. However, the EPA is finalizing
that state reports are due to the EPA no later than July 1
following the end of each reporting period. The EPA believes
states can design their state plans to receive the data and
information needed for these reports in a timely manner so that
this requirement can be met. Furthermore, some of the state
reporting requirements, such as reporting of EGU emissions, can
be met through existing reporting mechanisms (ECMPS) and would
not place additional burdens on states.
3. Consequences if actual emission performance does not meet the
CO2 emission performance rates or state CO2 emission goal
The EPA recognizes that, under certain scenarios, an
approved state plan might fail to achieve a level of emission
performance that meets the emission guidelines or the level of
performance established in a state plan for an interim
milestone. Despite successful implementation of certain types of
plans, emissions under the plan could turn out to be higher than
projected at the time of plan approval because actual conditions
vary from assumptions used when projecting emission performance.
Emissions also could theoretically exceed projections because
affected entities under a state plan did not fulfill their
responsibilities, or because the state did not fulfill its
responsibilities.
The final rule specifies the consequences in the event that
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actual emission performance under a state plan does not meet, or
is not on track to meet, the applicable interim and interim step
CO2 emission performance rates or state goals in 2022–2029, or
does not meet the applicable final CO2 emission performance rates
or state CO2 emission goal in 2030–2031 or later. The
determination that a state is not on track to meet the
applicable interim goal or interim step goals in 2022–2029 or
the applicable final goal in 2030–2031 or later, or the CO2
emission performance rates, will be made through the actual
performance checks to be included in state reports of
performance data described in section VIII.D.2.a above.
For emission standards plans, the final rule specifies that
corrective measures must be enacted once triggered. Corrective
measures apply only to emission standard plans in which full
compliance by affected EGUs would not necessarily lead to
achievement of the emission performance rates or CO2 emission
goals.852 For such plans, corrective measures are triggered if
actual CO2 emission performance by affected EGUs is deficient by

852

To be specific, corrective measures requirements apply to all
emission standard plan designs that do not mathematically assure
that the plan performance level will be achieved when all
affected EGUs are in compliance with their emission standards,
regardless of electricity production and electricity
mix. Corrective measures requirements apply, for example, to
emission standards plans that include standards on affected EGUs
that differ from the emission performance rates in the
guidelines. Backstop requirements apply to state measures plans.
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10 percent or more relative to the specified level of emission
performance in the state plan for the step 1 or step 2 interim
performance periods. Corrective measures also are triggered if
actual emission performance fails to meet the specified level in
the plan for the 8-year interim period 2022-2029, or for any 2year final goal performance period (beginning in 2030). In such
cases, the state report must include a notification to the EPA
that corrective measures have been triggered. If, in the event
of such an exceedance, the EPA determines that corrective
measures have been triggered and the state has failed to notify
the EPA, the EPA will inform the affected EGUs that corrective
measures have been triggered.853
When corrective measures are triggered, if the state plan
does not already contain corrective measures, the state must
submit to the EPA a plan revision including corrective measures
that adjust requirements or add new measures. The corrective
measures must both ensure future achievement of the CO2 emission
performance rates or state CO2 emission goal and achieve
additional emission reductions to offset any emission
performance shortfall that occurred during a performance period.
The shortfall must be made up as expeditiously as practicable.

853

The EPA notes that as part of the proposed federal plan
rulemaking, it is proposing a regulatory mechanism to call plans
in the instances of substantial inadequacy to meet applicable
requirements or failure to implement an approved plan.
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The state plan revision submission must explain how the
corrective measures both make up for the shortfall and address
the state plan deficiency that caused the shortfall. The state
must submit the revised plan to the EPA as expeditiously as
practicable and within 24 months after submitting the state
report indicating the exceedance. The 24-month time period
allows time to identify corrective measures and make rule
changes through state regulatory processes. The EPA will then
act on the plan revision within 12 months, consistent with other
plan revisions and with the timing for final plan submittals
originally submitted by states. The state must implement
corrective measures within 6 months of the EPA’s approval of a
plan revision adding them.
For states using the state measures approach, the EPA is
finalizing the backstop requirement as described in section
VIII.C.3 of this preamble. As discussed in section VIII.D.2, the
determination that a state using the state measures approach is
not on track to meet the applicable interim goal or interim step
goals in 2022–2029, or the applicable final goal in 2030–2031 or
later, is based on checks that must be included in state reports
that must be submitted annually during the interim period and
biennially during the final period. The state must annually
report on its progress in meeting its programmatic milestones
during the interim period. In addition, the state must report
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actual emission performance checks, similar to the requirements
discussed above for emission standards plans, in 2025, 2028,
2030, and every 2 years thereafter. If, at the time of the state
report to the EPA, the state did not meet the programmatic
milestones for the reporting period, or the performance check
shows that the plan’s actual CO2 emission performance warrants
implementation of backstop requirements,854 the state must
include in the state report a notification to the EPA that the
backstop has been triggered. If, in the event of such an
exceedance, the EPA determines that the backstop has been
triggered and the state has failed to notify the EPA, the EPA
will inform the affected EGUs that the backstop has been
triggered.855
For multi-state plans, corrective measure or backstop
provisions would be required for the same plan approaches for
which those provisions are required in individual state plans.

854

As explained in section VIII.C.3.b., state measures plans must
require the backstop to take effect if actual CO2 emission
performance fails to meet the level of emission performance
specified in the plan over the 8-year interim performance period
(2022-2029), or for any 2-year final goal performance period.
The plan also must require the backstop to take effect if actual
emission performance is deficient by 10 percent or more relative
to the performance levels that the state has chosen to specify
in its plan for the interim step 1 period (2022-2024) or the
interim step 2 period (2025-2027).
855 The EPA notes that as part of the proposed federal plan
rulemaking, it is proposing a regulatory mechanism to call plans
in the instances of substantial inadequacy to meet applicable
requirements or failure to implement an approved plan.
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For multi-state plans using plan approaches to which corrective
measures or backstop requirements apply, all states that are
party to the multi-state plan would be subject to corrective
action or backstop requirements, and requirements to make up the
past CO2 emission performance shortfall, if those requirements
were triggered. This is because multi-state plans are joint
plans (even if created through separate state submittals). That
would not be the case for coordinated individual state plans
linked through interstate ERC or emission allowance trading. In
the case of coordinated individual state plans, for plan types
subject to corrective measure or backstop requirements, the
state where the CO2 emission performance deficiency occurs would
be required to implement corrective measures or backstop
requirements for affected EGUs, as applicable, and remedy the
past CO2 emission performance shortfall.
Multiple commenters requested that corrective measures not
be required in the case of a catastrophic, uncontrollable event.
We recognize that there are potential system emergencies that
cannot be anticipated that could cause a severe stress on the
electricity system for a length of time such that the multi-year
requirements in a state plan may not be achievable by certain
affected EGUs without posing an otherwise unmanageable risk to
reliability. We are finalizing a reliability safety valve, which
includes an initial period of up to 90 days during which a
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reliability-critical affected EGU or EGUs will not be required
to meet the emission standard established for it under the state
plan but rather will meet an alternative standard. While the
initial 90-day period is in use, the emissions of the affected
EGU or EGUs that exceed their obligations under the approved
state plan will not be counted against the state’s overall goal
or emission performance rate for affected EGUs and will not be
counted as an exceedance that would otherwise trigger corrective
measures under an emission standard plan type or an exceedance
that would trigger a backstop under a state measures plan type.
Use of the reliability safety valve will not alter or abrogate
any other obligations under the approved state plan. After the
initial period of up to 90 days, the reliability-critical
affected EGU is required to continue to operate under the
original state plan emission standard or an alternative standard
as part of the reliability safety valve, and the state must
revise its plan to accommodate changes needed to respond to
ongoing reliability requirements and to ensure than any
emissions excess of the applicable state goals or performance
rates occurring after the initial period of up to 90 days are
accounted for and offset. See section VIII.G.2.e of this
preamble.
Multiple commenters supported the inclusion of strong
enforcement measures for ensuring the interim and final goals
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are met, including the required use of corrective measures when
triggered. Other commenters provided feedback as to the
percentage that actual emission performance would need to exceed
the level of emission performance specified in the statewide
plan to trigger corrective measures. Some commenters supported
the trigger that we are finalizing (actual emissions or emission
rate performance that is 10 percent or more than the specified
level of emission performance in the state plan for the interim
step 1 or step 2 performance periods), while some recommended a
lower or higher trigger.
The agency is finalizing the trigger at the level of 10
percent for the interim step 1 or step 2 performance periods.
Ten percent is a reasonable level to ensure that when
deficiencies in state plan performance begin to emerge,
corrective measures (or backstop requirements) will be
implemented promptly to avoid emissions shortfalls (or minimize
the extent of shortfalls) relative to the 8-year interim goal
and the final goal, which reflect the BSER. The 10 percent
figure also provides latitude for a state’s emission improvement
trajectory during the interim period to deviate a bit from its
planned path without triggering these requirements, as the state
initiates or ramps up programs to meet the 8-year interim goal
and final goal.
The EPA requested comment on whether the agency should
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promulgate a mechanism under CAA section 111(d) similar to the
SIP call mechanism in CAA section 110. Under this approach,
after the agency makes a finding of the plan’s failure to
achieve the CO2 emission performance rates or state CO2 emission
goal during a performance period, the EPA would require the
state to cure the deficiency with a new plan within a specified
period of time. If the state still lacked an approved plan by
the end of that time period, the EPA would have the authority to
promulgate a federal plan under CAA section 111(d)(2)(A). 79 FR
34830, 34908/1-2 (June 18, 2014).
The EPA intends that planned revisions to the part 60
implementing regulations will clarify (among other things)
whether the EPA has authority to call for plan revisions under
section 111(d) when a state’s plan is not complying with the
requirements of this guideline, and if so, precisely what
procedures should apply. The EPA is proposing these revisions to
the 111(d) implementing regulations in the notice of proposed
rulemaking for the federal plan. The EPA is not taking final
action now on this issue or the related change to the
implementing regulations.
a. Legal basis for corrective measures. The EPA discussed the
concept of corrective measures in our 1992 General Preamble for
the Implementation of Title I of the CAA Amendments of 1990. 57
FR 13498 (Apr. 16, 1992). The General Preamble sets out four
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general principles that apply to all SIPs, “including those
involving emissions trading, marketable permits and allowances.”
Id. at 13568. The fourth principle, accountability, means (among
other things) that “the SIP must contain means … to track
emission changes at sources and provide for corrective action if
emissions reductions are not achieved according to the plan.” In
the General Preamble, we noted that Part D of Title I explicitly
provided for this in certain instances by requiring milestones
and contingency measures.
Some commenters noted that the contingency measures
explicitly required by part D are required to be adopted in the
attainment plan and ready to implement when a milestone is not
achieved or the area fails to attain the relevant NAAQS. These
commenters therefore concluded that corrective measures for
111(d) plans should likewise already be adopted in the 111(d)
plan and ready to implement. We disagree. Under Part D,
contingency measures are not expected to fully bring the area
into attainment. In fact, this would not be possible given the
difficulty of predicting in advance exactly what measures would
be needed to fully attain. A better analogue in Part D for the
corrective measures in these guidelines is the primary way Part
D addresses failure to attain: the state is required to revise
its plan in various ways within a certain time in order to bring
about attainment. See, e.g., section 179(d). This is analogous
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to what we are requiring for corrective measures. Thus, part D
contingency measures are unlike the corrective measures in this
rule.
However, the requirement to revise an attainment plan in
response to failure to attain differs somewhat from the
corrective measures in these guidelines. Under these guidelines,
the corrective measures must make up the difference by which the
plan fell short of the goal, including any prior shortfall that
had accumulated if the plan fell short of the goal in prior
years. There is no corresponding requirement in attainment
planning to increase the stringency of the plan by an amount
that somehow makes up for any shortfall in attainment from prior
years; instead the revised plan must demonstrate attainment
going forward, and other more stringent requirements (such as
requirements for best available control measures) may be
triggered.
This distinction is the natural result of the difference
between these guidelines and NAAQS attainment planning. In this
case, we are finalizing guidelines representing technology-based
standards for a pollutant with cumulative and long-lasting
effects. If a plan falls short of a performance goal, then in
effect the standards of performance in the plan have failed to
reflect the BSER over the corresponding period. Due to the
cumulative effects of CO2, it is possible to remedy this failure
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by requiring the plan to be revised in such a way that the
standards of performance in the revised plan will reflect the
BSER over the cumulative plan period, and this can be done by
requiring the revised plan to make up the shortfall from the
previous period. In short, the flexibility that these guidelines
provide should not come at the cost of allowing the standards of
performance to reflect less than the BSER over the long run.856
Some commenters noted that 111(d) does not contain explicit
provisions regarding corrective measures, and they therefore
inferred that the EPA is not authorized to require them. That
inference is mistaken. The requirement for 111(d) plans to
“provide for implementation and enforcement” of the standards of
performance is ambiguous and does not directly speak to whether
corrective measures should or should not be required. There is
therefore a gap for the EPA to fill. While the discussion above
about Part D does not independently provide any authority to
fill this gap, the fact that Congress created a scheme with
stages of planning in Part D suggests that it would be
reasonable, if appropriate, to fill this gap in 111(d) in a
similar way.
In this guideline, it is appropriate for emission standards

856

Similar considerations apply to the requirement under the
state measures approach to revise the plan to make up the
shortfall.
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plans to fill this gap with corrective measures if triggered.
There are two ways an emission standards plan can provide for
implementation of standards of performance that achieve the CO2
emission performance rates or requisite state CO2 emission
performance goal. First, the state can set emission standards
that necessarily achieve the performance rates or goal, even if
the affected EGUs in the future vary in their relative amounts
of electricity generated. Second, the state can set emission
standards that are demonstrated to achieve the performance rates
or goal based on assumptions about the relative amounts of
electricity generated, but which may turn out to not actually
achieve the goal even if all affected EGUs comply. This is
analogous to an attainment plan that demonstrated attainment by
the applicable attainment date, but due to unpredicted economic
changes actually failed to attain. In this second case, the EPA
interprets the ambiguous language “provide for implementation .
. . of standards of performance” in the context of achieving the
performance rate or emissions goal, to mean that at the time the
plan is submitted it must contain some mechanism to check the
progress of the plan and correct course. The EPA has determined
that, for this particular rule, the minimum mechanism is the set
of milestones and provisions for corrective measures specified
in this rule. Indeed, not requiring corrective measures in the
case of deficient plan performance would undercut the viability
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of state plan options other than emission standard plans with
uniform rates applied to all affected EGUs within the state.
4. Out-year requirements: Maintaining or improving the level of
emission performance required by the emission guidelines
The agency is determining CO2 emission performance rates and
state CO2 emission goals for affected EGU emission performance
based on application of the BSER during specified time periods.
This raises the question of whether affected EGU emission
performance should be maintained at the 2030 level – or instead
should be further improved - once the final CO2 emission
performance rate or state CO2 emission goal is met in 2030. This
involves questions of performance rate and goal-setting as well
as questions about state planning. The EPA believes that
Congress either intended the emission performance improvements
required under CAA section 111(d) to be maintained or, through
silence, authorized the EPA to reasonably require maintenance.
Other CAA section 111(d) emission guidelines set emission limits
that do not expire. Therefore, the EPA is finalizing that the
level of emission performance for affected EGUs represented by
the final CO2 emission performance rates or state CO2 emission
goal must continue to be maintained in the years after 2030.
As noted above, the state plan must demonstrate that plan
measures are projected to achieve the final emission performance
level by 2030. In addition, the state plan must identify
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requirements that continue to apply after 2030 and are likely to
maintain affected EGU emission performance meeting the final
goal. The state plan would be considered to provide for
maintenance of emission performance consistent with the final
goal if the plan measures used to demonstrate projected
achievement of the final goal by 2030 will continue in force and
not sunset. After implementation, the state is required to
compare actual plan performance against the final goal on a 2year average basis starting in 2030, and to implement corrective
measures or a backstop if triggered.
In the proposal, the EPA noted that “CAA section
111(b)(1)(B) calls for the EPA, at least every eight years, to
review and, if appropriate, revise federal standards of
performance for new sources” in order to assure regular updating
of performance standards as technical advances provide
technologies that are cleaner or less costly. The proposal
“requests comment on the implications of this concept, if any,
for CAA section 111(d).” 79 FR 34830, 34908/3 (June 18, 2014).
We acknowledge the obligation to review section 111(b)
standards as stated. The EPA is not finalizing any position with
respect to any implications of this concept for section 111(d).
We are promulgating rules for section 111(d) state plans that
will establish standards of performance for existing sources to
which a section 111(b) standard of performance would apply if
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such sources were new sources, within the definition in section
111(a)(2) of “new source.” It is not necessary to address at
this time whether subsequent review and/or appropriate revision
of the corresponding section 111(b) standard of performance have
any implications for review and/or revision of this rule.
a. Legal basis for maintaining emission performance. In the
proposal, the EPA proposed “that the level of emission
performance for affected EGUs represented by the final goal
should continue to be maintained.” The EPA explained that
“Congress either intended the emission performance improvements
required under CAA section 111(d) to be permanent or, through
silence, authorized the EPA to reasonably require permanence.
Other CAA section 111(d) emission guidelines set emission limits
to be met permanently.” 79 FR 34830, 34908/2 (June 18, 2014). We
also requested comment on whether “we should establish BSERbased state performance goals that extend further into the
future (e.g. beyond the proposed planning period), and if so,
what those levels of improved performance should be.” Id. at
34908/3.
We received adverse comment on establishing BSER-based
state performance goals beyond the proposed planning period.
Commenters argued that we did not have a sufficient basis at
this time to determine what those future goals should be. We
agree and have decided not to establish such goals. We are
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finalizing, though, that the level of emission performance for
affected EGUs represented by the final goal should continue to
be maintained, for the reasons given in our proposal and quoted
above.
The general structure of the CAA supports our
interpretation. Section 111(d) plans establish standards of
performance that reflect the BSER, a technology-based standard.
Generally speaking, in the future technology will only improve,
and correspondingly the CAA does not provide explicit processes
to relax technology-based standards. In contrast, the provisions
in Part D of title I that address attainment of health-based
standards, the NAAQS, explicitly provide that once the NAAQS are
attained, emission reduction measures may be relaxes so long as
the NAAQS are maintained. The absence in section 111(d) of
explicit provisions for future relaxation of emission reduction
measures, as compared to Part D, supports our interpretation
that the emission reductions continue to be on-going after the
CO2 emission performance rates or state CO2 emission goals are
achieved in 2030. This is consistent with our past practice for
section 111(d) rules, which do not contain any provision that in
the future removes or relaxes the promulgated guidelines. In
light of the persistence of CO2 as a pollutant and its long-term
impacts, it is particularly critical in these guidelines to
explicitly provide for continuing emission reductions.
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G. Additional Considerations for State Plans
1. Consideration of a facility’s “remaining useful life” and
“other factors”
This section discusses the way in which the final emission
guidelines address the CAA section 111(d)(1) provision requiring
the Administrator, in promulgating 111(d) regulations, to
“permit the State in applying a standard of performance to any
particular source under a [111(d)] plan . . . to take into
consideration, among other factors, the remaining useful life of
the existing source to which such standard applies.”
The final guidelines permit a state, in developing its
state plan, to fully consider and take into account the
remaining useful life of an affected EGU and other factors in
establishing the requirements that apply to that EGU, as
discussed further below. Therefore, consideration of facilityspecific factors and in particular, remaining useful life, does
not justify a state making further adjustments to the
performance rates or aggregate emission goal that the guidelines
define for affected EGUs in a state and that must be achieved by
the state plan. Thus, these guidelines do not provide for states
to make additional goal adjustments based on remaining useful
life and other facility-specific factors because they can fully
consider these factors in designing their plans.
a. Statutory and regulatory backdrop. This section describes the
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statutory and existing regulatory background concerning
facility-specific considerations in implementation of section
111(d).
Section 111(d)(1)(A) requires states to submit a plan that
“establishes standards of performance” for existing sources.
Under section 111(d)(1)(B), the plan must also “provide for
implementation and enforcement of such standards of
performance.” Finally, the last sentence of section 111(d)(1)
provides: “Regulations of the Administrator under this paragraph
shall permit the State in applying a standard of performance to
any particular source under a plan submitted under this
paragraph to take into consideration, among other factors, the
remaining useful life of the existing source to which such
standard applies.”
The EPA’s 1975 implementing regulations857 addressed a
number of facility-specific factors that might affect
requirements for an existing source under section 111(d). Those
regulations provide that for designated pollutants, standards of
performance in state plans must be as stringent as the EPA’s
emission guidelines. Deviation from the standard might be
appropriate where the state demonstrates with respect to a
specific facility (or class of facilities):
(1)
857

Unreasonable cost of control resulting from plant

40 FR 53340 (Nov. 17, 1975).

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age, location, or basic process design;
(2) Physical impossibility of installing necessary
control equipment; or
(3) Other factors specific to the facility (or class
of facilities) that make application of a less stringent
standard or final compliance time significantly more
reasonable.
This provision was amended in 1995 (60 FR 65387, December
19, 1995), and is now prefaced with the language “Unless
otherwise specified in the applicable subpart on a case-bycase basis for particular designated facilities or classes
of facilities.” 40 CFR 60.24(f).
b. Our proposal regarding the implementing regulations. Our
proposal stated that the reference to “[u]nreasonable cost
of control resulting from plant age” in 60.24(f)
“implements” the statutory provision on remaining useful
life. We also stated that the implementing regulations
“provide the EPA’s default structure for implementing the
remaining useful life provision of CAA section 111(d).” We
noted that the prefatory language “unless otherwise
specified in the applicable subpart” gives the EPA
discretion to alter the extent to which the implementing
rules applied if appropriate for a particular source
category and guidelines. We requested comment on our
analysis of the existing implementing regulations and any
implications for our regulatory text in respect to how

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these guidelines relate to those regulations.
Commenters stated, among other things, that the sentence
concerning “remaining useful life” was added in the 1977 CAA
Amendments and that therefore it could not be said that
provisions from the 1975 implementing regulations “implement”
the sentence. The EPA does not think as a general matter that it
is necessarily impossible that a pre-statutory amendment rule
could continue to serve as a reasonable implementation of a
post-statutory amendment provision. However, we also think it is
appropriate, as we suggested in the June 2014 proposal, to
specify in the applicable subpart for these guidelines that the
provisions in 60.24(f) should not apply to the class of
facilities covered by these guidelines. As a result, regardless
of whether the implementing regulations appropriately implement
the “remaining useful life” provision in general, the relevant
consideration is that, as we now explain, these particular
guidelines “permit the State in applying a standard of
performance to any particular source under a plan submitted
under this paragraph to take into consideration, among other
factors, the remaining useful life of the existing source to
which such standard applies.”
c. How these emission guidelines permit states to consider
remaining useful life and other facility-specific factors. The
EPA notes that, in general, the implementing regulation
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provisions for remaining useful life and other facility-specific
factors are relevant for emission guidelines in which the EPA
specifies a presumptive standard of performance that must be
fully and directly implemented by each individual existing
source within a specified source category. Such guidelines are
similar to a CAA section 111(b) standard in their form. For
example, the EPA emission guidelines for sulfuric acid plants,
phosphate fertilizer plants, primary aluminum plants, Kraft pulp
plants, and municipal solid waste landfills specify emission
limits for sources.858 In the case of such emission guidelines,
some individual sources, by virtue of their age or other unique
circumstances, may warrant special accommodation.
In these final guidelines for state plans to limit CO2 from
affected EGUs, however, the agency does not specify presumptive
performance rates that each individual EGU is to achieve in the
absence of trading. Instead, these guidelines provide collective
performance rates for two classes of affected EGUs (steam

858

See “Phosphate Fertilizer Plants; Final Guideline Document
Availability,” 42 FR 12022 (Mar. 1, 1977); “Standards of
Performance for New Stationary Sources; Emission Guideline for
Sulfuric Acid Mist,” 42 FR 55796 (Oct. 18, 1977); “Kraft Pulp
Mills, Notice of Availability of Final Guideline Document,” 44
FR 29828 (May 22, 1979); “Primary Aluminum Plants; Availability
of Final Guideline Document,” 45 FR 26294 (Apr. 17, 1980);
“Standards of Performance for New Stationary Sources and
Guidelines for Control of Existing Sources: Municipal Solid
Waste Landfills, Final Rule,” 61 FR 9905 (Mar. 12, 1996).
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generating units and stationary combustion turbines), and give
states the alternative of developing plans to achieve a state
emission goal for the collective group of all affected EGUs in a
state. Providing states with the ability to consider facilityspecific factors such as remaining useful life in designing
their state plans is one of the fundamental reasons that the EPA
designed the final rule in this way. In addition, the
significant revisions since proposal to address achievability
concerns (e.g., moving the start date from 2020 to 2022, and
other changes in interim and final state goals summarized in the
next section) will help to ensure that states in practice can
consider remaining useful life and other facility-specific
factors in setting EGU requirements. Of course, EGUs vary
considerably in age, so remaining useful life is potentially
relevant to regulation of some units and not others.
The guidelines capitalize on the inherent flexibility
offered by the CO2 emission performance rates and by the state
CO2 emission goals approach, allowing states flexibility on the
form of the EGU standards that they include in CAA section
111(d) plans. A state could select a form of standards (e.g.,
marketable credits or permits, retirement of certain older
facilities after their useful life, etc.) that avoids or
diminishes concerns about facility-specific factors such as
remaining useful life. If a state adopted the CO2 emission
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performance rates for fossil fuel-fired electric utility steam
generating units and stationary combustion turbines in
conjunction with rate-based trading, though, the state would be
taking remaining useful life into consideration by allowing
affected EGUs to comply using ERCs. In effect, under a trading
program with repeating compliance periods, a facility with a
short remaining useful life has a total outlay that is
proportionately smaller than a facility with a long remaining
useful life, simply because the first facility would need to
comply for fewer compliance periods and would need
proportionately fewer ERCs than the second facility. Buying ERCs
would avoid excessive up-front capital expenditures that might
be unreasonable for a facility with a short remaining useful
life, and would reduce the potential for stranded assets.
In addition to providing states with flexibility on the
form of the standards of performance in their plans, the
guidelines leave to each state the design of the specific
requirements that fall on each affected EGU in applying those
standards. To the extent that an emission standard that a state
may wish to adopt for affected EGUs raises facility-specific
issues, the state may make adjustments to a particular
facility’s requirements on facility-specific grounds, so long as
any such adjustments are reflected (along with any necessary
compensating emission reductions to meet the state goal) in the
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state’s CAA section 111(d) plan submission.
Finally, we note that these guidelines permit states to use
a rate or mass CO2 emission goal, and that each of these pathways
allow states multiple design choices. Under either pathway
states can take into consideration remaining useful life and
seek to avoid stranded assets.
The EPA believes that this approach to permitting states to
consider remaining useful life is appropriate because it
reflects, and is compatible with, the interconnected nature of
the electricity system.
Although this discussion emphasizes state flexibility on
plan design, it is important to note that the main intended
beneficiaries of state flexibility are the affected EGUs
themselves. As a key case in point, the EPA has endeavored to
craft the final guidelines to support and facilitate state plans
that include trading systems, including interstate trading
systems that can help EGUs continue to operate with the
flexibility that they currently enjoy on regional grid levels.
Trading can provide affected EGUs that have a limited
remaining useful life with the flexibility to comply through
purchasing allowances or ERCs, thereby avoiding major capital
expenditures that would create long-term debt. By buying
allowances or ERCs, affected EGUs with a limited remaining
useful life contribute to achieving emission reductions from the
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source category during the years that they operate. During its
lifetime, a facility with a short remaining useful life will
need fewer total credits or allowances than an otherwise
comparable facility with a long remaining useful life, but the
annualized cost to the two facilities is the same.859
In part to help states address remaining useful life
considerations, the final guidelines facilitate state plans that
employ trading in multiple ways:


By allowing trading under emission standards plans and
state measures plans, and under rate-based plans and
mass-based plans;



By defining national EGU performance rates that make it
easier for states to set up rate-based trading regimes
that allow for interstate trading of ERCs;



By clearly defining the requirements for mass-based and
rate-based trading systems to ensure their integrity; and



By providing information on potential allocation
approaches for mass-based trading.

In addition, the EPA is separately proposing model trading rules

859

Trading of course has other benefits beyond helping to
address remaining useful life concerns. For example, trading can
lower costs of achieving a given level of emission reduction and
can provide economic incentives for innovation and development
of cleaner technologies.
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for rate-based and mass-based trading to assist states with
design of these programs in the section 111(d) context.
d. Why remaining useful life and other facility-specific factors
do not warrant adjustments in the guidelines’ performance rates
and state goals. Under the final guidelines, remaining useful
life and other facility-specific considerations do not provide a
basis for adjusting the CO2 emission performance rates, or the
state’s rate-based or mass-based CO2 emission goals, nor do they
affect the state’s obligation to develop and submit an
approvable CAA section 111(d) plan that adopts the CO2 emission
performance rates or achieves the goal by the applicable
deadline. After considering public comments discussed below and
in the response to comments document, the EPA has retained this
aspect of the proposed rule for the reasons described below.
As noted above, the final guidelines provide aggregate
emission goals for affected EGUs in each state, in addition to
the CO2 emission performance rates. The guidelines also reflect a
number of changes from proposal to address concerns about
achievability of proposed state goals that were raised in public
comments, many of which were explicitly prompted by
consideration of the remaining useful life issue. The result is
to afford states with broad flexibility to design requirements
for affected EGUs to achieve the CO2 emission performance rates
or state CO2 emission goals in ways that avoid requiring major
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capital expenditures, or imposing unreasonable costs, on those
affected EGUs that have a limited remaining useful life. State
plans may use any combination of the emissions reduction methods
represented by the building blocks, and may also choose to
employ emission reduction methods that were not assumed in
calculating state goals.
To be more specific, the EPA notes that a state is not
required to achieve the same level of emission reductions with
respect to any one building block as assumed in the EPA’s BSER
analysis. A state may use any combination of measures, including
those not specifically factored into the BSER by the EPA. The
EPA has estimated reasonable rather than maximum possible
implementation levels for each building block in order to
establish EGU emission rates and state goals that are achievable
while allowing states to take advantage of the flexibility to
pursue some building blocks more aggressively, and others less
aggressively, than is reflected in the agency’s computations,
according to each state’s needs and preferences. The guidelines
provide further flexibility by allowing state plans to use
emission reduction methods not reflected in the BSER. A
description of multiple emission reduction methods is provided
in sections VIII.I-K.
e. Response to key comments on remaining useful life. In
response to the proposed guidelines, some commenters said that
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the proposed state goals were unachievable and therefore too
stringent to provide states, as a practical matter, with the
flexibility to consider remaining useful life for individual
units. These commenters said the result would be premature
retirements and stranded assets.
In the final guidelines, the EPA has addressed the comments
about lack of practical flexibility to consider remaining useful
life by revising key elements of the guidelines in ways that
will ensure that the CO2 emission performance rates and state CO2
emission goals are achievable considering cost. At the same
time, the final guidelines maintain the broad flexibility of
each state to design its own compliance pathway, taking into
account any facility-level concerns – including remaining useful
life – in designing EGU requirements.
The changes to the BSER and goal-setting methodologies
include:


Starting the interim goal period in 2022 rather than
2020, which allows more lead time for states and
regulated entities and helps to ensure that the interim
goal is achievable



Revising the goal-setting formula and the state goals
themselves



Updating analyses of achievable levels of improvement

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through the building blocks that together represent the
BSER, while keeping them at reasonable, rather than
maximum, levels (thus creating headroom which can, and is
intended to, help to accommodate the range of ages of
different facilities)


Providing an explicit phase-in schedule for meeting the
revised interim goals, while also allowing a state the
option of choosing its own emission reduction trajectory

The final guidelines also contain changes to avoid certain
inconsistencies between the goal-setting methodology and
accounting of reductions under state plans that could have made
state goals less achievable for some states.
Together, the changes described above help to ensure that
the CO2 emission performance rates and state CO2 emission goals
established in the final guidelines are achievable, and leave
states with the practical ability to issue rules that take into
account the remaining useful life of affected EGU.
As explained in the Legal Memorandum accompanying this
rule, the EPA believes that Congress intended the remaining
useful life provision to provide a mechanism for states to avoid
the imposition of unreasonable retrofit costs on existing
sources with relatively short remaining useful lives, a scenario
that could result in stranded assets. However, commenters on the
proposed rule raised a different stranded assets concern not
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primarily related to retrofit costs -- a concern that the
proposed rule could cause changes in economic competitiveness of
particular EGUs that would prompt their retirement before the
end of their economically useful lives. These commenters said
the proposed state goals were so stringent that states would
have no choice but to adopt requirements that would result in
retirements of coal-fired capacity that had been built
relatively recently or had recently made pollution control
investments. In response to these comments, the EPA has
conducted a stranded assets analysis which demonstrates that the
CO2 emission performance rates and state goals in the final
guidelines provide sufficient flexibility to states to address
stranded asset concerns. The EPA shares the goal of minimizing
stranded assets. Although nothing in section 111(d) explicitly
bars a guideline that results in some facilities becoming
uneconomic before the end of their useful lives, the EPA
nonetheless has striven to design the guidelines so as to give
states flexibility to develop plans that include, for example,
differential treatment of affected EGUs or opportunities to rely
on emissions trading, to allow power companies to recover their
investments in generation units.
For purposes of the stranded assets analysis, the EPA
considered a potential “stranded asset” to be an investment in a
coal-fired EGU (or in a capital-intensive pollution control
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installed at such an EGU) that retires before it is fully
depreciated. Book life is the period over which long-lived
assets are depreciated for financial reporting purposes. The
agency estimated typical book life by researching financial
statements of utility and merchant generation companies in
filings to the Securities and Exchange Commission. The agency
estimated the book life of coal-fired EGUs to be 40 years, and
assumed a 20-year book life for pollution control retrofits. The
book life of coal-fired EGUs (coal steam and IGCC) is twice as
long as the debt life and the depreciation schedule used for
federal tax purposes. Although the book life for environmental
retrofits is often 15 years, the agency conservatively assumed
20 years in this analysis.
The analysis examined coal generation in the three large
regional interconnections of the U.S. The analysis found that in
both 2025 and 2030, for each region, the amount of 2012 coal
generation included in the final guidelines’ emission
performance rate calculation -- specifically, the generation
remaining after the BSER calculation -- is greater than the
amount of 2012 generation from coal-fired EGUs that are not
fully depreciated in those years under the book life assumptions
described above. This shows that the final rule allows
flexibility for states to preserve these units as part of their
plans.
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To put this analysis in perspective: The EPA’s role is to
set emission guidelines that meet the statutory requirements,
which includes consideration of cost in identifying the BSER, as
the EPA has done in these guidelines. States have a broad degree
of flexibility to design plans to achieve the rates in the
emission guidelines in a manner that meets their policy
priorities, including ensuring cost-effective compliance.
Although not a required component of the EPA’s consideration of
cost, this analysis shows that the CO2 emission performance rates
in the final guidelines can be met without the retirement of
affected EGUs before the end of their book life, and without the
retirement of affected EGUs before the end of the book life of
capital-intensive pollution control retrofits installed on those
EGUs. Thus, according to this analysis, the CO2 emission
performance rates and state CO2 emission goals need not result in
stranded assets. The EPA recognizes that power plant economics
are determined by many aspects of markets that are outside of
the EPA’s control, such as wholesale power prices and capacity
prices, and that the compliance path of least cost may involve
retiring assets that have not fully depreciated. Nonetheless,
this analysis further demonstrates the extent of flexibility
available to states in designing their plans to best serve the

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policy priorities of the state. Details are available in a memo
to the docket.860
Several commenters said that the statute does not authorize
the EPA to require other facilities to achieve greater
reductions to compensate for a facility that warrants relief
based on remaining useful life. One said that consideration of
remaining useful life and other relevant factors is a one-way
ratchet that provides relief to sources that cannot achieve the
BSER, and that the EPA turns that approach on its head by
prohibiting a state from providing such relief to a specific
facility unless it can identify another facility to “punish” by
requiring additional emissions reductions to offset that relief.
The EPA disagrees with these comments, which proceed from
an incorrect premise. The EPA is not determining a BSER-based
emission level achievable by each individual facility without
trading, and then requiring better-than-BSER from some
facilities to make up to worse-than-BSER performance that a
state authorizes for other facilities because of a short
remaining useful life. Rather, as previously noted, the
guidelines set CO2 emission performance rates and state CO2
emission goals that represent the average or aggregate emission

860

Memorandum to Clean Power Plan Docket titled “Stranded Assets
Analysis” dated July 2015.
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level achievable by affected EGUs based on regional average
estimates of the impact of applying the BSER to collective
groupings of affected EGUs.861 In estimating the amount of
improvement achievable through each building block (e.g.,
improvement in heat rate or amount of generation shift to loweremitting EGUs), the EPA has estimated the average level
achievable by EGUs in a region rather than attempting to
estimate the level achievable by each and every affected EGU in
the absence of trading. Thus, the fact that an individual
facility may be unable, for example, to achieve the average
level of heat rate improvement assumed in goal-setting is
consistent with the EPA’s analysis, and does not undermine the
EPA’s determination of CO2 emission performance rates and state
CO2 emission goals. The Legal Memorandum discusses additional
reasons that the agency disagrees with comments that the
guideline must permit adjustments in the guidelines’ CO2 emission
performance rates and state CO2 emission goals based on remaining
useful life considerations.
An additional reason that the EPA believes that

861

The EPA expects that states that choose to adopt the national
CO2 emission performance rates for all of their EGUs would permit
ERC trading, rather than requiring each facility to meet the
applicable rate without trading. In effect, the presence of
trading means that the EGU performance rates will be achieved on
average by the EGUs involved in trading, rather than be achieved
by each facility in the absence of trading.
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consideration of remaining useful life and other facilityspecific factors does not warrant adjustments to state goals is
that the design of the guidelines does not mandate that states
impose requirements that would call for substantial capital
investments at affected EGUs late in their useful life. Multiple
methods are available for reducing emissions from affected EGUs
that do not involve capital investments by the owner/operator of
an affected EGU. For example, generation shifts among affected
EGUs, and addition of new RE generating capacity do not
generally involve capital investments by the owner/operator at
an affected EGU. Additional emission reduction methods available
to states that do not entail significant capital costs at
affected EGUs are discussed elsewhere in this preamble.
Heat rate improvements at affected EGUs do require capital
investments. However, states have flexibility to design their
plan requirements; they are not required to mandate heat rate
improvements at plants that have limited remaining useful life.
In fact, a state can choose whether or not to require heat rate
improvements at all. The agency also notes that capital
expenditures for heat rate improvements would be much smaller
than capital expenditures required for example, for purchase and
installation of scrubbers to remove SO2; a fleet-wide average
cost for heat rate improvements based primarily on best
practices at coal-fired generating units would not likely exceed
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$100/kW, compared with a typical SO2 wet scrubber cost of $500/kW
(costs vary with unit size).862 Even if a state did choose to
adopt requirements for heat rate improvements, the proposed
guidelines would allow states to regulate affected EGUs through
flexible regulatory approaches that do not require affected EGUs
to incur large capital costs (e.g., averaging and trading
programs). Under the EPA’s final approach - establishing state
goals and providing states with flexibility in plan design –
states have flexibility to make exactly the kind of judgments
necessary to avoid requiring capital investments that would
result in stranded assets.
Remaining useful life and other factors, because of their
facility-specific nature, are potentially relevant as states
determine requirements that are directly applicable to affected
EGUs. If relief is due a particular facility, the state has an
available toolbox of emission reduction methods that it can use
to develop a section 111(d) plan that will achieve the CO2
emission performance rates or state CO2 emission goals on time.
The EPA therefore concludes that the remaining useful life of
affected EGUs, and the other facility-specific factors

862

Heat rate improvement methods and related capital costs are
discussed in the GHG Mitigation Measures TSD; SO2 scrubber
capital costs are from the documentation for the EPA’s IPM Base
Case v5.13, Chapter 5, Table 5-3, available at
http://www.epa.gov/airmarkets/documents/ipm/Chapter_5.pdf.
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identified in the existing implementing regulations, should not
be regarded as a basis for adjusting the CO2 emission performance
rates or a state CO2 emission goal, and should not relieve a
state of its obligation to develop and submit an approvable plan
that achieves that goal on time.
f. Legal considerations regarding remaining useful life. Section
111(d)(1) requires the EPA in promulgating section 111(d)
regulations to “permit the State in applying a standard of
performance to any particular source under a plan submitted
under this paragraph to take into consideration, among other
factors, the remaining useful life of the existing source to
which such standard applies.” Here, we discuss the legal basis
for determining that the emission guidelines are consistent with
this statutory requirement. For details, please see the Legal
Memorandum.
Section 111(d)(1) only requires that EPA emission
guidelines permit states to take into account remaining useful
life (among other factors), but section 111(d)(1) does not
specify how the EPA must permit that. In other words, the
meaning of the provision and the way that the EPA is to
implement it in promulgating guidelines are not specified
further in the provision. The provision is ambiguous and capable
of implementation in several ways, and therefore the EPA has
discretion to interpret and apply it. Furthermore, section
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111(d)(1) does not suggest that states must be given carte
blanche to consider remaining useful life in any way that can be
imagined. As detailed above in sections VIII.G.1.c-e, these
guidelines permit states to take into account remaining useful
life in a number of reasonable ways and thus the guidelines
satisfy the statutory obligation.
The phrase “remaining useful life” also appears in the
visibility provisions of section 169A. There, in determining
best available retrofit technology (BART), the state (or the
EPA) must take into consideration (among other factors) “the
remaining useful life of the source.” 42 USC 7491(g)(2); see
also id. (g)(1) (reasonable progress). In the context of the
visibility program, we have interpreted this provision to mean
that the remaining useful life should be considered when
calculating the annualized costs of retrofit controls. See 40
CFR Pt. 51, App. Y, IV.D.4.k.1. This annualized cost is then
used to determine a cost effectiveness, in dollars per ton of
pollutant removed on an annual basis. As a result, a technology
with a large initial capital cost that might have a reasonable
cost-effectiveness for a facility with a long remaining useful
life would have a much higher and possibly unreasonable costeffectiveness for a facility with a short remaining useful life.
Although section 111(d)(1) is different than section
169A(g)(2) and need not be interpreted in the same way, we would
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note (as discussed in detail in sections VIII.G.1.c-e, section
5.11 of the Response to Comments document, and the Legal
Memorandum) that (for example) a trading program under these
section 111(d) guidelines only requires compliance on a periodic
basis and does not require any initial capital expenditures.
Thus, over the life of the facility, a facility with a short
remaining useful life will need fewer total credits or
allowances than an otherwise comparable facility with a long
remaining useful life, but the annualized cost to the two
facilities is the same. In other words, under a trading program
remaining useful life of a source is automatically accounted for
in the way it is accounted for under the visibility program.
Some commenters stated that the EPA’s interpretation of
remaining useful life is impermissible. These commenters claimed
that states, if they wish to take into account remaining useful
life at one affected EGU, must relax the stringency of the
emission standard for that EGU. Then, the state would be
compelled to increase the stringency of emission standards at
other affected EGUs in order to achieve the state performance
goal. According to these commenters, section 111(d) does not
allow this outcome.
First, the commenters are mistaken in their premise. As
discussed in section VIII.G.1, section 5.11 of the Response to
Comments document, the Legal Memorandum, and in the example
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immediately above, states can impose the exact same emission
standards on two affected EGUs and still take into account
remaining useful life through the availability of trading. In
other words, states need not relax an emission standard here and
strengthen an emission standard there in order to take into
account remaining useful life. Thus, these guidelines permit
states to take into account remaining useful life without any of
the effects commenters are concerned about.
Second, even if states decide to relax emission standards
at one EGU, on the basis of remaining useful life or any other
factor, nothing in the last sentence of section 111(d)(1)
prohibits these guidelines from requiring the state plan to
still meet the CO2 emission performance rates or state CO2
emission goal. In fact, that sentence is completely silent on
the issue. Thus, the EPA has the discretion to determine what
should be the concomitant effects if a state chooses to consider
remaining useful life in a particular way. In this case the
concomitant effect of a state relaxing one emission standard may
be that the state must make up for it elsewhere in order to meet
the goal, but nothing in section 111(d)(1), including the
statutory requirement to permit consideration of remaining
useful life, prohibits that outcome.
2. Electric reliability
The final rule features overall flexibility, a long
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planning and implementation horizon, and a wide range of options
for states and affected EGUs to achieve the CO2 emission
performance rates or state CO2 emission goal. This design
reflects, among other things, the EPA’s commitment to ensuring
that compliance with the final rule does not interfere with the
industry’s ability to maintain the reliability of the nation’s
electricity supply. Comments from state, regional and federal
reliability entities, power companies and others, as well as
consultation with the Department of Energy (DOE) and Federal
Energy Regulatory Commission (FERC), helped inform a number of
changes made in this final rule to address reliability. In
addition, FERC conducted one national and three regional
technical conferences on the proposed rule in which the EPA
participated and at which the issue of reliability was raised by
numerous participants.
As discussed throughout the preamble and TSDs, the
electricity sector is undergoing a period of intense change.
While the change in the resource mix has accelerated in recent
years, wind, solar, other RE, and EE resources have been
reliably participating in the electric sector for a number of
years. Many of the potential changes to the electric system that
the final rule may encourage, such as shifts to cleaner sources
of power and efforts to reduce electricity demand, are already
well underway in the electric industry. To the extent that the
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final rule accelerates these changes, there are multiple
features well embedded in the electricity system that ensure
that electric system reliability will be maintained. Electric
system reliability is continually being considered and planned
for. For example, in the Energy Policy Act of 2005, Congress
added a section to the Federal Power Act to make reliability
standards mandatory and enforceable by FERC and the North
American Electric Reliability Corporation (NERC), the Electric
Reliability Organization which FERC designated and oversees.
Along with its standards development work, NERC conducts annual
reliability assessments via a 10-year forecast and winter and
summer forecasts; audits owners, operators, and users for
preparedness; and educates and trains industry personnel.
Numerous other entities such as FERC, DOE, state PUCs,
ISOs/RTOs, and other planning authorities also consider the
reliability of the electric system. There are also numerous
remedies that are routinely employed when there is a specific
local or regional reliability issue. These include transmission
system upgrades, installation of new generating capacity,
calling on demand response, and other demand-side actions.
Additionally, planning authorities and system operators
constantly consider, plan for, and monitor the reliability of
the electricity system with both a long-term and short-term
perspective. Over the last century, the electric industry’s
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efforts regarding electric system reliability have become
multidimensional, comprehensive, and sophisticated. Under this
approach, planning authorities plan the system to assure the
availability of sufficient generation, transmission, and
distribution capacity to meet system needs in a way that
minimizes the likelihood of equipment failure.863 Long-term
system planning happens at both the local and regional levels
with all segments of the electric system needing to operate
together in an efficient and reliable manner. In the short-term,
electric system operators operate the system within safe
operating margins and work to restore the system quickly if a
disruption occurs.864 Mandatory reliability standards apply to
how the bulk electric system is planned and operated. For
example, transmission operators and balancing authorities have
to develop, maintain, and implement a set of plans to mitigate
operating emergencies.865
As the electricity market changes and new challenges
emerge, electric system regulators and industry participants
make changes to how the electric system is designed and operated

863

Casazza, J. and Delea, F., Understanding Electric Power
Systems: An Overview of the Technology, the Marketplace, and
Government Regulations, IEEE Press, at 160 (2010).
864 Id.
865 NERC Reliability Standard EOP-001-2.1b — Emergency Operations
Planning, available at
http://www.nerc.net/standardsreports/standardssummary.aspx.
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to respond to these challenges. For example, expressing
reliability and rate concerns about fuel assurance issues, FERC
recently issued an order requiring ISOs/RTOs to report on the
status of their efforts to address market and system performance
associated with fuel assurance.866 In February of 2015,
Midcontinent Independent System Operator (MISO), California
Independent System Operator Corporation (CAISO), New York
Independent System Operator (NYISO), Southwest Power Pool (SPP),
ISO New England (ISO-NE), and PJM Interconnection (PJM) each
filed a report with FERC highlighting their efforts to respond
to fuel assurance concerns.867 This is just one of many examples
where electric system regulators and industry participants
recognize a potential reliability issue and are proactively
searching for solutions.

866

Centralized Capacity Markets in Regional Transmission
Organizations and Independent System Operators, 149 FERC ¶
61,145 (2014). FERC generally defines fuel assurance as
“generator access to sufficient fuel supplies and the firmness
of generator fuel arrangements”. Id. P 5.
867 For example, ISO-NE and PJM each filed “pay-for-performance”
proposals to address fuel assurance in their regions. FERC
recently acted on ISO-NE market rule changes providing increased
market incentives in capacity, energy, and ancillary services
markets for generators to be available to meet their obligations
during reserve shortages. ISO New England Inc., 147 FERC ¶
61,172 (2014). Additionally, FERC conditionally approved a PJM
“pay-for-performance” proposal that creates a new capacity
product to provide greater assurance of delivery of energy and
reserves during emergency conditions, establishing credits for
superior performance and charges for poor performance. PJM
Interconnection, L.L.C., 151 FERC ¶ 61,208 (2015).
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The EPA’s approach in this final rule is consistent with
our commitment to ensuring that compliance with the final rule
does not interfere with the industry’s ability to maintain the
reliability of the nation’s electricity supply. Many aspects of
the final rule’s design are intended to support system
reliability, especially the long compliance period and the basic
design that allows states and affected EGUs flexibility to
include a large variety of approaches and measures to achieve
the environmental goals in a way that is tailored to each
state’s and utility’s energy resources and policies. Despite the
flexibility built into the design of the proposal, and the long
emission reduction trajectory, many commenters expressed
concerns that the proposed rule could jeopardize electric system
reliability. We note that the EPA has received similar comments
in EPA rulemakings dating as far back as the 1970s. The EPA has
always taken and continues to take electric system reliability
comments very seriously. These reoccurring comments with regard
to reliability notwithstanding, the electric industry has done
an excellent job of maintaining reliability, including when it
has had to comply with environmental rules with much shorter
compliance periods and much less flexibility than this final
rule provides. Now, more than ever, the electric industry has
tools available to maintain reliability, including mandatory and

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enforceable reliability standards.868
As with numerous prior CAA regulations affecting the
electric power sector, environmental requirements for this
industry are accommodated within the existing extensive
framework established by federal and state law to ensure that
electricity production and delivery are balanced on an ongoing
basis and planned sufficiently to ensure reliability and
affordability into the future. In addition, changes that the EPA
is making in this final rule respond directly to the comments
and the suggestions that we received on reliability and provide
further assurance that implementation of the final rule will not

868For

example, Andrew Ott, then Executive Vice President-Markets
and current President of PJM, an RTO with a substantial amount
of coal-fired capacity and generation, discussed the success of
PJM’s market design in assuring that PJM met and exceeded target
reserve margins while MATS was being implemented. See Statement
of Andrew Ott, PJM Executive Vice President-Markets, FERC
Technical Conference on Centralized Capacity Markets in Regional
Transmission Organizations and Independent System Operators,
AD13-7-000, at 3, 7 (Sept. 25, 2013), available at
http://www.ferc.gov/EventCalendar/EventDetails.aspx?ID=6944&CalT
ype= &CalendarID=116&Date=09/25/2013&View=Listview. At the FERC
national Clean Power Plan Technical Conference, Michael J.
Kormos, PJM Executive Vice President-Operations, said that PJM’s
markets have proven, “resilient enough to respond to different
policy initiatives. . . Whether it is the Sulfur Dioxide Trading
Program of the 1990s, the MATS rule or individual state RPS
initiatives, the markets have been able to send the appropriate
price signals that produce competitive outcomes.” See Michael J.
Kormos, PJM Executive Vice President, Statement at FERC
Technical Conference on EPA’s Clean Power Plan, AD15-4-000, at 3
(Feb. 19, 2015), available at
http://www.ferc.gov/CalendarFiles/20150213081650Kormos,%20PJM.pdf.
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create reliability concerns.
First, the final rule allows significant flexibility in how
the applicable CO2 emission performance rates or the statewide
CO2 goals are met. Given the differing characteristics of the
electric grid within each state and region, there are many paths
to meeting the final rule’s requirements that can be taken while
continuing to maintain a reliable electricity supply. As further
described elsewhere in section VIII, states can develop plans to
meet the CO2 emission performance rates or state CO2 emission
goals by choosing from a variety of state plan types and
approaches that afford states and affected EGUs appropriate
flexibility. EE and other measures that were not included in the
determination of the BSER can strengthen a state’s ability to
establish a plan to meet the CO2 emission performance rates or
state CO2 emission goals by providing a considerable amount of
headroom above the levels of the rates and goals. EE especially,
because it reduces load, can provide assurance that reliability
can and will be maintained. Additionally, the final rule offers
opportunities for trading among affected EGUs within and between
states, and other multi-state approaches that will further
support electric system reliability.
Second, the final rule provides sufficient time to ensure
system reliability. The final rule retains the 2030 date for the
final period, which commenters largely supported as reasonable
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and not a concern for reliability, and addresses one of the key
issues that commenters pointed to as a reliability-related
concern by both moving the start of the interim period from 2020
to 2022 and adjusting the interim goals to provide a more
gradual phasing-in of the initial reduction requirement and thus
a more gradual emissions reduction trajectory or glide path to
the final 2030 goals. These changes deliver on the intent of the
proposal to afford states and affected EGUs the latitude to
determine their own emissions reduction schedules over the
interim period. Both FERC’s May 15, 2015 letter869 and the
comment record made it clear that providing sufficient time for
planning and implementation is essential to ensuring electric
system reliability. The EPA has responded by providing
additional time to allow for planning and implementation of the
final rule requirements, while at the same time allowing enough
time between the beginning of the interim period and 2030 to
achieve state goals or emission performance rates. We note that
the final rule does not require that all states have met their
interim goal or performance rate by 2022 but rather that they
meet it on average or cumulatively, as appropriate, during the
2022 to 2029 period.

869

On May 15, 2015, the five FERC Commissioners sent a letter to
Acting Assistant Administrator Janet McCabe regarding the EPA’s
Clean Power Plan proposal. See FERC letter, available at
http://ferc.gov/media/headlines/2015/ferc-letter-epa.pdf.
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As a result of these changes, the states themselves will
have a meaningful opportunity – which, again, many commenters
suggested the timing and stringency of the proposal failed to
create despite our intent to do so – to determine the timing,
cadence and sequence of actions needed for states and sources to
meet final rule requirements while accommodating the ongoing
activity needed to ensure system reliability. The final rule
provides more than 6 years before reductions are required and an
8-year period from 2022 to 2029 to meet interim goals. Moreover,
while the final rule requires each state to submit a plan by
September 6, 2016, we recognize that some states may need more
than 1 year to complete all of the actions needed for their
final state plans, including consideration of reliability.
Therefore, states have the opportunity to receive an extension
for submitting a final plan. If the state needs additional time
to submit a final plan, then the state may submit an initial
submittal by September 6, 2016, that must address three required
components sufficiently to demonstrate that a state is able to
undertake steps and processes necessary to timely submit a final
plan by the extended date of September 6, 2018.
Third, we are including in the final rule a requirement
that each state demonstrate in its final state plan submittal
that it has considered reliability issues in developing its
plan. This was suggested by a number of commenters, and we agree
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that it is a useful element to state plan development.
Fourth, the final rule provides a mechanism for a state to
seek a revision to its plan in order to address changes in
circumstances that could have reliability impacts if not
accommodated in the plan. The long compliance timeframe, with
several interim steps, naturally provides opportunities for
states, working with their utilities and reliability entities,
to assess how implementation is proceeding, identify unforeseen
changes that may warrant plan revisions, and work with the EPA
to make necessary revisions. Similarly, the ready availability
of emissions trading as a compliance tool affords EGUs ample
flexibility to integrate compliance with both routine and
critical reliability needs.
Fifth, in response to a variety of comments, we are
providing a reliability safety mechanism that provides a path
for a state to come to the EPA during an immediate, unforeseen,
emergency situation that threatens reliability to notify the EPA
that an affected EGU or EGUs may need to temporarily comply with
modified emission standards to respond to this kind of
reliability concern.
Sixth and finally we are committed to maintaining an
ongoing relationship with FERC and DOE as this final rule is
implemented to help ensure continued reliable electric
generation and transmission.
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We provide more details about these various elements of the
final rule, as well as other features of the rule that support
system reliability, below.
a. Summary of key comments. The EPA received a number of
comments regarding the proposed rule and electric reliability.
Many commenters provided specific, useful ideas regarding
changes that could be made to the proposal to specifically
address their reliability concerns. For example, many commenters
state that allowing additional time to comply could help in
meeting the final rule requirements while addressing their
reliability concerns. Some commenters suggest that additional
time would allow them to evaluate potential reliability impacts
and system changes that need to be made to comply with final
rule requirements while allowing affected EGUs time to meet
interim CO2 emissions goals. The EPA also received comment that
market-based approaches have features that could help support
reliability, and therefore we should encourage states to join or
form regional market-based programs. Commenters also stated that
the EPA should require states to consult with grid operators who
would analyze the impact of state plans on reliability. A number
of commenters also suggested that the EPA should include some
sort of reliability safety valve in the final rule. We note that
many participants at the FERC technical conferences on the
proposed rule also discussed a reliability safety valve in great
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detail with many suggestions for how such a reliability
mechanism could be designed. The EPA appreciates these and all
the comments we received regarding the interaction of the
proposal and electric reliability. We have carefully considered
all comments, consulted further with FERC and incorporated many
of the suggested changes in this final rule.
b. Final rule flexibility. In issuing this final rule, the EPA
considered public comments on the potential interaction between
the proposal and electric reliability. While we have made every
effort to develop guidelines that would allow states and
utilities to steer clear of potential reliability disruptions, a
number of commenters argued that the possibility of an
unanticipated reliability event cannot be entirely eliminated.
It is important to note that there are many factors that
influence system reliability and, given the complexity of the
electric grid, electric system planners and operators likely
will not completely avoid reliability issues, even in the
absence of these guidelines. The EPA designed the final rule to
ensure to the greatest extent possible that actions taken by
states and affected EGUs to comply with the final rule do not
increase potential reliability issues or complicate their
resolution. In fact, to the extent that meeting final rule
requirements results in the reduction of demand, upgrades in
transmission efficiency and infrastructure, and investment in
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new, more efficient technologies, the outcome could be that the
system is more robust and faces fewer risks to electric
reliability.
One specific concern raised by many commenters is that the
proposed plan development schedule may not leave sufficient time
to conduct reliability planning between the development of state
plans and the proposed start of the interim period in 2020. To
address these concerns and to support a more effective
reliability planning process, the EPA is moving the start of the
interim period from 2020 to 2022 and adjusting the interim goals
to provide a gradually phased-in initial reduction requirement
and a more gradual glide path to the final 2030 goals. This more
gradual application of the BSER over the 2022-2029 interim
period provides the state with substantial latitude in selecting
the emission reduction glide path for affected EGUs over that
period. As noted above, the final rule also provides states with
up to 3 years to adopt and submit their final state plans, and
afterwards states can, if necessary, revise their plans, as
discussed in section VIII.E.7. This timing gives system planners
and operators the opportunity to do what they have already been
doing; looking ahead to forecast potential contingencies that
pose reliability risks and identifying those actions needed to
mitigate those risks. The final rule allows states to develop a
pathway over the interim period that reflects their own
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circumstances, such as reflecting planned additions and changes
in generation mix and potentially taking advantage of
opportunities for trading of credits or allowances by affected
EGUs within and between states. Because achievement of the
emission rates or goals can be demonstrated over several years,
state plans can accommodate situations where, for example, it
may take time to develop new generation, pipelines, or
transmission while still providing many options for meeting the
final rule requirements and planning for the reliability of the
system.
c. Considering reliability during state plan development
process. Under CAA section 111(d)(1)(B), state plans must
provide for the implementation and enforcement of standards of
performance for affected EGUs. The EPA does not believe a state
that establishes standards of performance for affected EGUs
without taking reliability concerns into consideration
satisfactorily provides for the implementation of such standards
of performance as required by CAA section 111(d)(1)(B), as a
serious reliability issue would disrupt the state's
implementation of the state plan. Therefore, the EPA is
requiring that each state demonstrate as part of its final state
plan submission that it has considered reliability issues while
developing its plan in order to ensure that standards of
performance can be implemented and enforced as required by the
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CAA. If system reliability is threatened, the ability of
affected EGUs to meet the requirements of this final rule could
be compromised if they are required to operate beyond the
emission standards established in state plans in order to
maintain the reliability of the electric grid. The requirement
that states consider reliability as part of the development of
state plans is therefore designed to ensure that state plans are
flexible enough to avoid this kind of potential conflict between
maintaining reliability and providing for the implementation of
emission standards for affected EGUs as required by the CAA.
A number of commenters, notably ISOs and RTOs, also
discussed reliability concerns in the context of state plans and
pointed out that planning and anticipation of change are among
the essential ingredients of ensuring the ongoing reliability of
the electricity system. To that end, they recommended that as
states are developing state plans, their activity include the
consideration of the reliability needs of the region in which
affected EGUs operate and of the potential impact of actions to
be taken in compliance with state plans. Therefore, we are
requiring that each state demonstrate in its final state plan
submittal that it has considered reliability issues in
developing its plan. One particularly effective way in which
states can make this demonstration is by consulting with the
relevant ISOs/RTOs or other planning authorities as they develop
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their plans and documenting this consultation process in their
state plan submissions. If a state chooses to consider
reliability through consultation with the ISO/RTO or other
planning authority, the EPA recommends that the state request
that the planning authority review the state plan at least once
during the plan development stage and provide its assessment of
any reliability implications of the plan. Additionally, we
encourage states that are considering reliability through an
ISO/RTO or other planning authority consultation process to have
a continuing dialogue with those entities during development of
their final state plan. While following the recommendations of
the planning authority would not be mandatory, the state should
document its consultation process, any response and
recommendations from the planning authority, and the state’s
response to those recommendations in its final state plan
submittal to the EPA. This consultation is designed to inform
how the state might adjust its plan for meeting the CO2 reduction
requirements under this guideline; the consultation is not a
basis for relaxing that requirement. While we consider this
process to be an effective way for a state to demonstrate that
it considered reliability in developing its final state plan, a
state may provide other comparable support for a demonstration
that it has considered reliability during the state plan

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development process.870 Also as discussed elsewhere in this
preamble, the EPA encourages states to include state utility
regulators and the state energy offices in the development of
the state plan. These agencies have expertise that can help to
assure that state plans complement the state’s power sector. The
EPA believes that this requirement to demonstrate consideration
of reliability will provide an effective reliability evaluation
in the state plan development process. It should further help
states avoid any conflicts between state plans and the
maintenance of reliability during implementation of the state
plan and associated emission standards. Finally, we also
encourage states as they develop their plans to consider, to the
extent possible, other potential issues that may impact affected
EGUs. For example, an affected EGU may be in an ISO/RTO that
puts certain deadlines on generators that may not line up
perfectly with state plan deadlines.
d. State plan modifications. If, during the implementation of a
state plan, a reliability issue cannot be addressed within the
range of actions or mechanisms encompassed in an approved state
plan, the state can submit a plan revision to the EPA to amend
its plan. In such a circumstance, the state plan may need to be

870

While the EPA is requiring that the states demonstrate that
they have considered reliability in developing their plans,
state plan submissions will not be evaluated substantively
regarding reliability impacts.
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adjusted to enable affected EGUs to continue to meet final rule
requirements without causing an otherwise unmanageable
reliability threat. In all cases the plan revision must still
ensure the affected EGUs meet the emission performance level set
out in the 111(d) final rule. Whether or not these circumstances
occur will depend in part upon how each state designs its state
plan. States that design plans with a high level of flexibility,
such as market-based plans or multi-state plans, are less likely
to face a potential conflict between state plan requirements and
the maintenance of reliability. States that participate in
multi-state programs will be better able to weather unexpected
reliability risks.
Events not anticipated at the time of the final plan
submittal - such as the retirement of a large low- or zeroemitting unit - may trigger the request for state plan
revisions. It may also be the case that affected EGU-specific
emission standards in a state plan are proving to be too
inflexible to allow the plan to accommodate market or other
changes in the power sector. In such instances, there should be
a lead time between the announced retirement of the unit and the
need to amend the state plan. Therefore, the state should be
able to utilize the revisions process that the EPA provides.
The EPA will review a plan revision per the implementing
regulation requirements of 40 CFR part 60.28. If the state’s
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request for a state plan revision must be addressed in an
expedited manner to assure a reliable supply of electricity, the
state must document the risks to reliability that would be
addressed by the plan revision by providing the EPA with a
separate analysis of the reliability risk from the ISO/RTO or
other planning authority. This analysis should be accompanied by
a statement from the ISO/RTO or other planning/reliability
authority that there are no practicable alternative resolutions
to the reliability risk. In this case, the EPA will conduct an
expedited review of the state plan revision.871
e. Reliability safety valve. In this section we describe a
reliability safety valve, available to states with affected EGUs
providing reliability-critical generation in emergency
circumstances. Specifically and as discussed below the
reliability safety valve provides i) a 90-day period during
which the affected EGU will not be required to meet the emission
standard established for it under the state plan but rather will
meet an alternative standard, and ii) a period beginning after
the initial 90 days during which the reliability-critical
affected EGU may be required to continue to operate under an
alternative standard rather than under the original state plan

871

The EPA will still undertake notice and comment rulemaking
per the requirements of the Administrative Procedures Act when
acting on such state plan revision, but intends to prioritize
review of plan revisions needed to address reliability concerns.
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emission standard, as needed in light of the emergency
circumstances, and the state must during this period revise its
plan to accommodate changes needed to respond to ongoing
reliability requirements. Any emissions in excess of the
applicable state goals or performance rates occurring after the
initial 90-day period must be accounted for and offset.
Many commenters expressed concerns that a serious,
unforeseen event could occur during the final rule
implementation period that would require immediate reliabilitycritical responses by system operators and affected EGUs that
would result in unplanned or unauthorized emissions increases.
After reviewing the comments, we believe that it is highly
unlikely that there would be a conflict between activities
undertaken under an approved state plan and the maintenance of
electric reliability, except in the case of a state plan that
puts relatively inflexible requirements on specific EGUs. While
some have pointed out that severe weather or other short-term
events could potentially conflict with state plans, we note that
most of those events are of short duration and would not require
major – if any - adjustments to emission standards for affected
EGUs or to state plans. For example, during an event like the
extreme cold experienced in periods of the winter of 2013-2014,
affected EGUs may need to run at a higher level for a short
period of time to accommodate increased demand and/or short-term
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unavailability of other generators. However, because compliance
by affected EGUs will be demonstrated over 2-3 years, such a
short-term event would not cause affected EGUs to be out of
compliance with their applicable emission standards. States can
also ensure that this is true by developing plans that allow
adequate compliance flexibility to accommodate such short-term
events. We note that we have included in this final rule a
number of different features designed to facilitate emissions
trading between and among EGUs on an interstate basis – and have
done so, in no small part, in response to comments from states
and stakeholders seeking to put in place or operate under statelevel and interstate emissions trading regimes. Affected EGUs
operating in those circumstances and operating, in addition,
subject to state plans that incorporate flexible glide paths and
trading would be able to accommodate an unanticipated
reliability event.
We recognize, however, that affected EGUs operating in a
state with a relatively inflexible state plan could face
unanticipated system emergencies that could cause a severe
stress on the electricity system for a length of time such that
the requirements in that state’s plan may not be achievable by
certain affected EGUs without posing an otherwise unmanageable
risk to reliability. In particular, there could be extremely
serious events, outside the control of affected EGUs, that would
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require an affected EGU or EGUs operating under an inflexible
state plan to temporarily operate under modified emission
standards to respond to this kind of reliability concern.
Examples of such an event could include, a catastrophic event
that damages critical or vulnerable equipment necessary for
reliable grid operation; a major storm that floods and causes
severe damage to a large NGCC plant so that it must shut down;
or a nuclear unit that must cease generating unexpectedly and
therefore other affected EGUs need to run so as to exceed their
requirements under the approved state plan. This is not an allinclusive list, but the examples illustrate several key
attributes of the kinds of circumstances in which the
reliability safety valve would apply. First, the event creating
the reliability emergency would be unforeseeable, brought about
by an extraordinary, unanticipated, potentially catastrophic
event. Second, the relief provided would be for EGUs compelled
to operate for purposes of providing generation without which
the affected electricity grid would face some form of failure.
Third, the EGU or EGUs in question would be subject to the
requirements of a state plan that imposes emissions constraints
such that the EGU or EGUs’ operation in response to the
reliability emergency resulted in levels of emissions that
violated those constraints. We do not anticipate that EGUs
operating under a plan that permitted emissions trading would
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meet these criteria.
The final guidelines provide a reliability safety valve for
these types of situations. If an emergency situation arises, the
state must submit an initial notification to the appropriate EPA
regional office within 48 hours that it is necessary to modify
the emission standards for a reliability-critical affected EGU
or EGUs for up to an initial 90 days. The notification must
include a full description, to the extent it is known at the
time, of the emergency situation that is being addressed. It
must also identify with particularity the affected EGU or EGUs
that are required to run to assure reliability. It must also
specify the modified emission standards at which the affected
EGU or EGUs will operate. The EPA will consider this
notification to be an approved short–term modification to the
state plan, allowing the EGU to operate at an emission standard
that is an alternative to the emission standard originally
specified in the relevant state plan, subject to confirmation by
the further documentation described below.872
Within 7 days of submitting the initial notification, the
state must submit a second notification providing documentation

872

The EPA reserves the right to review such notification, and
in the event that the EPA finds such notification is improper,
the EPA may disallow the short-term modification and affected
EGUs must continue to operate under the original approved state
plan emission standards.
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to the appropriate EPA regional office that includes a full
description of the reliability concern and why an unforeseen,
emergency situation that threatens reliability requires the
affected EGU or EGUs to operate under modified emission
standards (including discussion of why the flexibilities
provided under the state’s plan are insufficient to address the
concern). The state must also describe in its documentation how
it is coordinating or will coordinate with relevant reliability
coordinators and planning authorities to alleviate the problem
in an expedited manner, and indicate the maximum time that the
state anticipates the affected EGU or EGUs will need to operate
in a manner inconsistent with its or their obligations under the
state’s approved plan, and the modified emission standards or
levels at which the affected EGU or EGUs will be operating at
during this period if it has changed from the initial
notification. The documentation must also include a written
concurrence from the relevant reliability coordinator and/or
planning authority confirming the existence of the imminent
reliability threat and supporting the temporary modification
request or an explanation of why this kind of concurrence cannot
be provided. Additionally, if the relevant planning authority
has conducted a system-wide or other analysis of the reliability
concern, the state must include that information in its request.
If the state fails to submit this documentation on a timely
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basis, the EPA will notify the state, which must then notify the
affected EGU(s) that they must operate or resume operations
under the original approved state plan emission standards.
It is important to note that the affected EGUs must
continue to monitor and report their emissions and generation
pursuant to requirements in this final rule and under the state
plan during any short-term modification. For the duration of the
up to 90-day short-term modification, the emissions of the
affected EGU or EGUs that exceed their obligations under the
approved state plan will not be counted against the state’s
overall goal or emission performance rate for affected EGUs.
Such a modification will not alter or abrogate any other
obligations under the approved state plan.
During this short term modification period, the EPA expects
that the source, the state and the relevant reliability
coordinator and/or planning authority will assess whether the
reliability issue can be addressed in a way that would allow the
EGU or EGUs to resume operating under the original approved
state plan within the 90-day period or whether revisions to the
state plan need to be made to address the unexpected
circumstances for the longer term (the unexpected unavailability
of a nuclear unit, for example).
The EPA recognizes that an emergency may persist past 90
days. At least 7 days before the end of the initial 90-day
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reliability safety valve period, the state must notify the
appropriate EPA regional office whether the reliability concern
has been addressed and that the EGU or EGUs can resume meeting
the original emission standards established in the state plan
prior to the short-term modification.
If there still is a serious, ongoing reliability issue at
the end of the short-term modification period that necessitates
the EGU or EGUs to emit beyond the amount allowed under the
state plan, the state must provide to the EPA a notification
that it will be submitting a state plan revision and submit the
plan revision as expeditiously as possible, specifying in the
notice the date by which the revision will be submitted. The
state must document the ongoing emergency with a second written
concurrence from the relevant reliability coordinator and/or
planning authority confirming the continuing urgent need for the
EGU or EGUs to operate beyond the requirements of the state plan
and that there is no other reasonable way of addressing the
ongoing reliability emergency but for the EGU or EGUs to operate
under an alternative emission standard than originally approved
under the state plan. In this event, the EPA will work with the
state on a case-by-case basis to identify an emission standard
for the affected EGU or EGUs for the period before a new state
plan revision is approved. After the initial 90-day period, any
excess emissions beyond what is authorized in the original
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approved state plan will count against the state’s overall goal
or emission performance rate for affected EGUs.
The EPA intends for this reliability safety valve to be
used only in exceptional situations. In addition, this
reliability safety valve applies only to this final rule and has
no effect on CAA requirements to which the state or the affected
EGUs are otherwise subject. As discussed earlier, we are
providing states with the flexibility to design programs that
incorporate the level of flexibility that allow affected EGUs to
meet compliance obligations while responding to reliability
needs, even in emergency situations. This flexibility means that
a conflict between the requirements of the state plan and
maintenance of reliability should be extremely rare. We
recognize, however, that a state with an inflexible plan could
be faced with more than one emergency and in this case the
reliability safety valve may be used more than once. If the
state finds that a second reliability emergency arises that
conflicts with the state plan, the state must submit a revision
to its state plan so that the state plan is flexible enough to
assure that such conflicts do not recur and that the state is
providing for the implementation of the standards of performance
for affected EGUs as required by the CAA.
f. Coordination among federal partners. The EPA, DOE, and FERC
have agreed to coordinate efforts to help ensure continued
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reliable electricity generation and transmission during the
implementation of the final rule. The three agencies have
developed a coordination strategy that reflects their joint
understanding of how they will work together to monitor final
rule implementation, share information, and resolve any
difficulties that may be encountered. This strategy is based on
the successful working relationship that the three agencies
established in their joint effort to work together to monitor
reliability during MATS implementation.
g. Analyses of the reliability impacts of the proposal. The EPA
appreciates that a large number of entities from many different
industry perspectives have published reports and analysis with
respect to electric reliability and the 111(d) proposed rule. We
take concerns about reliability very seriously, and we
appreciate the attention given to this issue in the comments and
shared with us in public forums. It is important to note that
these studies were conducted prior to promulgation of this final
rule, and thus were only able to consider electric reliability
with respect to the proposal. The EPA has made changes and
improvements to the proposal in response to comments and new
information, and some of the changes are relevant to the final
rule’s potential effect on electric reliability. One notable
change pertains to the start of the interim period, which is now
2022 rather than 2020. Another important change to the final
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rule is a more gradual phase-in of the BSER for affected EGUs
over the interim period (from 2022 through 2029). The final rule
also provides considerable flexibility and multiple pathways to
states, including allowing their EGUs to use multi-state trading
and other approaches, which would allow essential units to
continue to meet their compliance obligation while generating
even at unplanned but reliability-critical levels. In addition,
we have included in the final rule a reliability safety valve
provision that can be utilized in certain emergency situations.
These changes, in addition to already existing industry
mechanisms and planning requirements, will help to ensure that
industry will be able to maintain electric reliability. The EPA
is confident that the final rule will cut harmful electric power
plant pollution while maintaining a reliable electric grid
because the final rule provides industry with the time and
flexibility needed to continue its current and ongoing planning
and investing to modernize and upgrade the electric power
system.
In June of 2015, M.J. Bradley & Associates issued a report
that enumerated a set of useful guiding principles for studying
and evaluating the reliability impacts of the final rule.873 The

873

M.J. Bradley & Associates, Guiding Principles for Reliability
Assessments Under EPA’s Clean Power Plan (June 3, 2015),
available at http://www.mjbradley.com/node/295.

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report enumerated six principles: (1) a study should be
transparent about the assumptions and data used; (2) a study
should accurately reflect the existing status of the grid in its
modeling assumptions; (3) a study should clearly identify the
base case and not confuse what will happen as a result of the
final rule with what would have happened anyway; (4) where
possible, a study should contain sensitivities and probabilities
as they are looking into the future which is necessarily
uncertain; (5) a study should reflect the flexibility provided
to states to allow them to design compliance approaches to
maximize reliability; and (6) a study should provide realistic
and reliability-focused results. These principles are helpful to
keep in mind when reviewing recent studies.
NERC published its analyses of the proposed rule in
November 2014 and again in April 2015.874 The EPA appreciates
NERC’s attention to, and interest in, the proposed rule.
However, we note that like some other studies, NERC assumes

874

North American Electric Reliability Corporation, Potential
Reliability Impacts of EPA’s Proposed Clean Power Plan (Nov. 5,
2014), available at http://www.nerc.com/news/Pages/ReliabilityReview-of-Proposed-Clean-Power-Plan-Identifies-Areas-forFurther-Study,-Makes-Recommendations-for-Stakeholders.aspx;
North American Electric Reliability Corporation, Potential
Reliability Impact of EPA’s Proposed Clean Power Plan: Phase 1
(Apr. 21, 2015), available at
http://www.nerc.com/news/Pages/Assessment-Uses-ScenarioAnalysis-to-Identify-Potential-Reliability-Risks-from-ProposedClean-Power-Plan.aspx.
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considerably less flexibility than actually is provided to
states and EGUs in this final rule. The final rule provides
states with considerable time and latitude in designing plans
that are tailored to the system in which their EGUs operate,
which should be reflected in any reliability analysis. Also, the
NERC study does not fully reflect the current electric grid. For
example, the amount of RE generation that NERC assumes for 2020
is similar to levels of generation that we see today whereas
projections for 2020 are considerably higher.875 Further, NERC
conflates retirements that may happen as a result of the rule
with those that are already planned. The Brattle Group has also
reviewed NERC’s November 2014 initial analysis of the proposed
rule, noting that it is important to distinguish between
concerns about the building blocks and reliability concerns
about compliance with state plans.876 The Brattle Group concluded
that there are real world solutions to NERC’s concerns. These
include making use of the many flexible options available to
states under the rule to mitigate reliability risks.
Multiple ISOs/RTOs also provided analyses of the proposed

875

EIA, Annual Energy Outlook 2015, PRIL 2015.
Brattle Group, EPA’s Clean Power Plan and Reliability,
Assessing NERC’s Initial Reliability Review (Feb. 2015),
available at http://info.aee.net/hs-fs/hub/211732/file2486162659-pdf/PDF/EPAs-Clean-Power-Plan--ReliabilityBrattle.pdf?t=1434398407867.
876

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rule, including MISO, PJM, ERCOT, and SPP.877 For example, MISO
conducted an analysis of coal units at risk for retirement,
finding that 14 GW of coal may be at risk.878 SPP performed a
resource adequacy analysis that assumes planned retirements plus
the EPA’s projected retirements, but did not similarly account
for the building of new generation capacity.879 While we
appreciate MISO’s and SPP’s concerns regarding retirements and
the potential that reserves will fall below reserve requirement
levels, it is important to consider the many ways in which
states can develop plans that account for their potential
reliability concerns. The final rule continues to give states

877

See MISO, Analysis of EPA’s Proposal to Reduce CO2 Emissions
from Existing Units (Nov. 12, 2014), available at
https://www.misoenergy.org/Library/Repository/Communication%20Ma
terial/EPA%20Regulations/AnalysisofEPAProposalReduceCO2Emissions
.pdf; PJM, PJM Interconnection Economic Analysis of the EPA
Clean Power Plan Proposal (Mar. 2, 2015), report listed at
http://www.pjm.com/documents/reports.aspx; SPP, SPP’s
Reliability Impact Assessment of the EPA’s Proposed Clean Power
Plan, (Oct. 8, 2014), available at
http://www.spp.org/publications/CPP%20Reliability%20Analysis%20R
esults%20Final%20Version.pdf; ERCOT, ERCOT Analysis of the Clean
Power Plan (Nov. 17, 2014), available at
http://www.ercot.com/content/news/presentations/2014/ERCOTAnalys
is-ImpactsCleanPowerPlan.pdf; and
878 MISO, Analysis of EPA’s Proposal to Reduce CO
2 Emissions from
Existing Units, at 14 (Nov. 12, 2014), available at
https://www.misoenergy.org/Library/Repository/Communication%20Ma
terial/EPA%20Regulations/AnalysisofEPAProposalReduceCO2Emissions
.pdf.
879 SPP, SPP’s Reliability Impact Assessment of the EPA’s
Proposed Clean Power Plan, (Oct. 8, 2014), available at
http://www.spp.org/publications/CPP%20Reliability%20Analysis%20R
esults%20Final%20Version.pdf.
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significant flexibility in how they comply with requirements,
including both BSER measures and measures that were not included
in the determination of the BSER as a means to comply. For
example, demand-side EE measures can greatly assist states and
affected EGUs in meeting the standards and/or state plan. Many
studies assume that state plans will simply apply the BSER and
do not recognize the large number of compliance approaches and
opportunities that states and affected EGUs have available to
them. The Analysis Group recently analyzed reliability
considerations in MISO as the region considers how to comply
with the final rule.880 The Analysis Group found that despite the
large amount of coal-fired generating capacity that will likely
be retired in MISO in the coming years, the entities responsible
for electric system reliability in MISO are prepared to
collaboratively address any reliability issues that arise and
that there is a “strong tool kit for managing ‘Essential
Reliability Services’ needed to assure high-quality electric
service.”881

880

Analysis Group, Electric System Reliability and EPA’s Clean
Power Plan: The Case of MISO (June 8, 2015), available at
http://www.analysisgroup.com/uploadedfiles/content/insights/publ
ishing/analysis_group_clean_power_plan_miso_reliability.pdf.
881 Analysis Group, Electric System Reliability and EPA’s Clean
Power Plan: The Case of MISO, at 2 (June 8, 2015), available at
http://www.analysisgroup.com/uploadedfiles/content/insights/publ
ishing/analysis_group_clean_power_plan_miso_reliability.pdf.
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ERCOT also performed an analysis, modeling numerous
scenarios.882 ERCOT stated that its modeling identified two
potential reliability problems – impacts of units retiring and
increased levels of renewable generation on the ERCOT grid.883 As
noted above, the final rule gives additional time for
compliance, providing needed time to obtain new or replacement
generation necessary as some existing generators retire.
Moreover, affected EGUs needed for reliability should be able to
employ the flexibilities afforded to them as they seek lower and
zero-emitting generation. Finally, we note that ERCOT has a
history of notable success in integrating RE into its electric
grid, giving ERCOT significant expertise regarding challenges
that may arise with the addition of new RE in order to comply
with the final rule. In fact, a recent Brattle Group report used
ERCOT as a case study for how to effectively integrate a large
number of RE into the electric grid.884

882

ERCOT, ERCOT Analysis of the Clean Power Plan (Nov. 17,
2014), available at
http://www.ercot.com/content/news/presentations/2014/ERCOTAnalys
is-ImpactsCleanPowerPlan.pdf.
883 ERCOT, ERCOT Analysis of the Clean Power Plan, at 9 (Nov. 17,
2014), available at
http://www.ercot.com/content/news/presentations/2014/ERCOTAnalys
is-ImpactsCleanPowerPlan.pdf.
884 Brattle Group, Integrating Renewable Energy Into the
Electricity Grid: Case Studies Showing How System Operators are
Maintaining Reliability (June 2015), available at
http://info.aee.net/integrating-renewable-energy-into-theelectricity-grid.
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PJM conducted its own analysis at the request of the
Organization of PJM States (OPSI).885 This analysis is consistent
with many of the M.J. Bradley guiding principles. PJM designed
various scenarios to capture the impact of the proposed rule
under a series of assumptions. Because the EPA had not yet
issued the final rule, PJM cautioned against using the report as
a reliability analysis or predictor of the future. PJM stated
that, since 2007, PJM’s capacity markets have helped to attract
35,000 MWs of additional generation. Even though 26,000 MWs will
retire between 2009 and 2016, the PJM capacity market has
procured sufficient resources to maintain reliability.
WECC also produced a study which is part of a longer-term,
phased effort.886 The assumptions, methodology, and limitations
were all clearly presented, and there was extensive involvement
by a range of stakeholders. WECC stated that it is embarking on
a phased-study process that seeks to “provide the industry with
unbiased and independent analysis of this issue.”887 WECC

885

PJM, PJM Interconnection Economic Analysis of the EPA Clean
Power Plan Proposal (Mar. 2, 2015), report listed at
http://www.pjm.com/documents/reports.aspx.
886 WECC, EPA Clean Power Plan: Phase I – Preliminary Technical
Report (Sept. 19, 2014), available at
https://www.wecc.biz/_layouts/15/WopiFrame.aspx?sourcedoc=/Relia
bility/140912_EPA-111(d)_PhaseI_TechFinal.pdf&action=default&DefaultItemOpen=1.
887 WECC, EPA Clean Power Plan: Phase I – Preliminary Technical
Report, at 1 (Sept. 19, 2014), available at
https://www.wecc.biz/_layouts/15/WopiFrame.aspx?sourcedoc=/Relia
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concluded that the effects of the proposal on resource adequacy
may be minimal but that resource adequacy cannot be fully
assessed without realistic and/or proposed compliance
scenarios.888
Analysis Group analyzed the proposed rule, finding that it
provides states and affected EGUs with a wide range of options
and operational discretion that can prevent reliability issues
while also reducing carbon pollution and costs.889 Analysis Group
noted that some of the concerns raised by stakeholders about the
proposed rule assume “inflexible implementation, are based upon
worst-case scenarios, and assume that policy makers, regulators,
and market participants will stand on the sidelines until it is
far too late to act” to ensure reliability.890 It stated that
these assumptions are not consistent with past actions.

bility/140912_EPA-111(d)_PhaseI_TechFinal.pdf&action=default&DefaultItemOpen=1.
888 WECC, EPA Clean Power Plan: Phase I – Preliminary Technical
Report, at 30 (Sept. 19, 2014), available at
https://www.wecc.biz/_layouts/15/WopiFrame.aspx?sourcedoc=/Relia
bility/140912_EPA-111(d)_PhaseI_TechFinal.pdf&action=default&DefaultItemOpen=1.
889 Analysis Group, Electric System Reliability and EPA’s Clean
Power Plan Tools and Practices (Feb. 2015), available at
http://www.analysisgroup.com/uploadedfiles/content/insights/publ
ishing/electric_system_reliability_and_epas_clean_power_plan_too
ls_and_practices.pdf.
890
Analysis Group, Electric System Reliability and EPA’s Clean
Power Plan Tools and Practices, at ES-3 (Feb. 2015), available
at
http://www.analysisgroup.com/uploadedfiles/content/insights/publ
ishing/electric_system_reliability_and_epas_clean_power_plan_too
ls_and_practices.pdf.
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We appreciate the time that multiple entities took to
analyze and consider the potential impacts of the proposed rule.
As we issue the final rule and states draft plans to implement
the rule, we look forward to further analysis by these and other
groups. Such analysis can provide states with needed resources
to help them design state plans that will augment the efforts of
the industry to maintain electric reliability.
3. Consideration of effects on employment and economic
development
States in designing their state plans should consider the
effects of their plans on employment and overall economic
development to assure that the opportunities for economic growth
and jobs that the plans offer are manifest. To the extent
possible, states should try to assure that any communities that
can be expected to experience job losses can also take advantage
of the opportunities for job growth or otherwise transition to
healthy, sustainable economic growth. The EPA’s illustrative
analysis indicates that there may be some additional job losses
in sectors related to coal extraction and generation that are
attributable to implementation of this rule. At the same time,
the EPA’s illustrative analysis indicates that there may be new
jobs in the utility power sector associated with both improving
the efficiency of fossil fuel-fired power plants, construction
and operation of new natural gas-fired and RE production, and
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actions to increase demand-side EE. Consideration of these
effects in the context of the particulars of the state plan can
help states craft plans that, to the extent possible, meet
multiple environmental, economic, and workforce development
goals.
The Partnerships for Opportunity and Workforce and
Economic Revitalization (POWER) Initiative is a new interagency
effort led by the Economic Development Administration in the
Department of Commerce. POWER was launched to respond to current
trends in the power sector: “The United States is undergoing a
rapid energy transformation, particularly in the power sector.
This transformation is producing cleaner air and healthier
communities, and spurring new jobs and industries. At the same
time, it is impacting workers and communities who have relied on
the coal industry as a source of good jobs and economic
prosperity, particularly in Appalachia, where competition with
other coal basins provides additional pressure.”

891

The POWER

Initiative aligns, leverages, and targets economic and workforce
development assistance to communities and workers affected by
changes in the coal industry and the utility power sector. The
POWER Initiative is competitively awarding planning assistance
and implementation grants with funding from the Department of

891

http://www.eda.gov/power/.

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Commerce, Department of Labor, Small Business Administration,
and the Appalachian Regional Commission to partnerships anchored
in impacted communities. These grants will help communities
organize themselves, develop comprehensive strategic plans that
chart their economic future, and execute coordinated economic
and workforce development activities based on their strategic
plans.892
In addition to POWER, however, the EPA encourages states to
use economic and labor market analysis to identify where they
can deploy strategies to: 1) provide a range of employment and
training assistance to workers, and economic development
assistance to communities affected by the rapid changes underway
in the power sector and closely related industries, to diversify
their economies, attract new sources of investment, and create
new jobs; and 2) mobilize existing education and training
resources, including those of community and technical colleges
and registered apprenticeship programs, to ensure that both
incumbent and new workers are trained for the skills necessary
to meet employer demand for new workers in the utility,
construction and related sectors, that such training includes
career pathways for members of low-income communities and other

892

https://www.whitehouse.gov/the-press-office/2015/03/27/factsheet-partnerships-opportunity-and-workforce-and-economicrevitaliz.
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vulnerable communities to attain employment in these sectors,
and that such training results in validated skill certifications
for workers.
4. Workforce considerations
Some stakeholders commented that, to ensure that emission
reductions are realized, it is important that construction,
operations and other skilled work undertaken pursuant to state
plans is performed to specifications, and is effective, safe,
and timely. A good way to ensure a highly proficient workforce
is to require that workers have been certified by: 1) an
apprenticeship program that is registered with the U.S. DOL,
Office of Apprenticeship or a state apprenticeship program
approved by the DOL; 2) a skill certification aligned with the
U.S. DOE Better Building Workforce Guidelines and validated by a
third party accrediting body recognized by DOE; or 3) other
skill certification validated by a third party accrediting
body.
5. Tenth Amendment legal considerations
Some commenters have raised concerns that the emission
guidelines and requirements for 111(d) state plans violate
principles of federalism embodied in the U.S. Constitution,
particularly the Tenth Amendment. These commenters claim that
states will be unconstitutionally “coerced” or “commandeered”
into taking certain actions in order to avoid the prospect of
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either a federal 111(d) plan applying to sources in the state,
or of losing federal funds.
We disagree on both fronts. First, the prospect of a
federal plan applying to sources in a state does not “coerce” or
“commandeer” that state into submitting its own satisfactory
plan. Far from violating principles of federalism, this rule
provides states with the initial opportunity to submit a
satisfactory state plan, and provides states flexibility in
developing that plan. If a state declines to take advantage of
that opportunity, affected EGUs in that state will instead be
subject to a federal plan that satisfies statutory
requirements.893 This approach is consistent with ordinary
cooperative federalism regimes that federal courts have
routinely upheld against Tenth Amendment challenges.894

893

Among other things, a federal plan will implement standards
of performance subject to specific statutory requirements. See
42 U.S.C. § 7411(a)(1). The APA and CAA would prohibit the
imposition of any federal plan that is “arbitrary, capricious,
an abuse of discretion, or otherwise not in accordance with
law.” 5 U.S.C. § 706(2)(a). Particularly given these independent
constraints on the EPA’s authority with respect to any potential
federal plan, the prospect of any such plan would not commandeer
states or coerce them into submitting their own state plans.
894 See, e.g., Hodel v. Va. Surface Mining & Reclamation Ass’n,
Inc., 452 U.S. 264, 283–93 (1981); Texas v. EPA, 726 F.3d 180,
196–97 (D.C. Cir. 2013) (noting that “Supreme Court precedent
repeatedly affirm[s] the constitutionality of federal statutes
that allow States to administer federal programs but provide for
direct federal administration if a State chooses not to
administer it”).
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Second, states that decline to take certain actions under
this rule will not face the prospect of sanctions, such as
withdrawn federal highway funds. CAA section 111 does not
contain sanctions provisions, and we are finalizing revisions to
these emission guidelines making explicit that the EPA will not
withhold federal funds from a state on account of that state’s
failure to submit or implement an approvable 111(d) state plan.
Some commenters pointed to section 110(m) as a possible
source of the EPA’s sanction authority.895 Section 110(m) grants
the EPA discretionary authority to withhold some federal highway
funds under certain conditions. However, section 110(m) requires
the EPA to adopt regulations to “establish criteria for
exercising” this discretionary authority, and the only EPA
regulations implementing section 110(m) apply to SIPs submitted
under section 110.896
The EPA never intended to even imply that we would
contemplate using this authority to encourage state
participation in this rule under section 111. To the contrary,
we believe that imposition of a federal plan rather than
sanctions is the appropriate path in the context of this

895

Other commenters point to CAA section 179 as a possible
direct source of this sanctions authority. However, the
mandatory sanctions outlined in section 179 clearly apply only
in the contexts of nonattainment SIPs and responses to SIP Calls
made under CAA section 110(k)(5). See 42 U.S.C. § 7509(a).
896 40 CFR 52.30 (defining “plan or plan item”).
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program. Accordingly, regardless of whether the EPA could
theoretically apply discretionary sanctions against states in
the section 111(d) context, the final rule forbids the agency
from exercising any such authority. We have included in this
rule a provision that prohibits the agency from imposing
sanctions in the event that a state fails to submit or implement
a satisfactory plan under this rule. As states consider whether
to take advantage of the opportunity to develop state plans,
they can be assured that the EPA will not withdraw federal
funding should they decline to participate.
6. Title VI
States that are recipients of EPA financial assistance must
comply with all federal nondiscrimination statutes that together
prohibit discrimination on the bases of race, color, national
origin (including limited-English proficiency), disability, sex
and age. These laws include: Title VI of the Civil Rights Act of
1964; Section 504 of the Rehabilitation Act of 1973; Section 13
of the Federal Water Pollution Control Act Amendments of 1972;
Title IX of the Education Act Amendments of 1972; and the Age
Discrimination Act of 1975. Compliance with these
nondiscrimination statutes is a recipient’s separate and
distinct obligation from compliance with environmental
regulations. In other words, all recipients are required to
ensure that all aspects of their state plans do not violate any
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of the federal nondiscrimination statutes, including Title VI.
The EPA’s Office of Civil Rights (OCR) is responsible for
carrying out compliance with these federal nondiscrimination
statutes and does so through a variety of means including:
complaint investigation; agency-initiated compliance reviews;
pre-grant award assurances and audits; and technical assistance
and outreach activities. Anyone who believes that any of the
federal nondiscrimination laws enforced by OCR have been
violated by a recipient of EPA financial assistance may file an
administrative complaint with the EPA’s OCR.
H. Resources for States to Consider in Developing Plans
As part of the stakeholder outreach and comment processes,
the EPA asked states what the agency could do to facilitate
state plan development and implementation. In addition, after
the comment period closed, the EPA continued to consult with
state organizations including the Association of Air Pollution
Control Agencies (AAPCA), Environmental Council of the States
(ECOS), National Association of Clean Air Agencies (NACAA),
National Association of Regulatory Utility Commissioners
(NARUC), National Association of State Energy Officials (NASEO)
and the National Governors Association (NGA).
Some states indicated that they wanted the EPA to create
resources to assist with state plan development, especially
resources related to accounting for RE and demand-side EE in
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state plans. They requested clear methodologies for estimating
emission reductions from RE and demand-side EE policies and
programs so that these could be included as part of their
compliance strategies. Stakeholders said that these tools and
metrics should build upon the EPA’s “Roadmap for Incorporating
Energy Efficiency/Renewable Energy Policies and Programs into
State and Tribal Implementation Plans,” as well as the State
Energy Efficiency Action Network’s “Energy Efficiency Program
Impact Evaluation Guide.” In addition, stakeholders requested
clear guidance on how to measure the impacts of RE and demandside EE programs using established EM&V protocols.
The EPA also heard that states would like guidance on plan
development to be released at the same time as this final rule.
This guidance should include allowable programs and policies for
compliance, examples of compliance pathways, clear information
on multi-state plan development, and identification of tools.
As a result of this feedback, in consultation with U.S. DOE
and other federal agencies, the EPA continued to refine its
toolbox of decision support resources at: http://www2.epa.gov/
www2.epa.gov/cleanpowerplantoolbox. The site includes
information on regulatory requirements, including state plan
guidance and state plan decision support. The state plan
guidance section serves as a central repository for the final
emission guidelines, RIA, guidance documents, TSDs and other
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supporting materials. The state plan decision support section
includes information to help states evaluate different
approaches and measures they might consider as they initiate
plan development. This section includes, for example, a summary
of existing state climate and RE and demand-side EE policies and
programs, information on electric utility actions that reduce
CO2, and tools and information to estimate the emissions impact
of RE and demand-side EE programs.
The EPA notes that our inclusion of a measure in the
toolbox does not mean that a state plan must include that
measure. In fact, inclusion of measures provided at the website
does not necessarily imply the approvability of an approach or
method for use in a state plan. States will need to demonstrate
that any measure included in a state plan meets all relevant
criteria and adequately addresses elements of the plan
components discussed in section VIII.D of this preamble.
I. Considerations for CO2 Emission Reduction Measures that Occur
at Affected EGUs
This section describes a range of emission reduction
actions that may be taken at affected EGUs that reduce CO2
emissions from an affected EGU and/or improve its CO2 emission
rate, and the accounting treatment for these actions in a state
plan. Some of these actions do not necessitate additional
accounting, monitoring or reporting requirements. Such actions
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are discussed in section VIII.I.1 below, and include heat rate
improvements, fuel switching from one fossil fuel to another,
integration of RE into EGU operations, and combined heat and
power (CHP) expansion or retrofit. Other actions, however, do
necessitate additional accounting, monitoring, or reporting
requirements. These include use of CCS, CCU and biomass, as
discussed in section VIII.I.2 below.
The discussion in this section applies for both rate-based
and mass-based plans. Additional accounting considerations for
mass-based plans are discussed in section VIII.J. Additional
accounting considerations for rate-based plans, including how
actions that substitute for generation from affected EGUs or
avoid the need for generation from affected EGUs may be used in
a state plan to adjust the CO2 emission rate of an affected EGU,
are discussed in section VIII.K.
1. Actions without additional accounting and reporting
requirements
Many actions will reduce the reported CO2 emissions or CO2
emission rate of an affected EGU, without the need for
additional accounting or monitoring and reporting requirements
beyond the required CEMS tracking of actual stack CO2 emissions

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and tracking of actual energy output.897 The effect of these
actions will result in changes in reported CO2 emissions and/or
energy output by an affected EGU. These actions include:


heat rate improvements;



fuel switching to a fossil fuel with lower carbon content
(e.g., from coal to natural gas);



integrated RE;898 and



CHP, including retrofit of an affected EGU to a CHP
configuration, or revising the useful energy outputs
(electrical and thermal) at an affected EGU already
operating in a CHP configuration.899
Heat rate improvements, fuel switching, integrating RE and

CHP would not require any additional accounting or monitoring

897

Monitoring and reporting requirements for affected EGU CO2
emissions and useful energy output are addressed in section
VIII.F.
898 “Integrated RE” refers to RE that is directly incorporated
into the mechanical systems and operation of the EGU. An example
is a solar thermal energy system used to preheat boiler
feedwater. Such approaches reduce the amount of fossil fuel heat
input per unit of useful energy output.
899 The emission reduction potential from CHP stems from the unit
using less fuel for producing useful electrical and thermal
outputs than would be required to run separate electrical and
thermal units. The emission reduction would depend on the type
of affected EGU and available steam hosts in the vicinity of the
affected EGU. A conventional combustion turbine generator, for
example, converted into a CHP unit could effectively result in a
reduction of 25 percent or more in the reported CO2 emission
rate. The potential retrofitted EGU CHP market consists of
converted simple cycle turbines, older steam plants in urban
areas, and combined cycle units near beneficial thermal loads.
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and reporting, because under the emission guidelines affected
EGUs are already required to monitor and report CO2 emissions at
the stack level, and to monitor and report useful energy
outputs. Stack monitoring would reflect reductions in CO2
emissions from efficiency improvements, changes in fuel use
(including incorporation of RE), and other on-site changes.
2. Actions with additional accounting and reporting requirements
Certain actions that may be taken at an affected EGU to
reduce CO2 emissions, specifically application of CCS and CCU,
and use of biomass, require additional accounting and reporting.
a. Application of CCS. Affected EGUs may utilize retrofit CCS
technology to reduce reported stack CO2 emissions from the EGU.900
Affected EGUs that apply CCS under a state plan must meet the
same monitoring, recordkeeping and reporting requirements for
sequestered CO2 as new units that implement CCS to meet final
standards of performance under CAA section 111(b) for new
EGUs.901 Specifically, the final CAA section 111(b) rule for new
sources requires that, if a new affected EGU uses CCS to meet

900

Addition of retrofit CCS technology should not trigger CAA
section 111(b) applicability for modified or reconstructed
sources. Pollution control projects do not trigger NSPS
modifications and addition of CCS technology does not count
toward the capital costs of reconstruction for NSPS.
901 Standards of Performance for Greenhouse Gas Emissions from
New, Modified, and Reconstructed Stationary Sources: Electric
Utility Generating Units.
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the applicable CO2 emission limit, the EGU must report in
accordance with 40 CFR part 98 subpart PP (Suppliers of Carbon
Dioxide), and the captured CO2 must be injected at a facility or
facilities that report in accordance with 40 CFR part 98 subpart
RR (Geologic Sequestration of Carbon Dioxide).902,903 See 40 CFR
part 60.46Da(h)(5) and part 60.5555(d). Taken together, these
requirements ensure that the amount of captured and sequestered
CO2 will be tracked as appropriate at project- and nationallevels, and that the status of the CO2 in its sequestration site
will be monitored, including air-side monitoring and reporting.
As detailed in the preamble for the CAA section 111(b) standards
for new EGUs, the EPA found that there is ample evidence that
CCS is technically feasible and that partial CCS can be
implemented at a new fossil fuel-fired steam generating EGU at a
cost that is reasonable and that is consistent with the cost of

902

The final CAA section 111(b) rule finalizes amendments to
subpart PP reporting requirements, specifically requiring that
the following pieces of information be reported: (1) the
electronic GHG Reporting Tool identification (e-GGRT ID) of the
EGU facility from which CO2 was captured, and (2) the e-GGRT
ID(s) for, and mass of CO2 transferred to, each GS site reporting
under subpart RR. As noted, the final 111(b) rule also requires
that any affected EGU unit that captures CO2 to meet the
applicable emission limit must transfer the captured CO2 to a
facility that reports under 40 CFR part 98 subpart RR.
903 Under final requirements in the CAA 111(b) NSPS, any well
receiving CO2 captured from an affected EGU, be it a Class VI or
Class II well, must report under subpart RR. A UIC Class II
well’s regulatory status does not change because it receives
such CO2, nor does it change by virtue of reporting under subpart
RR.
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other dispatchable, non-NGCC generating options. In the June
2014 proposal, the EPA noted that CCS technology at existing
EGUs would entail additional considerations beyond those at
issue for newly constructed EGUs. Specifically, the cost of
integrating a retrofit CCS system into an existing facility may
be expected to be substantial, and some existing EGUs may have
space limitations and thus may not be able to accommodate the
expansion needed to install the equipment to implement CCS.
Further, the EPA noted that aggregated costs of applying CCS as
a component of the BSER for the large number of existing fossil
fuel-fired steam EGUs would be substantial and would be expected
to affect the cost and potentially the supply of electricity on
a national basis. Because there are lower-cost systems of
emission reduction available to reduce emissions from existing
plants, the EPA did not propose nor finalize CCS as a component
of the BSER for existing EGUs.
However, the EPA noted that CCS may be a viable CO2
mitigation technology at some existing sources and that it would
be available to states and to sources as a compliance option.
Numerous commenters agreed with the EPA’s proposed determination
that CCS technology is not part of the BSER building blocks for
existing EGUs. Other commenters opposed inclusion of CCS
requirements in state plans and provided specific reasons why
CCS would not be applicable in certain states. Many commenters
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felt that CCS technology is not adequately demonstrated and is
not economically practical at this time. Other commenters argued
that CCS is an available technology and that it can be
implemented at more EGUs than predicted by EPA modeling.
Some commenters noted that there are opportunities to
reduce the cost of CCS implementation by selling the captured CO2
for use in Enhanced Oil Recovery (EOR) operations. One commenter
expressed concern that federal requirements under the Greenhouse
Gas Reporting Program – specifically the requirement (mentioned
above) to report under 40 CFR part 98 subpart RR – would
foreclose, rather than encourage, the use of captured CO2 for
EOR. The EPA received similar public comments on the CAA 111(b)
proposal for new EGUs. The EPA disagrees with the commenters’
assertions and addressed those in the preamble for the final
standards of performance and in the Response-to-Comments (RTC)
document for the CAA 111(b) NSPS rulemaking. The EPA noted that
the cost of compliance with subpart RR is not significant enough
to offset the potential revenue for the EOR operator from the
sale of produced oil for CCS projects that are reliant on EOR.
The costs associated with subpart RR are relatively modest,
especially in comparison with revenues from an EOR field.
After consideration of the variety of comments we received
on this issue, we are confirming our proposal that CCS is not an
element of the BSER, but it is an available compliance measure
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for a state plan. EGUs implementing CCS would need to follow
reporting requirements established in the final CAA section
111(b) rule for new affected EGUs.
b. Application of CCU. The EPA received comments suggesting that
carbon capture and utilization (CCU) technologies should also be
allowed as a CO2 emission rate adjustment measure for affected
EGUs.
Potential alternatives to storing CO2 in geologic formations
are emerging and may offer the opportunity to offset the cost of
CO2 capture. For example, captured anthropogenic CO2 may be
stored in solid carbonate materials such as precipitated calcium
carbonate (PCC) or magnesium or calcium carbonate, bauxite
residue carbonation, and certain types of cement through
mineralization. The carbonate materials produced can be tailored
to optimize performance in specific industrial and commercial
applications. For example, these carbonate materials have been
used in the construction industry and, more recently and
innovatively, in cement production processes to replace Portland
cement.
The Skyonics Skymine® project, which opened its
demonstration project in October 2014, is an example of captured
CO2 being used in the production of carbonate products. This
plant converts CO2 into commercial products. It captures over
75,000 tons of CO2 annually from a San Antonio, Texas, cement
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plant and converts the CO2 into other products including sodium
carbonate and sodium bicarbonate.904 Other companies – including
Calera905 and New Sky906 – also offer commercially available
technology for the beneficial use of captured CO2. These
processes can be utilized in a variety of industrial
applications – including at fossil fuel-fired power plants.
However, consideration of how these emerging alternatives
could be used to meet CO2 emission performance rates or state CO2
emission goals would require a better understanding of the
ultimate fate of the captured CO2 and the degree to which the
method permanently isolates the captured CO2 or displaces other
CO2 emissions from the atmosphere.
Several commenters also suggested that algae-based CCU
(i.e., the use of algae to convert captured CO2 to useful
products – especially biofuels) should be recognized for its
potential to reduce emissions from existing fossil-fueled EGUs.
Unlike geologic sequestration, there are currently no
uniform monitoring and reporting mechanisms to demonstrate that
these alternative end uses of captured CO2 result in overall
reductions of CO2 emissions to the atmosphere. As these
alternative technologies are developed, the EPA is committed to

904
905
906

http://skyonic.com/technologies/skymine.
http://www.calera.com/beneficial-reuse-of-co2/process.html.
http://www.newskyenergy.com/index.php/products/carboncycle.

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working collaboratively with stakeholders to evaluate the
efficacy of alternative utilization technologies, to address any
regulatory hurdles, and to develop appropriate monitoring and
reporting protocols to demonstrate CO2 reductions.
In the meantime, state plans may allow affected EGUs to use
qualifying CCU technologies to reduce CO2 emissions that are
subject to an emission standard, or those that are counted when
demonstrating achievement of the CO2 emission performance rates
or a state rate-based or mass-based CO2 emission. State plans
must include analysis supporting how the proposed qualifying CCU
technology results in CO2 emission mitigation from affected EGUs
and provide monitoring, reporting, and verification requirements
to demonstrate the reductions. The EPA would then review the
appropriateness and basis for the analysis and the verification
requirements in the course of its review of the state plan.
c. Application of biomass co-firing and repowering. The EPA
received multiple comments supporting the use of biomass
feedstocks as a means of reducing CO2 emissions within state
plans. Several commenters also asserted that states should be
able to determine how biomass can be used in their plans.
Additionally, the EPA received a range of comments regarding the
valuation of CO2 emissions from biomass combustion. Some argued
that all biomass feedstocks should be considered “carbon
neutral,” while others maintained that only the full stack
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emissions from biomass combustion should be counted. As
discussed in the next section, the revised Framework for
Assessing Biogenic Carbon Dioxide for Stationary Sources907 and
2012 Science Advisory Board peer review of the 2011 Draft
Framework find that it is not scientifically valid to assume
that all biogenic feedstocks are “carbon neutral, but that the
net biogenic CO2 atmospheric contribution of different biomass
feedstocks can vary and depends on various factors, including
feedstock type and characteristics, production practices, and,
in some cases, the alternative fate of the feedstock.908 Other
comments focused on the use of sustainably-derived agricultural
and forest biomass feedstocks, including stakeholders who
supported and those against such feedstocks as approvable
elements, and those who wanted further definition of these
feedstocks. As discussed above and in more detail below, these
final guidelines provide that states can include qualified
biomass in their plans and include provisions for how qualified
biomass feedstocks or feedstock categories will be determined.
The EPA will review the appropriateness and basis for
determining qualified biomass feedstocks or feedstock categories
in its review of the approvability of a state plan.

907

www.epa.gov/climatechange/downloads/Framework-for-AssessingBiogenic-CO2-Emissions.pdf.
908 www.epa.gov/climatechange/ghgemissions/biogenicemissions.html.
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(1) Considerations for use of biomass in state plans.
The EPA recognizes that the use of some biomass-derived
fuels can play a role in controlling increases of CO2 levels in
the atmosphere. The use of some kinds of biomass has the
potential to offer a wide range of environmental benefits,
including carbon benefits. However, these benefits can typically
only be realized if biomass feedstocks are sourced responsibly
and attributes of the carbon cycle related to the biomass
feedstock are taken into account.
In November 2014, the agency released a second draft of the
technical report, Framework for Assessing Biogenic Carbon
Dioxide for Stationary Sources. The revised Framework, and the
EPA’s Science Advisory Board (SAB) peer review of the 2011 Draft
Framework, finds that it is not scientifically valid to assume
that all biogenic feedstocks are “carbon neutral” and that the
net biogenic CO2 atmospheric contribution of different biogenic
feedstocks generally depends on various factors related to
feedstock characteristics, production, processing and combustion
practices, and, in some cases, what would happen to that
feedstock and the related biogenic emissions if not used for
energy production.909 The revised Framework also found that the

909

Specifically, the SAB found that “There are circumstances in
which biomass is grown, harvested and combusted in a carbon
neutral fashion but carbon neutrality is not an appropriate a
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production and use of some biogenic feedstocks and subsequent
biogenic CO2 emissions from stationary sources will not
inevitably result in increased levels of CO2 to the atmosphere,
unlike CO2 emissions from combustion of fossil fuels.
The SAB peer review panel agreed that the use of biomass
feedstocks derived from the decomposition of biogenic waste in
landfills, compost facilities or anaerobic digesters did not
constitute a net contribution of biogenic CO2 emissions to the
atmosphere. And further, information considered in preparing the
second draft of the Framework, including the SAB peer review and
stakeholder input, supports the finding that use of wastederived feedstocks910 and certain forest-derived industrial
byproducts (such as those without alternative markets) are
likely to have minimal or no net atmospheric contributions of
biogenic CO2 emissions, or even reduce such impacts, when

priori assumption; it is a conclusion that should be reached
only after considering a particular feedstock’s production and
consumption cycle. There is considerable heterogeneity in
feedstock types, sources and production methods and thus net
biogenic carbon emissions will vary considerably.”
www.epa.gov/climatechange/ghgemissions/biogenic-emissions.html.
910 Types of waste-derived biogenic feedstocks may include:
landfill gas generated through the decomposition of MSW in a
landfill; biogas generated from the decomposition of livestock
waste, biogenic MSW, and/or other food waste in an anaerobic
digester; biogas generated through the treatment of waste water,
due to the anaerobic decomposition of biological materials;
livestock waste; and the biogenic fraction of MSW at waste-toenergy facilities.
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compared with an alternate fate of disposal.
In addition, as detailed in the President’s Climate Action
Plan,911 part of the strategy to address climate change includes
efforts to protect and restore our forests, as well as other
critical landscapes including grasslands and wetlands, in the
face of a changing climate. This country’s forests currently
play a critical role in addressing carbon pollution, removing
more than 13 percent of total U.S. GHG emissions each year.912
Conservation and sustainable management can help ensure our
forests and other lands will continue to remove carbon from the
atmosphere while also improving soil and water quality, reducing
wildfire risk and enhancing forests’ resilience in the face of
climate change.
Many states have recognized the importance of forests and
other lands for climate resilience and mitigation, and have
developed a variety of sustainable forestry policies, RE
incentives and standards, and GHG accounting procedures. Some
states, for example Oregon and California, have programs that
recognize the multiple benefits that forests provide, including
biodiversity and ecosystem services protection as well as

911

www.whitehouse.gov/sites/default/files/image/
president27sclimateactionplan.pdf.
912 www.epa.gov/climatechange/Downloads/ghgemissions/US-GHGInventory-2015-Chapter-6-Land-Use-Land-Use-Change-andForestry.pdf.
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climate change mitigation through carbon storage. Oregon has
several programs focused on best forest management practices and
sustainability, including the Oregon Indicators of Sustainable
Forests, that promote environmentally, economically and socially
sustainable management of state forests. California’s Forest
Practice Regulations support sustained production of highquality timber while considering ecological, economic and social
values, and the state’s Greenhouse Gas Reduction Fund provides
resources for forestry projects to improve forest health,
maintain carbon storage and avoid GHG emissions from pests,
wildfires and conversion to non-forest uses.
Several states focus on sustainable bioenergy, as seen with
the sustainability requirements for eligible biomass in the
Massachusetts RPS, which, among other requirements, limits old
growth forest harvests. Many states employ complementary
programs that together work to address sustainable forestry
practices. For example, Wisconsin uses a state forest
sustainability framework that provides a common system to
measure the sustainability of the state’s public and private
forests, in conjunction with a series of voluntary best
management guideline manuals for sustainable woody biomass and
agriculturally-derived biomass. In addition to state-specific
programs, some states also actively participate in sustainable
forest management or certification programs through third-party
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entities such as the Sustainable Forestry Initiative (SFI) and
the Forest Stewardship Council (FSC). For example, in addition
to other state sustainability programs, New York has certified
more than 780,000 acres of state forestland to both SFI and
FSC’s sustainable forest management programs. SFI and FSC have
certified more than 63 and 35 million acres of forestland across
the U.S., respectively.
These examples demonstrate how states already use diverse
strategies to promote sustainable forestry and agricultural
management while realizing their unique economic, environmental
and RE goals. As states evaluate options for meeting the
emission guidelines, they may consider how sustainably-derived
biomass and sustainable forestry and agriculture programs, such
as the examples highlighted above, may help them control
increases of CO2 levels in the atmosphere. In addition, the EPA’s
work on assessing biogenic CO2 emissions from stationary sources
may also help inform states’ efforts to assess the role of
different biogenic feedstocks in their plans and broader climate
strategies.913
The EPA is engaging in a second round of targeted peer
review on the revised Framework with the SAB in 2015.914 As part

913

As highlighted in a November 2014 memorandum to the EPA’s
Regional Air Division Directors.
www.epa.gov/climatechange/ghgemissions/biogenic-emissions.html.
914 www.epa.gov/sab.
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of this technical process, and as the EPA and states implement
these emission guidelines, the EPA will continue to assess and
closely monitor overall bioenergy demand and associated
landscape conditions for changes that might have negative
impacts on public health or the environment.
(2) Additional considerations and requirements for biomass
fuels.
The EPA anticipates that some states may consider the use
of certain biomass-derived fuels used in electricity generation
as a way to control increases of CO2 levels in the atmosphere,
and will include them as part of their state plans to meet the
emission guidelines. Not all forms of biomass are expected to be
approvable as qualified biomass (i.e., biomass that can be
considered as an approach for controlling increases of CO2 levels
in the atmosphere). Affected EGUs may use qualified biomass in
order to control or reduce CO2 emissions that are subject to an
emission standard requirement, or those that are counted when
demonstrating achievement of the CO2 emission performance rates
or a state rate-based or mass-based CO2 emission goal.
State plan submissions must describe the types of biomass
that are being proposed for use under the state plan and how
those proposed feedstocks or feedstock categories should be
considered as “qualified biomass” (i.e., a biomass feedstock
that is demonstrated as a method to control increases of CO2
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levels in the atmosphere). The submission must also address the
proposed valuation of biogenic CO2 emissions (i.e., the proposed
portion of biogenic CO2 emissions from use of the biomass
feedstock that would not be counted when demonstrating
compliance with an emission standard, or when demonstrating
achievement of the CO2 emission performance rates or a state
rate-based or mass-based CO2 emission goal).
With regard to assessing qualified biomass proposed in
state plans, the EPA generally acknowledges the CO2 and climate
policy benefits of waste-derived biogenic feedstocks and certain
forest- and agriculture-derived industrial byproduct feedstocks,
based on the conclusions supported by a variety of technical
studies, including the revised Framework for Assessing Biogenic
Carbon Dioxide for Stationary Sources. The use of such wastederived and certain industrial byproduct biomass feedstocks
would likely be approvable as qualified biomass in a state plan
when proposed with measures that meet the biomass monitoring,
reporting and verification requirements discussed below and
other measures as required elsewhere in these emission
guidelines.
Given the importance of sustainable land management in
achieving the carbon goals of the President’s Climate Action
Plan, sustainably-derived agricultural and forest biomass
feedstocks may also be acceptable as qualified biomass in a
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state plan, if the state-supplied analysis of proposed qualified
feedstocks or feedstock categories can adequately demonstrate
that such feedstocks or feedstock categories appropriately
control increases of CO2 levels in the atmosphere and can
adequately monitor and verify feedstock sources and related
sustainability practices. Information in the revised Framework,
the second SAB peer review process, and the state and third
party programs highlighted in the previous section can assist
states when considering the role of qualified biomass in state
plan submittals.
Regardless of what biomass feedstocks are proposed, state
plans must specify how biogenic CO2 emissions will be monitored
and reported, and identify specific EM&V, tracking and auditing
approaches for qualified biomass feedstocks. As discussed in
section VIII.D.2, state plan submittals must include CO2 emission
monitoring, reporting and recordkeeping measures. In the case of
sustainably-derived forest- and agriculture-derived feedstocks,
this will also include measures for verifying feedstock type,
origin and associated sustainability practices. Section VIII.K
describes how state plan submittals must specify the
requirements and procedures that EM&V measures must meet. As
discussed in section VIII.K, the EPA is addressing potential
EM&V measures for qualified biomass in EPA’s model trading rule
and draft EM&V guidance, such as measures that would ensure that
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biomass-related biogenic CO2 benefits are quantifiable,
verifiable, non-duplicative, permanent and enforceable.
State plan submittals must ensure that all biomass used
meets the state plan requirements for qualified biomass and
associated biogenic CO2 benefits, such as using robust,
independent third party verification and establishing measures
to maintain transparency, including disclosure of relevant
documentation and reports. State plan submittals must include
measures for tracking and auditing performance to ensure that
biomass used meets the state plan requirements for qualified
biomass and associated biogenic CO2 benefits. Details on how to
adjust CO2 rates through the use of qualified biomass feedstocks
are provided in section VIII.K.1.
The EPA will review the appropriateness and basis for
proposed qualified biomass and biomass treatment determinations
and related accounting, monitoring and reporting measures in the
course of its review of a state plan. The EPA’s determination
that a state plan satisfactorily proves that proposed biomass
fuels qualify would be based in part on whether the plan
submittal demonstrates that proposed state measures for
qualified biomass and related biogenic CO2 benefits are
quantifiable, verifiable, enforceable, non-duplicative and
permanent. The EPA recognizes that CCS technology (described
above in section VIII.I.2.a) could be applied in conjunction
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with the use of qualified biomass.
(3) Biomass co-firing.
Affected EGUs may use qualified biomass co-fired with
fossil fuels at an affected EGU. As discussed above in this
section, not all forms of biomass are expected to be approvable
and states should propose biomass feedstocks and treatment of
biogenic CO2 emissions in state plans, along with supporting
analysis where applicable. The EPA will review the
appropriateness and basis for such determinations and accounting
measures in the course of its review of a state plan.
An affected EGU using qualified biomass as a fuel must
monitor and report both its overall CO2 emissions and its
biogenic CO2 emissions. If biomass is to be used as means to
control increases of CO2 levels in the atmosphere in a state
plan, the plan must specify requirements for reporting biogenic
CO2 emissions from affected EGUs.
(4) Biomass repowering.
Affected EGUs could fully repower to use primarily
qualified biomass. The characteristics of affected EGUs, as
discussed in section IV.D, include the use of at least 10
percent fossil fuel for applicability of these emission
guidelines. An EGU repowering with at least 90 percent biomass

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fuels instead of fossil fuels becomes a non-affected EGU.915 An
EGU repowering with less than 90 percent biomass would remain an
affected EGU and therefore need to propose biomass feedstocks
and treatment of biogenic CO2 emissions in state plans, along
with supporting analysis where applicable.
J. Additional Considerations and Requirements for Mass-Based
State Plans
This section discusses considerations and requirements for
different types of mass-based state plans. This includes massbased state plans using emission budget trading programs, and
coordination among such programs where states retain individual
mass CO2 emission goals. CAA section 111(d) requires states to
submit, in part, a plan that establishes standards of
performance for affected EGUs which reflect the BSER. The state
plan must be satisfactory with respect to this requirement in
order for the EPA to approve the plan. As previously described,
states meet the statutory requirements of 111(d) and the
requirements of the final emission guidelines by establishing
emission standards for affected EGUs that meet the performance
rates, which reflect the application of BSER as determined by

915

For such an EGU to be considered non-affected, the EGU must
be subject to a federally enforceable or practically enforceable
condition, expressed in (for example) a construction permit or
otherwise, that limits the amount of fossil fuel that may be
used to 10 percent or less.
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the EPA. This final rule allows states to alternatively
establish emission standards that meet rate-based or mass-based
goals. The state goals must be equivalent to the performance
rates in order to reflect the application of the BSER as
required by the statute and the final emission guidelines.
Therefore, a state choosing a mass-based implementation must
address leakage as part of its mass-based plan in order to
satisfactorily establish emission standards for affected EGUs
that reflect the BSER as set by the EPA.
1. Accounting for CO2 emission reduction measures in mass-based
state plans
As discussed in section VIII.I, measures that occur at
affected EGUs will result in CO2 emission reductions that are
automatically accounted for in reported CO2 emissions. Other
measures that provide substitute generation for affected EGUs or
avoid the need for generation from affected EGUs, such as
demand-side EE, are automatically accounted for under a massbased plan to the extent that these measures reduce reported CO2
emissions from affected EGUs. Unlike under a rate-based plan, no
additional accounting is necessary in order to recognize these
emission reductions.
2. Use of emission budget trading programs
This section addresses the use of emission budget trading
programs in a mass-based state plan, including provisions
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required for such programs and the design of such programs in
the context of a state plan. This includes program design
approaches that ensure achievement of a state mass-based CO2
emission goal (or mass-based CO2 goal plus new source CO2
emission complement) (section VIII.J.2.b), as well as how states
can use emission budget trading programs with broader source
coverage and other flexibility features in a state plan, such as
the programs currently implemented by California and the RGGI
participating states (section VIII.J.2.c). Section VIII.J.2.d
addresses other considerations for the design of emission budget
trading programs that states may want to consider, such as
allowance allocation approaches. Section VIII.J.3 addresses
multi-state coordination among emission budget trading programs
used in states that retain their individual state mass-based CO2
goals.
a. State plan provisions required for a mass-based emission
budget trading program approach. For a mass-based emission
trading program approach, the state plan would include as its
federally enforceable emission standards requirements that
specify the emission budget and related compliance requirements
and mechanisms. These requirements would include: CO2 emission
monitoring, reporting, and recordkeeping requirements for
affected EGUs; provisions for state allocation of allowances;
provisions for tracking of allowances, from issuance through
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submission for compliance; and the process for affected EGUs to
demonstrate compliance (allowance “true-up” with reported CO2
emissions). Mass-based emission standards that take the form of
an emission budget trading program must be quantifiable,
verifiable, enforceable, non-duplicative and permanent. These
requirements are described in more detail at section VIII.D.2.
Where a state plan establishes mass-based emission
standards for affected EGUs only, the emission standards and the
implementing and enforcing measures may be included in the state
plan as the full set of requirements implementing the emission
budget trading program. Where an emission budget trading program
in a state plan addresses affected EGUs and other fossil fuelfired EGUs or emission sources, pursuant to the approaches
described in sections VIII.J.2.b-d below, the requirements that
must be included in the state plan are the federally enforceable
emission standards in the state plan that apply specifically to
affected EGUs, and the requirements that specifically require
affected EGUs to participate in and comply with the requirements
of the emission budget trading program. This includes the
requirement for an affected EGU to surrender emission allowances
equal to reported CO2 emissions, and meet monitoring and
reporting requirements for CO2 emissions, among other
requirements. These requirements may be submitted as part of the
federally enforceable state plan through mechanisms with the
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appropriate legal authority and effect, such as state
regulations, Title V permit requirements for affected EGUs, and
other possible instruments that impose these requirements
specifically with respect to affected EGUs. Under this approach,
the full set of regulations establishing the emission budget
trading program that applies to affected EGUs and other fossil
fuel-fired EGUs and other emission sources (if relevant) must be
described as supporting documentation in the state plan
submittal for EPA to evaluate the approvability of the plan by
determining whether the affected EGUs will achieve the requisite
goal.
b. Requirement for emission budget trading programs to address
potential leakage. In Section VII.D, the EPA specifies that
potential emission leakage must be addressed in a state plan
with mass-based emission standards. The EPA received comments
suggesting various solutions to this concern, such as the
inclusion of new sources under the rule and quantitative
adjustments to mass CO2 goals for affected EGUs. In response to
this issue, the EPA has sought to give states flexibility in how
they meet this requirement and base the acceptable solutions on
what will best suit a state’s unique characteristics and state
plan structure.
To address the potential for emission leakage to new
sources under a mass-based plan approach, which could prevent a
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mass-based program from successfully achieving a mass-based CO2
goal consistent with BSER, the EPA is requiring that a state
submitting a plan that is designed to meet a state mass-based CO2
goal for affected EGUs demonstrate that the plan addresses and
mitigates the risk of potential emission leakage to new sources.
The following options provide sufficient demonstration that
potential emission leakage has been addressed in a mass-based
state plan:916
1. Regulate new non-affected fossil EGUs as a matter of
state law in conjunction with emission standards for
affected EGUs in a mass-based plan. If a state adopts an
EPA-provided mass budget917 that includes the state massbased CO2 goal for affected EGUs plus a new source CO2
emission complement, this option could be presumptively
approvable.
2. Use allocation methods in the state plan that counteract
incentives to shift generation from affected EGUs to
unaffected fossil-fired sources. If a state adopts
allowance set-aside provisions exactly as they are
outlined in the finalized model rule, this option could

916

The first two options need not be mutually exclusive; they
can both be implemented as part of a mass-based plan.
917 In Table 14, we have provided a mass budget for each state
that includes the state mass-based CO2 goal and a projection for
a new source CO2 emission complement.
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be presumptively approvable.
3. Provide a demonstration in the state plan, supported by
analysis, that emission leakage is unlikely to occur due
to unique state characteristics or state plan design
elements that address and mitigate the potential for
emission leakage.
In the first option, states may choose to regulate new nonaffected fossil fuel-fired EGUs, as a matter of state law, in
conjunction with federally enforceable emission standards for
affected EGUs under a mass-based plan. This regulation of both
new and existing sources, as part of a state plan approach, is
conceptually analogous to a method that has been adopted by the
mass-based systems adopted by California and the RGGI
participating states. To address potential emission leakage
under this option, the mass-based plan includes federally
enforceable emission standards for affected EGUs, and the
supporting documentation for the plan describes stateenforceable regulations for, at a minimum, all new gridconnected fossil fuel-fired EGUs that meet the applicability
standards for EGUs subject to CAA section 111(b). States have
the option of regulating a wider array of sources if they
choose, as a matter of state law.
For this option, a state must adopt, as a matter of state
law, a mass CO2 emission budget of sufficient size to cover both
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affected EGUs under the existing source mass CO2 goal provided in
this final rule, along with sufficient CO2 emission tonnage to
cover projected new sources. There are two pathways that states
can use for adopting such an emission budget that applies to
both affected EGUs and new sources. The EPA is providing a mass
budget for each state that account for the state’s mass CO2 goal
for affected EGUs and a complementary emission budget for new
sources, referred to as the new source CO2 emission complement.
States that both adopt the EPA-provided mass budget, based on
the state mass-based CO2 goal for affected EGUs plus the new
source CO2 emission complement, and regulate new sources under
this emission budget as a matter of state law, in conjunction
with federally enforceable emission standards for affected EGUs
as part of the mass-based state plan may be able to submit a
presumptively approvable plan. Such a plan would include
federally enforceable emission standards for affected EGUs, and
in the supporting documentation of the plan, would describe that
the state is regulating new sources under a mass CO2 emission
budget that is equal to or less than the state mass-based CO2
goal for affected EGUs plus the EPA-specified CO2 emission
complement, in conjunction with the federally enforceable
emission standards for affected EGUs. If the state plan is
designed to achieve the EPA provided mass budget, plan
performance will be evaluated based on whether the existing
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affected EGUs, regulated under the federally enforceable state
plan, and new sources regulated as a matter of state law,
together meet the total mass budget that includes the state’s
mass CO2 goal for affected EGUs and a complementary emission
budget for new sources.
EPA-specified mass CO2 emission budgets for each state,
including the state’s mass CO2 goal and a new source CO2 emission
complement, are provided in Table 14 below. The derivation of
the new source CO2 emission complements is explained in a TSD
titled New Source Complements to Mass Goals, which is available
in the docket.
Table 14. New Source Complements to Mass Goals

State

New Source
Complements (Short
Tons of CO2)
Interim
Final

Mass Goals918 + New Source
Complements (Short Tons of
CO2)
Interim
Final

Alabama

856,524

755,700

63,066,812

57,636,174

Arizona

1,424,998

2,209,446

34,486,994

32,380,196

Arkansas

411,315

362,897

34,094,572

30,685,529

California

2,846,529

4,413,516

53,873,603

52,823,635

Colorado

1,239,916

1,922,478

34,627,799

31,822,874

Connecticut

135,410

119,470

7,373,274

7,060,993

Delaware

78,842

69,561

5,141,711

4,781,386

918

The state mass CO2 goals can be found in Table 13 in section
VII.
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Florida

1,753,276

1,546,891

114,738,005

106,641,595

Georgia

677,284

597,559

51,603,368

46,944,404

Idaho

94,266

146,158

1,644,407

1,639,013

Illinois

818,349

722,018

75,619,224

67,199,174

Indiana

939,343

828,769

86,556,407

76,942,604

Iowa

298,934

263,745

28,553,345

25,281,881

Kansas

260,683

229,997

25,120,015

22,220,822

Kentucky

752,454

663,880

72,065,256

63,790,001

Louisiana

484,308

427,299

39,794,622

35,854,321

Maine

40,832

36,026

2,199,016

2,109,968

Maryland

170,930

150,809

16,380,325

14,498,436

Massachusetts

225,127

198,626

12,972,803

12,303,372

Michigan

623,651

550,239

53,680,801

48,094,302

Minnesota

286,535

252,806

25,720,126

22,931,173

Mississippi

410,440

362,126

27,748,753

25,666,463

Missouri

668,637

589,929

63,238,070

56,052,813

Montana

421,674

653,801

13,213,003

11,956,908

Nebraska

216,149

190,706

20,877,665

18,463,444

Nevada

770,417

1,194,523

15,114,508

14,718,107

New Hampshire

71,419

63,012

4,314,910

4,060,591

New Jersey

313,526

276,619

17,739,906

16,876,364

New Mexico

527,139

817,323

14,342,699

13,229,925

New York

522,227

460,753

34,117,555

31,718,182

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North Carolina

692,091

610,623

57,678,116

51,876,856

North Dakota

245,324

216,446

23,878,144

21,099,677

Ohio

949,997

838,170

83,476,510

74,607,975

Oklahoma

581,051

512,654

45,191,382

41,000,852

Oregon

453,663

703,399

9,096,826

8,822,053

Pennsylvania

1,257,336

1,109,330

100,588,162

90,931,637

Rhode Island

70,035

61,791

3,727,420

3,584,016

South Carolina

344,885

304,287

29,314,508

26,303,255

South Dakota

46,513

41,038

3,995,462

3,580,518

Tennessee

358,838

316,598

32,143,698

28,664,994

Texas

5,328,758

8,516,408

213,419,599

198,105,249

Utah

981,947

1,522,500

27,548,327

25,300,693

Virginia

450,039

397,063

30,030,110

27,830,174

Washington

531,761

824,490

12,211,467

11,563,662

West Virginia

602,940

531,966

58,686,029

51,857,307

Wisconsin

364,841

321,895

31,623,197

28,308,882

Wyoming
Lands of the
Navajo Nation
Lands of the
Uintah and
Ouray
Reservation
Lands of the
Fort Mojave
Tribe

1,185,554

1,838,190

36,965,606

33,472,602

809,562

1,255,217

25,367,354

22,955,804

84,440

130,923

2,645,885

2,394,354

37,162

57,619

648,264

646,138

Total

33,717,871 41,187,289 1,878,255,620 1,709,291,348

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States can, in the alternative, provide their own
projections for a new source CO2 emission complement to their
mass-based CO2 goals for affected EGUs. In the supporting
documentation for the state plan submittal, the state must
specify the new source budget, specify the analysis used to
derive such a new source CO2 emission complement, and the state
must demonstrate that under the state plan affected EGUs in the
state will meet the state mass-based CO2 goal for affected EGUs
as a result of being regulated under the broader CO2 emission cap
that applied to both affected EGUs and new sources. Such a
projection should take into account the mass goal quantification
method outlined in section VII.C and the CO2 Emission Performance
Rate and Goal Computation TSD, including the fact that the massbased state goals already incorporate a significant growth in
generation from historical levels. The EPA will evaluate the
approvability of the plan based on whether the federally
enforceable emission standards for affected EGUs in conjunction
with the state-enforceable regulatory requirements for new
sources will result in the affected EGUs meeting the state massbased CO2 goal. If, rather than designing a plan to achieve the
EPA provided mass budget, the state uses its own projections for
a new source complement and the plan is approved to meet this
new source complement, plan performance will be evaluated based
on whether the existing affected EGUs, regulated under the
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federally enforceable state plan, meet the state’s mass CO2 goal
for affected EGUs.
The second demonstration option allows states to use
allowance allocation methods that counteract incentives to shift
generation from affected EGUs to unaffected fossil-fired
sources. These allocation approaches must be specified in state
plans as part of the provisions for state allocation of
allowances required under a mass-based plan approach (see
section VIII.J.2.a). The EPA is proposing the inclusion of two
allocation strategies as part of the mass-based approach in the
proposed federal plan and model rule: updating output-based
allocations and an allowance set-aside that targets RE. These
options are described in more detail below. If a state were to
adopt allowance set-aside provisions exactly as they are
outlined in the finalized model rule, they could be considered
presumptively approvable. The allowance allocation alternative
for addressing leakage was chosen for the federal plan and model
rule proposal because EPA does not have authority to extend
regulation of and federal enforceability to new fossil fuelfired sources under CAA section 111(d), and therefore we cannot
include them under a federal mass-based plan approach.
An updating output-based allocation method allocates a
portion of the total CO2 emission budget to affected EGUs based,
in part, on their level of electricity generation in a recent
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period or periods. Therefore, the total allocation to an EGU
that is eligible to receive allowances from an output-based
allowance set-aside is not fixed, but instead depends on its
generation. Under this approach, each eligible affected EGU may
receive a larger allowance allocation if it generates more.
Therefore, eligible affected EGUs will have an incentive to
generate more in order to receive more allowances, aligning
their incentive to generate with new sources.
This allocation method can be implemented through the
creation of a set-aside that reserves a subset of the total
allowances available to sources, and distributes them based upon
the criteria described above. Because the total number of
allowances is limited, this allocation approach will not exceed
the overall state mass-based CO2 goal for affected EGUs. Instead,
it merely modifies the distribution of allowances in a manner
designed to mitigate potential emission leakage.
The other allocation strategy included as part of the massbased approach in the proposed federal plan and model rule is a
set-aside of allowances to be allocated to providers of
incremental RE. A set-aside can also be allocated to providers
of demand-side EE, or to both RE and demand-side EE. The
increased availability of RE generation can serve as another
source of generation to satisfy electricity demand. Increased
demand-side EE will reduce the demand that sources need to meet.
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Therefore, both RE and demand-side EE can serve to reduce the
incentive that new sources have to generate, and therefore align
their incentives with affected EGUs. Thus, increased RE and
demand-side EE, supported by a dedicated set-aside, can also
serve to address potential emission leakage.
If a state is submitting a plan with an allocations
approach that differs from that of the finalized model rule, the
state should also provide a demonstration of how the specified
allocation method will provide sufficient incentive to
counteract potential emission leakage.
Finally, a state can provide a demonstration that emission
leakage is unlikely to occur, without implementing either of the
two strategies above, as a result of unique factors, such as the
presence of existing state policies addressing emission leakage
or unique characteristics of the state and its power sector that
will mitigate the potential for emission leakage. This
demonstration must be supported by credible analysis. The EPA
will determine if the state has provided a sufficient
demonstration that potential emission leakage has already been
adequately addressed, or if additional action is required as
part of the state plan.
Aside from the possible incentives for emission leakage
addressed in this section, there may be other potential
generation incentives across states and unit subcategories that
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could increase CO2 emissions, particularly in an environment
where various states are implementing a variety of state plan
approaches in a shared grid region. Some examples of these
incentives, particularly those that were specified by
commenters, are discussed in section VIII.L. That section also
describes how the EPA has structured this final rule to either
prevent or minimize the potential for foregone emission
reductions from differential incentives that may result from
state plan implementation. These safeguards include placing
restrictions on interstate trading when there could be a risk of
such differential incentives. Additionally, the nature of the CO2
emission performance rates and state rate-based CO2 goals helps
to minimize these potential effects, as does the MWh-accounting
method for adjusting the CO2 emission rates of affected EGUs
under rate-based plans.
However, without a better understanding of the different
mechanisms that states may ultimately choose to meet the
emission guidelines, and how different requirements in different
states may interact, the EPA cannot project every potential
differential incentive that could lead to a loss of CO2 emission
reductions. Therefore, once program implementation begins, the
EPA will assess how emission performance across states may be
affected by the interaction of different regulatory structures
implemented through state plans. Based upon that evaluation, the
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EPA will determine whether there are potential concerns and what
course of action may be appropriate to remedy such concerns.
c. Emission budget trading programs that ensure achievement of a
state CO2 goal. A mass-based emission budget trading program can
be designed such that compliance by affected EGUs will achieve
the state mass-based CO2 goal. Under this approach, a state plan
would establish CO2 emission budgets for affected EGUs during the
interim and final plan performance periods that are equal to or
lower than the applicable state mass-based CO2 goals specified in
section VII. A mass-based emission budget trading program can
also be designed such that compliance by affected EGUs in
conjunction with new fossil fuel-fired EGUs meeting applicable
requirements under state law will achieve a mass-based CO2 goal
plus new source CO2 emission complement. Under this approach, a
state would establish CO2 emission budgets under state law for
affected EGUs plus new sources during the interim and final plan
performance periods that are equal to or lower than the
applicable state mass-based CO2 emission goal plus the new source
CO2 emission complement specified in Table 14 in section
VIII.J.2.b above, and describe such emission budgets in the
supporting documentation of the state plan. Under either
program, compliance periods for affected EGUs (or for affected
EGUs plus new fossil fuel-fired EGUs meeting applicable
requirements under state law) would also be aligned with the
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interim and final plan performance periods. This approach would
limit total CO2 emissions from affected EGUs (or total CO2
emissions from affected EGUs and new fossil fuel-fired EGUs
meeting applicable requirements under state law) during the
interim and final plan performance periods to an amount equal to
or less than the state’s mass-based CO2 goal (or mass-based CO2
goal plus new source CO2 emission complement).
Under this approach, compliance by affected EGUs with the
mass-based emission standards in a plan would ensure that the
state achieves its mass-based CO2 goal for affected EGUs (or
mass-based CO2 goal plus new source CO2 emission complement). No
further demonstration would be necessary by the state to
demonstrate that its plan would achieve the state’s mass-based
CO2 goal (or mass-based CO2 goal plus new source CO2 emission
complement).
For this type of plan, where the emission budget is equal
to or less than the state mass CO2 goal (or mass-based CO2 goal
plus new source CO2 emission complement),919 the EPA would assess
achievement of the state goal based on compliance by affected
EGUs with the mass-based emission standards, rather than
reported CO2 emissions by affected EGUs during the interim plan

919

As specified for the interim plan performance period
(including specified levels in interim steps 1 through 3) and
the final two-year plan performance periods.
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performance periods and final plan performance periods. This
approach would allow for allowance banking between performance
periods, including the interim and final performance periods
outlined in this final rule.
Banking provisions have been used extensively in rate-based
environmental programs and mass-based emission budget trading
programs. This is because banking reduces the cost of attaining
the requirements of the regulation. The EPA has determined that
the same rationale and outcomes apply under a CO2 emission rate
approach, in that allowing banking will reduce compliance costs.
Banking encourages additional emission reductions in the nearterm if economic to meet a long-term emission rate constraint,
which is beneficial due to social preferences for environmental
improvements sooner rather than later. It is also beneficial
when addressing pollutants that are long-lived in the
atmosphere, such as CO2, and where increasing atmospheric
concentration of the pollutant leads to increasing adverse
atmospheric impacts.
Banking also provides long-term economic signals to
affected emission sources and other market participants where
actions taken today will have economic value in helping meet
tighter emission constraints in the future, provided those
emission sources expect that the banked ERCs or emission
allowances may be used for compliance in the future. Linking
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short-term and long-term economic incentives, which allows
owners or operators of affected EGUs and other market
participants to assess both short-term and long-term incentives
when making decisions about compliance approaches or emission
reduction investments, reduces long-term compliance costs for
affected EGUs and ratepayer impacts. In addition, the increased
temporal flexibility provided by banking would further help
address potential electric reliability concerns, as banked ERCs
can be used to meet emission standard requirements for an
affected EGU.
d. Addressing emission budget trading programs with broader
source coverage and other flexibility features. As described in
section VIII.C above, under the emission standards plan type, a
mass-based emission budget trading program with broader source
coverage and other flexibility features may be designed such
that compliance by affected EGUs (or compliance by affected EGUs
plus new fossil fuel-fired EGUs meeting applicable requirements
under state law) would assure achievement of the applicable
state mass-based CO2 goal (or mass-based CO2 goal plus new source
CO2 emission complement).920
However, emission budget trading programs, including those

920

Section VIII.J.2.a describes how state plan submittals must
include as requirements, or describe as part of supporting
documentation, relevant aspects of such emission budget trading
programs.
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currently implemented by California and the RGGI participating
states, include a number of different design elements that
functionally expand the emission budget under certain
circumstances. If a state chose, it could apply such mass-based
emission standards, in the form of an emission budget trading
program that differs in design from that outlined in section
VIII.J.2.c above. These types of emission budget trading
programs must be submitted as a part of a state measures plan
type. Where an emission budget trading program addresses
affected EGUs and other fossil fuel-fired EGUs, the requirements
that must be included in the state plan are the federally
enforceable emission standards in the state plan that apply
specifically to affected EGUs, and the requirements that
specifically require affected EGUs to participate in and comply
with the requirements of the emission budget trading program.
This includes the requirement for an affected EGU to surrender
emission allowances equal to reported CO2 emissions, and meet
monitoring and reporting requirements for CO2 emissions, among
other requirements. These requirements may be submitted as part
of the federally enforceable state plan through mechanisms with
the appropriate legal authority and effect, such as state
regulations, relevant Title V permit requirements for affected
EGUs, and other possible instruments that impose these

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requirements specifically with respect to affected EGUs.921 Under
this approach, the full set of regulations establishing the
emission budget trading program that applies to affected EGUs
and other fossil fuel-fired EGUs and other mission sources (if
relevant) must be described as supporting documentation in the
state plan submittal. This structure is appropriate to ensure
that states with an emission budget trading program that
addresses both affected EGUs and other fossil fuel-fired EGUs do
not inappropriately submit requirements regarding entities other
than affected EGUs for inclusion in the federally enforceable
state plan.
Such state programs could include a number of different
design elements. This includes broader program scope, where a
program includes other emission sources beyond affected EGUs
subject to CAA section 111(d) and new fossil fuel-fired EGUs,
such as industrial sources. Programs might also include design
elements that make allowances available in addition to the
established emission budget. This includes project-based offset
allowances or credits from GHG emission reduction projects
outside the covered sector and cost containment reserve

921

This approach for establishing federally enforceable emission
standards based on requirements for affected EGUs subject to a
broader emission budget trading program that also covers nonaffected emission sources is addressed in section VIII.J.2.d.
above.
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provisions that make additional allowances available at
specified allowance prices.922
In the case where an emission budget trading program
contains elements that functionally expand the emission budget
in certain circumstances, compliance by affected EGUs with the
mass-based emission standards would not necessarily ensure that
CO2 emissions from affected EGUs do not exceed the state’s massbased CO2 goal (or mass-based CO2 goal plus new source CO2
emission complement). However, states could modify such programs
to remove flexibility mechanisms that functionally expand the
emission budget, such as out-of-sector offsets and certain cost
containment reserve mechanisms, and submit the program under an
emission standards plan type.
Where a state chooses to retain such flexibility mechanisms
as part of an emission budget trading program, the program may
only be implemented as part of a state measures plan type
because these state flexibility mechanisms would not assure CO2
emissions from affected EGUs do not exceed the state’s massbased CO2 goal (or mass-based CO2 goal plus new source CO2

922

For example, both the California and RGGI programs allow for
the use of allowances awarded to GHG offset projects to be used
to meet a specified portion of an affected emission source’s
compliance obligation. The RGGI program contains a cost
containment allowance reserve that makes available additional
allowances up to a certain amount, at specified allowance price
triggers.
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emission complement). A description of the state measures plan
type and related requirements is provided in section VIII.C.3.
Under this type of approach, the state would be required to
include a demonstration,923 in its state plan submittal, of how
its plan would achieve the state mass-based CO2 goal (or massbased CO2 goal plus new source CO2 emission complement). This
demonstration would include a projection of the total CO2
emissions from the fleet of affected EGUs that would occur as a
result of compliance with the emission standards in the plan.
Section VIII.D.2 discusses how such demonstrations could address
design elements of emission budget trading programs with broader
scope and additional compliance flexibility mechanisms, such as
those included in the California and RGGI programs. Once the
plan is implemented, if the mass-based CO2 goal is not achieved
during a plan performance period, the backstop federally
enforceable emission standards included in the state plan that
apply to affected EGUs would be implemented, as described in
section VIII.C.3.b.924

923

A demonstration of how a plan will achieve a state’s ratebased or mass-based CO2 goal (or mass-based CO2 goal plus new
source CO2 emission complement) is one of the required plan
components, as described in section VIII.D.2.
924 Achievement of the state mass-based CO
2 goal would be
determined based solely on stack CO2 emissions from affected
EGUs. Where a state program includes the ability of an affected
emission source to use GHG offsets to meet a portion of its
allowance compliance obligation, no “credit” is applied to
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e. Considerations for mass-based emission budget trading
programs. The EPA notes that while an emission budget trading
program included in an emission standards plan must be designed
to achieve a state mass-based CO2 goal (or mass-based CO2 goal
plus new source CO2 emission complement), states have wide
discretion in the design of such programs, provided the emission
standards included in the plan are quantifiable, verifiable,
enforceable, non-duplicative, and permanent.
(1) Allowance allocation. A key example is state discretion in
the CO2 allowance allocation methods included in the program.925
This includes the methods used to distribute CO2 allowances and
the parties to which allowances are distributed. For example, if
a state chose, it could include CO2 allowance allocation
provisions that provide incentives for certain types of
complementary activities, such as RE generation, that help
achieve the overall CO2 emission limit for affected EGUs
established under the program. In addition, a state could use
its allocation provisions to encourage investments in RE and

reported CO2 emissions by the affected EGU. The use of offset
allowances or credits in such programs merely allows an affected
EGU to emit a ton of CO2 in the amount of submitted offset
allowances or credits. In all cases, there is no adjustment
applied to reported stack emissions of CO2 from an affected EGU
when determining compliance with its emission limit.
925 Allowance allocation refers to the methods used to distribute
CO2 allowances to the owners or operators of affected EGUs and/or
other market participants.
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demand-side EE in low-income communities. States could also use
CO2 allowance allocation provisions to provide incentives for
early action, such as RE generation or demand-side EE savings
that occur prior to the beginning of the interim plan
performance period in 2022. For example, a state could include
CO2 allowance allocation provisions where CO2 allowances are
distributed to RE generators based on MWh of RE generation that
occurs prior to 2022. Such provisions might be addressed through
a finite set-aside of CO2 allowances that are available for
allocation under these provisions. This set-aside could be
additional to a set-aside created by the state for the CEIP
discussed in section VIII.B.2.
(2) Facility-level compliance. If a state chose, it could
evaluate compliance (i.e., allowance true-up) under its emission
budget trading program at the facility level, rather than at the
individual unit level. The EPA has adopted facility-level
compliance in the emission budget-trading programs it
administers, including the Acid Rain Program (70 FR 25162),
Clean Air Interstate Rule (70 FR 25162), and Cross-State Air
Pollution Rule (76 FR 48208). Under this approach, states would
still track reported unit-level CO2 emissions – while evaluating
compliance at the facility level – allowing them to track
increases and decreases of CO2 emissions at individual EGUs.
3. Multi-state coordination: mass-based emission trading
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programs.
An individual state may provide for the use of CO2
allowances issued by another state(s) for compliance with the
mass-based emission standards in its plan. This type of state
plan would include regulatory provisions that enable affected
EGUs to use allowances issued in other states for compliance
under the state’s emission budget trading program. This type of
state plan must also indicate how CO2 allowances will be tracked
from issuance through use for compliance, through either a joint
tracking system, interoperable tracking systems, or use of an
EPA-administered tracking system.926
Two different implementation approaches could be used to
create such links. A state could submit a “ready-for-interstatetrading” plan using an EPA-approved tracking system, but the
plan would not identify links with other states. A state could
also submit a plan with specified bilateral or multilateral
links that explicitly identify partner states.
Interstate allowance linkages would not affect the
approvability of each state’s individual plan. However,

926

The emission standards in each individual state plan must
include regulatory provisions that address the issuance of CO2
allowances and tracking of CO2 allowances from issuance through
use for compliance. The description here addresses how those
regulatory provisions will be implemented through the use of a
joint tracking system, interoperable tracking systems, or an
EPA-administered tracking system.
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different considerations apply for the approvability of an
individual plan with such links, based on whether the emission
budget trading program in the plan applies only to affected EGUs
or includes other emission sources, and if the plan is designed
to meet a state mass-based CO2 goal for affected EGUs only or to
meet a mass-based CO2 goal plus a new source CO2 emission
complement).
Under the first “ready-for-interstate-trading”
implementation approach, a state would indicate in its state
plan that its emission budget trading program will be
administered using an EPA-approved (or EPA-administered)
emission and allowance tracking system.927 State plans using a
specified EPA-approved tracking system would be deemed by the
EPA as ready for interstate linkage upon approval of the state
plan. No additional EPA approval would be necessary for states
to link their emission budget trading programs, and affected
EGUs in those states could engage in interstate trading
subsequent to EPA plan approval.
A state would indicate in its plan submittal that its
emission budget trading system will use a specified EPA-approved

927

The EPA would designate tracking systems that it has
determined adequately address the integrity elements necessary
for the issuance and tracking of emission allowances. Under this
approach, a state could include in its plan such a designated
tracking system, which has already been reviewed by the EPA.
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tracking system. The state would also indicate in the regulatory
provisions for its emission budget trading program that it would
recognize as usable for compliance any emission allowance issued
by any other state with an EPA-approved state plan that also
uses the specified EPA-approved tracking system.
States could also adopt such a collaborative emission
trading approach over time (through appropriate state plan
revisions if the plan is not already structured as ready-forinterstate-trading), without requiring all of the original
participating states to revise their EPA-approved plans.
Under the second implementation approach, a state could
specify the other states from which it would recognize issued
emission allowances as usable for compliance with its emission
budget trading program. The state would indicate in the
regulatory provisions for its emission budget trading program
that emission allowances issued in other identified partner
states may be used by affected EGUs for compliance. Such plans
must indicate how allowances will be tracked from issuance
through use for compliance, through either a joint tracking
system, interoperable tracking systems, or EPA-administered
tracking system. The EPA would assess the design and
functionality of this tracking system(s) when reviewing
individual submitted state plans.
Under this approach, states could also join such a
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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collaborative emission trading approach over time. However, all
participating states would need to revise their EPA-approved
plans. If the expanded linkage is among previously approved
plans with mass-based emission standards, approval of the plan
revision would be limited to assessing the functionality of the
shared tracking system or interoperable tracking systems in
order to maintain the integrity of the linked programs.928
a. Considerations for linked emission budget trading programs.
For individually submitted plans, interstate emission allowance
linkages would not affect the approvability of each state’s
plan. However, approvability of an individual linked plan would
differ based on the structure of the emission budget trading
program included in the plan. These differences for plan
approvability address distinctions among programs that include
only affected EGUs and programs that cover a broader set of
emission sources, as well as if the plan is designed to meet a
state mass-based CO2 goal for affected EGUs only or to meet a
mass-based CO2 goal plus a new source CO2 emission complement.
Differences in approval criteria are necessary to ensure that
each individual state plan demonstrates it will achieve a

928

Depending on the specific regulatory provisions in the
emission standards in their approved state plans, participating
states may also need to revise their implementing regulations
(and by extension their state plans) to accept CO2 emission
allowances issued by new partner states as usable for compliance
with their mass-based emission standards.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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state’s mass-based CO2 emission goal for affected EGUs (or massbased CO2 goal plus new source CO2 emission complement). The
accounting applied to individual plans to assess whether a state
achieves its mass-based CO2 goal (or mass-based CO2 goal plus new
source CO2 emission complement) will also differ, based on
whether an emission budget trading program includes only
affected EGUs (or affected EGUs and applicable new fossil fuelfired EGUs) or a broader set of emission sources. These
considerations are addressed below, for both types of emission
budget trading programs.
(1) Links among emission budget trading programs that only
include affected EGUs or affected EGUs and applicable new fossil
fuel-fired EGUs. Where the emission budget trading programs in
each plan apply only to affected EGUs subject to the final rule
(or emission budget trading programs that apply to affected EGUs
under the state plan and applicable new fossil fuel-fired EGUs
under state law), and include compliance timeframes for affected
EGUs that align with the interim and final plan performance
periods, both plans would functionally be meeting an aggregated
multi-state mass-based goal (or aggregated mass-based CO2 goal
plus new source CO2 emission complement), but without formally
aggregating the goal (or aggregated mass-based CO2 goal plus new
source CO2 emission complement). CO2 emissions from affected EGUs
in both states could not exceed the total combined CO2 emission
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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budgets under the emission standards in the two states. A net
“import” of CO2 allowances from one state would mean that
allowable CO2 emissions in the other net “exporting” state are
less than that state’s established emission budget. On a multistate basis, CO2 emissions from affected EGUs could not exceed
the sum of the states’ emission budgets.
Under this approach, if the emission budget for the massbased emission standard in each plan is equal to or lower than
the state’s mass-based CO2 goal (or aggregated mass-based CO2
goal plus new source CO2 emission complement, if applicable),
compliance by affected EGUs with the mass emission standard in a
state929 would ensure that cumulatively the mass CO2 goals (or
mass-based CO2 goals plus new source CO2 emission complements) of
the linked states are achieved. As a result, achievement of an
individual state’s mass CO2 goal (or mass-based CO2 goal plus new
source CO2 emission complement) would be assessed by the EPA
based on compliance by affected EGUs with the mass-based
emission standards in the state plan, rather than reported CO2
emissions by affected EGUs in the state.930

929

Compliance by an affected EGU with the emission standard is
demonstrated based on surrender to the state of a number of CO2
allowances equal to its reported CO2 emissions.
930 This approach is warranted because under such linked
programs, CO2 emissions from affected EGUs in one state that
exceed a state’s mass CO2 goal (or mass-based CO2 goal plus new
source CO2 emission complement) would be accompanied by CO2
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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The same accounting approach will apply for such plans in
all cases, even if the state is linked to another state emission
budget trading program that includes a broader set of emission
sources (e.g., sources beyond affected EGUs, or beyond affected
EGUs plus applicable new fossil fuel-fired EGUs), as described
below. In all cases, where a state plan includes an emission
budget trading program that applies only to affected EGUs (or
beyond affected EGUs plus applicable new fossil fuel-fired
EGUs), and includes compliance timeframes that align with plan
performance periods, achievement of a state mass CO2 goal (or
mass-based CO2 goal plus new source CO2 emission complement) will
be assessed by the EPA based on whether affected EGUs comply
with the mass-based emission standard, rather than reported CO2
emissions from affected EGUs.
(2) Links with emission budget trading programs that include a
broader set of emission sources. State plans may involve
emission budget trading programs that include affected EGUs,
applicable new fossil fuel-fired EGUs if a plan includes a new
source CO2 emission complement, and other non-affected emission
sources.931

emissions from affected EGUs in another linked state that are
below that state’s mass CO2 goal (or mass-based CO2 goal plus new
source CO2 emission complement).
931 This may apply under both an emission standards plan and a
state measures plan. Section VIII.J.2.a describes how state plan
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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Generally, such plans must demonstrate that the mass-based
CO2 goal for affected EGUs (or mass-based CO2 goal plus new
source CO2 emission complement) in a state will be achieved, as a
result of implementation of the emission budget trading
program.932 Where a program includes other non-affected emission
sources (i.e., non-affected emission sources that are not
subject to a new source CO2 emission complement) and is linked
with other programs,933 the state plan submittal must include a
demonstration that the mass-based CO2 goal (or mass-based CO2
goal plus new source CO2 emission complement) will be achieved,
considering the emission allowance links with other programs.
The EPA, in determining the approvability of each state’s plan
under this approach, would evaluate the linkages between plans.
Specifically, the EPA would evaluate whether the linkages would

submissions must include as requirements, or describe as part of
supporting documentation, relevant aspects of such emission
budget trading programs.
932 Under a program that applies to affected EGUs and other
emission sources, compliance by affected EGUs with the emission
standard – a requirement to surrender emission allowances equal
to reported emissions – will not assure that a state’s CO2 mass
goal (or mass-based CO2 goal plus new source CO2 emission
complement) is achieved. As a result, a further demonstration is
required in the plan that compliance by affected EGUs with the
program will result in CO2 emissions from affected EGUs that are
at or below a state’s CO2 mass goal (or mass-based CO2 goal plus
new source CO2 emission complement).
933 Section VIII.J.2.a describes how state plan submittals must
include as requirements, or describe as part of supporting
documentation, relevant aspects of such emission budget trading
programs.
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enable the affected EGUs (or affected EGUs in conjunction with
applicable new fossil fuel-fired EGUs) in each participating
state to meet the state’s applicable mass-based CO2 goal (or
mass-based CO2 goal plus new source CO2 emission complement).
During plan implementation, the EPA would assess whether
the affected EGUs in a state achieved the state’s mass-based CO2
goal (or mass-based CO2 goal plus new source CO2 emission
complement) as follows. Reported CO2 emissions from affected EGUs
under such plans must be at or below a state’s mass-based CO2
emission goal (or mass-based CO2 goal plus new source CO2
emission complement) during an identified plan performance
period, with the following state accounting adjustments for net
“import” and net “export” of CO2 allowances:


Net “imports” of CO2 allowances: Reported CO2 emissions from
affected EGUs in a state may exceed the state CO2 mass goal
(or mass-based CO2 goal plus new source CO2 emission
complement) during an identified plan performance period in
the amount of an adjustment for the net “imported” CO2
allowances during the plan performance period. The
adjustment represents the CO2 emissions (in tons) equal to
the number of net “imported” CO2 allowances.934 Under this
adjustment, such allowances must be issued by a state with

934

Net “imports” and “exports” of CO2 allowances are defined and
explained below.
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an emission budget trading program that only applies to
affected EGUs (or affected EGUs plus applicable new fossil
fuel-fired EGUs). Net “imports” of allowances are
determined through review of tracking system compliance
accounts.


Net “exports” of CO2 allowances: Reported CO2 emissions from
affected EGUs in a state during an identified plan
performance period must be equal to or less than the CO2
mass goal (or mass-based CO2 goal plus new source CO2
emission complement) minus an adjustment for the “exported”
CO2 allowances during the plan performance period. The
adjustment represents CO2 emissions (in tons) equal to the
number of net “exported” CO2 allowances. Net “exports” of
allowances are determined through review of tracking system
compliance accounts.
Where CO2 emissions from affected EGUs exceed these levels

(based on reported CO2 emissions with applied plus or minus
adjustments for net CO2 allowance “imports” or “exports”) over
the 8-year interim period or during any final plan reporting
period, or by 10 percent or more during the interim step 1 or
step 2 periods, a state would be considered to, in the case of
the interim and final periods, not have met its CO2 mass goal
during an identified plan performance period, and in the case of
the interim step periods, to not be on course to meet the final
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goal. As a result, under a state measures state plan,
implementation of the backstop federally enforceable emission
standards for affected EGUs in the state plan would be
triggered.
A net transfer of CO2 allowances during a plan performance
period represents the net number of CO2 allowances (issued by a
respective state) that are transferred from the compliance
accounts of affected EGUs in that state to the compliance
accounts of affected EGUs in another state.935 This net transfer
is determined based on compliance account holdings at the end of
the plan performance period.936 For example, assume two states,
State A and State B, with emission budgets of 1,000 tons of CO2.

935

A net transfer metric is applied as of the end of the plan
performance period. This net accounting as of a specified date
is necessary because multiple individual allowance transfers may
occur among accounts during a plan performance period,
representing normal trading activity. In addition, net transfers
are based on compliance account holdings, because these
represent the CO2 allowances directly available at that point in
time for use by an affected EGU for complying with its emission
limit. Emission budget trading programs typically allow nonaffected entities to hold allowances in general accounts. These
parties are free to hold and trade CO2 allowances, providing
market liquidity. General account holdings are not assessed as
part of a periodic state net transfer accounting, as these
allowances may subsequently be transferred to other accounts in
multiple states and do not represent allowances currently held
by an affected EGU that can be used for complying with its
emission limit.
936 Compliance account holdings, as used here, refer to the
number of CO2 allowances surrendered for compliance during a plan
performance period, as well as any remaining CO2 allowances held
in a compliance account as of the end of a plan performance
period.
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Each state issues 1,000 CO2 allowances. At the end of a plan
performance period, affected EGUs in State A collectively hold
500 CO2 allowances in their compliance accounts that were issued
by State A. Affected EGUs in State B collectively hold in their
compliance accounts 500 CO2 allowances issued by State A and
1,000 CO2 allowances issued by State B. In this simplified
example, a net transfer of 500 CO2 allowances has occurred
between State A and State B. State A has “exported” 500 CO2
allowances to State B, while State B has “imported” 500 CO2
allowances from state A.
K. Additional Considerations and Requirements for Rate-Based
State Plans
This section discusses considerations and requirements for
rate-based state plans. This section discusses eligibility,
accounting, and quantification and verification requirements
(EM&V) for the use of CO2 emission reduction measures that
provide substitute generation for affected EGUs or avoid the
need for generation from affected EGUs in rate-based state
plans. These measures may be used to adjust the CO2 emission rate
of an affected EGU under a rate-based state plan. This
adjustment may occur when an affected EGU is demonstrating
compliance with a rate-based emission standard, or when a state
is demonstrating achievement of the CO2 emission performance
rates or applicable rate-based state CO2 emission goal in the
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emission guidelines. This section also discusses requirements
for state plans that include rate-based emission trading
programs, including approaches and requirements for coordination
among such programs where states retain individual state ratebased CO2 emission goals.
1. Adjustments to CO2 emission rates in rate-based state plans
Section VIII.K.1.a below describes the basic accounting
method for adjusting a CO2 emission rate, as well as eligibility
requirements for measures that may be used for adjusting a CO2
emission rate. Section VIII.K.1.b addresses measures that may
not be used to adjust the CO2 emission rate of an affected EGU in
a state plan, and explains the basis for this exclusion. Section
VIII.K.1.c addresses measures that reduce CO2 emissions outside
the electric power sector. Such measures may not be counted
under either a rate-based or mass-based state plan.
a. Measures taken to adjust the CO2 emission rate of an affected
EGU. This section describes how measures that substitute for
generation from affected EGUs or avoid the need for generation
from affected EGUs may be used in a state plan to adjust the CO2
emission rate of an affected EGU. This section discusses the
required accounting method for adjusting a CO2 emission rate, as
well as general eligibility requirements that apply to different
categories of measures that may be used to adjust a CO2 emission
rate. Where relevant, this section also discusses additional
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specific accounting methods and other relevant requirements that
apply to different categories of measures.
A CO2 emission rate adjustment may be applied in different
rate-based state plan contexts. For example, in a rate-based
emission trading program, adjustments may be applied through the
use of ERCs.937 Regardless of the type of plan in which an
adjustment is applied, the same basic accounting and general
eligibility requirements described in this section will apply.
As discussed in this section, a wide range of actions may
be taken to adjust the reported CO2 emission rate of an affected
EGU in order to meet a rate-based emission standard and/or
demonstrate achievement of a state CO2 rate-based emissions goal.
All of the measures described in this section will substitute
for generation from affected EGUs or avoid the need for
generation from affected EGUs, thereby reducing CO2 emissions.
This includes RE measures included in the EPA’s determination of
the BSER, as well as other measures that were not included in
the determination of the BSER, such as other RE resources,
demand-side EE, CHP, WHP, electricity transmission and

937

ERCs may be issued for the measures presented in this
section, as well as to affected EGUs that emit at a CO2 emission
rate below their assigned emission rate limit. ERC issuance and
trading is discussed in detail in section VIII.K.2. That section
addresses the accounting method for ERC issuance to affected
EGUs that perform below their assigned CO2 emission rate.
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distribution improvements, nuclear energy, and international RE
imports connected to the grid in the contiguous U.S., as
discussed elsewhere in this preamble.
The EPA believes that the broad categories of measures
listed in this section address the wide range of actions that
are available to reduce CO2 emissions from affected EGUs under a
rate-based state plan. However, the actions that a state could
include in a rate-based state plan are not necessarily limited
to those described in this section. Other specific actions not
listed here may be incorporated in a state plan, provided they
meet the general eligibility requirements listed in this
section, as well as the other relevant requirements in the
emission guidelines.938 Nor are states required to include in
their plans all of the actions that are described in this
section.
This section discusses the basic accounting method for
adjusting the reported CO2 emission rate of an affected EGU,
through the use of measures that substitute for or avoid
generation from affected EGUs. That method is based on adding
MWh from such measures to the denominator of an affected EGU’s
reported CO2 emission rate (lb CO2/MWh). Those additional MWh are
based on quantified and verified electricity generation or

938

These requirements are discussed in section VIII.D.

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electricity savings from eligible measures, and in the case of
an affected EGU’s compliance with its emission standard, are
reflected in ERCs. This section also addresses eligibility
requirements for resources that are used to adjust an affected
EGU’s CO2 emission rate.
(1) General accounting approach for adjusting a CO2 emission
rate.
In this final rule, the reported CO2 emission rate of an
affected EGU may be adjusted based on quantified and verified
MWh from qualifying zero-emitting and low-emitting resources, as
described in sections VIII.K.1.a.(2)-(10) below. These MWh are
added to the denominator of an affected EGU’s reported CO2
emission rate, resulting in a lower adjusted CO2 emission rate.
The measures described in these sections reduce mass CO2
emissions from affected EGUs by substituting zero- or lowemitting generation for generation from affected EGUs, or by
avoiding the need for generation altogether (in the case of
resources that lower electricity demand through improved demandside EE and DSM). In both of these cases, generation from an
affected EGU is replaced, through substitute generation or a
reduction in electricity demand. To the extent that qualifying
zero-emitting and low-emitting resources result in reduced
generation and CO2 emissions from an individual affected EGU,
those emission impacts are reflected in lower reported CO2
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emissions and a reduction in MWh generation from the affected
EGU. However, while there will be a reduction in CO2 emissions at
the affected EGU, the fact that both CO2 emissions and MWh
generation are reduced means that such impacts do not alter the
reported CO2 emission rate of the affected EGU. As a result, the
MWh of replacement generation must be added to the denominator
of the reported CO2 emission rate in order to represent those
impacts in the form of an adjusted CO2 emission rate. In this
manner, adding MWh from these resources to the denominator of an
affected EGU’s CO2 emission rate allows mass CO2 emission
reductions from these measures to be fully reflected in an
adjusted CO2 emission rate.
The following provides a simple calculation example of how
MWh of replacement generation added to the denominator of an
affected EGU’s reported CO2 emission rate results in a lower
adjusted CO2 emission rate. Assume an affected EGU with CO2
emissions of 200,000 lb and electric generation of 100 MWh
during a reporting period. The affected EGU’s reported CO2
emission rate is 2,000 lb/MWh (200,000 lb CO2/100 MWh = 2,000
lb/MWh). When complying with its rate-based emission limit, the
affected EGU submits 10 ERCs, representing 10 MWh of replacement

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generation.939 Adding 10 MWh of replacement generation to the
reported MWh generation of the affected EGU results in an
adjusted CO2 emission rate of 1,818 lb CO2/MWh (200,000 lb
CO2/110 MWh = 1,818 lb CO2/MWh).
In the case of rate-based CO2 emission standards, an
affected EGU demonstrates compliance with the emission standards
if the affected EGU’s adjusted CO2 emission rate calculated in
the aforementioned manner is less than or equal to the
applicable CO2 emission standard rate.940 The CO2 emission
performance rates or rate-based CO2 goal in the emission
guidelines are met if the adjusted CO2 emission rate of affected
EGUs in a state is at or below the specified CO2 emission rate in
a state plan that applies for an identified plan performance
period.
Numerous commenters requested that the EPA ensure
consistency between goal-setting calculations and the
methodology used to demonstrate achievement of a CO2 emission
rate under a state plan. This approach for adjusting a CO2
emission rate corresponds with how RE, the one component of the
BSER that involves adjustment of a CO2 emission rate, is

939

Requirements for the issuance of ERCs and a further
discussion of how ERCs are used in compliance with rate-based
emission limits are addressed in section VIII.K.2.
940 Any ERCs used to adjust a CO
2 emission rate must meet
requirements in the emission guidelines.
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represented in the CO2 emission performance rates in the emission
guidelines. Specifically, in the calculation of final CO2
emission performance rates, the MWhs of RE are reflected in two
adjustments of the rate: a reduction of CO2 emissions from
affected EGUs in the numerator and a one-to-one replacement of
affected EGU generation in the denominator, where it is assumed
that replaced generation from an affected EGU is subtracted from
the denominator and the same number of zero-emitting MWh are
added.941
When demonstrating achievement of a CO2 emission performance
rate, the reported CO2 emissions already reflect the actual
emission reductions from the deployment of qualifying zeroemitting and low-emitting resources across the regional grid; a
further adjustment of CO2 emissions would double count CO2
emissions impacts across the grid. Consistent with the EPA’s
calculation of the CO2 emission performance rates and state ratebased CO2 goals in the emission guidelines, the zero-emitting
MWhs (from substitute generation or a reduction in electricity
demand) must still be added to the denominator of a reported CO2
emission rate to calculate an adjusted CO2 emission rate that
appropriately reflects the replaced generation. Thus, the
resultant rate, where the numerator reflects CO2 emission

941

For a detailed discussion of this method, see Section VI.C.3.
Form of the Performance Rates, in the Equation section.
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reductions from qualifying measures, and the denominator
reflects replaced generation, is consistent with the goalsetting calculation.
Several commenters suggested that the EPA consider the
regional nature of the electricity grid and how RE and demandside EE impacts generation and CO2 emissions across the grid when
accounting for the impacts of RE and demand-side EE measures in
a rate-based plan approach. This MWh accounting structure
corresponds with the regional treatment of RE resources in the
BSER that provide substitute generation in the EPA-calculated CO2
emission performance rates in the emission guidelines.
Consistent with assumptions used in calculating the CO2 emission
performance rates in the emission guidelines, affected EGUs and
states can take full credit for the MWh resulting from eligible
measures they are responsible for deploying, no matter where
those measures are implemented. CO2 emission reductions from the
eligible measures may occur across the region; however, an
affected EGU or a state may only take credit for avoided CO2
emissions at that affected EGU or set of EGUs in question, as
reflected in the reported stack CO2 emissions of affected EGUs.
Because of the separate accounting of MWhs and CO2
emissions, with emission impacts inherent in reported stack CO2
emissions and zero-emitting MWh impacts requiring explicit
adjustments, the accounting method corresponds with the use of
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MWh-denominated ERCs in the rate-based emission trading
framework specified in this rule. The accounting method only
requires a quantification of the MWh generated or avoided by an
eligible measure, and thus credits or adjustments can be
denominated in MWh and do not need to represent an approximation
of the CO2 emission reductions that result from those MWhs. This
creates a crediting system or rate adjustment process that is
simpler to implement than one that requires an approximation of
avoided CO2 emissions.
The MWh accounting method also creates a crediting system
or rate adjustment process that is indifferent to the rate-based
CO2 emission goals of individual states, or the specific CO2
emission rate standards that states may apply, and the relative
stringency of those goals or standards. Use of ERCs in ratebased emission trading programs is addressed in detail in
section VIII.K.2. As a result, the MWh accounting method
addresses interstate effects, because it inherently accounts for
how generation replacement and CO2 emission reduction impacts may
cross state borders. For example, if the accounting method was
informed by avoided CO2 emission rates, it could create perverse
incentives for development of zero- or low-emitting resources in
states that result in the greatest calculated estimate of CO2
emission reductions for each replacement MWh. Instead, this
accounting method is indifferent to avoided CO2 emission rates
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and creates the same number of zero-emitting credits or
adjustment for each MWh of energy generation or savings,
wherever they occur. For a detailed discussion on how the
accounting method addresses interstate effects, see section
VIII.L.
(2) General eligibility requirements for resources used to
adjust a CO2 emission rate.
The EPA is finalizing certain general eligibility
requirements for resources used to adjust a CO2 emission rate.
These requirements align eligibility with certain factors and
assumptions used in establishing the BSER, and by extension,
application of the BSER to the performance levels established
for affected EGUs in the emission guidelines, as well as state
rate and mass CO2 goals. As a result, the requirements ensure
that measures that may be used in a state plan are treated
consistently (to the extent possible) with the EPA’s assessment
of the BSER.942 These general requirements also address potential
interactions among rate and mass plans, as discussed more fully
in section VIII.L.
As discussed in the sections that follow, the general

942

For example, eligibility requirements include installation
dates for eligible RE measures that may be used in a state plan.
These dates generally align with the dates used for broadly
defining incremental RE resources that were considered in
establishing the BSER.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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eligibility criteria address:


the date from which eligible measures may be installed
(e.g., installation of RE generating capacity and
installation of EE measures);



the date from which MWh from eligible measures may be
counted, and applied toward adjusting a CO2 rate; and



the need to demonstrate that eligible measures replace or
avoid generation from affected EGUs.

(a) Eligibility date for installation of RE/EE and other
measures and MWh generation and savings.
Incremental emission reduction measures, such as RE and
demand-side EE, can be recognized as part of state plans, but
only for the emission reductions they provide during a plan
performance period. Specifically, this means that measures
installed in any year after 2012 are considered eligible
measures under this final rule, but only the quantified and
verified MWh of electricity generation or electricity savings
that they produce in 2022 and future years, may be applied
toward adjusting a CO2 emission rate. For example, MWh generation
in 2022 from a wind turbine installed in 2013 may be applied
toward adjusting a CO2 emission rate. This 2012 date applies to
all eligible measures that are used to adjust a CO2 emission rate
under a state plan. For example, eligible measures, such as CHP,

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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nuclear power and DSM, also must be installed after 2012, but
only their generation or savings produced in 2022 and after can
be used to adjust a CO2 emission rate.
As discussed in section VIII.C.2.a, a MWh of generation or
savings that occurs in 2022 or a subsequent year may be carried
forward (or “banked”) and applied in a future year. For example,
a MWh of RE generation that occurs in 2022 may be applied to
adjust a CO2 emission rate in 2023 or future years, without
limitation.943 These MWh may be banked from the interim to final
periods.
This eligibility date criterion is consistent with the date
of installation for “incremental” RE capacity that is included
in the BSER building block 3, which is the basis for RE MWh
incorporated in the CO2 emission performance rates for affected
EGUs in the emission guidelines. For more information on RE in
the BSER, see section V.E.
Many commenters asserted that proposed state goals did not
sufficiently account for actions states take that reduce CO2
emissions prior to the first plan performance period, and
therefore requested that MWhs of electricity generation or
electricity savings that occur prior to the first plan
performance period be eligible to apply toward adjusting the CO2

943

Similarly, as discussed in section VIII.C.2.b.(2).(a),
allowances may be banked in a mass-based trading program.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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emission rates of affected EGUs. The EPA recognizes the
importance of early state action as the basis for significant CO2
emission reductions and as a key part of enabling state plans to
achieve the CO2 emission performance levels or state CO2 goals.
The ability to count eligible measures installed in 2013 and
subsequent years for the MWhs they generate during a plan
performance period provides significant recognition for early
action, corresponding with the BSER framework that is based on
cost-effective actions that many sources are already doing,
while still conforming to CO2 performance rates and state goals
that are forward-looking. In order to provide additional
incentives for early investment in RE and demand-side EE, the
EPA is also establishing the CEIP, as discussed in section
VIII.B.2. ERCs distributed by states and the EPA through this
program may also be used by affected EGUs to demonstrate
compliance with an emission standard, and may be banked from the
interim to final periods.
Commenters concerns about treatment of early actions are
further addressed by changes from proposal to the BSER
assumptions and the methodology used by the EPA to establish the
CO2 emission performance levels and rate-based state CO2 goals in
the emission guidelines. The specifics of these changes are
addressed in section V.A.3. Three examples of those changes are
provided below.
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First, affected EGUs that have maximized their CO2 emission
reduction opportunities available through early action will be
better positioned to meet the BSER CO2 emission performance rates
or state goal applied to affected EGUs in their state. For
example, a steam generating unit that has already reduced its CO2
emission rate through a heat rate improvement may have a CO2
emission rate of 2,000 lb/MWh whereas its rate was 2,100 lb/MWh
prior to the improvement. Therefore, it has less distance to
cover to meet its CO2 emission performance rate.
Second, generation from existing RE capacity installed
prior to 2013 has been excluded from the EPA’s calculation of
the CO2 emission performances rates in the emission guidelines.
That RE generating capacity will still provide zero-emitting
generation to the grid meeting demand that will not need to be
addressed by existing affected EGUs and will better position
states and affected EGUs to meet the CO2 performances rates or
state rate- or mass-based CO2 goals.
Third, commenters expressed concern that demand-side EE
targets as part of proposed state goals reflected an assumption
of installation of increased EE measures starting in 2017, which
seemed to be an implicit requirement to take action prior to the
performance period. Because demand-side EE is not used in
calculating the CO2 emission performance rates in the final
emission guidelines, this is no longer a concern. Furthermore,
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eligible demand-side EE actions that occur after 2012 can be
applied toward adjusting the CO2 emission rates of affected EGUs,
providing a significant compliance option that is not assumed in
emission performance rates or state goals.
(b) Demonstration that measures substitute for grid
generation.
Eligible measures must be grid-connected. This eligibility
criterion aligns with RE generation in building block 3 of the
BSER, which substitutes for the need for generation from
affected EGUs.
All EE measures must result in electricity savings at a
building, facility, or other end-use location that is connected
to the electricity grid. EE measures only avoid electric
generation from grid-connected EGUs if the electrical loads
where the efficiency improvements are made are interconnected to
the grid.
Commenters sought clarity on this issue, so the EPA is
providing this requirement as part of the final rule. Some
commenters advocated for the inclusion of measures that were not
grid connected as eligible resources, arguing that some of these
measures substituted for non-affected EGUs and resulted in
reductions in CO2 emissions. However, eligible measures must be
able to substitute for generation from affected EGUs as defined
under this rule, and thus must be tied to the electrical grid.
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(c) Geographic eligibility.
All eligible emission reduction measures, including RE
generation and demand-side EE, may occur in any state, with
certain limitations, as described below. To the extent these
measures are tied to a state plan,944 these measures may be used
to adjust a CO2 emission rate, regardless of whether the
associated generation or electricity savings occur inside or
outside the state.945 This approach is generally consistent with
the approach used in building block 3 of the BSER, which
reflects regionally available RE. It also recognizes that
emission reduction measures have impacts on electricity
generation across the electricity system, both within and beyond
a state’s borders. A more in-depth discussion of the basis for
treatment of in-state and out-of-state measures is provided in
section VIII.L.
State plans must demonstrate that emission standards and

944

As used here, a measure is “tied to a state plan” if it is
issued an ERC under approved procedures in a rate-based emission
standards plan or represents quantified and verified MWh energy
generation or energy savings achieved by an approved state
measure in a state measures plan.
945 For example, under a rate-based emission standard with credit
trading, ERCs may be issued for qualifying actions that occur
both inside and outside the state, provided the measures meet
requirements of EPA-approved state regulations and the provider
applies to the state for the issuance of ERCs. Similarly, under
a state measures plan, a state might include state requirements
such as an RPS, where compliance with the RPS can be met through
out-of-state RE generation.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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state measures (if applicable) are non-duplicative. Given the
geographic eligibility approach described here, this includes a
demonstration that a state plan does not allow recognition of a
MWh, for use in adjusting the CO2 emission rate of an affected
EGU, if the MWh is being or has been used for such a purpose
under another state plan. Discussion of how such a demonstration
can be made in the context of a rate-based emission trading
program is in section VIII.D.2.b.
The EPA received many comments on the treatment of in-state
and out-of-state RE and demand-side EE. Most commenters
recommended crediting of both in-state and out-of-state RE and
demand-side EE measures, similar to the final rule approach for
eligible emission reductions measures. Commenters argued that
this approach makes sense based on the nature of the
interconnected electricity grid and allows states and utilities
to fully account for their RE and demand-side EE efforts,
whether that RE or EE, and its related impacts, occurs inside or
outside of their state. Some commenters expressed concerns that,
at proposal, states with significant RE resources had large
amounts of existing RE capacity included in their state CO2
goals, but that RE was functionally credited to other states for
use in meeting their goals because it was associated with
measures (such as an RPS) likely to be included in another
state’s plan. This concern has been addressed through changes in
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the BSER RE assumptions in the final rule. This includes
regionalization of the RE building block, and removal of
existing RE capacity constructed prior to 2012 from the building
block. The result of these changes is that the RE incorporated
in the BSER is more equally shared across states.
(i) Measures that occur in states with mass-based plans.
As discussed above, eligible measures for adjusting the CO2
emission rate of an affected EGU may occur in any state, with
certain conditions. This includes a condition that applies to
eligible measures that occur in a state with an EPA-approved
plan that is meeting a state mass-based CO2 goal. Eligible
measures that could be used to adjust a CO2 emission rate under a
rate-based state plan which are located in a state with a massbased plan are restricted from being counted under another
state’s rate-based plan. An exception is made for RE measures
that occur in such mass-based states, because of its unique role
in BSER. RE measures must meet additional eligibility criteria
in order to be used to adjust the CO2 emission rate of an
affected EGU in a state with a rate-based plan. This exception
only applies to RE; other emission reduction measures that were
not included in the determination of the BSER located in massbased states, including demand-side EE, are restricted from ERC
issuance in rate-based states.
These criteria are intended to address the fact that
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eligible measures should lead to substitution of generation from
affected EGUs, with related impacts on CO2 emissions from
affected EGUs. Where states with mass-based plans implement
mass-based CO2 emission standards, CO2 emissions reductions from
affected EGUs must occur in order to comply with these emission
standards and, unlike the rate-based approach, zero- and lowemitting MWhs do not play a specified role in demonstrating that
the mass-based standards have been met.946 Since they are not
counted in the mass-based demonstration, eligible measures
located in mass-based states could be used in a state with a
rate-based plan to adjust the CO2 emission rate of affected EGUs.
Such adjustments would obviate the need for comparable CO2
emission reductions at affected EGUs in the rate-based state or
the use of other measures to make a rate adjustment. In this
scenario, to the extent that eligible measures substitute solely
for generation from affected EGUs in a state with mass-based
emission limits, and are also used to adjust the reported CO2
emission rate of affected EGUs in a rate-based state, no
incremental CO2 emissions reductions would occur in the ratebased state as a result of the eligible measures.947 The result

946

Where such measures substitute for generation from affected
EGUs subject to a mass CO2 emission limit, such measures reduce
the cost of meeting those mass emission limits, but do not
result in incremental CO2 emission reductions.
947 As used here, incremental emission reductions refers to
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would be forgone CO2 emission reductions that would otherwise
occur across the two states. These dynamics are further
addressed in section VIII.L.
For RE measures located in a mass-based state to have some
or all of its generation counted under a rate-based plan in
another state, it must be demonstrated that the generation was
delivered to the grid to meet electricity load in a state with a
rate-based plan.948 Some examples of documentation that can serve
as a demonstration include a power delivery contract or power
purchase agreement. The EPA is giving states flexibility
regarding the nature of this demonstration, but a state plan
must describe the nature of the required demonstration and have
it be approved by the EPA.
Under an emission standards plan, this demonstration must
be made by the provider of the RE measure seeking ERC issuance
under the rate-based emission standards in a rate-based state,
as part of the eligibility application for the measure.949 The
rate-based state must include in its state plan provisions that
describe a sufficient demonstration of geographic eligibility

emission reductions that are above and beyond what would be
achieved solely through compliance with the emission standards
in the mass-based state.
948 This does not need to necessarily be the state where the MWh
of energy generation from the measure is used to adjust the CO2
emission rate of an affected EGU.
949 Requirements for ERC issuance are addressed in section
VIII.K.2.
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for the RE generation under rate-based emission standards.
Further examples of eligible demonstrations and how they
should be outlined in state plans are provided in section
VIII.L.
(ii) Measures that occur in states, including areas of
Indian country, that do not have affected EGUs.
States, including areas of Indian country, that do not have
any affected EGUs within their borders may be providers of
credits for generation from zero- or low-emitting resources to
adjust CO2 emission rates. In its supplemental proposal for the
proposed rulemaking, the EPA sought comment on whether or not
jurisdictions without affected fossil fuel generation units
subject to the proposed emission guidelines should be authorized
to participate in state plans. Commenters were supportive of
allowing those jurisdictions without affected EGUs the
opportunity to participate in state plans. CO2 reduction measures
in areas without affected EGUs have the potential to provide
cost-effective opportunities to reduce emissions and should be
available on a voluntary basis to affected EGUs. Commenters
noted that some tribes, for example, have many untapped RE
resources that could be developed, and they should be able to
realize the benefits of contributing to a state plan. Commenters
stated that because of the integrated nature of the U.S.
electricity grid, it is appropriate to allow all jurisdictions
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with the ability to contribute to and benefit from CO2 emission
reductions or CO2 emission rate adjustments.
For participating states, they must adhere to EM&V
standards, installation dates, and any other criteria that apply
to all states. Section VIII.K.3 below identifies and discusses
the EM&V requirements used to quantify MWh savings from
generation from zero- or low-emitting sources.
States, including areas of Indian country, that do not have
any affected EGUs may provide ERCs to adjust CO2 emissions
provided they are connected to the contiguous U.S. grid and meet
the other requirements for eligibility. To qualify for ERCs from
zero or low-emitting resources, it must be demonstrated that the
generation was delivered to the grid to meet electricity load in
a state with a rate-based plan.950 Some examples of documentation
that can serve as a demonstration include a power delivery
contract or power purchase agreement. The EPA is giving states
flexibility regarding the nature of this demonstration, but a
state plan must describe the nature of the required
demonstration and have it be approved by the EPA.
In addition to generation from zero- or low-emitting
resources, demand-side EE resources in areas of Indian country

950

This does not need to necessarily be the state where the MWh
of energy generation from the measure is used to adjust the CO2
emission rate of an affected EGU.
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located within the borders of states with rate-based emission
standards for affected EGUs may also be issued ERCs. In these
instances, the area of Indian country is located within the
rate-based service area subject to a rate-based state plan. The
ERCs from demand-side EE resources must meet the eligibility
requirements to adjust a CO2 emission rate, including
installation date and EM&V requirements described below in
section VIII.K.3. If the area of Indian country is located
within the borders of a state that is meeting a mass-based CO2
goal, then the demand-side EE resources are not eligible to be
issued ERCs. Similarly, demand-side EE resources in any state
with a mass-based CO2 goal are not eligible to provide ERCs.
Non-contiguous states and territories may not be providers
of ERCs to the contiguous U.S. states. As discussed previously
in section VII.F, we have not set CO2 emission performance goals
for Alaska, Hawaii, Guam, or Puerto Rico in this final rule at
this time.
(iii) Measures that occur outside the U.S.
The EPA will work with states using the rate-based approach
that are interested in allowing the use of RE from outside the
U.S. to adjust CO2 emission rates. In these cases, all conditions
for creditable domestic RE must be met, including that RE
resources must be incremental and installed after 2012, and all
EM&V standards must be met. In addition, the country generating
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the ERCs must be connected to the U.S. grid, and there must be a
power purchase agreement or other contract for delivery of the
power with an entity in the U.S. RE generation capacity outside
the U.S. that existed prior to 2012 but was not exported to the
U.S. is not considered new or incremental generation and,
therefore, not eligible for adjusting CO2 emission rates under
this rule. For example, a new transmission interconnection to
existing RE in Canada would not be considered incremental, but a
new interconnection to RE where the RE was built after 2012
would be considered incremental. See below in section
VIII.K.1.a.(3) for more specifics regarding the use of
incremental hydroelectric power in a rate-based approach.
The EPA received comments encouraging the use of
international zero-emitting electricity imports in state plans,
particularly hydroelectric power from Canada. Canada currently
provides states such as Minnesota and Wisconsin with RE through
existing grid connections. New projects are in various stages of
development to increase generating capacity, which could be
called upon as a base load resource to supplement variable forms
of RE generation. Commenters said that the EPA should permit the
use of all incremental hydropower—both domestic and
international—towards EGU CO2 emission rate adjustments providing
that double-counting can be prevented; and the EPA acknowledges
this may be allowable, as long as the specified criteria have
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been met.
(3) RE.
RE measures may be used to adjust a CO2 emission rate, provided
they meet the general eligibility requirements outlined above
and the MWh electricity generation is properly quantified and
verified.951 As used in this section, RE includes electric
generating technologies using RE resources, such as wind, solar,
geothermal, hydropower, biomass and wave and tidal power. A
capacity uprate at an existing RE facility (i.e., an uprate to
generating capacity originally installed as of 2012 or earlier)
is eligible to adjust a CO2 emission rate. The capacity uprate
must occur after 2012. Such uprates to capacity represent
incremental capacity added after 2012.
Quantification and accounting criteria for incremental RE (and
nuclear generation) are as follows. The incremental generating
capacity (in nameplate MW) is divided by the total uprated
generating capacity (in nameplate MW) and then multiplied by
generation output (in MWh) from the uprated generator. For
example, if a hydroelectric power plant expands generating
nameplate capacity from 100 MW to 125 MW and generation output

951

All state plans must demonstrate that measures included in
the plan are quantifiable and verifiable. See section VIII.K.2
for discussion of requirements for the issuance of ERCs, and
section VIII.K.3 for discussion of EM&V requirements for use of
RE relied on in a state plan.
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increased to 1,000 MWh, then 200 MWh ((25 MW/125 MW) * 1,000
MWh) is eligible for use in adjusting a CO2 emission rate,
regardless of the overall level of generation for the period.952
Many commenters supported using RE deployment as measures
to adjust the CO2 emission rate of affected EGUs. Some commenters
specifically agreed with the EPA’s determination that only new
and incremental RE (including hydropower) should be used to
adjust CO2 emission rates. Those commenters objected to counting
existing RE that are already embedded in the baseline emissions
and generation mix. A significant number of commenters supported
the integration of RE into a rate-based credit trading system.
Certain additional requirements apply for hydropower and
biomass (including waste-to-energy) RE, as described below.
(a) Hydroelectric power.
Consistent with other types of RE, new hydroelectric power
generating capacity installed after 2012 is eligible for use in
adjusting a CO2 emission rate.
Relicensed facilities are considered existing capacity and,
therefore, are not eligible for use in adjusting a CO2 emission
rate, unless there is a capacity uprate as part of the
relicensed permit. In such a case, only the incremental capacity

952

For example, the overall generation from the uprated
hydroelectric power plant may be higher or lower than generation
levels that occurred at the plant prior to the capacity uprate.
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is eligible for use in adjusting a CO2 emission rate.
The EPA noted that many commenters preferred that
generation from hydropower displace generation from fossil
sources. One commenter suggested that existing zero-emitting
sources, including hydropower, do not reduce emissions from
existing fossil generation, but that new or uprated zeroemitting sources would, because of their low variable rate,
reduce fossil emissions. Several commenters recommended allowing
incremental generation from new or uprated zero-emitting
sources, including hydropower, be available for compliance.
(b) Biomass.
RE generating capacity installed after 2012 that uses
qualified biomass as a fuel source is eligible for use in
adjusting a CO2 emission rate.953 As discussed in section
VIII.I.2.c., if a state intends to allow for the use of biomass
as a compliance option for an affected EGU to meet a CO2 emission
standard, a state must propose qualified biomass feedstocks and
treatment of biogenic CO2 emissions in its plan, along with
supporting analysis and quality control measures, and the EPA
will review the appropriateness and basis for such
determinations in the course of its review of a state plan.
Where an RE generating unit uses qualified biomass, as

953

As with other RE, only generating capacity installed after
2012 would be eligible for use in adjusting a CO2 emission rate.
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designated in an approved state plan, MWh generation from the
unit could be used to adjust the reported CO2 emission rate of an
affected EGU. Total MWh generation from an RE generating unit
that uses qualified biomass must be prorated based on either the
heat input supplied from qualified biomass as a proportion of
total heat input or on the proportion of biogenic CO2 emissions
compared to total stack CO2 emissions from the RE generating
unit. Either approach must incorporate the approved valuation of
biogenic CO2 emissions from qualified biomass in the plan (i.e.,
the proportion of biogenic CO2 emissions from use of qualified
biomass feedstock that would not be counted)
Section VIII.K describes the requirements and procedures
for EM&V, and discusses how all eligible resources must
demonstrate how they will quantify and verify MWh savings using
best-practice EM&V approaches. One way to make this
demonstration for eligible resources could be to use the
presumptively approvable EM&V approaches that are included in
the final model trading rule.
(c) Waste-to-energy.
Qualified biomass may include the biogenic portion of MSW
combusted in a waste-to-energy facility.954 With regard to
assessing qualified biomass proposed in state plans, the EPA

954

As with other RE, only generating capacity installed after
2012 would be eligible for use in adjusting a CO2 emission rate.
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generally acknowledges the CO2 emissions and climate policy
benefits of waste-derived biomass, which includes biogenic MSW
inputs to waste-to-energy facilities. The process and
considerations for the use of biomass in state plans are
discussed in section VIII.I.2.c.
MSW can be directly combusted in waste-to-energy facilities
to generate electricity as an alternative to landfill disposal.
In the U.S., almost all incineration of MSW occurs at waste-toenergy facilities or industrial facilities where the waste is
combusted and energy is recovered.955 Total MSW generation in
2012 was 251 million tons, but of that total volume generated,
almost 87 million tons were recycled and composted.956 Increasing
demand for electricity generated from waste-to-energy facilities
could increase competition for and generation of waste stream
materials - including discarded organic waste materials – which
could work against programs promoting waste reduction or cause
diversion of these materials from existing or future efforts
promoting composting and recycling. The EPA and many states have
recognized the importance of integrated waste materials
management strategies that emphasize a hierarchy of waste

955

Inventory of U.S. Greenhouse Gas Emissions and Sinks: 19902012.
http://www.epa.gov/climatechange/ghgemissions/usinventoryreport.
html.
956 http://www.epa.gov/osw/nonhaz/municipal/pubs/2012_msw_fs.pdf.
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prevention, starting with waste reduction programs as the
highest priority and then focusing on all other productive uses
of waste materials to reduce the volume of disposed waste
materials.957 For example, Oregon and Vermont have strategies
that emphasize waste prevention, followed by reuse, then
recycling and composting materials prior to treatment and
disposal.958
Information in the revised Framework for Assessing Biogenic
CO2 Emissions from Stationary Sources and other technical studies
and tools (e.g., EPA Waste Reduction Model, EPA Decision Support
Tool) should assist both states and the EPA in assessing the
role of biogenic feedstocks used in waste-to-energy processes,
where use of such feedstocks is included in a state plan.959
When developing their plans, states planning to use wasteto-energy as an option for the adjustment of a CO2 emission rate
should assess both their capacity to strengthen existing or
implement new waste reduction, reuse, recycling and composting
programs, and measures to minimize any potential negative
impacts of waste-to-energy operations on such programs. States
must include that information in their plan submissions. The EPA

957

http://www.epa.gov/wastes/nonhaz/municipal/hierarchy.htm.

958

http://www.anr.state.vt.us/dec/wastediv/WastePrevention/main.htm
.
959 http://epa.gov/epawaste/conserve/tools/warm/Warm_Form.html,
https://mswdst.rti.org/.
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will reject as qualified biomass any proposed waste-to-energy
component of state plans if states do not include information on
their efforts to strengthen existing or implement new waste
reduction as well as reuse, recycling and composting programs,
and measures to minimize any potential negative impacts of
waste-to-energy operations on such programs. Only electric
generation at a waste-to-energy facility that is related to the
biogenic fraction of MSW and that is added after 2012 is
eligible for use in adjusting a CO2 emission rate.
A state plan must include a method for determining the
proportion of total MWh generation from a waste-to-energy
facility that is eligible for use in adjusting a CO2 emission
rate. The EPA will evaluate the method as part of its evaluation
of the approvability of the state plan. Measuring the proportion
of biogenic to fossil CO2 emissions can be performed through
sampling and testing of the biogenic fraction of the MSW used as
fuel at a waste-to-energy facility (e.g., via ASTM D-6866-06
testing or other methods - ASTM, 2006; Bohar, et al. 2010), or
based on the proportion of biogenic CO2 emissions to total CO2
emissions from the facility. For an example of the former
method, if the biogenic fraction of MSW is 50 percent by input
weight, only the proportion of MWh output attributable to the
biogenic portion of MSW at the waste-to-energy facility may be
used to adjust an affected EGU CO2 emission rate. Alternatively,
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as an example of the latter method, if biogenic CO2 emissions
represent 50 percent of total reported CO2 emissions, a facility
would need to estimate the fraction of biogenic to fossil MSW
utilized and the net energy output of each component (based on
relative higher heating values) to determine the percent of the
MWh output from the waste-to-energy facility that may be used to
adjust an affected EGU’s CO2 emission rate. Section VIII.K
describes the requirements and procedures for EM&V, and
discusses how all eligible resources must demonstrate how they
will quantify and verify MWh savings using best-practice EM&V
approaches. One way to make this demonstration for eligible
resources could be to use the presumptively approvable EM&V
approaches that are included in the final model trading rule.
The EPA received multiple comments supporting the use of
waste-to-energy as part of state plans. Some commenters
expressed concern that non-biogenic materials, such as plastics
and metal, would be incinerated along with biogenic materials.
As discussed above, only electric generation related to the
biogenic fraction of MSW at a waste-to-energy facility added
after 2012 is eligible for use in adjusting a CO2 emission rate.
The EPA also received comments that expressed concern about the
potential negative impacts on recycling and waste reduction
efforts, while other commenters asserted that waste-to-energy
practices encourage recycling programs. Some commenters also
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expressed concern about what treatment would be approvable for
emissions from waste-to-energy practices. As discussed above,
potential negative impacts from waste-to-energy production on
recycling, waste reduction, and composting programs should be
evaluated and efforts to mitigate negative impacts must be
discussed in the supporting documentation of state plans.
(4) DSM.
Avoided MWh that result from DSM may be used to adjust a CO2
emission rate. Eligible DSM actions are those that are zeroemitting and avoid, rather than shift, the use of electricity by
an electricity end-user.960 The MWh that may be used for such an
adjustment are determined based on the MW of demand reduction
multiplied by the hours during which such a demand reduction is
achieved (MW of demand reduction x hours = MWh avoided). DSM
measures must be appropriately quantified and verified, in
accordance with requirements in the emission guidelines, as
discussed in section VIII.K.3.
(5) Energy storage.
Energy storage may not be directly recognized as an

960

An example is a utility direct load control program, such as
those where customer air conditioning units are cycled during
periods of peak electricity demand. Actions that shift
electricity demand from one time of day to another, without
reducing net electricity use, are not eligible, as these
measures do not avoid electricity use from the grid. Use of
emitting generators as a DSM measure is also not eligible.
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eligible measure that can be used to adjust a CO2 emission rate,
because storage does not directly substitute for electric
generation from the grid or avoid electricity use from the
grid.961 The electric generation that is input to an energy
storage unit may be used to adjust a CO2 emission rate, but the
output from the energy storage unit may not.962 However, energy
storage can be used as an enabling measure that facilitates
greater use of RE, which can be used to adjust a CO2 emission
rate. For example, utility scale energy storage may be used to
facilitate greater grid penetration of RE generating capacity
and can also be used to store RE generation that may have
otherwise been shed in times of excess generating capacity.
Likewise, on-site energy storage at an electricity end-user can
enable greater use of RE to meet on-site electricity demand.963
The EPA received multiple comments regarding the overall
merits of energy storage. Consistent with the discussion above,

961

Energy storage depends on a generation source, either from a
utility-scale EGU (e.g., a fossil EGU, a wind turbine, etc.) or
a distributed generation source at an electricity end-user
(e.g., a PV system installed at a building).
962 This approach focuses on counting the qualifying electric
generation, which may be an input to an energy storage unit.
Counting both the generation input to energy storage and the
output from the energy storage unit would be a form of double
counting. The electric generation that is stored may be counted;
the subsequent output from the storage unit may not.
963 For example, battery storage at a building with solar PV can
enable the PV system to meet the building’s entire electrical
load, by storing energy during times of peak PV system output
for later use when the sun is not shining.
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the majority of commenters observed that storage technology
enables greater grid penetration of RE and supports more
efficient and effective operations of both RE and fossil-fuel
plants. Commenters further noted that energy storage can provide
RE to the grid when it is most needed, while simultaneously
taking pressure off fossil-fuel plants to respond to sudden
shifts in demand. Despite broad acknowledgment of the benefits
of storage, public comments underscore its indirect and
supporting role in providing zero-emission MWh to the grid
(consistent with the EPA’s decision to exclude energy storage as
an eligible measure that can be used to adjust a CO2 emission
rate).
(6) Transmission and distribution (T&D) measures.
Electricity T&D measures that improve the efficiency of the
T&D system and/or reduce electricity use may be used to adjust a
CO2 emission rate. This includes T&D measures that reduce losses
of electricity during delivery from a generator to an end-user
(sometimes referred to as “line losses”964) and T&D measures that

964

T&D system losses (or “line losses”) are typically defined as
the difference between electricity generation to the grid and
electricity sales. These losses are the fraction of electricity
lost to resistance along the T&D lines, which varies depending
on the specific conductors, the current, and the length of the
lines. The Energy Information Administration (EIA) estimates
that national electricity T&D losses average about 6 percent of
the electricity that is transmitted and distributed in the U.S.
each year.
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reduce electricity use at the end-user, such as conservation
voltage reduction (CVR).965 The EPA received many comments in
support of advanced energy technologies, including energy
storage and transmission and distribution upgrades, and
including these technologies in the suite of potential measures
that states could consider for emission rate adjustments in
their state plans. Comments pointed out that in addition to
helping achieve emission standards, T&D efficiency improvements
make the grid more robust and flexible, as well as delivering
environmental benefits. In many parts of the country, grid
operators, transmission planners, transmission owners and
regulators are already taking steps to expand and modernize T&D
networks. Commenters suggested that the EPA clarify the
eligibility and criteria under which such measures would be
permitted in a state plan.

965

Volt/VAR optimization (VVO) refers to coordinated efforts by
utilities to manage and improve the delivery of power in order
to increase the efficiency of electricity distribution. VVO is
accomplished primarily through the implementation of smart grid
technologies that improve the real-time response to the demand
for power. Technologies for VVO include load tap changers and
voltage regulators, which can help manage voltage levels, as
well as capacitor banks that achieve reductions in transmission
line loss. VVO efforts are often closely related to CVR, which
are actions taken to reduce initial delivered voltage levels in
feeder transmission lines while remaining within the 114 volt to
126 volt range (for normal 120-volt service) required at the
customer meter, per the ANSI C84.1 standards.

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To be eligible, T&D measures must be installed after 2012.
This general eligibility requirement is discussed above in
section VIII.K.1.a. The MWh of avoided losses or reduction in
end-use that result from T&D measures must be appropriately
quantified and verified, as discussed in section VIII.K.3.
(7) Demand-side EE, including water system efficiency.
Demand-side EE measures may be used to adjust a CO2 emission
rate, provided they meet the general eligibility requirements
outlined above and the MWh electricity savings are properly
quantified and verified.966 As used in this section, demand-side
EE may include a range of eligible measures, provided that the
measures can be quantified and verified in accordance with the
EM&V requirements in the emission guidelines, which are
addressed in section VIII.K.3. Examples of demand-side EE
measures include, but are not limited to, EE measures that
reduce electricity use in residential and commercial buildings,
industrial facilities, and other grid-connected equipment. Water
efficiency programs that improve EE at water and wastewater
treatment facilities also provide demand-side EE savings
opportunities. EE measures, for the purposes of this section,

966

All state plans must demonstrate that measures included in
the plan are quantifiable and verifiable. See section VIII.K.2
for discussion of requirements for the issuance of ERCs, and
section VIII.K.3 for discussion of EM&V requirements for use of
demand-side EE relied on in a state plan.
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may consist of EE measures installed as the result of individual
EE projects, such as those implemented by energy service
companies, as well as multiple EE measures installed through an
EE deployment program (e.g. appliance replacement and recycling
programs, and behavioral programs) administered by electric
utilities, state entities, and other private and non-profit
entities.967 EE measures, for the purposes of this section, may
also consist of state or local requirements that result in
electricity savings, such as building energy codes and state
appliance and equipment standards. Other interventions that
result in electricity savings may also be considered an EE
measure for the purposes of this section, provided the
intervention can be specified and quantified and verified in
accordance with EM&V requirements in the emission guidelines.
Numerous commenters expressed support for including demandside EE as an eligible measure states and affected EGUs can use
to meet the emission guidelines. Commenters touted the value of
demand-side EE as a resource that delivers energy savings,
lowers bills, creates jobs and reduces CO2 emissions. Commenters
called for the EPA to allow for the use of a broad range of
demand-side EE measures to meet the emission guidelines,

967

EE programs may also be implemented by other entities.
Eligible EE measures that are deployed through EE programs are
not limited to those EE measures deployed through EE programs
administered by the types of entities listed here.
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including, but not limited to, utility and non-utility EE
deployment programs; energy savings performance contracts;
measures that reduce electricity use in residential and
commercial buildings, industrial facilities and other gridconnected equipment; state and local requirements that result in
electricity savings, such as building energy codes and state
appliance and equipment standards; appliance replacement and
recycling programs; and behavioral programs. The EPA also
received comments supporting the use of water sector EE programs
and projects. Commenters identified water and wastewater
utilities as particularly well-suited for participating in EE
programs and providing a source of electricity savings.
Investments such as replacing pumps and other aging equipment
and repairing leaks can result in greater EE. The EPA agrees
that these electricity savings should be eligible for
adjustments to CO2 emission rates at affected EGUs.
(8) Nuclear power.
As is discussed in section V.A.3, upon consideration of
comments received, the EPA has not included nuclear generation
from either existing or under construction units in the
determination of the BSER. In addition to comments received on
the provisions for determining the BSER, the EPA also received
comments requesting that the EPA allow all generation from
nuclear generating units to be recognized as an eligible measure
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that can be used to adjust a CO2 emission rate. Commenters also
recommended that the EPA consider nuclear generating units and
RE generating units in a consistent manner for CO2 emission rate
adjustments in state plans. We agree with comments that nuclear
generation and RE should be treated consistently when it comes
to CO2 emission rate adjustments.
The EPA has determined that generation from new nuclear
units and capacity uprates at existing nuclear units will be
eligible for use in adjusting a CO2 emission rate, just like new
and uprated capacity RE. However, consistent with the reasons
discussed for not including the preservation of existing nuclear
capacity in the BSER – namely, that such preservation does not
actually reduce existing levels of CO2 emissions from affected
EGUs – preserving generation from existing nuclear capacity is
not eligible for use in adjusting a CO2 emission rate.
In contrast, any incremental zero-emitting generation from
new nuclear capacity would be expected to replace generation
from affected EGUs and, thereby, reduce CO2 emissions; and the
continued commitment of the owner/operators to completion of the
new units and improving the efficiency of existing units through
uprates can play a key role in state plans. Therefore,
consistent with treatment of other low- and zero-emitting
generation, new nuclear power generating capacity installed
after 2012 and incremental generation resulting from nuclear
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uprates after 2012 are measures eligible for adjusting a CO2
emission rate. However, existing nuclear units (i.e., those that
originally commenced operation in 2012 or earlier years) that
receive operating license extensions are not eligible for use in
adjusting a CO2 emission rate, except where such units receive a
capacity uprate as a result of the relicensing process. Only the
incremental capacity from the uprate is eligible for use to
adjust a CO2 emission rate.
Applicable generation (in MWh) from incremental nuclear
power is determined in the same manner as that described for
incremental RE above.
(9) Combined heat and power (CHP) units.
Electric generation from non-affected CHP units968 may be
used to adjust the CO2 emission rate of an affected EGU, as CHP
units are low-emitting electric generating resources that can
replace generation from affected EGUs. Electrical generation
from non-affected CHP units that meet the eligibility criteria

968

The accounting considerations described in this section are
for a “topping cycle” CHP unit. A topping cycle CHP unit refers
to a configuration where fuel is first used to generate
electricity and then heat is recovered from the electric
generation process to provide additional useful thermal and/or
mechanical energy. A CHP unit can also be configured as a
“bottoming cycle” unit. In a bottoming cycle CHP unit, fuel is
first used to provide thermal energy for an industrial process
and the waste heat from that process is then used to generate
electricity. Some waste heat power (WHP) units are also
bottoming cycle units and the accounting treatment for bottoming
cycle CHP units is provided with the WHP description below.
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under section VIII.K.1.a can be used to adjust the reported CO2
emission rate of an affected EGU.
Where a state plan provides for the use of electrical
generation from eligible non-affected CHP units to adjust the
reported CO2 emission rate of an affected EGU, the state plan
must provide a required calculation method for determining the
MWh that may be used to adjust the CO2 emission rate. This
proposed accounting method must adequately address the
considerations discussed below. The EPA will review whether a
state’s proposed accounting method for electric generation from
eligible non-affected CHP units is approvable per the
requirements of the final emission guidelines, as part of its
overall plan review of the rate-based emission standards and
implementing and enforcing measures in the state plan. The EPA
notes that the proposed model rule for a rate-based emission
trading program includes a proposed accounting method for nonaffected CHP units. The accounting method provided in a final
model rule could be a presumptively approvable accounting
approach.
The proposed accounting method in a state plan must address
the following considerations. The accounting approach proposed
in a state plan must take into account the fact that a nonaffected CHP unit is a fossil fuel-fired emission source, as
well as the fact that the incremental CO2 emissions related to
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electrical generation from a non-affected CHP unit are typically
very low. In accordance with these considerations, a nonaffected CHP unit’s electrical MWh output that can be used to
adjust the reported CO2 emission rate of an affected EGU should
be prorated based on the CO2 emission rate of the electrical
output associated with the CHP unit (a CHP unit’s “incremental
CO2 emission rate”) compared to a reference CO2 emission rate.
This “incremental CO2 emission rate” related to the electric
generation from the CHP unit would be relative to the applicable
CO2 emission rate for affected EGUs in the state and would be
limited to a value between 0 and 1.
This low CO2 emission rate for electrical generation from a
non-affected CHP unit is a product of both the fact that CHP
units are typically very thermally efficient and the fact that a
portion of the CO2 emissions from a non-affected CHP unit would
have occurred anyway from an industrial boiler used to meet the
thermal load in the absence of the CHP unit. In contrast, the
CHP unit also provides the benefit of electricity generation
while resulting in very low incremental CO2 emissions beyond what
would have been emitted by an industrial boiler. As a result,
the accounting method proposed in a state plan should not
presume that CO2 emission reductions occur outside the electric
power sector, but instead only would account for the CO2
emissions related to the electrical production from a CHP unit
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that is used to substitute for electrical generation from
affected EGUs.
Non-affected CHP units can use qualified biomass fuels. As
described in section VIII.I.2.c, states must submit state plan
requirements regarding qualified biomass feedstocks and
treatment of biogenic CO2 emissions in state plans, along with
supporting analysis and quality control measures, and the EPA
would review the appropriateness and basis for such
determinations in the course of its review of the approvability
of a state plan. Considerations for qualified biomass included
in state plans are discussed in section VIII.I.2.c, while
accounting requirements for RE using biomass are provided in
section VIII.K.1.a.(3)(b).
Most comments received on CHP recommended that the EPA
explicitly describe how CHP can be accounted for in a state
plan. Commenters described the CO2 emission reductions achieved
through CHP’s thermal efficiency and the precedent set in other
federal and state rules that have included CHP as a compliance
option. Some commenters pointed out that without such a
description, states would not be able to readily take advantage
of the CO2 emission reductions that result from the use of CHP.
(10) WHP.
WHP units that meet the eligibility criteria under section
VIII.K.1 may be used to adjust the CO2 emission rate of an
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affected EGU. There are several types of WHP units. There are
units, also referred to as bottoming cycle CHP units, where the
fuel is first used to provide thermal energy for an industrial
process and the waste heat from that process is then used to
generate electricity.969 There are also WHP facilities where the
waste heat from the initial combustion process is used to
generate additional power. Under both configurations, unless the
WHP unit supplements waste heat with fossil fuel use, there is
no additional fossil fuel used to generate this additional
power. As a result, there are no incremental CO2 emissions
associated with that additional power generation. As a result,
the incremental electric generation output from the WHP
facilities could be considered zero-emitting, for the purposes
of meeting the emission guidelines, and the MWh of electrical
output could be used to adjust the CO2 emission rate of an
affected EGU.970 The MWh of electrical output from a WHP unit
that can be recognized may not exceed the MWh of industrial or

969

In such a configuration, the waste heat stream could also be
generated from a mechanical process, such as at natural gas
pipeline compressors.
970 This only applies where no additional fossil fuel is used to
supplement the use of waste heat in a WHP facility. Where fossil
fuel is used to supplement waste heat in a WHP application, MWh
of electrical generation that can be used to adjust the CO2
emission rate of an affected EGU must be prorated based on the
proportion of fossil fuel heat input to total heat input that is
used by the WHP unit to generate electricity.
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other thermal load that is being met by the WHP unit, prior to
the generation of electricity.971 Most commenters that addressed
WHP noted the benefits of WHP at the same time that they
discussed the benefits of CHP. The commenters reflected that WHP
is another potential compliance option and requested it be
discussed explicitly as a compliance option that can be used to
meet the emission guidelines. The comments discussed WHP
benefits but did not elaborate on a preferred accounting method
for MWh of electrical generation from WHP that could be used to
adjust the CO2 emission rate of an affected EGU.
b. Measures that may not be used to adjust a CO2 emission rate.
This section addresses measures that may not be used to adjust a
CO2 emission rate. New, modified, and reconstructed EGUs covered
under the CAA section 111(b) final Standards of Performance for
Greenhouse Gas Emissions from New Stationary Sources: Electric
Utility Generating Units rule are not approvable sources of
electric generation for adjusting the CO2 emission rate of an
affected EGU under a rate-based state plan. As discussed earlier
in section VII.D of this preamble, a key concern under this rule
is leakage to new units that are not covered by the emission
guidelines. Emissions leakage, or increased CO2 emissions due to

971

This limitation prevents oversizing the thermal output of a
WHP unit to exceed the useful industrial or other thermal load
it is meeting, prior to generation of electricity.
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increased utilization of unaffected sources, is contradictory to
objectives of this rule and should, therefore, be minimized.
Allowing affected EGUs to adjust their emission rates as a
result of lower-emitting new NGCC units not covered under this
section 111(d) rule would not mitigate leakage concerns, and
could even exacerbate the situation. Consequently, new EGUs
covered under the CAA section 111(b) rule are not allowable
measures in state plans because the EPA believes it would result
in increased emission leakage.
The EPA received comments both supporting and opposing the
use of new NGCC units in state plans. In addition to leakage
concerns, commenters expressed concern with the potential
incentives created by including new NGCC capacity in the BSER or
as a compliance mechanism in state plans. Some commenters
suggested that including new NGCC capacity in the BSER or for
compliance would distort market incentives to build new NGCC
units, particularly if new units were allowed to generate ERCs
that could be sold to affected EGUs. These commenters suggested
that the additional incentive for new NGCC units could make
existing NGCC units less competitive. Other commenters suggested
that including new NGCC capacity in state plans would promote
generation from new CO2-emitting units at the expense of new
zero-emitting units, increasing overall emissions within a
state. This effect would be exacerbated if state plans allowed
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new NGCC units to be treated as “zero-emitting” for purposes of
compliance –- as suggested by other commenters. In addition,
commenters expressed concern that the EPA’s inclusion of new
NGCC capacity in setting the BSER or in compliance could
negatively impact ratepayers over the long-term by sending the
wrong signal to industry and resulting in stranded assets if, in
the future, carbon emissions become more expensive or the EPA
proposes to incorporate sources built under the forthcoming
section 111(b) standard into the section 111(d) program.
Commenters also expressed concern that including generation from
new NGCC units could create unreasonable uncertainty, given
limitations on the ability to accurately project new NGCC
builds, could create undue pressure on natural gas prices, and
could create unfair disparities in the compliance opportunities
afforded different states. In light of the emissions leakage
concerns, and in consideration of these comments, the EPA is not
allowing shifting generation to new NGCC units to be used as a
measure for adjusting CO2 emission rates for affected EGUs in
rate-based state plans.
In addition, other new and existing non-affected fossil
fuel-fired EGUs that are not subject to CAA section 111(b) or
111(d), such as simple cycle combustion turbines, may not be
used to adjust the CO2 emission rate of an affected EGU. While
generation from such units could substitute for generation from
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affected EGUs, the EPA has determined that additional incentives
for such generation, in the form of an explicit adjustment to
the CO2 rate of an affected EGU, are not necessary or warranted.
Providing for such an adjustment could create perverse
incentives for the construction of new simple cycle combustion
turbines that are not subject to the applicability criteria of
the final Standards of Performance for Greenhouse Gas Emissions
from New Stationary Sources: Electric Utility Generating Units
rule. These units could provide only limited adjustment credit,
as operation beyond a certain capacity factor threshold would
trigger applicability under CAA section 111(b). Further,
providing for the ability to generate adjustment credits would
provide incentives for construction of less efficient fossil
generating capacity than would likely otherwise be constructed
(e.g., addition of a simple cycle combustion turbine rather than
a NGCC unit). In addition, providing for the ability to generate
adjustment credits could create perverse incentives for the
continued operation of less efficient existing fossil generating
capacity. Such outcomes run counter to the objectives of this
final rule.
c. Measures that reduce CO2 emissions outside the electric power
sector. Measures that reduce CO2 emissions outside the electric
power sector may not be counted toward meeting a CO2 emission
performance level for affected EGUs or a state CO2 goal, under
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either a rate-based or mass-based approach, because all of the
emission reduction measures included in the EPA’s determination
of the BSER reduce CO2 emissions from affected EGUs. Examples of
measures that may not be counted toward meeting a CO2 emission
performance level for affected EGUs or a state CO2 goal include
GHG offset projects representing emission reductions that occur
in the forestry and agriculture sectors,972 direct air capture,
and crediting of CO2 emission reductions that occur in the
transportation sector as a result of vehicle electrification.
2. Requirements for rate-based emission trading approaches
As made clear in the proposal,973 all emission standards in
a state plan must be quantifiable, verifiable, enforceable, nonduplicative and permanent.974 This requirement is applicable to
emission standards that include a rate-based emission trading
program. The State Plan Considerations TSD for the proposal also
explained that in order to ensure a plan is enforceable, a state
plan must: identify in its plan the entity or entities

972

We note, however, that the final emission guidelines allow
state measures like emission budget trading programs to include
out-of-sector GHG offsets. For example, both the California and
RGGI programs allow for the use of allowances awarded to GHG
offset projects to be used to meet a specified portion of an
affected emission source’s compliance obligation. The RGGI
program contains a cost containment allowance reserve that makes
available additional allowances up to a certain amount, at
specified allowance price triggers.
973 79 FR 34830, 34913.
974 These requirements are described in detail in section
VIII.D.2.
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responsible for meeting compliance and other enforceable
obligations under the plan; include mechanisms for demonstrating
compliance with plan requirements or demonstrating that other
binding obligations are met; and provide a mechanism(s) for
legal action if affected EGUs are not in compliance with plan
requirements or if other entities fail to meet enforceable plan
obligations. A state plan using a rate-based emission trading
approach must therefore include rate-based emission standards
for affected EGUs along with related implementation and
compliance requirements and mechanisms.975 These related
requirements include those applicable to rate-based emission
standards more broadly: CO2 emission monitoring, reporting, and
recordkeeping requirements for affected EGUs, including
requirements for monitoring and reporting of useful energy
output. By satisfactorily addressing these requirements, state
plans including a rate-based emission trading program will be
able to meet the statutory requirements of CAA section 111(d)
regarding the need for state plans to provide for the
implementation and enforcement of emission standards, as well as
meet the requirement that each emission standard be
quantifiable, verifiable, non-duplicative, permanent, and

975

As described below, these requirements would likely be
provided in a state plan in the form of state regulations, but
could potentially be provided in another form.
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enforceable with respect to each affected EGU.
The EPA also specifically proposed that for state plans
that rely on measures that avoid EGU CO2 emissions, such as RE
and demand-side EE measures, the state will also need to include
quantification, monitoring, and verification provisions in its
plan for these measures. The EPA is finalizing requirements
specific to rate-based emission trading programs as requirements
the EPA has determined are necessary to assure the integrity of
a rate-based approach that includes an emission trading program,
and therefore assures a state plan using such an approach
appropriately provides for the implementation and enforcement of
rate-based emission standards in accordance with CAA section
111(d).976 These specific requirements for a rate-based emission
trading program include provisions for issuance of ERCs by the
state and/or its designated agent; provisions for tracking ERCs,
from issuance through submission for compliance; and the
administrative process for submission of ERCs by the owner or
operator of an affected EGU to the state, in order to adjust its
reported CO2 emission rate when demonstrating compliance with a

976

By “integrity of a rate-based emission trading program”, the
EPA is referring to elements in the design and administration of
a program necessary to assure that emission standards
implemented using a rate-based emission trading approach are
quantifiable, verifiable, enforceable, non-duplicative, and
permanent.
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rate-based emission standard.977 These requirements must be
submitted for inclusion in the federally enforceable plan, per
the statutory requirement that states provide for the
implementation and enforcement of emission standards. A ratebased trading program would provide for the implementation and
enforcement of rate-based emission standards for a state plan
that allows its affected EGUs to adjust a rate by the use of an
ERC.
The EPA will review a state plan submittal including a
rate-based emission trading program to assure that the plan
contains the requirements necessary to assure the integrity of a
rate-based approach, and therefore provide for the
implementation and enforcement of rate-based emission standards.
These requirements are discussed in more detail in this section.
The EPA also notes it is proposing model rules for both
mass-based and rate-based emission trading programs. State plans
that include the finalized model rule for a rate-based emission
trading program could be presumptively approvable as meeting the
requirements of CAA section 111(d) and these emission
guidelines. The EPA would evaluate the approvability of such
plans through independent notice and comment rulemaking.
A state may issue ERCs to an affected EGU that performs at

977

See section VIII.K.1 for a discussion of the accounting
method used to adjust a CO2 emission rate.
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a CO2 emission rate below a specified CO2 emission rate, as well
as to providers of qualifying measures that provide substitute
generation for affected EGUs or avoid the need for generation
from affected EGUs. This latter category includes providers of
qualifying RE and demand-side EE measures, as well as other
types of measures, as discussed in section VIII.K.1.a.978
ERCs may be used by an affected EGU to adjust its reported
CO2 emission rate when demonstrating compliance with a rate-based
emission standard. This adjustment is made by adding MWh to the
denominator of an affected EGU’s reported CO2 emission rate, in
the amount of submitted ERCs, resulting in a lower adjusted
rate. To demonstrate compliance with a rate-based emission
standard, an affected EGU would report its CO2 lb/MWh emission
rate to the state regulatory body, and would also surrender to
the state any ERCs it wishes to use to adjust its reported
emission rate. The state regulator would then cancel the
submitted ERCs. The affected EGU would add the MWh the ERCs
represent to the denominator of its reported CO2 lb/MWh emission

978

As used in this section, the term “EE program” refers to an
EE deployment program. An EE program involves deployment of
multiple EE measures or EE projects, such as utility- or stateadministered EE incentive programs that accelerate the
deployment of EE technologies and practices. As used in this
section, the term “EE/RE project” refers to a discrete EE
project (e.g., an EE upgrade to a commercial building or set of
buildings) or a RE generator (e.g., a single wind turbine or
group of turbines).
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rate to demonstrate compliance with its emission standard. The
state regulator could facilitate its evaluation of the affected
EGU’s compliance (as well as evaluation by the affected EGU, the
EPA, and others) by providing functionality in its tracking
system to run such compliance calculations. If the affected
EGU’s adjusted CO2 emission rate is equal to or lower than its
applicable emission rate standard, the affected EGU would be in
compliance.
a. Issuance of ERCs to affected EGUs. ERCs may be issued to
affected EGUs that emit below a specified CO2 emission rate, as
discussed below. For issuance of ERCs to affected EGUs, the
state plan must specify the accounting method and administrative
process for ERC issuance. This includes the calculation method
for determining the number of ERCs to be issued to an affected
EGU, based on reported CO2 emissions and MWh energy output, in
comparison to a reference CO2 emission rate. The reference rate
is a specified CO2 lb/MWh emission rate that an affected EGU’s
reported CO2 emission rate is compared to, when determining the
amount of ERCs that may be issued to an affected EGU.
Following determination of the number of ERCs an affected
EGU is eligible to receive, based on an affected EGU’s reported
CO2 emission rate compared to a specified reference rate, the
state regulatory body would issue those ERCs into a tracking
system account held by the owner or operator of the affected
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EGU. Tracking system requirements are addressed below at section
VIII.K.2.c.
The accounting method that may be applied in a state plan
differs depending on whether a state plan includes a single
rate-based emission standard that applies to all affected EGUs
(e.g., if a plan is designed to meet a state rate-based CO2 goal)
or separate rate-based emission standards that apply to
subcategories of affected EGUs, namely fossil fuel-fired
electric utility steam generating units and stationary
combustion turbines. In both cases, ERCs are issued in MWh,
based on the difference between an affected EGU’s reported CO2
emission rate (in CO2 lb/MWh) and a specified CO2 lb/MWh emission
rate that the reported rate is compared to (referred to as a
“reference rate”). The reference rate may be an affected EGU’s
assigned CO2 emission limit rate or another CO2 emission rate, as
described below. Where an affected EGU’s reported CO2 emission
rate is lower than the specified reference CO2 emission rate,
ERCs may be issued.
Where a state plan includes emission standards in the form
of a single rate-based emission standard that applies to all
affected EGUs, the reference rate is the CO2 emission rate limit
for affected EGUs. In this instance, ERCs may be issued based on
an affected EGU’s reported CO2 emission rate as a proportion of
the emission limit rate. For example, if the emission rate limit
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is 2,000 lb CO2/MWh and the affected EGU emits at a rate of 1,000
lb CO2/MWh, 0.5 MWh would be awarded for every MWh generated by
the affected EGU. ERCs would be issued to affected EGUs in whole
MWh increments. The calculation method is as follows:
ERCs979 = reported MWh by affected EGU980 x ((CO2 emission
rate limit for affected EGUs981 – affected EGU reported CO2
emission rate982)/ CO2 emission rate limit for affected EGUs)
For the example above, the calculation is as follows:
ERCs = MWh reported x (2,000 – 1,000)/2,000 = MWh reported
x 0.5
If the affected EGU in this example generated 1,000,000 MWh,
500,000 ERCs would be issued.
Where a state plan includes separate emission standards for
subcategories of affected EGUs, specifically affected fossil
fuel-fired electric utility steam generating units and
stationary combustion turbines, the reference rate differs for
affected fossil fuel-fired electric utility steam generating
units and stationary combustion turbines. Additionally, if the
state plan applies emission standards for its affected EGUs that

979

For all calculations in this section, where the result is a
negative value, no ERCs would be issued.
980 This term represents the reported MWh by the affected EGU on
an annual basis.
981 This term represents the “reference rate.”
982 This term represents the annual reported CO
2 emission rate of
the affected EGU.
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are equal to the subcategorized CO2 emission performance rates
there is a unique opportunity for the adjustment of an affected
EGU’s emission rate using ERCs that are generated as a result of
building block 2 incremental NGCC unit operation. The EPA is
requiring state plans to account for incremental NGCC generation
in ERC generation if a state plan applies the subcategorized CO2
emission performance rates to its affected EGUs as emission
standards. Additionally, the EPA is requiring that a NGCC unit
is not able to use ERCs generated by it or any other NGCC unit’s
building block 2 incremental generation.
For affected steam generating units, the reference CO2
emission rate is the assigned CO2 emission rate limit for steam
generating units, and the following accounting method for
generating ERCs applies:
ERCs983 = reported MWh x ((steam generating unit CO2 emission
rate limit984 – steam generating unit reported CO2 emission rate)/
steam generating unit CO2 emission rate limit).
For an affected NGCC stationary combustion turbine in a
subcategorized rate-based emission trading program, the
following equation provides a required accounting method for

983

For all calculations in this section, where the result is a
negative value, no ERCs would be issued.
984 The “reference rate.”
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generating ERCs based on operation with respect to the NGCC
unit’s emission standard:
ERCs = NGCC unit’s reported MWh x ((NGCC unit’s CO2 emission
standard985 – NGCC unit’s reported CO2 emission rate)/ NGCC unit’s
CO2 emission standard)
According to this equation, ERC issuance is assessed based
on the difference between the CO2 emission rate standard for the
NGCC unit986 and the reported CO2 emission rate of the affected
NGCC unit. In other words, affected NGCC stationary combustion
turbines earn ERCs for generation when they perform at an
emission rate better than the reference rate for stationary
combustion turbines, similarly to how affected steam units can
earn ERCs.
To account for incremental generation for a NGCC stationary
combustion turbine to generate ERCs in a subcategorized ratebased emission trading program, a state must use the incremental
operation of an affected NGCC unit quantified for building block
2 to allow a NGCC unit to generate ERCs based on its expected
incremental generation.
A state plan that provides for the use of ERCs issued based
on incremental affected NGCC generation must provide a required

985

The “reference rate.”
This is the CO2 emission performance rate for affected
stationary combustion turbines in the emission guidelines.
986

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calculation method that allows for issuance of ERCs based on the
ability of incremental generation from affected stationary
combustion turbines to substitute for generation from affected
steam generating units (as represented in building block 2),
while also respecting the fact that affected stationary
combustion turbines must also meet an assigned CO2 emission rate
limit for the entirety of its MWh energy output. This accounting
method must reflect the application of the BSER, as described in
section V, and the accounting method must not create incentives
to rearrange dispatch between existing NGCC units to generate
additional ERCs without changing the overall level of NGCC
generation.
The EPA will review whether a state’s accounting method is
approvable per the requirements of the statute and this final
rule as part of its overall plan review of the rate-based
emission standards and implementing and enforcing measures in
the state plan. The EPA notes that the proposed model rule for a
rate-based emission trading program includes a proposed
accounting method and takes comments on alternatives. The
accounting method provided in a final model rule could be a
presumptively approvable approach for issuance of ERCs based on
the ability of incremental generation from affected stationary
combustion turbines to substitute for generation from affected
steam generating units.

A state’s accounting requirements for

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generation of ERCs based on incremental affected NGCC generation
must maintain consistency with the EPA’s application of the BSER
when calculating CO2 emission performance rates for affected
stationary combustion turbine and steam generating units. In
particular, a state’s accounting method must maintain
consistency of accounting in a state rate-based CO2 emission
standard with the EPA’s application of building block 2 in
calculating CO2 emission performance rates for affected fossil
fuel-fired electric utility steam generating units and
stationary combustion turbines, which is based on use of
incremental generation from affected stationary combustion
turbine to replace generation from affected steam generating
units.
b. Issuance of ERCs for RE, demand-side EE, and other measures.
ERCs may be issued for qualifying measures.987 For issuance of
ERCs for qualifying measures, state plan requirements for ERC
issuance must include a two-step process. In the first step of
the process, a potential ERC provider submits an eligibility
application for a qualifying program or project988 to the

987

Qualifying measures that can be used to adjust the CO2
emission rate of an affected EGU are discussed at section
VIII.K.1, and include RE, demand-side EE, and other measures,
such as DSM, CHP and incremental nuclear generation.
988 For example, for an EE/RE program or project, as described in
this section for illustrative purposes. The requirements
described in this section for EE/RE programs and projects also
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administering state regulator (or its agent989). The state
regulator reviews the application to determine whether, in this
example, an EE/RE program or project meets eligibility
requirements for the issuance of ERCs.990 An eligibility
application must include a description of the program or
project, a projection of the MWh generation or energy savings
anticipated over the life of the program or project, and an EM&V
plan that meets state plan requirements. The EM&V plan must
describe how MWh of RE generation or energy savings resulting
from the program or project will be quantified and verified.991 A

apply for all other eligible qualifying measures discussed in
section VIII.K.1.
989 As used here, an agent is a party acting on behalf of the
state, based on authority vested in it by the state, pursuant to
the legal authority of the state. A state could designate an
agent to provide certain limited administrative services, or
could choose to vest an agent with greater authority. Where an
agent issues an ERC on behalf of the state, such issuance would
have the same legal effect as issuance of an ERC by the state.
990 The entity implementing the EE/RE program or project
(referred to in the preamble as a “provider”) would submit the
application. This is the identified entity to which ERCs would
ultimately be issued, to a tracking system account held by the
entity. Such entities could include a wide variety of parties
that implement EE/RE programs and projects, including owners or
operators of affected EGUs, electric distribution companies,
independent power producers, energy service companies,
administrators of state EE programs, and administrators of
industrial EE programs, among others.
991 The verification process includes confirmation that
quantified MWh are non-duplicative and permanent (i.e., are not
being used in any other state plan to demonstrate compliance
with an emission standard or achievement of an emission
performance rate or state CO2 emission goal).
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state, in its emission standard regulations, must include
requirements for EM&V plans that are consistent with the
requirements in the emission guidelines for EE/RE measures and
other eligible measures, as discussed in sections VIII.K.1 and
VIII.K.3.
The EPA has determined that state requirements for an
eligibility application must include review of the application
by an independent verifier, approved by the state as eligible
per the requirements of the final emission guidelines to provide
such verification, prior to submittal. This requirement builds
on the approach used for assessing GHG offset projects, both in
international emission trading programs and the GHG emission
budget trading programs implemented by California and the RGGI
participating states.992 An assessment by an independent verifier
would be included as a component of an eligibility application.
The EPA has determined that independent verification
requirements are necessary to ensure the integrity of state
rate-based emission trading programs included in a state plan,
given the wide range of eligible measures that may generate ERCs

992

Information about the verification process for GHG offsets
under the RGGI program, including verifier accreditation
requirements and access to relevant documents, is available at
http://www.rggi.org/market/offsets/verification. Similar
information about the verification process for GHG offsets under
the California program is available at
http://www.arb.ca.gov/cc/capandtrade/offsets/verification/verifi
cation.htm.
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and the broad geographic locations in which those measures may
occur. Inclusion of an independent verification component
provides technical support for state regulatory bodies to ensure
that eligibility applications and M&V reports are thoroughly
reviewed prior to issuance of ERCs. Inclusion of an independent
verification component is also consistent with similar
approaches required by state PUCs for the review of demand-side
EE program results and GHG offset provisions included in state
GHG emission budget trading programs.
State plans with rate-based emission trading programs must
include requirements regarding the qualification status of an
independent verifier. An independent verifier is a person
(including any company, any corporate parent or subsidiary, any
contractors or subcontractors, and the actual person) who has
the appropriate technical and other qualifications to provide
verification reports. The independent verifier must not have, or
have had, any direct or indirect financial or other interest in
the subject of its verification report or ERCs that could impact
its impartiality in performing verification services. State
plans must require that a person be approved by the state as an
independent verifier, as defined by this final rule, as eligible
to perform the verifications required under the approved state
plan. State plans must also include a mechanism to temporarily
or permanently revoke the qualification status of an independent
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verifier, such that it can no longer provide verification
services related to an eligibility application or M&V report for
at least the duration of the period it does not meet the
qualification requirements for independent verifiers in an
approved state plan. The EPA’s proposed model rate-based
emission trading rule contains provisions addressing
accreditation and conflicts of interest for independent
verifiers. State plans that adopt the finalized model rule could
be presumptively approvable with respect to these requirements
regarding independent verifiers.
The state’s eligibility requirements and application
procedures must ensure that only eligible actions may generate
ERCs and that documentation is submitted only once for each
program or project, and to only one state program.993 These
provisions will ensure that actions that are eligible for the
issuance of ERCs are “non-duplicative.”994 The tracking system
used to administer a state’s rate-based emission trading system
must provide transparent, electronic, public access to
information about program and project eligibility applications,
including EM&V plans, and regulatory approval status.

993

This includes ensuring that multiple parties do not submit an
eligibility application for the same EE program or project, or
for the same RE generator.
994 Emission standards must be “non-duplicative” as described in
section VIII.D.2.
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In the second step of the process, following implementation
of the RE/EE program or project (as described in this example)
that was approved in step one, the RE/EE provider periodically
submits a M&V report to the state regulatory body documenting
the results of the program or project in MWh of electric
generation or energy savings.995 These results are quantified
according to the EM&V plan that was approved as part of step
one. These results are verified by an accredited independent
verifier, and its verification assessment must be included as
part of the M&V report submitted to the state regulatory body.
The administering state regulator (or its agent) then reviews
the M&V report, and determines the number of ERCs (if any) that
should be issued, based on the report. Finally, the state
regulatory body (or its agent) issues ERCs to the provider of
the approved program or project. These ERCs are issued to the
tracking system account held by the program or project provider.
State plan requirements must ensure that only one ERC is
issued for each verified MWh. This is addressed through
registration in the tracking system of programs and projects

995

State rate-based emission trading program regulations must
specify the frequency for submission of M&V reports for approved
qualified measures that have been deemed eligible to generate
ERCs. These reporting periods should be annual, but a state
could consider shorter or longer periods, depending on the type
of ERC resource.
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that have been qualified for the issuance of ERCs, to ensure
that documentation is submitted only once for each RE/EE action,
and to only one state program.996 The tracking system must
provide transparent electronic public access to submitted M&V
reports and regulatory approvals related to such reports.997 Such
reports are the basis for issuance of ERCs.
c. Tracking system requirements. State requirements must include
provisions to ensure that ERCs issued to any eligible entity are
properly tracked from issuance to submission by affected EGUs
for compliance (where ERCs are “surrendered” by the owner or
operator of an affected EGU and “retired” or “cancelled” by the
administering state regulatory body), to ensure they are only
used once to meet a regulatory obligation. This is addressed
through specified requirements for tracking system account
holders, ERC issuance, ERC transfers among accounts, compliance
true-up for affected EGUs,998 and an accompanying tracking system
that meets requirements specified in the emission trading

996

EE/RE programs and projects, and other eligible measures,
with an approved eligibility application would be designated in
a tracking system as qualified programs or projects. Qualified
programs and projects may be issued ERCs, based on approved M&V
reports.
997 This must include electronic Internet access to such
information in the tracking system.
998 “Compliance true-up” refers to ERC submission by an owner or
operator of an affected EGU to adjust a reported CO2 emission
rate, and determination of whether the adjusted rate is equal to
or lower than the applicable rate-based emission standard.
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program regulations. Each issued ERC must have a unique
identifier (e.g., serial number) and the tracking system must
provide for traceability of issued ERCs back to the program or
project for which they were issued.
The EPA received a number of comments from states and
stakeholders about the value of the EPA’s support in developing
and/or administering tracking systems to support state
administration of rate-based emission trading systems. This
could include regional systems and/or a national system. The EPA
is exploring options for providing such support and is
conducting an initial scoping assessment of tracking system
support needs and functionality.
d. Effect of improperly issued ERCs. Because the goal of this
rulemaking is the actual reduction of CO2 emissions, it is
fundamental that ERCs represent the MWh of energy generation or
savings they purport to represent. To this end, only valid ERCs
that actually meet the standards articulated in this rule may be
used to satisfy any aspect of compliance by an affected EGU with
emission standards. Despite safeguards included in the structure
of ERC issuance and tracking systems, such as the review of
eligibility applications and M&V reports, and state issuance of
ERCs, ERCs may be issued that do not, in fact, represent
eligible zero-emission MWh as required in the emission
guidelines. A variety of situations may result in such improper
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ERC issuance, ranging from simple paperwork errors to outright
fraud.
An approvable state plan that allows affected EGUs to
comply with their emission standards in part through reliance on
ERCs must include provisions making clear that an affected EGU
may only demonstrate compliance with an ERC that actually
represents the one MWh of energy generation or savings that it
purports to represent and otherwise meets the emission
guidelines.
e. Banking of ERCs. ERCs issued in 2022 or a subsequent year may
be carried forward (or “banked”) and used for demonstrating
compliance in a future year.999 For example, an ERC issued for a
MWh of RE generation that occurs in 2022 may be applied to
adjust a CO2 emission rate in 2023 or future years without
limitation. ERCs may be banked from the interim plan performance
period to the final plan performance period. Banking provides a
number of advantages while ensuring that the same outputweighted average CO2 emission rates of the interim and final
state CO2 goals are achieved over the course of a state plan.

999

States also have the option to participate in the CEIP, under
which they can issue ERCs for MWh generation or savings that
occur in 2020-2021 for measures implemented following submission
of a final state plan, and receive matching ERCs from a federal
pool. See section VIII.B.2 for a detailed discussion. The ERCs
issued under this program can also be banked during and between
the interim and final compliance period.
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Banking provisions have been used extensively in rate-based
environmental programs and mass-based emission budget trading
programs.1000 This is because banking reduces the cost of
attaining the requirements of the regulation. The EPA has
determined that the same rationale and outcomes apply under a CO2
emission rate approach, in that allowing banking will reduce
compliance costs. Banking encourages additional emission
reductions in the near-term if economic to meet a long-term
emission rate constraint, which is beneficial due to social
preferences for environmental improvements sooner rather than
later.1001 State plans must specify whether the state is allowing
or restricting the banking of ERCs between compliance periods
for affected EGUs. State plans must also prohibit borrowing of
any ERCs from future compliance periods by affected EGUs or
eligible resources.
f. Considerations for ERC issuance. The EPA notes that state-

1000

Banking under mass-based emission budget trading programs,
and the rationale for banking provisions, is addressed below in
section VIII.J.2.c.
1001 The absence of banking creates an incentive to defer both
relatively low-cost and higher-cost CO2 emission reduction
actions until a later period when emission rate limits become
more stringent, rather than incentives to undertake the low-cost
activities sooner in order to further delay the high cost
actions. Under a rate-based emission trading program, banking
will encourage ERC providers to generate larger numbers of ERCs
in early years of a plan performance period, in anticipation of
rising ERC prices over time, when demand for ERCs is expected to
increase as rate-based CO2 emission standards become more
stringent.
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administered and state-overseen EE programs, such as those
administered by state-regulated electric distribution utilities,
could play a key role in supplying energy savings to a ratebased emission trading system in the form of ERCs. These
programs have been the primary means for delivering EE programs
and energy savings at scale, and also allow for a state to
conduct a portfolio planning process to guide EE program design
and focus in a manner that best provides multiple benefits to
electricity ratepayers in a state. Such portfolio planning
processes typically treat EE as an energy resource comparable to
electricity generation.
The EPA also notes that non–ERC certificates may be issued
by states and other bodies for MWh of energy generation and
energy savings that are used to meet other state regulatory
requirements, such as state RPS and EERS, or by individuals to
make environmental or other claims in voluntary markets.
The EPA defines an ERC in the emission guidelines as a
tradable compliance instrument that represents a zero-emission
MWh (for the purposes of meeting the emission guidelines) from a
qualifying measure that may be used to adjust the reported CO2
emission rate of an affected EGU subject to a rate-based
emission standard in an approved state plan under CAA section
111(d). The sole purpose of an ERC is for use by an affected EGU
in demonstrating compliance with a rate-based emission standard
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in such an approved state plan.
An ERC is issued separately from any other instruments that
may be issued for a MWh of energy generation or energy savings
from a qualifying measure. Such other instruments may be issued
for use in meeting other regulatory requirements (e.g., such as
state RPS and EERS requirements) or for use in voluntary
markets. An ERC may be issued based on the same data and
verification requirements used by existing REC and EEC tracking
systems for issuance of RECs and EECs.
The EPA notes that the definitions of other instruments,
such as RECs, differ (as established under state statute,
regulations, and PUC orders) and that requirements under state
regulatory programs that use such instruments, such as state
RPS, also differ. As a result, states may want to assess, when
developing their state plan, how such existing instruments may
interact with ERCs. For example, a state may want to assess how
issuance of ERCs pursuant to a state plan may interact with
compliance with a state RPS by entities affected under relevant
state RPS regulations or PUC orders. The interaction of other
instruments and ERCs may also impact existing or future
arrangements in the private marketplace. Actions taken by
states, separate from the design of their state plan, could
address a number of these potential interactions. For example,
state RPS regulations that specify a REC for a MWh of RE
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generation, and the attributes related to that MWh, may or may
not explicitly or implicitly recognize that the holder of the
REC is also entitled to the issuance of an ERC for a MWh of
electricity generation from the eligible RE resource. This could
impact existing and future RE power purchase agreements or REC
purchase agreements. Such interactions among existing
instruments and ERCs could also impact how marketing claims are
made in the voluntary RE market. How a state might choose to
address these potential interactions will depend on a number of
factors, including the utility regulatory structure in the
state, existing statutory and regulatory requirements for state
RPS, and existing RE power purchase agreements and REC
contracts.
g. Program review. The EPA is requiring that states periodically
review the administration of their rate-based emission trading
programs. The results of these program reviews must be submitted
by states to the EPA as part of their required reports on the
implementation of their state plans, as described in sections
VIII.D.a.(5) and VIII.D.2.b.(4), and must be made publicly
available. Such a review submitted as part of a required state
report provides for the implementation of rate-based emission
standards per the requirements of CAA section 111(d)(2). For a
rate-based emission trading program, the review must cover the
reporting period addressed in the state’s periodic reports to
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the EPA on plan implementation.
The program review must address all aspects of the
administration of a state’s rate-based emission trading program,
including the state’s evaluations and regulatory decisions
regarding eligibility applications for ERC resources and M&V
reports (and associated EM&V activities), and the state’s
issuance of ERCs. The program review must assess whether the
program is being administered properly in accordance with the
state’s approved plan; whether ERC eligibility applications and
M&V reports are being properly evaluated and acted upon (i.e.,
approved or disapproved); whether reported annual MWh of
generation and savings from qualified ERC resources are being
properly quantified, verified, and reported in accordance with
approved EM&V plans, and whether appropriate records are being
maintained. The program review must also address determination
of the eligibility of verifiers by the state and the conduct of
verifiers, including the quality of verifier reviews. Where
significant deficiencies are identified by the state’s program
review, those deficiencies must be rectified by the state in a
timely manner.
States must collect, compile, and maintain sufficient data
in an appropriate format to support the periodic program review.
The EPA will review the results of each program review. The EPA
may also audit a state’s administration of its rate-based
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emission trading program and pursue appropriate remedies where
significant deficiencies are identified.
3. EM&V requirements for RE, demand-side EE, and other measures
used to adjust a CO2 rate
This section discusses EM&V for RE, demand-side EE, and
other measures that are used to generate ERCs or otherwise
adjust an emission rate.1002 EM&V is applied for purposes of
quantifying and verifying MWh in rate-based state plans, as
described below. Rate-based state plans must require that
eligible resources document in EM&V plans and M&V reports how
all MWh saved and generated from eligible measures will be
quantified and verified. Additionally, with respect to EM&V, the
EPA’s proposed model rule identifies certain industry best
practices that, upon finalization, could be adopted as
presumptively approvable components of a state plan.1003
As discussed in section VIII.K.1, quantified and verified

1002

EM&V is defined to mean the set of procedures, methods, and
analytic approaches used to quantify the MWh from demand-side EE
and RE and other measures, and thereby ensure that the resulting
savings and generation are quantifiable and verifiable.  
1003 The EPA recognizes that EM&V best practices are routinely
evolving to reflect changes in markets, technologies and data
availability. Therefore the agency is providing draft EM&V
guidance with the proposed model rule, which can be updated over
time to address any such changes to best practices. The guidance
can also identify and describe alternative quantification
approaches that may be approved for use, provided that such
approaches meet the requirements of the finalized EM&V
requirements.
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MWh of RE generation, EE savings,1004 and other eligible measures
may be used to adjust a CO2 emission rate when demonstrating
compliance with the emission guidelines. In states implementing
emission standard type plans with rate-based trading, affected
EGUs adjust their reported emission rate using ERCs, which
represent MWh that are quantified and verified according to the
EM&V requirements described in this section. The EPA will
evaluate the overall approvability of the state plan taking into
consideration whether the state’s submitted EM&V requirements
satisfy these final emission guidelines.
a. Discussion of proposed EM&V approach and public comment. The
EPA proposed that a state plan that incorporates RE and demandside EE measures must include an EM&V plan that explains how the
effect of these measures will be determined in the course of
plan implementation. The proposal sought comment on the
suitability of current state and utility EM&V approaches for RE
and demand-side EE programs in the context of an approvable
state plan, and on whether harmonization of state approaches, or
supplemental actions and procedures, should be required in an

1004

In the context of demand-side EE, “measure” refers to an
installed piece of equipment or system at an end-use energy
consumer facility, a strategy intended to affect consumer energy
use behaviors, or a modification of equipment, systems or
operations that reduces the amount of electricity that would
have delivered an equivalent or improved level of end-use
service in the absence of EE.
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approvable state plan, provided that supporting EM&V
documentation meets applicable minimum requirements. In the
proposal, the EPA also indicated that it would issue guidance to
help states, sources, and project providers quantify and verify
MWh savings and generation resulting from zero-emitting RE and
demand-side EE efforts.
The proposal and associated “State Plans Considerations”
TSD1005 suggested that the EPA’s EM&V requirements could leverage
existing industry practices, protocols, and tracking mechanisms
currently utilized by the majority of states implementing RE and
demand-side EE. The EPA further noted that many state regulatory
bodies and other entities already have significant EM&V
infrastructure in place and have been applying, refining, and
enhancing their evaluation and quality assurance approaches for
over 30 years, particularly with regard to the quantification
and verification of energy savings resulting from utilityadministered EE programs. The proposal also observed that the
majority of RE generation is typically quantified and verified
using readily available, reliable, and transparent methods such
as direct metering of MWh.
As a result, the agency took comment on whether this

1005

See discussion beginning on p. 34 of the State Plan
Considerations TSD for the Clean Power Plan Proposed Rule:
http://www2.epa.gov/carbon-pollution-standards/clean-power-planproposed-rule-state-plan-considerations.
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infrastructure is appropriate in the context of approvable state
plans for use in rate-based state plans that include RE, demandside EE, and other measures. The majority of commenters
addressing this question responded affirmatively, indicating
that existing EM&V infrastructure is appropriate to assure
quality, credibility, and integrity. However, commenters also
noted that EM&V methods are routinely improving and changing
over time, and that the EPA’s requirements and guidance should
be responsive to such changes, should avoid locking in outdated
methods, and should be updated to maintain relevance.
Another point made by commenters is that, despite the
observed improvements in EM&V over time, quantification
knowledge is more robust for some EE program and policy types
than for others. Additionally, there is relatively limited
experience applying EM&V protocols and procedures to emission
trading programs, where each MWh of replaced generation that can
be bought and sold by a regulated source. As a result, the EPA’s
final emission guidelines and proposed model rule include a
number of safeguards and quality-control features that are
intended to ensure the accuracy and reliability of quantified EE
savings.
b. Requirements for EM&V and M&V submittals. As discussed in
section VIII.K.2, these final guidelines require that state
plans include a requirement that EM&V plans and M&V reports be
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submitted to the state for rate-based emission trading programs.
States must require that at the initiation of an eligible
measure, project providers must develop and submit to the state
an EM&V plan that documents how requirements for quantification
and verification will be carried out over the period that MWh
generation or savings are produced. States must also require
that after a project or program is implemented, the provider
must submit periodic M&V reports to confirm and describe how
each of the requirements was applied. These reports must also
specify the actual MWh savings or generation results, as
quantified by applying EM&V methods on a retrospective (ex-post)
basis. States may not allow MWh values that are quantified using
ex-ante (pre-implementation) estimates of savings. As previously
described, the EPA took comment on the suitability of current
state and utility EM&V approaches for RE and demand-side EE
programs in the context of an approvable state plan. These final
requirements regarding EM&V plans and M&V reports are intended
to leverage and closely resemble those already in routine use.
For energy generating resources, including RE resources,
states may leverage the programs and infrastructure they have in
place for achievement of their RPS and take advantage of
registries in place for the issuance and tracking of RECs. Many
existing REC tracking systems already include well-established
safeguards, documentation requirements, and procedures for
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registry operations that could be adapted to serve similar
functions in relation to the final emission guidelines. For
example, a key element of RPS compliance in many states that
parallels the final rule’s requirements is that each generating
unit must be uniquely identified and recorded in a specified
registry to avoid the double counting of credits at the time of
issuance and retirement. In addition, the existing reports and
documentation from tracking systems may, together with eligible
independent third party verification reports, serve as the
substantive basis for eligibility applications, EM&V plans and
M&V reports for the issuance of ERCs to energy generating
resources for affected EGUs to meet their obligations under the
final rule. With respect to actual monitoring requirements, many
existing REC registries include provisions for the monitoring of
MWh of generation that would be appropriate to meet state plan
requirements pursuant to the final rule, such as requirements to
use a revenue quality meter.
For demand-side EE, states must require that EM&V plans
that are developed for purposes of adjusting an emission rate
under this final rule include several specific components. The
EPA notes these components reflect existing provisions in a wide
range of publicly or rate-payer funded EE programs and energy
service company projects. One of these components state plans
must require is a demonstration of how savings will be
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quantified and verified by applying industry best-practice
protocols and guidelines, as well as an explanation of the key
assumptions and data sources used. State plans must require EM&V
plans to include and address the following:


A baseline that represents what would have happened in
the absence of the EE intervention, such as the equipment
that would most likely have been installed – or that a
typical consumer or building owner would have continued
using – in a given circumstance at the time of EE
implementation



The effects of changes in independent factors affecting
energy consumption and savings; that is, factors not
directly related to the EE action, such as weather,
occupancy, or production levels



The length of time the EE action is anticipated to
continue to remain in place and operable, effectively
providing savings (in years)

Examples and discussion of industry best-practices for
executing each of the above-listed components is provided in the
EPA’s draft EM&V guidance for demand-side EE, which is being
released in conjunction with the proposed model rule. The model
trading rule defines certain EM&V provisions for demand-side EE,
as well as specific provisions for non-affected CHP and RE

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resources, including incremental hydroelectric power, biomass RE
facilities, and waste-to-energy facilities, that may be
presumptively approvable upon finalization.
The EPA notes that state plans incorporating the finalized
model rule for rate-based emission trading programs could be
presumptively approvable as meeting the requirements of CAA
section 111(d) and the EM&V provisions in these emission
guidelines. The EPA will evaluate the approvability of such
state plans through independent notice and comment rulemaking.
c. Skill certification standards. Using a skilled workforce to
implement demand-side EE and RE projects and other measures
intended to reduce CO2 emissions, and to evaluate, measure,
quantify and verify the savings associated with EE projects or
the additional generation from performance improvements at
existing RE projects are both important in existing best
industry practices. Several commenters pointed out that skill
certification standards can help to assure quality and
credibility of demand-side EE, RE, and other CO2 emission
reduction projects. The EPA also recognizes that a skilled
workforce performing the EM&V is important to substantiate the
authenticity of emissions reductions.
The EPA is therefore recommending in conjunction with the
EM&V requirements discussed in this section, that states are
encouraged to include in their plans a description of how states
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will ensure that the skills of workers installing demand-side EE
and RE projects or other measures intended to reduce CO2
emissions as well as the skills of workers who perform the EM&V
of demand-side EE and RE performance will be certified by a
third party entity that:
1)

Develops a competency based program aligned with a job

task analysis and certification scheme;
2)

Engages with subject matter experts in the development

of the job task analysis and certification schemes that
represent appropriate qualifications, categories of the
jobs, and levels of experience;
3)

Has clearly documented the process used to develop the

job task analysis and certification schemes, covering such
elements as the job description, knowledge, skills, and
abilities;
4)

Has pursued third-party accreditation aligned with

consensus-based standards, for example ISO/IEC 17024.
Examples of such entities include: parties aligned with the
Department of Energy’s (DOE) Better Building Workforce
Guidelines and validated by a third party accrediting body
recognized by DOE; or by an apprenticeship program that is
registered with the federal Department of Labor (DOL), Office of
Apprenticeship; or with a state apprenticeship program approved
by the DOL, or by another skill certification validated by a
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third party accrediting body. This can help to substantiate the
authenticity of emission reductions due to demand-side EE and RE
and other CO2 emission reduction measures.
4. Multi-state coordination: rate-based emission trading
programs
Individual rate-based state plans may provide for the
interstate transfer of ERCs, which would enable an ERC issued by
one state to be used for compliance by an affected EGU with a
rate-based emission standard in another state. Such plans would
include regulatory provisions in each state’s emission standard
requirements that indicate that ERCs issued in other partner
states may be used by affected EGUs for compliance. Such plans
must indicate how ERCs will be tracked from issuance through use
for compliance, through either a joint tracking system,
interoperable tracking systems, or an EPA-administered tracking
system.1006
The approaches described in this section are only allowed
for states that impose rate-based emission limits for affected
EGUs that are equal to the CO2 emission performance levels in the

1006

The emission standards in each individual state plan must
include regulatory provisions that address the issuance of ERCs
and tracking of ERCs from issuance through use for compliance,
as described in section VIII.K.2. The description here addresses
how those regulatory provisions will be implemented through the
use of a joint tracking system, interoperable tracking systems,
or an EPA-administered tracking system.
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emission guidelines. This approach is necessary to ensure that
each state that is allowing for the interstate transfer of ERCs
is implementing rate-based emission standards for affected EGUs
at the same lb CO2/MWh level.1007 This assures that all the
participating states are issuing ERCs to affected fossil steam
and NGCC units that emit below their assigned emission standards
on the same basis.
This approach avoids providing different incentives, in the
form of issued ERCs, to affected steam generating units and NGCC
units in different states that have comparable CO2 emission
rates. Providing different incentives to similar affected EGUs
across states could create distortionary effects that lead to
shifts in generation among states based on the different CO2
emission rate standards applied by states to similar types of
affected EGUs. Providing for the interstate trading of ERCs in
this instance would exacerbate these distortionary effects by
providing arbitrage opportunities.

1007

As noted above in section VIII.C.6, states also have the
option of implementing a multi-state plan with a single ratebased emission standard that applies to all affected EGUs in the
participating states. This approach would also allow for
interstate transfers of ERCs. Under this approach, a rate-based
multi-state plan would include emission standards for affected
EGUs based on a weighted average rate-based emission goal,
derived by calculating a weighted average CO2 emission rate based
on the individual rate-based goals for each of the participating
states and 2012 generation from affected EGUs.
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When demonstrating that a state’s CO2 emission goal is
achieved as a result of plan implementation, a state with
linkages to other states would be required to demonstrate that
any ERCs issued by another state that are used by affected EGUs
in the state for compliance with its rate-based CO2 emission
standards were issued by states with an EPA-approved state
plan.1008
States could implement these linkages among state plans
with rate-based emission trading systems through three different
implementation approaches: (1) plans that are “ready-forinterstate-trading;” (2) plans that include specified bilateral
or multilateral linkages; and (3) plans that provide for joint
ERC issuance among states with materially consistent
regulations. These approaches are summarized below:


Ready-for-interstate-trading plans: A state plan recognizes
ERCs issued by any state with an EPA-approved plan that
also uses a specified EPA-approved1009 or EPA-administered

1008

This could be done by reference to data in the tracking
system used to implement a state’s rate-based emission trading
program that identifies the origin of each ERC (e.g., by serial
identifier).
1009 The EPA would designate tracking systems that it has
determined adequately address the integrity elements necessary
for the issuance and tracking of ERCs, as described in section
VIII.K.2. Under this approach, a state could include in its plan
such a designated tracking system, which has already been
reviewed by the EPA.
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tracking system. Plans are approved individually. A state
plan need not designate the individual states by name from
which it would accept issued ERCs. States can join such a
coordinated approach over time, without the need for plan
revisions.1010


Specified bilateral linkage: States recognize ERCs issued
by named partner states. Partner states must demonstrate
that they use a shared tracking system, interoperable
tracking systems, or an EPA-administered tracking system.
Plans are approved individually, including review of the
shared tracking system or interoperable tracking systems.



Joint ERC issuance: States implement materially consistent
rate-based emission trading program regulations and share a
tracking system. States coordinate their review of
submissions for ERC issuance1011 and their issuance of ERCs

1010

The EPA notes that it is proposing a model rule for a ratebased emission trading program that could be used by states
interested in implementing a ready-for-interstate-trading plan
approach. A state plan that included the finalized rate-based
model rule could be presumptively approvable as meeting the
requirements of CAA section 111(d) and the emission guidelines.
If a state plan also met the requirements described in this
section for ready-for-interstate-trading plans, it could be
approved as ready-for-interstate trading.
1011 This refers to eligibility applications and M&V reports,
which are required submittals for non-affected EGU entities
seeking the issuance of ERCs. Where affected EGUs are issued
ERCs for emission performance below a specified CO2 emission
rate, these ERCs are issued by the individual state in which
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to the shared tracking system. Issued ERCs are recognized
as usable for compliance in all states using the shared
tracking system. Plans are approved individually, including
review of the shared tracking system.
These implementation approaches are designed to streamline
the process for linking emission trading programs, avoid or
limit the need for plan revisions as new states join a
collaborative emission trading approach, and facilitate the
development of regional or broader multi-state markets for
ERCs.1012
L. Treatment of Interstate Effects
This section discusses how differing characteristics across
states and sources could create risks of increased emissions
under this rule through double counting of emission reduction
measures or through foregone emission reductions due to movement

they are subject to a rate-based emission standard. Requirements
for ERC issuance are discussed in section VIII.K.2.
1012 The EPA also notes that individual state plans may utilize RE
and demand-side EE (and other eligible measures), that occur in
other states, as described in section VIII.L addressing
interstate effects. Under an individual state plan, ERCs could
be issued for RE and demand-side EE measures that occur in other
states, provided the EE/RE provider submits the measures to the
state and the measures meet requirements in the state’s ratebased emission trading program requirements. The multi-state
approaches described above provide additional flexibility for
states to informally and formally coordinate their
implementation of rate-based plans across states while retaining
individual rate-based state goals.
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of generation from source to source. The section also discusses
how the final rule addresses these concerns: first, through the
characteristics of goal-setting and the framework of state
plans, and second, through specific requirements intended to
minimize the risk of double counting and increased emissions.1013
The section is structured as follows. First, this section
discusses the dynamics that cause these risks to potentially
arise. Second, it provides a discussion of how the risks of
double counting and foregone reductions are minimized through
the following provisions: the nature of the final emission
performance rates, multi-state plan options that limit
distortionary effects, the structure of mass-based plan and
rate-based plan accounting for emission reductions measures, and
specified restrictions on the counting in a rate-based plan of
emission reduction measures located in a mass-based state.
Finally, the section discusses how the rate-based accounting
framework minimizes incentives to develop emission reduction
measures in particular states due to differences in rates.
In the June 2014 proposal, the EPA acknowledged that
emission reduction measures implemented under a state plan will

1013

This section does not discuss emission leakage and how it is
addressed by this final rule. See section VII.D for a discussion
of emission leakage and its impact on state goal equivalence.
See section VIII.J for a discussion of requirements for massbased plans to address leakage.
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likely have impacts across many affected sources both within and
across state boundaries due to the dynamic and interstate nature
of the electric grid. These interactions may be driven in part
due to differences in power sector dynamics across states,
including the types of affected EGUs in a state, the
availability of eligible zero-emitting resources, and the costs
of different compliance options and existing policies in states.
These state-level characteristics play out across dynamic
regional grids that provide electricity across states. EGUs are
dispatched both within and across state borders and are
constantly adjusting behavior in response to available
generation and electricity demand on the regional grid. Whenever
CO2 emission reduction measures, such as RE or demand-side EE,
are implemented, the measure can affect EGU generation and CO2
emissions across the regional grid. These impacts can change
across multiple affected EGUs on a minute-to-minute, hour-tohour, and day-to-day basis as electricity demand changes and
different generating resources are dispatched. These impacts
will also change in the long-term, as the generating fleet and
load behavior change over a period of years. Interactions among
EGUs across states may be further driven by the plan types
(i.e., rate-based or mass-based) and the individual
characteristics of the plans that states choose to adopt.
In the context of this complex environment of federal and
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state policies and interstate grids, commenters expressed
concern about the risk of double-counting of measure impacts,
particularly across state plans. Commenters stated that there is
potential for distortionary incentives that could undermine
overall CO2 emission reductions (often termed emissions
“leakage”). Commenters requested that the EPA ensure that states
avoid double-counting and minimize leakage effects when
demonstrating achievement of state goals.
The EPA acknowledges that some amount of shifts in
generation between sources within and across state borders will
inevitably be present and unavoidable in the context of this
rule and may affect how affected EGUs achieve the applicable CO2
performance rates or state goals under a state plan. In fact,
the definition of the BSER is premised upon shifts in generation
across sources, particularly shifts from higher- to loweremitting units that result in overall emission reductions.
However, in the context of these shifts, the extent to which the
movement of generation may be driven not by the potential to
capture lower-cost emission reduction but by arbitrage across
different emission rates, causing inefficiencies in the power
markets and possibly eroding overall emission reductions, should
be minimized.
In particular, the EPA has determined final emission
performance rates that serve to reduce relative differences
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between state goals, and thus also focus the potential for
generation shifting between affected EGUs on achieving the
emission reductions quantified in the BSER. In the proposal,
goals differed more substantially between states based upon an
assessment of what emission reduction potential units could
access located within their state. Commenters observed that due
to the interconnected nature of the power sector, units are not
limited to such emission reduction measures within their state,
and indeed any operational decisions that units take necessarily
influence operational decisions at other units throughout the
interconnected grid. As a result, in the final rule, we are
finalizing CO2 emission performance rates, informed by regional
emission reduction potential, for fossil fuel-fired electric
utility steam generating units and stationary combustion
turbines that are applied consistently across all affected EGUs.
As the same source category-specific performance rates are
applied to all units in the contiguous U.S. regardless of the
state in which they are located, any differences between state
goals in this final rule stem only from the relative prevalence
in each state of fossil fuel-fired electric utility steam
generating units and stationary combustion turbines.
Consequently, there is substantially less incentive in this
final rule for units to shift generation across state lines
based solely on differences in state goals, since there is
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substantially less difference between the final rule’s state
goals, and since those state goals are themselves premised on
nationally consistent source category-specific performance
rates.
The EPA has also incorporated elements into the rule that
seek to minimize double-counting and the distortionary effects
that could potentially increase emissions. First, states have
the option to adopt multi-state plans that reflect regional
interactions while eliminating chances for double counting and
providing a level playing field for trading of rate-based ERCs
or mass-based allowances. Second, in the method for rate-based
plan compliance, the rule provides a general accounting approach
for adjusting an affected EGU’s or state’s CO2 rate that
inherently acts to minimize state differences. These points are
further discussed below.
For both rate-based and mass-based approaches, the rule
provides states with the option of creating either “ready-forinterstate-trading” plans or multi-state plans. These options
for states working together provide opportunities to enable
protections against double counting and minimize the presence of
distortionary effects.
“Ready-for-interstate-trading” and multi-state plans engage
multiple states in the same system for the purpose of trading
mass-based allowances or issuing and trading rate-based ERCs.
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This allows for efficient implementation of protections against
double counting provided in state plan requirements, as multiple
state are participating in the same tracking systems. This is
particularly useful in the context of rate-based ERC issuance
and tracking, where it must be ensured that the ERCs being
generated are unique across rate-based plans.
This final rule also reduces distortionary effects within
the context of multi-state plans. It does so by restricting
states to interstate trading with equivalently denominated massbased allowances or rate-based ERCs. In a mass-based context,
all affected EGUs will trade uniform mass-based allowances,
whether in a “ready-for-interstate-trading” plan or multi-state
plan. In a rate-based plan context, “ready-for-interstatetrading” states must all adopt as their goal the CO2 emission
performance rates as their joint goal. This assures that all the
participating states are issuing ERCs using the same
subcategorized performance rates, and that the sources in each
state have equivalent incentives for trading ERCs. Similarly,
under multi-state plans, the relevant states must choose to
adopt identical rates, either the CO2 emission performance rates
or a weighted average goal rate based on the rate-based goals of
all the states involved. These requirements along with a method
for calculating a weighted average goal rate are specified in
section VIII.C.5.
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Under all types of state plans, states must ensure that the
emission reduction measures counted as part of meeting their
plan requirements are not duplicative of any measures that are
counted by another state, in order to avoid double counting of
the MWhs of generation or energy savings that these measure
produce. Depending on the accounting method used to reflect
these measures in state goals, interstate effects could still
allow for the double counting of the emission reductions
resulting from these measures, particularly if mathematical
adjustments were made to stack emissions to reflect these
reductions. Depending on how these measures are accounted for,
the reductions could be counted by both the state that deployed
the measure, and the state that reports a reduction in fossil
generation or reported emissions. In this final rule, the MWhbased general accounting approaches for both mass-based and
rate-based plans have been specifically designed to eliminate
the risk of double counting of reductions, because emission
reduction measures are accounted for only through their inherent
impact on stack emissions for affected EGUs.
Mass-based plans rely exclusively on reported stack
emissions for determining whether a mass-based CO2 emission goal
is achieved. This means that under a mass-based plan any
emission reduction measures that are implemented are
automatically accounted for in reduced stack emissions of CO2
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from affected EGUs, which avoids concerns about counting the
same mass reductions in two different mass-based states.
In a rate-based plan, there needs to be an explicit
adjustment of reported CO2 emission rates from affected EGUs, to
reflect the measures that substitute low- or zero-emitting
generation or energy savings for affected EGU generation. States
with rate-based plans must demonstrate that measures used to
adjust their CO2 emission rate, such as RE and demand-side EE,
are non-duplicative. The proposal attempted to address this
issue in part by limiting demand-side EE that states could claim
to in-state measures. In fact, those in-state measures still
have an impact outside of the state and under the proposal’s
approach, states would have been restricted from taking credit
for all the measures they have put in place that reduce CO2
emissions. Therefore, the EPA is finalizing a treatment that
allows states to count all in-state and out-of-state measures,
while addressing interstate effects through the structure of the
rule’s accounting approach for adjusting the CO2 emission rate of
an affected EGU, detailed in section VIII.K.1 above, used to
show that the state has met its obligation under its state plan.
The general accounting approach for adjusting the CO2
emission rate of an affected EGU inherently accounts for the
regional nature of how substitute generation and energy savings
will impact affected EGU generation and CO2 emissions. The
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following discussions refer to the substituting generation and
energy savings in question as RE and demand-side EE, but this
method can apply to other measures that were not included in the
determination of the BSER that substitute for affected EGU
generation. The adjusted CO2 emission rate gives credit to the
affected EGU or state for the MWhs of RE and demand-side EE it
is responsible for deploying, by allowing those MWhs to be added
to the denominator of the CO2 rate, but makes no adjustment to
the numerator. Instead, the numerator reflects reported stack
emissions, which will reflect the extent to which RE and demandside EE reduced the affected EGU’s generation and emissions,
without needing to account for the state in which the RE or
demand-side EE originated, or approximating exactly how it
impacted the regional grid. Double-counting of CO2 emission
reductions is prevented because the reported emissions from each
unit are represented in the numerator of each of those units’
emission rates, and those real emissions capture whatever
emission reduction impact occurred with regard to any particular
MWh of RE or demand-side EE. Because the general accounting
approach disallows any adjustment to any EGU’s reported
emissions, it is not possible for the real emission reductions
prompted by any particular measure to be double-counted.
Double-counting of MWhs in the denominator can be avoided
because it is relatively straightforward to quantify the MWhs
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that the affected EGU is responsible for deploying and add them
to the denominator, and this method aligns well with the MWhdenominated trading system described in this final rule. As long
as it is assured that the MWhs of RE and demand-side EE are only
being claimed by one affected EGU or state, as is outlined in
section VIII.K, then there is no double-counting of MWh.
Therefore, the accounting method avoids double counting of both
CO2 emission reductions and MWhs, the two characteristics of RE
and demand-side EE measures that affect CO2 emission rates. For
further discussion of the MWh-based accounting method, including
a calculation example, see section VIII.K.1.
There may also be interactions between mass-based and ratebased plans regarding counting measures, specifically where
measures that provide substitute or avoided generation, such as
RE and demand-side EE, are located in a mass-based state and can
also be used by a rate-based state in meeting the CO2 performance
rates or state goals. The EPA received comments on this
particular issue, and many expressed concerns that this use of
mass-based resources in a rate-based state would result in
double-counting of emission reductions.
Commenters provided analyses specifying how two states can
benefit from the same RE and demand-side EE measures as a result
of rate- and mass-based plan interactions. Some commenters
considered this double-counting of emission reductions, and
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requested specific mathematical adjustments of reported
generation or CO2 emissions from affected EGUs under either ratebased or mass-based state plans in order to eliminate doublecounting.
The EPA has determined that, in the context of interactions
among rate-based and mass-based plans, there is not explicit
double-counting of the CO2 emission reductions associated with
counting measures located in mass-based states, considering the
accounting methods outlined in this final rule. First, as
discussed above, the accounting method for adjusting the CO2
emission rate only counts the MWhs generated by a measure to
adjust the MWh in the denominator of its reported CO2 emission
rate. The CO2 emissions impacts of the measures will be reflected
in the rate-based state only to the extent that the MWhs
resulted in lower reported CO2 emissions from an affected EGU in
the rate-based state. To the extent that measures that provide
substitute or avoided generation reduce generation from affected
EGUs in a mass-based state, the effect of those measures is
reflected in lower reported CO2 emissions of the mass-based EGUs.
The CO2 emission reductions reflected in the rate and the mass
state will necessarily be mutually exclusive, because both are
based on reported stack emissions. Additionally, the mechanism
in the mass-based state that is assuring CO2 emission reductions
is the mass budget, which is met by affected EGUs adjusting
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their generation. Low- or zero-emitting MWhs from resources like
RE and demand-side EE can serve load in the mass-based state and
play a role in lowering compliance costs, but they play no
direct role in mass-based compliance. As a result, no doublecounting of emission reductions can take place.
Though there is no risk of double-counting emissions, some
commenters expressed the concern that overall CO2 emissions
reductions would be foregone in situations where a source in a
rate-based state counts the MWh from measures in a mass-based
state, but the generation from that measure acts solely to serve
load in the mass-based state. In that scenario, expected CO2
emission reduction actions in the rate-based state are foregone
as a result of counting MWh that resulted in CO2 emission
reductions in a mass-based state. Therefore the EPA is
restricting the ability of rate-based states to claim emission
reduction measures, such as RE and demand-side EE, located in
mass-based states.
While the EPA understands this concern regarding foregone
reductions, we do not believe it is appropriate to restrict RE
crediting unilaterally between rate-based and mass-based states.
Such a restriction could cut some states off from regional RE
supplies that are assumed in the BSER building block 3 and
incorporated in the CO2 emission performance rates and state CO2
goals. Allowing crediting between rate- and mass-based states,
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as long as the risk of foregone CO2 emission reduction actions in
rate-based states are minimized, will assure a supply of
eligible RE MWhs that will further enable affected EGUs and
states to meet obligations under the final rule. Therefore, the
EPA has determined that it is appropriate for rate-based states
to count MWhs from RE located in mass-based states, subject to
the condition that the generation in question was intended to
meet electricity load in a state with a rate-based plan.1014 This
may apply to some or all of the generation from an individual RE
installation. To assure that the RE generation in question meets
this condition, the EPA is requiring that RE generation from RE
installations located in a mass-based state can only be counted
in a rate-based state if the electricity generated is delivered
with the intention to meet load in a state with a rate-based
plan, and was treated as a generation resource used to serve
regional load that included the rate-based state. This can be
demonstrated through, for example, the provision of a power
delivery contract or power purchase agreement in which an entity
in the rate-based state contracts for the supply of the MWhs in
question. The EPA is providing flexibility to states regarding
the nature of the required demonstration, though the state must

1014

This does not need to necessarily be the state where the MWh
of energy generation from the RE measure is used to adjust the
CO2 emission rate of an affected EGU.
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specify eligible demonstrations for approval in state plans.
Under an emission standards plan, this demonstration would be
made by the provider of the measure seeking ERC issuance to the
rate-based state.
The following are examples of how requirements for a
demonstration could be established in state plans and used to
allow RE in a mass-based state to be counted in a rate-based
state. For an emission standards state plan, a state could
specify in the regulations for the rate-based emission standards
included in its state plan that it will require an RE provider
that seeks the issuance of ERCs to show that load-serving
entities in the rate-based state have contracted for the
delivery of the RE generation that occurs in a mass-based state
to meet load in a rate-based state. Under this approach, an RE
provider in a mass-based state could submit as part of an
eligibility application a delivery contract or power purchase
agreement showing that the generation was procured by the
utility, and was treated as a generation resource used to serve
regional load that included the rate-based state. This
documentation would be sufficient demonstration to allow the RE
generating resource to meet this additional geographic
eligibility requirement for the amount of generation in
question. All quantified and verified RE MWhs submitted for ERC
issuance would need to be associated with that power purchase
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contract or agreement, and this fact would need to be
demonstrated in the M&V reports submitted for issuance of ERCs.
The ability for a rate-based state to count MWhs located in
a mass-based state under the above conditions is limited to RE.
Rate-based states are not allowed to claim demand-side EE or any
other emission reduction measures that were not included in the
determination of the BSER located in mass-based states for ERC
issuance. While this limits rate-based sources’ access to
additional resources, providing that access would result in a
risk of foregone reductions. Further, unlike RE, there is no
obligation related to demand-side EE and other measures that
were not included in the determination of the BSER incorporated
in the CO2 emission performance rates or state rate-based goals
which would necessitate facilitating access to those resources.
This treatment also does not apply to fossil-fuel fired EGUs,
such as NGCC units. If a mass-based emission standard has been
applied to an affected EGU, there is no valid way to calculate
whether it has MWh that are eligible for crediting, as is
possible under a rate-based plan.
Finally, as stated earlier, commenters also expressed
concern about the potential for relative increases in emissions
to occur given relative differences between sources and states.
These differences could include states’ goals under either the
rate- or mass-based approaches, or states’ accounting of new
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sources. These differences could induce increased generation in
one state over another because the costs of compliance and
relative costs of generation would vary between states. There
was particular concern regarding how these differences would
provide incentives for increasing generation at new fossil
sources and expanding utilization of existing affected EGU
generation in states that have less stringent goals, and that
this movement of generation would result in increased emissions
overall. This could potentially result in the achievement of
performance rates but with fewer overall CO2 emissions reductions
than projected nationally under the proposal.
Commenters suggested that the issuance and trading of
emission credits across states under a rate-based approach would
result in incentives to create credits, through the development
of RE for example, in certain states with higher state goals,
and this could also be a source of increased overall emissions.
They noted that RE siting would thus not occur in the most
optimal locations. The commenters assumed that zero-emitting
credits are denominated in mass units by multiplying the number
of MWh by some emission rate: either the state goal rate, the
current state emission rate, a regional emission rate, or a
calculated marginal rate. If those rates were higher in any
states, zero-emitting MWhs would create more mass-denominated
credits in those states, and thus RE and demand-side EE would be
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more valuable.
The incentive to target the location of zero-emitting
generation or energy savings between states based on variation
in its emission reduction value has been minimized by the fact
that states participating in rate-based interstate trading must
adopt the same emission performance rates or rate-based state
goals. It is further minimized, even outside of an interstate
trading framework, by the nature of the accounting method
finalized in this rule. As explained above regarding the general
accounting approach and the trading framework, we are adjusting
rates using calculated MWhs, not based upon an emission
reduction approximation as commenters outlined above. Not only
does the method allow emission reductions to be accounted for as
they occur across the grid, but it means the ERCs being traded
across states represent one MWh of zero-emitting generation in
whatever state it originated, and its value is unaffected by any
emission rate associated with its state of origin. Thus, the
finalized accounting and trading methods minimize the relative
incentives for generating zero-emitting ERCs in a particular
state based upon the rates that apply to that state.
IX. Community and Environmental Justice Considerations
In this section we provide an overview of the actions that
the agency is taking to help ensure that vulnerable communities

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are not disproportionately impacted by this rulemaking.1015As
described in the Executive Summary, climate change is an
environmental justice issue. Low-income communities and
communities of color already overburdened with pollution are
likely to be disproportionately affected by, and less resilient
to, the impacts of climate change. This rulemaking will provide
broad benefit to communities across the nation, as its purpose
is to reduce GHGs, the most significant driver of climate
change. While addressing climate change will provide broad
benefits, it is particularly beneficial to low-income
populations and some communities of color (in particular,
populations defined jointly by ethnic/racial characteristics and
geographic location) where people are most vulnerable to the
impacts of climate change (a more robust discussion of the
impacts of climate change on vulnerable communities is provided
in the Executive Order 12898 section XII.J of this preamble).

1015

In this preamble, the EPA discusses environmental justice in
two sections. Section XI.J specifically addresses how the agency
has met the directives under Executive Order 12898. The EPA
defines environmental justice as the fair treatment and
meaningful involvement of all people regardless of race, color,
national origin or income with respect to the development,
implementation, and enforcement of environmental laws,
regulations, and policies. This section of the preamble
addresses actions that the agency is taking related to
environmental justice and other issues (e.g., increased
electricity costs) that may affect communities covered by
Executive Order 12898 as well as other communities.
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While climate change is a global phenomenon, the adverse effects
of climate change can be very localized, as impacts such as
storms, flooding, droughts, and the like are experienced in
individual communities.
Vulnerable communities also often receive more than their
fair share of conventional air pollution, with the attendant
adverse health impacts.

The changes in electricity generation

that will result from this rule will further benefit communities
by reducing existing air pollution that directly contributes to
adverse localized health effects. These air quality improvements
will be achieved through this rule because the electric
generating units that emit the most GHGs also have the highest
emissions of conventional pollutants, such as SO2, NOx, fine
particles, and HAP. These pollutants are known to contribute to
adverse health outcomes, including the development of heart or
lung diseases, such as asthma and bronchitis, increased
susceptibility to respiratory and cardiac symptoms, greater
numbers of emergency room visits and hospital admissions, and
premature deaths.1016 The EPA expects that the reductions in
utilization of higher-emitting units likely to occur during the
implementation of state plans will produce significant
reductions in emissions of conventional pollutants, particularly

1016

Six Common Air Pollutants.
http://www.epa.gov/oaqps001/urbanair/
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in those communities already overburdened by pollution, which
are often low-income communities, communities of color, and
indigenous communities. These reductions will have beneficial
effects on air quality and public health both locally and
regionally. Further, this rulemaking complements other actions
already taken by the EPA to reduce conventional pollutant
emissions and improve health outcomes for overburdened
communities.
By reducing millions of tons of CO2 emissions that are
contributing to global GHG levels and providing strong
leadership to encourage meaningful reductions by countries
across the globe, this rule is a significant step to address
health and economic impacts of climate change that will fall
disproportionately on vulnerable communities. By reducing
millions of tons of conventional air pollutants, the rule will
lead to better air quality and improved health in those
communities. We heard from many commenters who recognize and
welcome those benefits.
There are other ways in which the actions that result from
this rulemaking may affect communities in positive or
potentially adverse ways and we also heard about these from
commenters.
While the agency expects overall emission decreases as a
result of this rulemaking, we recognize that some EGUs may
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operate more frequently, as a result of this rulemaking. To the
extent that we project increases in utilization as a result of
this rulemaking, we expect these increases to occur generally in
lower-emitting NGCC units, which have minimal or no emissions of
SO2 and HAP, lower emissions of particulate matter, and much
lower emissions of NOx compared to higher-emitting steam units.
We acknowledge the concerns that have been raised on this point
but also the difficulty in anticipating prior to plan
implementation where those impacts might occur. In addition to
providing for a robust state planning process with opportunity
for meaningful input, the EPA is encouraging states to evaluate
the actual impacts of their plans once implemented and, as
described below, the EPA intends to conduct an assessment of
whether and where emission increases may that may result from
plan implementation and to work with states to mitigate adverse
impacts, if any, in overburdened communities.
In addition to the many positive anticipated health benefits
of this rulemaking, it also will increase the use of clean
energy and will encourage EE. These changes in the electricity
generation system, which are already occurring but may be
accelerated by this program, are expected to have other positive
benefits for communities. The electricity sector is, and will
continue to be, investing more in RE and EE. The construction of
renewable generation and the implementation of EE programs such
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as residential weatherization will bring investment and
employment opportunities to the communities where they take
place. We recognize that certain communities whose economies may
be affected by changes in the utility and related sectors may be
particularly impacted by the final rule. The EPA encourages
states to make an effort to engage with these communities,
including workers and their representatives in these sectors,
including EE. It is important to ensure that all communities
share in the benefits of this program. And while we estimate
that its benefits will greatly exceed its costs (as noted in the
RIA for this rulemaking), it is also important to ensure that to
the extent there are increases in electricity costs, that those
do not fall disproportionately on those least able to afford
them.
The EPA has engaged with community groups throughout this
rulemaking, and we received many comments on the issues outlined
above from community groups, environmental justice
organizations, faith-based organizations, public health
organizations, and others.1017 This input has informed this final
rulemaking and prompted the EPA to consider other steps that the
agency can take in the short and long term to assist states and

1017

Detailed information on the outreach conducted as part of
this rulemaking is provided in section I of this preamble.
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stakeholders to consider environmental justice and impacts to
communities in plan development and implementation.
It has also prompted us to work with our federal partners
to make sure that states and communities have information on
federal resources available to assist communities. We describe
these resources below, as well as resources that the EPA will be
providing to assist communities in accessing EE/RE and financial
assistance programs. In our discussion below we also provide
models of programs that other states are currently using to
assist communities in accessing available resources that states
could use when developing their plans.
Finally, and importantly, we recognize that communities
must be able to participate meaningfully in state plan
development. In this section, we discuss the requirements in the
final rule for states, as they develop their plans, to provide
opportunities for public involvement, and resources available to
states and communities to enhance the success of the public
process.
A. Proximity Analysis
The EPA is committed to assisting states and communities to
develop plans that ensure there are no disproportionate, adverse
impacts on overburdened communities. To provide information
fundamental to beginning that process, the EPA has conducted a
proximity analysis for this final rulemaking that summarizes
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demographic data on the communities located near power plants.1018
The EPA understands that, in order to prevent
disproportionately, high and adverse human health or
environmental effects on these communities, both states and
communities must have information on the communities living near
facilities, including demographic data, and that accessing and
using census data files requires expertise that some community
groups may lack. Therefore, the EPA used census data from the
American Community Survey (ACS) 2008-2012 to conduct a proximity
analysis that can be used by states and communities as they
develop state plans and as they later assess the final plans’
impacts. The analysis and its results are presented in the EJ
Screening Report for the Clean Power Plan, which is located in
the docket for this rulemaking at EPA-HQ-OAR-2013-0602.
The proximity analysis provides detailed demographic
information on the communities located within a 3-mile radius of
each affected power plant in the U.S. Included in the analysis
is the breakdown by percentage of community characteristics such
as income and minority status. The analysis shows a higher
percentage of communities of color and low-income communities
living near power plants than national averages. It is important
to note that the impacts of power plant emissions are not

1018

The proximity analysis was conducted using the EPA’s
environmental justice mapping and screening tool, EJSCREEN.
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limited to a 3-mile radius and the impacts of both potential
increases and decreases in power plant emissions can be felt
many miles away. Still, being aware of the characteristics of
communities closest to power plants is a starting point in
understanding how changes in the plant’s air emissions may
affect the air quality experienced by some of those already
experiencing environmental burdens.
Although overall there is a higher fraction of communities
of color and low-income populations living near power plants
than national averages, there are differences between rural and
urban power plants. There are many rural power plants that are
located near small communities with high percentages of lowincome populations and lower percentages of communities of
color. In urban areas, nearby communities tend to be both lowincome communities and communities of color. In light of this
difference between rural and urban communities proximate to
power plants and in order to adequately capture both the lowincome and minority aspects central to environmental justice
considerations, we use the terms “vulnerable” or “overburdened”
when referring to these communities. Our intent is for these
terms to be understood in an expansive sense, in order to
capture the full scope of communities, including indigenous
communities most often located in rural areas, thatare central
to our environmental justice and community considerations.
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As stated in the Executive Order 12898 discussion located
in section XII.J of this preamble, the EPA believes that all
communities will benefit from this final rulemaking because this
action directly addresses the impacts of climate change by
limiting GHG emissions through the establishment of CO2 emission
guidelines for existing affected fossil fuel-fired power plants.
The EPA also believes that the information provided in the
proximity analysis will promote engagement between vulnerable
communities and their states and will be useful for states as
they begin developing their plans. In addition to providing the
proximity analysis in the docket of this rulemaking, the EPA
will disseminate the proximity analysis to states and will make
it publicly available on its Clean Power Plan (CPP) Community
Portal. Furthermore, the EPA has also created an interactive
mapping tool that illustrates where power plants are located and
provides information on a state level. This tool is available
at: http://cleanpowerplanmaps.epa.gov/CleanPowerPlan/.
Additionally, the EPA encourages states to conduct their
own analyses of community considerations when developing their
plans. Each state is uniquely knowledgeable about its own
communities and well-positioned to consider the possible impacts
of plans on vulnerable communities within its state. Conducting
state-specific analyses would not only help states assess
possible impacts of plan options, but it would also enhance a
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state’s understanding of the means to engage these communities
that would most effectively reach them and lead to valuable
exchanges of information and concerns. A state analysis,
together with the proximity analysis conducted by the EPA, would
provide a solid foundation for engagement between a state and
its communities.
Such state-specific analyses need not be exhaustive. An
examination of the options a state is considering for its plan,
and any projections of likely resulting increases in power plant
emissions affecting low-income populations, communities of color
populations, or indigenous communities, would be informative for
communities. The analyses could include available air quality
monitoring data and information from air quality models, and, if
available, take into account information about local health
vulnerabilities such as asthma rates or access to healthcare.
Alternatively, a simple analysis may consider expected EGU
utilization in geographic proximity to overburdened communities.
The EPA will provide states with information on its publicly
available environmental justice screening and mapping tool, EJ
SCREEN, which they may use in conducting a state-specific
analysis. The EPA will also provide states with resources
containing examples of analyses that other states have conducted
to examine the impacts of their programs on overburdened
communities. Additionally, the EPA encourages states to submit a
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copy of their analysis if they choose to conduct one, with their
initial and final plan submittals.
B. Community Engagement in State Plan Development
In sections VIII.D-E of this preamble, the EPA explains
that states need to engage meaningfully with communities and
other stakeholders during the initial and final plan submittal
processes. Meaningful engagement includes outreach to vulnerable
communities, sharing information and soliciting input on state
plan development and on any accompanying assessments such as
those described above, and selecting methods for engagement to
support communities’ involvement at critical junctures in plan
formulation and implementation. This engagement also includes
providing the public the opportunity to comment on the state’s
initial submittal and responding to significant comments
received, including comments from vulnerable communities, as
well as conducting a public hearing and responding to comments
before a final state plan is submitted. Additionally, the EPA
expects that states will conduct outreach meetings, which could
include public hearings or listening sessions, before the
initial submittal is made. The EPA also encourages states to
provide background information about their proposed final state
plan or their initial state plan in the appropriate languages in
advance of their public hearing and at their public hearing. The
EPA recommends that states provide translators and other
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resources at their public hearings, to ensure that members of
the public can provide oral feedback.
In the initial submittal, the final rule requires that
states provide information to the agency about the community
engagement they have undertaken and the means by which they
intend to involve vulnerable communities and other stakeholders
as they develop their final plan. Furthermore, as noted in
section VIII.E of this preamble, in determining if states are
eligible for a 2-year extension for submission of final plans,
the rule requires that states demonstrate how they are
meaningfully engaging vulnerable communities and other
interested stakeholders as part of their public participation
process. The EPA consulted its May 2015, Guidance on Considering
Environmental Justice During the Development of Regulatory
Actions, when crafting this rulemaking and recommends that
states consult it to assist them in engaging meaningfully with
vulnerable communities.1019 Additionally, states in their initial
submittal and 2017 update must show how they identified the
communities with whom they are engaging as they develop their
plans. Some suggested actions that states could take to engage
actively with the public, including conducting meaningful

1019

Guidance on Considering Environmental Justice During the
Development of Regulatory Actions.
http://epa.gov/environmentaljustice/resources/policy/considering
-ej-in-rulemaking-guide-final.pdf. May 2015.
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engagement with vulnerable communities, are outlined in section
VIII.E of this preamble. Additionally, as outlined in section
VIII.D, the final plan submitted by states must include an
overview of the public hearing(s) conducted and information on
how the state ensured that the hearing(s) were accessible to
stakeholders including vulnerable communities.
The EPA is committed to supporting states in effectively
engaging with communities as they develop and implement their
plans. The EPA will provide training and other resources
throughout the implementation process that will assist states
and communities in understanding plan requirements and options
for plan development. These trainings will be a continuation of
those that the EPA has already conducted with communities and
states both pre- and post-proposal. The EPA will reach out to a
wide variety of community stakeholders, including groups
representing environmental justice communities, faith-based
organizations, academic organizations working with vulnerable
and overburdened communities, affordable housing advocates,
public health professionals, public health organizations, and
other community stakeholders.
C. Providing Communities with Access to Additional Resources
In addition to providing resources to states, the EPA
encourages states to be aware of existing efforts undertaken by
other states aimed at providing low-income communities access to
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financial and technical assistance programs for EE and RE, and
to consider similar approaches that may make sense for their own
states. The EPA encourages states to consider targeting economic
development resources to communities that are likely to be
negatively affected by ongoing changes in the utility and
related sectors in support of efforts to diversify their
economies, attract new sources of investment, and create new
jobs.
One example of a program targeted at low-income communities
is the Maryland EmPOWER Low Income Energy Efficiency Program
(LIEEP).1020 The LIEEP program administered by the Maryland
Department of Housing and Community Development (DHCD) helps
low-income households through free installation of energy
conservation materials (i.e., installation, hot water system
improvements, lighting retrofits, furnace cleaning, tuning and
safety repairs, refrigerator retrofits, etc.).1021 Funding for
this program is provided by EmPOWER Maryland partners: Baltimore
Gas and Electric, Southern Maryland Electric Cooperative,
Delmarva Power, Allegheny Energy and Pepco.1022 This program is
available to both homeowners and renters.1023 Additionally, the

1020

EmPOWER Maryland Low Income Energy Efficiency Programs
(LIEEP).
http://www.mdhousing.org/website/Programs/lieep/Default.aspx.
1021 Ibid.
1022 Ibid.
1023 Ibid.
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Maryland Department of Housing provides low-income families with
home heating bill assistance and furnace repairs and
replacements through the Maryland Energy Assistance Program
(MEAP).1024 Maryland’s Electric Universal Service Program (EUSP)
helps low-income electric customers with their electric bills.1025
Another example of a program is EmPower New York, which
provides no-cost energy solutions to low-income populations.1026
Currently there are about 100,000 people who are receiving
assistance. Both homeowners and renters are eligible to receive
assistance under this program. The types of assistance available
include EE upgrades (plugging leaks, adding insulation,
replacing inefficient refrigerators and freezers and new energyefficient lighting). Other states, like the State of Colorado’s
Energy Outreach Colorado program, offer similar resources for
low-income populations.1027
In 2013, the New York State Energy and Research Development
Authority (NYSERDA) was able to secure a triple-A rated
financial guarantee from the state’s Clean Water State Revolving
Fund (SRF) for a $24 million bond issue. Proceeds funded
residential EE loans that were available to all utility

1024

Energy Assistance.
http://www.dhr.state.md.us/blog/?page_id=4326.
1025 Ibid.
1026 EmPower New York. http://www.nyserda.ny.gov/AllPrograms/Programs/EmPower-New-York
1027 Energy Outreach Colorado. http://www.energyoutreach.org/about
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customers, including low-income households. SRF eligibility was
based on the beneficial impact of EE investment in reducing
atmospheric deposition on impaired water bodies consistent with
Section 319 of the Clean Water Act.
As discussed below, there are also many federal programs
that can help low-income populations access the benefits of RE,
EE, and the economic benefits of a cleaner energy economy.
In the coming months, the EPA will continue to provide
information and resources for communities and states on existing
federal, state, local, and other financial assistance programs
to encourage EE/RE opportunities that are already available to
communities. For example the EPA will provide a catalog of
current or recent state and local programs that have
successfully helped communities adopt EE/RE measures. The goal
of these resources is to help vulnerable communities gain the
benefits of this rulemaking by encouraging that states use these
types of tools in their state plans. The use of these RE/EE
tools can also help low-income households reduce their
electricity consumption and bills.
The EPA recognizes the potential impacts that this
rulemaking could have on jobs in communities. Therefore, in
section VIII.G of this preamble, the EPA has outlined that
states, in designing their state plans, should consider the
effects of their plans on employment and overall economic
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development to realize the opportunities for economic growth and
jobs that the plans offer. To the extent possible, states should
try to assure that communities that may be expected to
experience job losses can also take advantage of the
opportunities for job growth or otherwise transition to healthy,
sustainable economic growth (e.g., with regard to delivering EE
measures and installing rooftop solar panels). Additionally, as
part of the resources that we will be providing to states and
low-income communities, the EPA will provide information on the
Administration’s Partnerships for Opportunity and Workforce and
Economic Revitalization (POWER) Initiative and other programs
that specifically target economic development assistance to
communities affected by changes in the coal industry and the
utility power sector.1028
D. Federal Programs and Resources Available to Communities
Federal agencies have a history of bringing EE and RE to
low-income communities. Earlier this summer, the Administration
announced a new initiative to scale up access to solar energy
and cut energy bills for all Americans, in particular low- and
moderate-income communities, and to create a more inclusive
solar workforce. As part of this new initiative, the U.S.
Department of Energy (DOE), the U.S. Department of Housing and

1028

http://www.eda.gov/power

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Urban Development (HUD), U.S. Department of Agriculture (USDA),
and the EPA launched a National Community Solar Partnership to
unlock access to solar energy for the nearly 50 percent of
households and businesses that are renters or do not have
adequate roof space to install solar systems, with a focus on
low- and moderate- income communities. The Administration also
set a goal to install 300 megawatts (MW) of RE in federally
subsidized housing by 2020 and plants to provide technical
assistance to make it easier to install solar energy on
affordable housing, including clarifying how to use federal
funding for EE and RE. To continue enhancing employment
opportunities in the solar industry for all Americans,
AmeriCorps is providing funding to deploy solar energy and
create jobs in underserved communities, and DOE is working to
expand solar energy education and opportunities for job
training.
These recent announcements build on the many existing
federal programs and resources available to improve EE and
accelerate the deployment of RE in vulnerable communities. Some
examples of these resources include: the Department of Energy’s
Weatherization Assistance Program, Health and Human Service’s
Low Income Home Energy Assistance Program, the Department of
Agriculture’s Energy Efficiency and Conservation Loan Program,

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High Cost Energy Grant Program, and the Rural Housing Service’s
Multi-Family Housing Program.
HUD supports EE improvements and the deployment of RE on
affordable housing through its Energy Efficient Mortgage
Program, Multifamily Property Assessed Clean Energy Pilot with
the State of California, PowerSaver Program, and the use of
Section 108 Community Development Block Grants. The Department
of Treasury provides several tax credits to support RE
development and EE in low-income communities, including the New
Markets Tax Credit Program and the Low-Income Housing Tax
Credit. The EPA’s RE-Powering America’s Land Initiative promotes
the reuse of potentially contaminated lands, landfills and mine
sites – many of which are in low-income communities – for RE
through a combination of tailored redevelopment tools for
communities and developers, as well as site-specific technical
support. The EPA’s Green Power Partnership is increasing
community use of renewable electricity across the country and in
low-income communities. The EPA partners with EE programs
throughout the country that leverage ENERGY STAR to deliver
broad consumer energy-saving benefits, of particular value to
low-income households who can least afford high energy
bills. ENERGY STAR also works with houses of worship to reduce
energy costs – savings that can then be repurposed to their
community mission, including programs and assistance to
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residents in low-income communities. The EPA will be working
with these federal partners and others to ensure that states and
vulnerable communities have access to information on these
programs and their resources.
The federal government also has a number of programs to
expand employment opportunities in the energy sector, including
for underserved populations. Examples of these include HUD, DOE,
and the Department of Education’s

“STEM, Energy, and Economic

Development” program; DOE’s Diversity in Science and Technology
Advances National Clean Energy in Solar (DISTANCE-Solar)
Program; Grid Engineering for Accelerated Renewable Energy
Deployment (GEARED); the Department of Labor’s Trade Adjustment
Assistance Community College and Career Training (TAACCCT),
Apprenticeship USA Advancing Apprenticeships in the Energy
Field, Job Corps Green Training and Greening of Centers, and
YouthBuild; and the EPA’s Environmental Workforce Development
and Job Training (EWDJT) program.

E. Multi-pollutant planning and Co-Pollutants
As outlined in the final Clean Power Plan, states and
sources have continued obligations to meet all other CAA
requirements addressing conventional pollutants. Because the CAA
envisions control of these other pollutants as a continuous
process (through provisions such as periodic review of the NAAQS

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and residual risk requirements under the MACT program), the EPA
believes that the Clean Power Plan provides an opportunity for
states to consider strategies for meeting future CAA planning
obligations as they develop their plans under this rulemaking.
Multi-pollutant strategies that incorporate criteria pollutant
reductions over the planning horizons specific to particular
states, jointly with strategies for reducing CO2 emissions from
affected EGUs needed to meet Clean Power Plan requirements over
the time horizon of this rule, may accomplish greater
environmental results with lower long-term costs. Such
strategies may also provide opportunities for states,
communities, and affected facilities to consider the most
effective means of meeting these obligations while limiting or
eliminating localized emission increases that would otherwise
affect overburdened communities. Furthermore, this type of
multi-pollutant approach has been suggested by states and
regulated sources in past rulemakings as a tool to determine the
best system of emission reductions. The EPA recommends that
states consider such strategies in consultation with their
communities, affected facilities, and other stakeholders.
Air quality in a given area is affected by emissions from
nearby sources and may be influenced by emissions that travel

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hundreds of miles and mix with emissions from other sources.1029
In the Cross-State Air Pollution Rule the EPA used its authority
to reduce emissions that significantly contribute to downwind
exposures. The RIA for the final Cross-State Air Pollution Rule
anticipates substantial health benefits for the population
across a wide region. Similarly, the EPA believes that, like the
Cross-State Air Pollution Rule, this rulemaking will result in
significant health benefits because it will reduce co-pollutant
emissions of SO2 and NOx on a regional and national basis.1030
Thus, localized increases in NOx emissions may well be more than
offset by NOx decreases elsewhere in the region that produce a
net improvement in ozone and particulate concentrations across
the area.
Another effect of the final CO2 emission guidelines for
affected existing fossil fuel-fired EGUs may be increased
utilization of other, unmodified EGUs - in particular, high
efficiency gas-fired EGUs - with relatively low GHG emissions
per unit of electrical output. These plants may operate more
hours during the year and could emit pollutants, including
pollutants whose environmental effects would be localized and
regional rather than global as is the case with GHG emissions.
Changes in utilization already occur in response to energy

1029
1030

76 FR 48348.
76 FR 48347.

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demands and evolving energy sources, but the final CO2 emission
guidelines for affected existing fossil fuel-fired EGUs can be
expected to cause more such changes. Increased utilization of
solid fossil fuel-fired units generally would not increase peak
concentrations of PM2.5, NOx, or ozone around such EGUs to levels
higher than those that are already occurring because peak hourly
or daily emissions generally would not change; however,
increased utilization may make periods of relatively high
concentrations more frequent. It should be noted that the gasfired sources likely to be dispatched more frequently have very
low emissions of primary PM, SO2, and HAP per unit of electrical
output and that they must continue to comply with other CAA
requirements that directly address the conventional pollutants,
including federal emission standards, rules included in SIPs,
and conditions in Title V operating permits, in addition to the
guidelines in this final rulemaking. Therefore, local (or
regional) air quality for these pollutants is not likely to be
significantly affected.
For natural gas-fired EGUs, the EPA found that regulation
of HAP emissions “is not appropriate or necessary because the
impacts due to HAP emissions from such units are negligible
based on the results of the study documented in the utility

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RTC.”1031 Because gas-fired EGUs emit essentially no mercury,
increased utilization will not increase methyl mercury
concentrations in water bodies near these affected EGUs. In
studies done by DOE/NETL comparing cost and performance of coaland NGCC-fired generation, they assumed SO2, NOx, PM (and Hg)
emissions to be “negligible.” Their studies predict NOx
emissions from a NGCC unit to be approximately 10 times lower
than a subcritical or supercritical coal-fired boiler.1032 Many,
although not all, NGCC units are also very well controlled for
emissions of NOx through the application of after combustion
controls such as selective catalytic reduction.
F. Assessing Impacts of State Plan Implementation
It is important to the EPA that the implementation of state
plans be assessed in order to identify whether they cause any
adverse impacts on communities already overburdened by
disproportionate environmental harms and risks. The EPA will
conduct its own assessment during the implementation phase of
this rulemaking to determine whether the implementation of state
plans developed pursuant to this rulemaking and other air
quality rules are, in fact, reducing emissions and improving air

1031

65 FR 79831.
“Cost and Performance Baseline for Fossil Energy Plants
Volume 1: Bituminous Coal and Natural Gas to Electricity” Rev
2a, September 2013 Revision 2, November 2010 DOE/NETL-2010/1397.
1032

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quality in all areas or whether there are localized air quality
impacts that need to be addressed under other CAA authorities.
Furthermore, the EPA recommends that states conduct evaluations
of their own to determine the impacts of their plans on
overburdened communities. An example of one such approach to
assessing a state plan for reducing GHGs is the California Air
Resources Board’s (CARB), First Update on the Climate Change
Scoping Plan: Building on the Framework Pursuant to AB32: The
California Global Warming Solutions Act of 2006, which outlines
ongoing evaluations that it will conduct to determine the
impacts of its programs (throughout the implementation stages)
on overburdened communities.1033 CARB’s Adaptive Management Plan
for the Cap-and-Trade Program is one particular evaluation,
which is intended to assess any localized emissions increases
resulting from the program so that the state can appropriately
respond.1034 The EPA recommends that states consider CARB’s
approaches and other programs as models for conducting ongoing
assessments of the impacts of their state plans on overburdened
communities. The EPA will provide training for states and

1033

First Update on the Climate Change Scoping Plan: Building on
the Framework Pursuant to AB32: The California Global Warming
Solutions Act of 2006.
http://www.arb.ca.gov/cc/scopingplan/2013_update/first_update_cl
imate_change_scoping_plan.pdf. May 2014.
1034 Adaptive Management Plan for the Cap-and-Trade Regulation.
http://www.arb.ca.gov/cc/capandtrade/adaptive_management/plan.pd
f. October 2011.
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communities on resources that they can use to assess options for
plan development and implementation that appropriately consider
localized impacts, especially effects of co-pollutants, as well
as training on how to develop and carry out these evaluations.
This training will include guidance in accessing the
publicly available information that sources and states currently
report that can help with ongoing assessments of state plan
impacts. For example, unit-specific emissions data and air
quality monitoring data are readily available. This information,
together with the assessment that the EPA will conduct in the
implementation phase of this rulemaking and other analyses that
states may develop, will enable states and communities to
monitor any disproportionate emissions that may result in
adverse impacts and to address them.
G. EPA Continued Engagement
The EPA is committed to helping ensure that this action
will not have disproportionate adverse human health or
environmental effects on vulnerable communities. Throughout the
implementation phase of this rulemaking, the agency will
continue to provide trainings and resources to assist
communities and states as they engage with one another.
Additionally, we will provide states with recommendations on
best practices for engaging with vulnerable communities. The
EPA, through its outreach efforts during implementation, will
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continue to solicit feedback from communities and states on
topics for which they would like additional trainings and
resources.
The EPA will also provide states with resources containing
examples of analyses that other states have conducted to examine
the impacts of their programs on vulnerable communities, as well
as information on its publicly available environmental justice
screening and mapping tool, EJ SCREEN. States are encouraged to
use this preliminary information as well as other available
information to conduct their own analyses. As described above,
the EPA will assess the impacts of this rulemaking during its
implementation. The EPA will house this assessment, along with
the proximity analysis and other information generated
throughout the implementation process, on its Clean Power Plan
(CPP) Community Portal that will be linked to this rulemaking’s
website (www.epa.gov/cleanpowerplan). In addition, the EPA has
expanded its set of resources that are being developed to help
states and communities understand the breadth of policy options
and programs that have successfully brought EE/RE to
overburdened communities. The EPA is committed to continuing its
engagement with states and communities from the beginning of
plan development through plan implementation.
A more detailed discussion concerning the application of
Executive Order 12898 in this rulemaking can be found in section
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XI.J of this preamble. A summary of the EPA’s interactions with
communities is in the EJ Screening Report for the Clean Power
Plan, available in the docket of this rulemaking. Furthermore,
the EPA’s responses to public comments, including comments
received from communities, are provided in the response to
comments documents located in the docket for this rulemaking.
In summary, the EPA in this final rulemaking has designed
an integrative approach that helps to ensure that vulnerable
communities are not disproportionately impacted by this
rulemaking. The proximity analysis that the agency has conducted
for this rulemaking is a central component of this approach. Not
only is the proximity analysis a useful tool to help identify
overburdened communities that may be impacted by this
rulemaking, states can use this tool as they engage with
communities in the development of their plans, consider a multipollutant approach, help low-income communities access EE/RE and
financial assistance programs and assess the impacts of their
state plans. Additionally, in order to continue to ensure that
vulnerable communities are not disproportionately impacted by
this rulemaking, the EPA will also be conducting its own
assessment during the implementation phase. Furthermore, the EPA
will continue to engage with communities and states throughout
the implementation phase of this rulemaking to help ensure that
vulnerable communities are not disproportionately impacted.
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X. Interactions with Other EPA Programs and Rules
A. Implications for the New Source Review Program
The new source review (NSR) program is a preconstruction
permitting program that requires major stationary sources of air
pollution to obtain permits prior to beginning construction. The
requirements of the NSR program apply both to new construction
and to modifications of existing major sources. Generally, a
source triggers these permitting requirements as a result of a
modification when it undertakes a physical or operational change
that results in a significant emission increase and a net
emissions increase. NSR regulations define what constitutes a
significant net emissions increase, and the concept is
pollutant-specific.

As a result of the decision in Utility Air

Regulatory Group (UARG) v. Environmental Protection Agency
(EPA), 134 S. Ct. 2427 (2014), a modification that increases
only GHG emissions above the applicable level will not trigger
the requirement to obtain a PSD permit. Under existing EPA
regulations, a modifying major stationary source would trigger
PSD permitting requirements for GHGs if it undergoes a change or
change in the method of operation (modification) that results in
a significant increase in the emissions of a pollutant other
than GHGs and results in a GHG emissions increase of 75,000 tons
per year CO2e as well as a GHG emissions increase on a mass
basis. Once it has been determined that a change triggers the
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requirements of the NSR program, the source must obtain a permit
prior to making the change. The pollutant(s) at issue and the
air quality designation of the area where the facility is
located or proposed to be built determine the specific
permitting requirements.
As part of its CAA section 111(d) plan, a state may impose
requirements that require an affected EGU to undertake a
physical or operational change to improve the unit’s efficiency
that results in an increase in the unit’s dispatch and an
increase in the unit’s annual emissions. If the emissions
increase associated with the unit’s changes exceeds the
thresholds in the NSR regulations for one or more regulated NSR
pollutants, including the netting analysis, the changes would
trigger NSR.
While there may be instances in which an NSR permit would
be required, we expect those situations to be few. As previously
discussed in this preamble, states have considerable flexibility
in selecting varied measures as they develop their plans to meet
the goals of the emission guidelines. One of these flexibilities
is the ability of the state to establish emission standards in
their CAA section 111(d) plans in such a way so that their
affected sources, in complying with those standards, in fact
would not have emissions increases that trigger NSR. To achieve
this, the state would need to conduct an analysis consistent
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with the NSR regulatory requirements that supports its
determination that as long as affected sources comply with the
emission standards in their CAA section 111(d) plan, the
source’s emissions would not increase in a way that trigger NSR
requirements.
For example, a state could decide to use demand-side
measures or increase reliance on RE as a way of reducing the
future emissions of an affected source initially predicted
(without such alterations) to increase its emissions as a result
of a CAA section 111(d) plan requirement. In other words, a
state plan’s incorporation of expanded use of cleaner generation
or demand-side measures could yield the result that units that
would otherwise be projected to trigger NSR through a physical
change that might result in increased dispatch would not, in
fact, increase their emissions, due to reduced demand for their
operation. The state could also, as part of its CAA section
111(d) plan, develop conditions for a source expected to trigger
NSR that would limit the unit’s ability to move up in the
dispatch enough to result in a significant net emissions
increase that would trigger NSR (effectively establishing a
synthetic minor limit).1035

1035

Certain stationary sources that emit or have the potential to
emit a pollutant at a level that is equal to or greater than
specified thresholds are subject to major source requirements.
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In addition, in this final rule, we have also adjusted the
date of the period for mandatory reductions to 2022, instead of
2020, and provided states with flexibility with respect to the
glide path. This obviates concerns that there is insufficient
time for sources that may need permits to obtain them and allows
additional planning time for these changes to be undertaken in a
manner that does not trigger PSD. As a result of such
flexibility and anticipated state involvement, we expect that a
limited number of affected sources would trigger NSR when states
implement their plans.
B. Implications for the Title V Program
In the preamble to the June 18, 2014 proposal, the EPA
discussed the issue of excessive title V fees resulting
inadvertently as a consequence of the promulgation of the first
section 111 standard to regulate GHGs. Specifically, the EPA
explained that when the first section 111 standard is
promulgated for GHGs, if we do not revise 40 CFR parts 70 and 71
(the operating permit rule), then certain permitting authorities
would be required to charge emissions-based fees for GHGs,

See, e.g., CAA sections 165(a)(1), 169(1), 501(2), 502(a). A
synthetic minor limitation is a legally and practicably
enforceable restriction that has the effect of limiting
emissions below the relevant level and that a source voluntarily
obtains to avoid major stationary source requirements, such as
the PSD or Title V permitting programs. See, e.g., 40 CFR
52.21(b)(4), 51.166(b)(4), 70.2 (definition of “potential to
emit”).
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resulting in fees that would be far in excess of what is
required to cover the reasonable costs of the permitting
programs. To avoid this situation, the EPA proposed as part of
the re-proposed carbon pollution standards for newly constructed
fossil fuel-fired power plants (70 FR 1429-1519; January 8,
2014) to exempt GHGs from the list of air pollutants that are
subject to fee calculation requirements under the operating
permit rules. Also, we proposed several options to impose a
smaller fee adjustment for GHGs that would be reasonable and
designed to recover the costs of addressing GHGs in permitting
without being excessive.
In a separate action in today’s Federal Register [INSERT
THE FEDERAL REGISTER REFERENCE FOR THE FINAL GHG NEW SOURCE
RULE], the EPA is finalizing changes to the operating permits
rules to address the title V fee issue. In particular, we are
taking final action to exempt GHGs from emissions-based fee
calculation requirements under the operating permit rules. In
addition, we are also finalizing a modest GHG fee adjustment to
recover the costs of addressing GHGs in permitting. The GHG
adjustments we are finalizing are based on accounting for the
number of permit actions that require a GHG assessment in a
given period, rather than accounting for emissions levels of
GHGs. Finally, the EPA is also finalizing the addition of text
within 40 CFR part 60, subpart TTTT, to clarify that the fee
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pollutant for operating permit purposes is GHG (as defined in 40
CFR 70.2 and 71.2) to add clarity to our regulations and to
avoid the potential need for possible future rulemakings to
adjust the title V fee regulations if any constituent of GHG,
other than CO2, becomes subject to regulation under CAA section
111 for the first time.
This title V fee issue is a one-time occurrence resulting
from the promulgation of the first CAA section 111 standard to
regulate GHGs (the standards of performance for new, modified,
and reconstructed EGUs, also promulgated in today’s Federal
Register). The title V fee issue is not an issue for any other
subsequent CAA section 111 regulations, such as this section
111(d) standard; thus, there is no need to address any title V
fee issues in this final rule as part of this action.
In the proposal, the EPA discussed that the section 111
rules would have no effect on the applicability thresholds for
GHG under the operating permit rules. After the proposal for
this rulemaking was published, the U.S. Supreme Court issued its
opinion in UARG v EPA, 134 S.Ct. 2427 (June 23, 2014), and in
accordance with that decision, the D.C. Circuit subsequently
issued an amended judgment in Coalition for Responsible
Regulation, Inc. v. Environmental Protection Agency, Nos. 091322, 10-073, 10-1092 and 10-1167 (D.C. Cir., April 10, 2015).
Those decisions support the same overall conclusion, as the EPA
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discussed in the proposal, with respect to the effect of this
final section 111 rule on the applicability thresholds for GHGs
under the operating permits rules, though for different reasons.
With respect to title V, the Supreme Court said that EPA
may not treat GHGs as an air pollutant for purposes of
determining whether a source is a major source required to
obtain a title V operating permit. In accordance with that
decision, the D.C. Circuit’s amended judgment vacated the title
V regulations under review in that case to the extent that they
require a stationary source to obtain a title V permit solely
because the source emits or has the potential to emit GHGs above
the applicable major source thresholds. The D.C. Circuit also
directed the EPA to consider whether any further revisions to
its regulations are appropriate in light of UARG v. EPA, and, if
so, to undertake to make such revisions. These court decisions
make clear that promulgation of CAA section 111 requirements for
GHGs will not result in EPA imposing a requirement that
stationary sources obtain a title V permit solely because such
sources emit or have the potential to emit GHGs above the
applicable major source thresholds.
C. Interactions with Other EPA Rules
Fossil fuel-fired EGUs are, or potentially will be,
impacted by several other recently finalized or proposed EPA

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rules.1036 The EPA recognizes the importance of assuring that each
of the rules described below can achieve its intended
environmental objectives in a commonsense, cost-effective
manner, consistent with underlying statutory requirements, and
while assuring a reliable power system. Executive Order 13563,
“Improving Regulation and Regulatory Review,” issued on January
18, 2011, states that “[i]n developing regulatory actions and
identifying appropriate approaches, each agency shall attempt to
promote... coordination, simplification, and harmonization. Each
agency shall also seek to identify, as appropriate, means to
achieve regulatory goals that are designed to promote
innovation.” Within the EPA, we are paying careful attention to
the interrelatedness and potential impacts on the industry,
reliability and cost that these various rulemakings can have.
1. Mercury and Air Toxics Standards (MATS)
On February 16, 2012, the EPA issued the MATS rule (77 FR
9304) to reduce emissions of toxic air pollutants from new and
existing coal- and oil-fired EGUs. The MATS rule will reduce
emissions of heavy metals, including mercury, arsenic, chromium,
and nickel; and acid gases, including hydrochloric acid and
hydrofluoric acid. These toxic air pollutants, also known as

1036

We discuss other rulemakings solely for background purposes.
The effort to coordinate rulemakings is not a defense to a
violation of the CAA. Sources cannot defer compliance with
existing requirements because of other upcoming regulations.
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hazardous air pollutants or air toxics, are known to cause, or
suspected of causing, damage nervous system damage, cancer, and
other serious health effects. The MATS rule will also reduce SO2
and fine particle pollution, which will reduce particle
concentrations in the air and prevent thousands of premature
deaths and tens of thousands of heart attacks, bronchitis cases
and asthma episodes.
New or reconstructed EGUs (i.e., sources that commence
construction or reconstruction after May 3, 2011) subject to the
MATS rule are required to comply by April 16, 2012 or upon
startup, whichever is later.
Existing sources subject to the MATS rule were required to
begin meeting the rule’s requirements on April 16, 2015.
Controls that will achieve the MATS performance standards are
being installed on many units. Certain units, especially those
that operate infrequently, may be considered not worth investing
in given today’s electricity market, and are closing. The final
MATS rule provided a foundation on which states and other
permitting authorities could rely in granting an additional,
fourth year for compliance provided for by the CAA. States
report that these fourth year extensions are being granted. In
addition, the EPA issued an enforcement policy that provides a
clear pathway for reliability-critical units to receive an
administrative order that includes a compliance schedule of up
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to an additional year, if it is needed to ensure electricity
reliability.
2. Cross-State Air Pollution Rule (CSAPR)
The CSAPR requires states to take action to improve air
quality by reducing SO2 and NOX emissions that cross state lines.
These pollutants react in the atmosphere to form fine particles
and ground-level ozone and are transported long distances,
making it difficult for other states to attain and maintain the
NAAQS. The first phase of CSAPR became effective on January 1,
2015, for SO2 and annual NOX, and May 1, 2015, for ozone season
NOX. The second phase will become effective on January 1, 2017,
for SO2 and annual NOx, and May 1, 2017, for ozone season NOx.
Many of the power plants participating in CSAPR have taken
actions to reduce hazardous air pollutants for MATS compliance
that will also reduce SO2 and/or NOx. In this way these two rules
are complementary. Compliance with one helps facilities comply
with the other.
3. Requirements for Cooling Water Intake Structures at Power
Plants (316(b) Rule)
On May 19, 2014, the EPA issued a final rule under section
316(b) of the Clean Water Act (CWA) (33 U.S.C. section 1326(b))
(referred to hereinafter as the 316(b) rule.) The rule was
published on August 15, 2014 (79 FR 48300; August 15, 2014), and
became effective October 14, 2014. The 316(b) rule establishes
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new standards to reduce injury and death of fish and other
aquatic life caused by cooling water intake structures at
existing power plants and manufacturing facilities.1037 The 316(b)
rule subjects existing power plants and manufacturing facilities
that withdraw in excess of 2 million gallons per day) of cooling
water, and use at least 25 percent of that water for cooling
purposes, to a national standard designed to reduce the number
of fish destroyed through impingement and a national standard
for establishing entrainment reduction requirements. All
facilities subject to the rule must submit information on their
operations for use by the permit authority in determining 316(b)
permit conditions. Certain plants that withdraw very large
volumes of water will also be required to conduct additional
studies for use by the permit authority in determining the sitespecific entrainment reduction measures for such facilities. The
rule provides significant flexibility for compliance with the
impingement standards and, as a result, is not projected to
impose a substantial cost burden on affected facilities. With
respect to entrainment, the rule calls upon the permitting
authority to establish appropriate entrainment reduction

1037

CWA section 316(b) provides that standards applicable to
point sources under sections 301 and 306 of the Act must require
that the location, design, construction and capacity of cooling
water intake structures reflect the best technology available
for minimizing adverse environmental impacts.
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measures, taking into account, among other factors, remaining
useful plant life and quantified and qualitative social benefits
and cost.

The permit writer may also consider impacts on the

reliability of energy delivery within the facility’s immediate
area. Existing sources subject to the 316(b) rule are required
to comply with the impingement requirements as soon as
practicable after the entrainment requirements are determined.
They must comply with applicable site-specific entrainment
reduction controls based on the schedule of requirements
established by the permitting authority.
4. Disposal of Coal Combustion Residuals from Electric Utilities
(CCR Rule)
On December 19, 2014, the EPA issued the final rule for the
disposal of coal combustion residuals from electric utilities.
The rule provides a comprehensive set of requirements for the
safe disposal of coal combustion residuals (CCRs), commonly
known as coal ash, from coal-fired power plants. The CCR rule is
the culmination of extensive study on the effects of coal ash on
the environment and public health. The CCR rule establishes
technical requirements for existing and new CCR landfills and
surface impoundments under Subtitle D of the Resource
Conservation and Recovery Act, the nation's primary law for
regulating solid waste.

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These regulations address the risks from coal ash disposal
-- leaking of contaminants into ground water, blowing of
contaminants into the air as dust, and the catastrophic failure
of coal ash surface impoundments by establishing requirements
for where CCR landfills and surface impoundments may be located,
how they must be designed, operated and monitored, when they
must be inspected, and how they must be closed and cared for
after closure. Additionally, the CCR rule sets out recordkeeping
and reporting requirements, as well as the requirement for each
facility to establish and post specific information to a
publicly-accessible website. The final rule also supports the
responsible recycling of CCRs by distinguishing safe, beneficial
use from disposal.
5. Steam Electric Effluent Limitation Guidelines and Standards
(SE ELG Rule)
The EPA is reviewing public comments and working to
finalize the proposed SE ELG rule which will impact existing
fossil fuel-fired EGUs. In 2013, the EPA proposed the SE ELG
rule (78 FR 34432; June 7, 2013) to strengthen the controls on
discharges from certain steam electric power plants by revising
technology-based effluent limitations guidelines and standards
for the steam electric power generating point source category.
The current regulations, which were last updated in 1982, do not
adequately address the toxic pollutants discharged from the
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electric power industry, nor have they kept pace with process
changes that have occurred over the last three decades. Existing
steam electric power plants currently contribute 50-60 percent
of all toxic pollutants discharged to surface waters by all
industrial categories regulated in the U.S. under the CWA.
Furthermore, power plant discharges to surface waters are
expected to increase as pollutants are increasingly captured by
air pollution controls and transferred to wastewater discharges.
The proposed regulation, which includes new requirements for
both existing and new generating units, would reduce impacts to
human health and the environment by reducing the amount of toxic
metals and other pollutants currently discharged to surface
waters from power plants. The EPA intends to take final action
on the proposed rule by September 30, 2015.
The EPA is endeavoring to enable EGUs to comply with
applicable obligations under other power sector rules as
efficiently as possible (e.g., by facilitating their ability to
coordinate planning and investment decisions with respect to
those rules) and, where possible, implement integrated
compliance strategies. For example, in the proposed SE ELG rule,
the EPA describes its thinking on how it might effectively
harmonize the potential requirements of that rule with the
requirements of the final CCR rule. Because these two rules
affect similar units and may be met with similar compliance
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strategies, common-sense implementation timeframes were
established in the CCR final rule so that utilities would not be
required to make major decisions about CCR units without first
understanding the implications that such decisions would have
for meeting the surface water protection requirements of the
final ELG rule. The EPA is taking into account these new CCR
requirements for coal ash as it develops the final SE ELG rule.
The EPA's goal in harmonizing the SE ELG and CCR rules is to
minimize the overall complexity of the two regulatory structures
and avoid creating unnecessary burden.
6. Other EPA Rules
In addition to the power sector rules discussed above, the
development of SIPs for criteria pollutants (ozone, PM2.5, and
SO2) and regional haze may also have implications for existing
fossil-fired EGUs.
Regarding ozone, the proposal included a discussion of the
June 6, 2013, proposed implementation rule for the 2008 ozone
National Ambient Air Quality Standards (NAAQS), addressing the
statutory requirements for areas EPA has designated as
nonattainment for the 2008 ozone NAAQS. The final implementation
rule for the 2008 ozone NAAQS was signed on February 13, 2015,
and published on March 6, 2015, with an effective date of April
6, 2015. In general, the 2008 ozone NAAQS implementation rule
interprets applicable statutory requirements and provides
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flexibility to states to minimize administrative burdens
associated with developing and implementing plans to meet and
maintain the NAAQS. The rule establishes due dates for
attainment plans and clarifies attainment dates for each ozone
nonattainment area according to its classification based on air
quality thresholds, with attainment dates starting in July 2015
through July 2032 depending on an area’s classification.
On November 25, 2014, the EPA Administrator signed the
proposed rulemaking for the 2015 revisions to the ozone NAAQS.
The proposal was published in the Federal Register on December
17, 2014 (79 FR 75234). The Administrator proposed to revise the
primary ozone standard to a level in the range of 0.065 to 0.070
ppm and took comment on lower levels including 0.060 ppm and on
retaining the current standard of 0.075 ppm. Among other things,
the ozone NAAQS proposal also proposed to retain the current
indicator, averaging time, and form of the standard and included
a proposed secondary ozone NAAQS in the 0.065 to 0.070 ppm
range.
The proposal also outlined the key implementation
milestones requiring revised SIPs, with due dates starting in
October 2018 for infrastructure and interstate transport SIPs,
attainment plans due 2020-21, and attainment dates of 2020-37.
The EPA is under a court order to finalize its review of the
ozone NAAQS by October 1, 2015.
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Some commenters expressed concern with the potential
impact proposed revisions to the ozone NAAQS could have on state
planning efforts and affected entities’ ability to comply with
any potentially new requirements associated with a revised ozone
NAAQS and those related to the 111(d) emission guidelines. In
particular, commenters raised issues with a potentially more
stringent ozone standard and the permitting and state planning
implications this may create. While there was no discussion of
the proposed revisions to the ozone NAAQS in the 111(d) emission
guidelines proposal, commenters expressed a desire for the EPA
to coordinate promulgation of the final 111(d) emission
guidelines (and any other climate regulations) with the
potential revision to the ozone standard to provide certainty
and flexibility for states and affected sources.
While it is premature to speculate about the outcome of the
ozone NAAQS review and how a more stringent ozone NAAQS may
impact sources of ozone precursor emissions, including EGUs, we
believe the planning and compliance timeframes that would follow
from a revised ozone NAAQS and the timeframes we are finalizing
today for submittal of the CAA section 111(d) state plans will
allow considerable time for coordination by states in the
development of their respective plans, as needed. As stated in
the proposal, the EPA is prepared to work with states to assist

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them in coordinating their efforts across these planning
processes.
Regarding PM2.5 NAAQS implementation, the proposal stated
that the EPA was developing a proposed implementation rule to
provide guidance to states on the development of SIPs for the
2012 PM2.5 NAAQS. The proposed PM2.5 SIP requirements rule was
signed on March 10, 2015, and published on March 23, 2015 (80 FR
15340). The proposal addresses a number of requirements
including attainment plan due dates, attainment dates and
attainment date extension criteria for Moderate and Serious
nonattainment areas; determination criteria for Reasonably
Available Control Measures (RACM) for Moderate areas and Best
Available Control Measures (BACM) for Serious areas; plans for
demonstrating reasonable further progress and for meeting
periodic quantitative milestones; and criteria for reclassifying
a Moderate nonattainment area to Serious. The EPA is planning to
finalize the PM2.5 implementation rule in early 2016.
There are currently only 9 areas designated nonattainment
for the 2012 PM2.5 NAAQS, with an effective date of April 15,
2015. Since the attainment plans for these areas must be
completed and submitted to the EPA in September 2016, we expect
that the four states with such areas should have already decided
on their approach to implementing the 2012 PM2.5 NAAQS when they

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begin to develop their plans for implementing the 111(d)
guidelines, and will be able to coordinate the two.
Related to the SO2 NAAQS, and as stated in the proposal, the
SO2 NAAQS was revised in June 2010 to protect public health from
the short-term effects of SO2 exposure. In July 2013, the EPA
designated 29 areas in 16 states as nonattainment for the SO2
NAAQS. The EPA based these nonattainment designations on the
most recent set of certified air quality monitoring data as well
as an assessment of nearby emission sources and weather patterns
that contribute to the monitored levels. The date for attainment
plans for these areas to be completed and submitted to the EPA
was April 2015. As such, we expect states with such areas to
have already decided on their approach to implementing the SO2
NAAQS as they start planning for implementation of the 111(d)
guidelines, which should allow for coordination and
consideration of SO2 related air quality measures into their
111(d) planning. The EPA intends to address the designations for
all other areas in three separate actions in the future.1038 These

1038

The EPA has developed a comprehensive implementation strategy
for these future actions that focuses resources on identifying
and addressing unhealthy levels of SO2 in areas where people are
most likely to be exposed to violations of the standard. The
strategy is available at
http://www.epa.gov/airquality/sulfurdioxide/implement.html, and
the associated area designations schedule is at
http://www.epa.gov/airquality/sulfurdioxide/designations/pdfs/20
1503Schedule.pdf.
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designations must be completed by no later than July 2, 2016,
December 31, 2017, and December 31, 2020 with attainment plans
due between 2018 and 2022.
Regarding requirements under the regional haze program,
several affected EGUs have deadlines in the 2016-2021 timeframe
to install controls to comply with the Best Available Retrofit
Technology (BART) and reasonable progress requirements of the
Regional Haze Rule. Soon after these deadlines, some of the same
affected EGUs may be required to reduce their utilization,
convert into natural gas-fired facilities, or shut down entirely
as a result of state 111(d) plans. Some commenters have
expressed concern that for these affected EGUs, specifically
those that choose to retire, the capital equipment installed to
comply with the Regional Haze Rule would likely become stranded
assets.
While the EPA is providing considerable flexibility for
states and sources under the final 111(d) emission guidelines,
the EPA acknowledges the possibility that some sources could
ultimately be faced with the potential for stranded assets as a
result of state 111(d) plans. For these sources, however, states
have the option of developing BART alternatives that replace
control requirements that would otherwise result in stranded
assets at a particular EGU with the aggregate emission

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reductions that will result from retirements, fuel switching,
reduced utilization, or lesser controls at multiple EGUs.
In fact, the EPA already has experience working with states
to account for these very types of changed circumstances.1039 The
EPA will continue to work with states to explore options for
integrating compliance requirements across multiple regulatory
programs, as warranted.
The EPA believes that CAA section 111(d) efforts and
actions will tend to contribute to overall air quality
improvements and thus should be complementary to criteria
pollutant and regional haze SIP efforts.
7. Final Rule Flexibilities
As discussed in Section VIII of this preamble, the EPA is
providing states flexibility in developing approvable plans
under CAA section 111(d), including the ability to impose

1039

For example, Oregon replaced its BART determination for the
Boardman Coal Plant with a new requirement that accounted for a
planned shutdown before the EPA took action on the state’s SIP
submission (76 FR 12661). Washington similarly replaced its BART
determination for the TransAlta Centralia Power Plant before the
EPA took action on the state’s SIP submission (77 FR 72742).
Oklahoma submitted a SIP revision with a new BART determination
for the AEP/PSO Northeastern Power Station, which included
enforceable requirements for reduced utilization and early unit
retirements, to replace a FIP that had been promulgated by the
EPA (79 FR 12944). Finally, the EPA finalized a BART
determination for Unit 3 at the Dave Johnston Power Plant in
Wyoming that included two compliance options, one of which
included a federally enforceable retirement date and less costly
controls.
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source-by-source limitations reflecting the BSER performance
rates to each affected EGU or to adopt rate-based or mass-based
emission performance goals, and to rely on a wide range of CO2
emission reduction measures, including measures that are not
part of the BSER. The EPA is also providing states considerable
flexibility with respect to the timeframes for plan development
and implementation, with up to 3 years permitted for final plans
to be submitted after the GHG emission guidelines are finalized,
and up to 15 years for all emission reduction measures to be
fully implemented. The EPA is establishing an 8-year interim
period over which to achieve the full required reductions to
meet the CO2 performance rates, and this begins in 2022, more
than seven years from the June 18, 2014 date of proposal of the
rulemaking. The 8-year interim period from 2022 through 2029, is
separated into three steps, 2022-2024, 2025-2027, and 2028-2029,
each associated with its own interim CO2 emission performance
rates.
In light of these broad flexibilities, we believe that
states will have ample opportunity, when developing and
implementing their CAA section 111(d) plans, to coordinate their
response to this requirement with source and state responses to
any obligations that may be applicable to affected EGUs as a
result of the MATS, CSAPR, 316(b), SE ELG and CCR rules, all of
which are or soon will be final rules. In addition, we believe
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that states will be able to design CAA section 111(d) plans that
use innovative, cost-effective regulatory strategies, that spark
investment and innovation across a wide variety of clean energy
technologies, and that will help reduce cost and ensure
reliability, while also ensuring that all applicable
environmental requirements are met.1040 We also believe that the
broad flexibilities in this action will enable states and
affected EGUs to build on their longstanding, successful records
of complying with multiple CAA, CWA, and other environmental
requirements, while assuring an adequate, affordable, and
reliable supply of electricity.
XI.

Impacts of the Final Action1041

A. What are the air impacts?
The EPA anticipates significant emission reductions under
the final guidelines for the utility power sector. In the final

1040

It should be noted that regulatory obligations imposed upon
states and sources operate independently under different
statutes and sections of statutes; the EPA expects that states
and sources will take advantage of available flexibilities as
appropriate, but will comply with all relevant legal
requirements.
1041 The impacts presented in this section of the preamble
represent an illustrative implementation of the guidelines. As
states implement the final guidelines, they have sufficient
flexibility to adopt different state-level or regional
approaches that may yield different costs, benefits, and
environmental impacts. For example, states may use the
flexibilities described in these guidelines to find approaches
that are more cost-effective for their particular state or
choose approaches that shift the balance of co-benefits and
impacts to match broader state priorities.
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emission guidelines, the EPA has translated the source categoryspecific CO2 emission performance rates into equivalent statelevel rate-based and mass-based CO2 goals in order to maximize
the range of choices that states will have in developing their
plans. Because of the range of choices available to states and
the lack of a priori knowledge about the specific choices states
will make in response to the final goals, the Regulatory Impact
Analysis (RIA) for this final action presents two scenarios
designed to achieve these goals, which we term the “rate-based”
illustrative plan approach and the “mass-based” illustrative
plan approach.1042
Under the rate-based approach, when compared to 2005, CO2
emissions are projected to be reduced by approximately 22
percent in 2020, 28 percent in 2025, and 32 percent in 2030.
Under the mass-based approach, when compared to 2005, CO2
emissions are projected to be reduced by approximately 23
percent in 2020, 29 percent in 2025, and 32 percent in 2030. The
final guidelines are projected to result in substantial co-

1042

It is important to note that the differences between the
analytical results for the rate-based and mass-based
illustrative plan approaches presented in the RIA may not be
indicative of likely differences between the approaches if
implemented by states and affected EGUs in response to the final
guidelines. If one approach performs differently than the other
on a given metric during a given time period, this does not
imply this will apply in all instances.
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benefits through reductions of SO2, NOX and PM2.5 that will have
direct public health benefits by lowering ambient levels of
these pollutants and ozone. Tables 15 and 16 show expected CO2
and other air pollutant emissions in the base case and
reductions under the final guidelines for 2020, 2025, and 2030
for the rate-based and mass-based approaches, respectively.
Table 15. Summary of CO2 and Other Air Pollutant Emission
Reductions from the Base Case under Rate-based Illustrative Plan
Approach
CO2
SO2
NOX
(millions
(thousand
(thousand
short tons)
short tons)
short tons)
2020 Final Guidelines
Base Case
2,155
1,311
1,333
Final Guidelines
2,085
1,297
1,282
Emissions Reductions
69
14
50
2025 Final Guidelines
Base Case
2,165
1,275
1,302
Final Guidelines
1,933
1,097
1,138
Emissions Reductions
232
178
165
2030 Final Guidelines
Base Case
2,227
1,314
1,293
Final Guidelines
1,812
996
1,011
Emissions Reductions
415
318
282
Source: Integrated Planning Model, 2015.
Note: Emissions may not sum due to rounding.
Table 16. Summary of CO2 and Other Air Pollutant Emission
Reductions from the Base Case under Mass-based Illustrative Plan
Approach
CO2
SO2
NOX
(thousand
(million
(thousand
short tons)
short tons)
short tons)
2020 Final Guidelines
Base Case
2,155
1,311
1,333
Final Guidelines
2,073
1,257
1,272
Emissions Reductions
81
54
60

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2025 Final Guidelines
Base Case
2,165
Final Guidelines
1,901
Emissions Reductions
265
2030 Final Guidelines
Base Case
2,227
Final Guidelines
1,814
Emissions Reductions
413
Source: Integrated Planning Model, 2015.
Note: Emissions may not sum due to rounding.

1,275
1,090
185

1,302
1,100
203

1,314
1,034
280

1,293
1,015
278

The reductions in Tables 15 and 16 do not account for
reductions in hazardous air pollutants (HAPs) that may occur as
a result of this rule. For instance, the fine particulate
reductions presented above do not reflect all of the reductions
in many heavy metal particulates.
B. Endangered Species Act
As explained in the preamble to the proposed rule (79 FR at
34933-934), the EPA has carefully considered the requirements of
section 7(a)(2) of the Endangered Species Act (ESA) and
applicable ESA regulations, and reviewed relevant ESA case law
and guidance, to determine whether consultation with the U.S.
Fish and Wildlife Service (FWS) and/or National Marine Fisheries
Service (together, the Services) is required by the ESA. The EPA
proposed to conclude that the requirements of ESA section
7(a)(2) would not be triggered by promulgation of the rule, and
we now finalize that determination.

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Section 7(a)(2) of the ESA requires federal agencies, in
consultation with one or both of the Services (depending on the
species at issue), to ensure that actions they authorize, fund,
or carry out are not likely to jeopardize the continued
existence of federally listed endangered or threatened species
or result in the destruction or adverse modification of
designated critical habitat of such species. 16 U.S.C.
1536(a)(2). Under relevant implementing regulations, section
7(a)(2) applies only to actions where there is discretionary
federal involvement or control. 50 CFR 402.03. Further, under
the regulations consultation is required only for actions that
“may affect” listed species or designated critical habitat. 50
CFR section 402.14. Consultation is not required where the
action has no effect on such species or habitat. Under this
standard, it is the federal agency taking the action that
evaluates the action and determines whether consultation is
required. See 51 FR 19926, 19949 (June 3, 1986). Effects of an
action include both the direct and indirect effects that will be
added to the environmental baseline. 50 CFR 402.02. Direct
effects are the direct or immediate effects of an action on a
listed species or its habitat.1043 Indirect effects are those that

1043

See Endangered Species Consultation Handbook, U.S. Fish &
Wildlife Service and National Marine Fisheries Service at 4-25
(March 1998) (providing examples of direct effects: e.g.,
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are “caused by the proposed action and are later in time, but
still are reasonably certain to occur.” Id. To trigger the
consultation requirement, there must thus be a causal connection
between the federal action, the effect in question, and the
listed species, and if the effect is indirect, it must be
reasonably certain to occur.
The EPA notes that the projected environmental effects of
this rule are positive: reductions in overall GHG emissions, and
reductions in PM and ozone-precursor emissions (SO2 and NOX). The
EPA recognizes that beneficial effects to listed species can, as
a general matter, result in a “may affect” determination under
the ESA. However, the EPA’s assessment that the rule will have
an overall net positive environmental effect by virtue of
reducing emissions of certain air pollutants does not address
whether the rule may affect any listed species or designated
critical habitat for ESA section 7(a)(2) purposes and does not
constitute any finding of effects for that purpose. The fact
that the rule will have overall positive effects on the national
and global environment does not mean that the rule may affect
any listed species in its habitat or the designated critical
habitat of such species within the meaning of ESA section

driving an off road vehicle through the nesting habitat of a
listed species of bird and destroying a ground nest; building a
housing unit and destroying the habitat of a listed species).
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7(a)(2) or the implementing regulations or require ESA
consultation. The EPA has considered various types of potential
effects in reaching the conclusion that ESA consultation is not
required for this rule.
With respect to the projected GHG emission reductions, the
EPA considered in detail in the proposal why such reductions do
not trigger ESA consultation requirements under section 7(a)(2).
As explained in the proposal, in reaching this conclusion the
EPA was mindful of significant legal and technical analysis
undertaken by FWS and the U.S. Department of the Interior (DOI)
in the context of listing the polar bear as a threatened species
under the ESA. In that context, in 2008, FWS and DOI expressed
the view that the best scientific data available were
insufficient to draw a causal connection between GHG emissions
and effects on the species in its habitat.1044 The DOI Solicitor
concluded that where the effect at issue is climate change,
proposed actions involving GHG emissions cannot pass the “may
affect” test of the section 7 regulations and thus are not
subject to ESA consultation.

1044

See, e.g., 73 FR 28212, 28300 (May 15, 2008); Memorandum from
David Longly Bernhardt, Solicitor, U.S. Department of the
Interior re: ‘‘Guidance on the Applicability of the Endangered
Species Act’s Consultation Requirements to Proposed Actions
Involving the Emission of Greenhouse Gases’’ (Oct. 3, 2008).
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As described in the proposal, the EPA has also previously
considered issues relating to GHG emissions in connection with
the requirements of ESA section 7(a)(2) and has supplemented
DOI’s analysis with additional consideration of GHG modeling
tools and data regarding listed species. Although the GHG
emission reductions projected for this final rule are large
(estimated reductions of about 415 million short tons of CO2 in
2030 relative to the base case under the rate-based illustrative
plan approach– see Table 14 above), the EPA evaluated larger
reductions in assessing this same issue in the context of the
light duty vehicle GHG emission standards for model years 20122016 and 2017-2025. There the agency projected emission
reductions over the lifetimes of the model years in question1045
which are roughly five to six times those projected above and,
based on air quality modeling of potential environmental
effects, concluded that “EPA knows of no modeling tool which can
link these small, time-attenuated changes in global metrics to
particular effects on listed species in particular areas.
Extrapolating from global metric to local effect with such small
numbers, and accounting for further links in a causative chain,
remain beyond current modeling capabilities.” EPA, Light Duty
Vehicle Greenhouse Gas Standards and Corporate Average Fuel

1045

See 75 FR at 25438 Table I.C 2–4 (May 7, 2010); 77 FR at
62894 Table III–68 (Oct. 15, 2012).
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Economy Standards, Response to Comment Document for Joint
Rulemaking at 4-102 (Docket EPA-OAR-HQ-2009-4782). The EPA
reached this conclusion after evaluating issues relating to
potential improvements relevant to both temperature and
oceanographic pH outputs. The EPA's ultimate finding was that
“any potential for a specific impact on listed species in their
habitats associated with these very small changes in average
global temperature and ocean pH is too remote to trigger the
threshold for ESA section 7(a)(2).”Id. The EPA believes that the
same conclusion applies to the present rule. See, e.g., Ground
Zero Center for Non-Violent Action v. U.S. Dept. of Navy, 383 F.
3d 1082, 1091-92 (9th Cir. 2004) (where the likelihood of
jeopardy to a species from a federal action is extremely remote,
ESA does not require consultation). The EPA’s conclusion is
entirely consistent with DOI’s analysis regarding ESA
requirements in the context of federal actions involving GHG
emissions.1046

1046

The EPA has received correspondence from a U.S. Senator and a
Member of the U.S. House of Representatives noting that the
Services have identified several listed species affected by
global climate change. See Letter from Rob Bishop, Chairman,
House Committee on Natural Resources, to Gina McCarthy,
Administrator, U.S. Environmental Protection Agency, dated June
11, 2015; Letter from Rob Bishop, Chairman, House Committee on
Natural Resources, and James M. Inhofe, Chairman, Senate
Committee on Environment and Public Works, to Gina McCarthy,
Administrator, U.S. Environmental Protection Agency, dated June
15, 2015. EPA’s assessment of ESA requirements in connection
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With regard to non-GHG air emissions, the EPA also projects
substantial reductions of SO2 and NOX as a collateral consequence
of this final action. However, CAA section 111(d)(1) standards
cannot directly control emissions of criteria pollutants. See
CAA section 111(d)(1)(i). Consequently, CAA section 111(d)
provides no discretion to adjust the standard based on potential
impacts to endangered species of reduced criteria pollutant
emissions. Section 7(a)(2) consultation thus is not required
with respect to the projected reductions of criteria pollutant
emissions. See 50 CFR 402.03; see also, WildEarth Guardians v.
U.S. Envt’l Protection Agency, 759 F.3d 1196, 1207-10 (10th Cir.
2014) (EPA has no duty to consult under section 7(a)(2) of the
ESA regarding hazardous air pollutant controls that it did not
require – and likely lacked authority to require – in a federal
implementation plan for regional haze controls under section
169A of the CAA).
Finally, the EPA has also considered other potential
effects of the rule (beyond reductions in air pollutants) and

with the present rule does not address whether global climate
change may, as a general matter, be a relevant consideration in
the status of certain listed species. Rather, the requirements
of ESA section 7(a)(2) must be considered and applied to the
specific action at issue. As explained above, EPA’s conclusion
that ESA section 7(a)(2) consultation is not required here is
premised on the specific facts and circumstances of the present
rule and is fully consistent with prior relevant analyses
conducted by DOI, FWS, and EPA.
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whether any such effects are “caused by” the rule and
“reasonably certain to occur” within the meaning of the ESA
regulatory definition of the effects of an action. 50 CFR
402.02. As the EPA noted in the proposal, there are substantial
questions as to whether any potential for relevant effects
results from any element of the rule or would result instead
from separate decisions and actions made in connection with the
development, implementation, and enforcement of a plan to
implement the standards established in the rule. Cf. American
Trucking Assn's v. EPA, 175 F. 3d 1027, 1043-45 (D.C. Cir.
1999), rev'd on different grounds sub nom., Whitman v. American
Trucking Assn's, 531 U.S. 457 (2000) (National Ambient Air
Quality Standards have no economic impact, for purposes of
Regulatory Flexibility Act, because impacts result from the
actions of states through their development, implementation and
enforcement of SIPs).1047 The EPA recognized, for instance, that

1047

One commenter questioned the EPA’s citation to American
Trucking Assn's. As stated by the commenter, the statute at
issue in that case – the Regulatory Flexibility Act (RFA) – is
distinguishable from the ESA in that it addresses only direct
effects and does not consider indirect effects. The commenter
misreads the EPA’s citation to this case. The EPA cites this
case simply to reference a decision considering the impacts of
an EPA action – the revision of a NAAQS under the CAA– that in
certain respects provides a useful analogy to the present rule.
A NAAQS is implemented through a series of subsequent planning
decisions generally taken by states by means of adoption of
SIPs. States can choose to impose or avoid the types of impacts
at issue in the D.C. Circuit case through their planning

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questions may exist whether decisions such as increased
utilization of solar or wind power could have effects on listed
species. The EPA received comments on the proposal asserting
that because potential increased reliance on wind or solar power
may be an element of building block 3, and because wind and
solar facilities may in some cases have effects on listed
species, the EPA must consult under the ESA on this aspect of
the rule. The EPA is also aware of certain questions regarding
potential effects of the rule on the Big Bend Power Station
located in Florida, which discharges effluent that provides a
warm water refuge for manatees. The Big Bend Power Station and
another coal-fired facility located in Florida – the Crystal

decisions; thus such impacts were not viewed as having been
caused – for purposes of the RFA – by the EPA’s promulgation of
the revised NAAQS in the first instance. The standard setting
and implementation mechanisms under section 111(d) are very
similar. Under section 111(d), the EPA is required to establish
“a procedure similar to that provided by section 7410” – the
provision establishing the SIP mechanism for implementing NAAQS.
Thus, the D.C. Circuit’s discussion provides a useful analogy to
the present rule and the various types of potential effects that
may be attributable to future implementation planning decisions
by states and other entities as they exercise their discretion
in determining how to implement the federal guidelines, but not
to promulgation of the rule itself. The EPA’s citation to this
case was not intended to address any comparison of the scope of
effects covered by the RFA and the effects cognizable under
section 7(a)(2) of the ESA. The EPA is aware that the ESA
addresses both direct and indirect effects as defined by the
applicable ESA regulations. The discussion supporting the EPA’s
ESA conclusion expressly acknowledges the relevance of indirect
effects to the ESA analysis and explains why such effects are
not present here.
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River Plant – are, for example, referenced in the June 11, 2015,
and June 15, 2015, congressional letters to EPA cited above.
The EPA has carefully considered the comments and the
correspondence from Congress as well as the case law and other
materials cited in those documents. The EPA does not believe
that the effects of potential future changes in the energy
sector – including increased reliance on wind or solar power as
a result of future potential actions by states or other
implementing entities – or any potential alterations in the
operations of any particular facility are caused by the current
rule or sufficiently certain to occur so as to require ESA
consultation on the rule. The EPA appreciates that the ESA
regulations call for consultation where actions authorized,
funded, or carried out by federal agencies may have indirect
effects on listed species or designated critical habitat.
However, as noted above, indirect effects must be caused by the
action at issue and must be reasonably certain to occur. At this
point, there is no reasonable certainty regarding implementation
of any planning measures in any location, let alone in any
location occupied by a listed species or its designated critical
habitat. The EPA cannot predict with reasonable certainty where
such measures may take effect or which measures may be adopted.
It is not clear, for instance, whether a particular
implementation plan will call, if at all, for increased reliance
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on wind power, as opposed to solar power, or on some other form
of low or zero carbon emitting generation. It is also entirely
uncertain how a future implementation plan for a particular
state might affect, if at all, operations at a specific
facility.1048 The precise steps included in an implementation plan
cannot be determined or ordered by this federal action, and they
are not sufficiently certain to be attributable to this final
rule for ESA purposes. These steps will flow from a series of
later in time decisions generally made by other entities –
usually states – in their distinct planning processes. These
later decisions cannot now be required by the rule, are not
caused by the rule, and are not reasonably certain to occur. The
EPA also notes that the plans adopted for particular states may
themselves provide wide degrees of implementation flexibility,
thus further increasing the uncertainty that any species-

1048

A congressional letter of June 11, 2015, referenced above
asserts that EPA’s modeling suggests that the Big Bend Power
Station and Crystal River Energy Complex in Florida will be
prematurely retired as a result of the rule. EPA notes that any
such facility-level projections associated with the rule cannot
be stated with sufficient certainty to qualify as potential
indirect effects under the ESA. These projections are based on
numerous assumptions regarding a variety of planning and
business decisions yet to be made by the implementing
governments (usually states) and facility owners. Given the wide
degrees of discretion and flexibility and the numerous options
available for such decision making, the potential for such
outcomes to be realized as currently projected is at this point
too uncertain to qualify as an effect under the ESA.
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impacting activity will occur in any particular location, if at
all. The Services have explained that section 7(a)(2) was not
intended to preclude federal actions based on potential future
speculative effects.1049 These are precisely the types of
speculative future activities and effects at issue here.1050 For
this additional reason, the EPA concludes that the rule does not

1049

See 51 FR at 19933 (describing effects that are “reasonably
certain to occur” in the context of consideration of cumulative
effects and distinguishing broader consideration that may be
appropriate in applying a procedural statute such as the
National Environmental Policy Act, as opposed to a substantive
provision such as ESA section 7(a)(2) that may prohibit certain
federal actions); Endangered Species Consultation Handbook, U.S.
Fish & Wildlife Service and National Marine Fisheries Service at
4-30 (March 1998) (in the same context, describing indicators
that an activity is reasonably certain to occur as including
governmental approvals of the action or indications that such
approval is imminent, project sponsors’ assurance that the
action will proceed, obligation of venture capital, or
initiation of contracts; and noting that the more governmental
administrative discretion remains to be exercised, the less
there is reasonable certainty the action will proceed).
1050 EPA also notes that some of the future implementing
activities may involve federal actions that are subject to ESA
consultation, thus providing consideration of any impacts on
listed species at the appropriate point when particular
activities have become reasonably certain. Several commenters on
the proposal specifically noted that such future activities –
e.g., development of additional RE facilities such as wind farms
– may call for ESA consultation. Further, EPA notes that section
9 of the ESA, which prohibits the take of individuals of most
listed species, provides an additional protection for listed
species as future implementing activities become reasonably
certain.

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have effects on listed species that trigger the section 7(a)(2)
consultation requirement.1051
C. What are the energy impacts?
The final guidelines have important energy market
implications. Table 17 presents a variety of important energy

1051

The commenters cite certain cases that they assert support
consulting under ESA section 7(a)(2). The EPA has considered
these cases, each of which is distinguishable from the present
rule. By way of example, a commenter cites two cases involving
EPA actions: Defenders of Wildlife v. EPA, 420 F.3d 946 (9th Cir.
2005), rev’d, National Association of Homebuilders v. Defenders
of Wildlife, 551 U.S. 644 (2007); and Washington Toxics
Coalition v. EPA, 413 F.3d 1024 (9th Cir. 2005). In Defenders of
Wildlife (a decision that was reversed by the U.S. Supreme
Court), a principal relevant impact of the federal action at
issue – the EPA’s approval of a state’s permitting program under
the Clean Water Act – was that following the action, the
relevant permitted activities would no longer be subject to
consultation under the ESA. By contrast, promulgation of the
present rule will result in no change to any ESA requirements
applicable to any future activities directed by plans (either
state or federal) implementing the rule. The action at issue in
Washington Toxics Coalition involved the EPA’s registration of
certain pesticide active ingredients under the Federal
Insecticide, Fungicide, and Rodenticide Act. Such actions
provide authorization for the sale and distribution of those
products, consistent with applicable labelling requirements. The
EPA also notes that under the EPA’s regulations, registered
pesticide labels must, among other things, specify the product
ingredients and the methods and sites of product application. 40
CFR 156.10. By contrast, the present rule only sets goals and
describes potential pathways to meeting those goals, all of
which are subject to future considerations and decisions
involved in the implementation of plans (generally by states).
The rule neither authorizes, nor directs, any of the future
measures to meet the rule’s goals. Those activities remain
subject to the full range of future decision making addressing
which types of measures to implement, what emitting entities
will be affected, how much, and when.
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market impacts for 2020, 2025, and 2030 under both the ratebased and mass-based illustrative plan approaches.
Table 17. Summary Table of Important Energy Market Impacts for
Rate-based and Mass-based Illustrative Plan Approaches (Percent
Change from Base Case)
Rate-Based
Mass-Based
2020 2025 2030
2020 2025 2030
Retail electricity
prices

3%

1%

1%

3%

2%

0%

Price of coal at
minemouth

-1%

-5%

-4%

-1%

-5%

-3%

Coal production for
power sector use

-5%

-14%

-25%

-7%

-17%

-24%

Price of natural gas
delivered to power
sector

5%

-8%

2%

4%

-3%

-2%

Natural gas use for
electricity generation

3%

-1%

-1%

5%

0%

-4%

These figures reflect the EPA’s illustrative modeling that
presumes policies that lead to generation shifts and growing use
of demand-side EE and renewable electricity generation out to
2029. If states make different policy choices, impacts could be
different. For instance, if states implement renewable and/or
demand-side EE policies on a more aggressive time-frame, impacts
on natural gas and electricity prices would likely be less.
Implementation of other measures not included in the BSER
calculation or compliance modeling, such as nuclear uprates,

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 Page 1380 of 1560
transmission system improvements, use of energy storage
technologies or retrofit CCS, could also mitigate gas price
and/or electricity price impacts.
Energy market impacts from the guidelines are discussed
more extensively in the RIA found in the docket for this
rulemaking.
D. What are the compliance costs?
The compliance costs of this final action are represented
in this analysis as the change in electric power generation
costs between the base case and the final rule in which states
pursue a distinct set of strategies beyond the strategies taken
in the base case to meet the terms of the final guidelines. The
compliance costs estimates include cost estimates for demandside EE. The compliance assumptions – and, therefore, the
projected compliance costs - set forth in this analysis are
illustrative in nature and do not represent the full suite of
compliance flexibilities states may ultimately pursue. The
illustrative analysis is designed to reflect, to the extent
possible, the scope and the nature of the final guidelines.
However, there is considerable uncertainty with regards to the
precise measures that states will adopt to meet the final
requirements, because there are considerable flexibilities
afforded to the states in developing their state plans.

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The incremental cost is the projected additional cost of
complying with the guidelines in the year analyzed and includes
the amortized cost of capital investment, needed new capacity,
shifts between or amongst various fuels, deployment of demandside EE programs, and other actions associated with compliance.
These important dynamics are discussed in more detail in the RIA
in the rulemaking docket.
The EPA estimates the annual incremental compliance cost
for the rate-based approach for final emission guidelines to be
$2.5 billion in 2020, $1.0 billion in 2025 and $8.4 billion in
2030, including the costs associated with monitoring, reporting,
and recordkeeping (MR&R).1052 The EPA estimates the annual
incremental compliance cost for the mass-based approach for
final emission guidelines to be $1.4 billion in 2020, $3.0
billion in 2025 and $5.1 billion in 2030, including the costs
associated with MR&R.
More detailed cost estimates are available in the RIA
included in the rulemaking docket.
E. What are the economic and employment impacts?
The final standards are projected to result in certain
changes to power system operation as a compliance with the

1052

The MR&R costs estimates are $65 million in 2020, $15 million
in 2025 and $15 million in 2030 and are assumed to be the same
for both rate-based and mass-based illustrative plan approaches.
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standards. See Table 16 above for a variety of important energy
market impacts for 2020, 2025, and 2030 under both the ratebased and mass-based illustrative plan approaches.
It is important to note that the EPA’s modeling does not
necessarily account for all of the factors that may influence
business decisions regarding future coal-fired capacity. Many
power companies already factor a potential financial liability
associated with carbon emissions into their long term capacity
planning that would further influence business decisions to
replace these aging assets with modern, and significantly
cleaner, generation.
The compliance modeling done to support the final rule
assumes that overall electric demand will decrease as states
ramp up programs that result in lower overall demand. Demandside EE levels are expected to increase such that they achieve
about a 7.8 percent reduction on overall electricity demand
levels in 2030 under the final guidelines.
Changes in price or demand for electricity, natural gas,
and coal can impact markets for goods and services produced by
sectors that use these energy inputs in the production process
or supply those sectors. Changes in the cost of production may
result in changes in prices, quantities produced, and
profitability of affected firms. The EPA recognizes that these
guidelines provide significant flexibilities and states
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 Page 1383 of 1560
implementing the guidelines may choose to mitigate impacts to
some markets outside the utility power sector. Similarly, demand
for new generation or demand-side EE as a result of states
implementing the guidelines can result in shifts in production
and profitability for firms that supply those goods and
services.
Executive Order 13563 directs federal agencies to consider
the effect of regulations on job creation and employment.
According to the Executive Order, “our regulatory system must
protect public health, welfare, safety, and our environment
while promoting economic growth, innovation, competitiveness,
and job creation. It must be based on the best available
science.” (Executive Order 13563, 2011) Although standard
benefit-cost analyses have not typically included a separate
analysis of regulation-induced employment impacts, we typically
conduct employment analyses. While the economy continues moving
toward full-employment, employment impacts are of particular
concern and questions may arise about their existence and
magnitude.
States have the responsibility and flexibility to implement
policies and practices for compliance with the final guidelines.
Quantifying the associated employment impacts is complicated
by the wide range of approaches that states may use. As such,
the EPA’s employment analysis includes projected employment
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impacts associated with illustrative plan approaches for these
guidelines for the electric power industry, coal and natural gas
production, and demand-side EE activities. These projections are
derived, in part, from a detailed model of the utility power
sector used for this regulatory analysis, and U.S government
data on employment and labor productivity. In the electricity,
coal, and natural gas sectors, the EPA estimates that these
guidelines could result in a net decrease of approximately
25,000 job-years in 2025 for the final guidelines under the
rate-based illustrative plan approach and approximately 26,000
job-years in 2025 under the mass-based approach. For 2030, the
estimates of the net decrease in job-years are 31,000 under the
rate-based approach and 34,000 under the mass-based approach.
The agency is also offering an illustrative calculation of
potential employment effects due to demand-side EE programs.
Employment impacts from demand-side energy EE programs in 2030
could range from approximately 52,000 to 83,000 jobs under the
final guidelines.
By its nature, demand-side EE reduces overall demand for
electric power. The EPA recognizes as more efficiency is built
into the U.S. power system over time, lower fuel requirements
may lead to fewer jobs in the coal and natural gas extraction
sectors, as well as in fossil-fuel fired EGU construction and
operation than would otherwise have been expected. The EPA also
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 Page 1385 of 1560
recognizes the fact that, in many cases, employment gains and
losses that might be attributable to this rule would be expected
to affect different sets of people. Moreover, workers who lose
jobs in these sectors may find employment elsewhere just as
workers employed in new jobs in these sectors may have been
previously employed elsewhere. Therefore, the employment
estimates reported in these sectors may include workers
previously employed elsewhere. This analysis also does not
capture potential economy-wide impacts due to changes in prices
(of fuel, electricity, labor, for example) or other factors such
as improved labor productivity and reduced health care
expenditures resulting from cleaner air. For these reasons, the
numbers reported here should not be interpreted as a net
national employment impact.
F. What are the benefits of the final goals?
Implementing the final standards will generate benefits by
reducing emissions of CO2 and criteria pollutant precursors,
including SO2, NOX, and directly-emitted particles. SO2 and NOX
are precursors to PM2.5 (particles smaller than 2.5 microns), and
NOX is a precursor to ozone. The estimated benefits associated
with these emission reductions are beyond those achieved by
previous EPA rulemakings including the Mercury and Air Toxics
Standards rule. The health and welfare benefits from reducing
air pollution are considered co-benefits for these standards.
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 Page 1386 of 1560
For this rulemaking, we were only able to quantify the climate
benefits from reduced emissions of CO2 and the health co-benefits
associated with reduced exposure to PM2.5 and ozone. There are
many additional benefits which we are not able to quantify,
leading to an underestimate of monetized benefits. In summary,
we estimate the total combined climate benefits and health cobenefits for the rate-based approach to be $3.5 to $4.6 billion
in 2020, $18 to $28 billion in 2025, and $34 to $54 billion in
2030 (3 percent discount rate, 2011$). Total combined climate
benefits and health co-benefits for the mass-based approach are
estimated to be $5.3 to $8.1 billion in 2020, $19 to $29 billion
in 2025, and $32 to $48 billion in 2030 (3 percent discount
rate, 2011$). A summary of the emission reductions and monetized
benefits estimated for this rule at all discount rates is
provided in Tables 15 through 22 of this preamble.
Table 18. Summary of the Monetized Global Climate Benefits for
the Final Guidelines (billions of 2011$)a
Discount Rate
(Statistic)
YEAR

Monetized Climate Benefits
2020

2025

2030

69

232

415

$0.80

$3.1

$6.4

Rate-based Approach
CO2
Reductions
(million
short tons)
5 percent (average
SC-CO2)

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 Page 1387 of 1560
3 percent (average
SC-CO2)

$2.8

$10

$20

2.5 percent
(average SC-CO2)

$4.1

$15

$29

3 percent (95th
percentile SC-CO2)

$8.2

$31

$61

81

265

413

5 percent (average
SC-CO2)

$0.94

$3.6

$6.4

3 percent (average
SC-CO2)

$3.3

$12

$20

2.5 percent
(average SC-CO2)

$4.9

$17

$29

3 percent (95th
percentile SC-CO2)

$9.7

$35

$60

Mass-based Approach
CO2
Reductions
(million
short tons)

a

Climate benefit estimates reflect impacts from CO2 emission
changes in the analysis years presented in the table and do not
account for changes in non-CO2 GHG emissions. These estimates are
based on the global social cost of carbon (SC-CO2) estimates for
the analysis years and are rounded to two significant figures.

Table 19. Summary of the Monetized Health Co-Benefits in the
U.S. for the Final Guidelines, Rate-based Approach (billions of
2011$)a
National
Monetized
Monetized
Emission
Health CoHealth CoReductions
benefits
benefits
Pollutant
(thousands
(3 percent
(7 percent
of short
discount)
discount)
tons)
Final Guidelines, Rate-based Approach, 2020
PM2.5 precursors

b

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 Page 1388 of 1560
SO2

14

NOX

50

$0.44 to
$0.99
$0.14 to
$0.33

$0.39 to
$0.89
$0.13 to
$0.30

$0.12 to
$0.52
$0.70 to
$1.8

$0.12 to
$0.52
$0.64 to
$1.7

c

Ozone precursor

NOX (ozone season only)

19

Total Monetized Health Co-benefits

Total Monetized Health Co-benefits
combined with Monetized Climate
$3.5 to $4.6 $3.5 to $4.5
d
Benefits
Final Guidelines, Rate-based Approach, 2025
PM2.5 precursors

b

SO2

178

NOX

165

$6.4 to $14
$0.56 to
$1.3

$5.7 to $13
$0.50 to
$1.1

$0.49 to
$2.1
$7.4 to $18

$0.49 to
$2.1
$6.7 to $16

$12 to $28
$1.0 to $2.3

$11 to $25
$0.93 to
$2.1

$0.86 to
$3.7
$14 to $34

$0.86 to
$3.7
$13 to $31

$34 to $54

$33 to $51

c

Ozone precursor

NOX (ozone season only)

70

Total Monetized Health Co-benefits
Total Monetized Health Co-benefits
combined with Monetized Climate
$18 to $28
$17 to $26
d
Benefits
Final Guidelines, Rate-based Approach, 2030
PM2.5 precursors

b

SO2

318

NOX

282

Ozone precursor

c

NOX (ozone season
only)

118

Total Monetized Health Co-benefits
Total Monetized Health Co-benefits
combined with Monetized Climate
Benefits d
a

All estimates are rounded to two significant figures, so
estimates may not sum. It is important to note that the
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 Page 1389 of 1560
monetized co-benefits do not include reduced health effects from
direct exposure to SO2, direct exposure to NO2, exposure to
mercury, ecosystem effects or visibility impairment. Air
pollution health co-benefits are estimated using regional
benefit-per-ton estimates for the contiguous U.S.
b The monetized PM
2.5 co-benefits reflect the human health
benefits associated with reducing exposure to PM2.5 through
reductions of PM2.5 precursors, such as SO2 and NOX. The cobenefits do not include the benefits of reductions in directly
emitted PM2.5. These additional benefits would increase overall
benefits by a few percent based on the analyses conducted for
the proposed rule. PM co-benefits are shown as a range
reflecting the use of two concentration-response functions, with
the lower end of the range based on a function from Krewski et
al. (2009) and the upper end based on a function from Lepeule et
al. (2012). These models assume that all fine particles,
regardless of their chemical composition, are equally potent in
causing premature mortality because the scientific evidence is
not yet sufficient to allow differentiation of effect estimates
by particle type.
c The monetized ozone co-benefits reflect the human health
benefits associated with reducing exposure to ozone through
reductions of NOX during the ozone season. Ozone co-benefits are
shown as a range reflecting the use of several different
concentration-response functions, with the lower end of the
range based on a function from Bell, et al. (2004) and the upper
end based on a function from Levy, et al. (2005). Ozone cobenefits occur in the analysis year, so they are the same for
all discount rates.
d We estimate climate benefits associated with four different
values of a one ton CO2 reduction (model average at 2.5 percent
discount rate, 3 percent, and 5 percent; 95th percentile at 3
percent). Referred to as the social cost of carbon, each value
increases over time. For the purposes of this table, we show the
benefits associated with the model average at 3 percent discount
rate, however we emphasize the importance and value of
considering the full range of social cost of carbon values. We
provide combined climate and health estimates based on
additional discount rates in the RIA.

Table 20. Summary of the Monetized Health Co-Benefits in the
U.S. for the Final Guidelines, Mass-based Approach (billions of
2011$)a
National
Monetized
Monetized
Pollutant
Emission
Health CoHealth CoReductions
benefits
benefits
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 Page 1390 of 1560
(thousands
(3 percent
(7 percent
of short
discount)
discount)
tons)
Final Guidelines, Mass-based Approach, 2020
PM2.5 precursors

b

SO2

54

NOX

60

$1.7 to $3.8 $1.5 to $3.4
$0.17 to
$0.16 to
$0.39
$0.36

c

Ozone precursor

NOX (ozone season only)

23

$0.14 to
$0.61

$0.14 to
$0.61

Total Monetized Health Co-benefits
$2.0 to $4.8 $1.8 to $4.4
Total Monetized Health Co-benefits
combined with Monetized Climate
$5.3 to $8.1 $5.1 to $7.7
Benefits d
Final Guidelines, Mass-based Approach, 2025
PM2.5 precursors

b

SO2

185

NOX

203

$6.0 to $13
$0.58 to
$1.3

$5.4 to $12
$0.52 to
$1.2

$0.56 to
$2.4

$0.56 to
$2.4

c

Ozone precursor

NOX (ozone season only)

88

Total Monetized Health Co-benefits
$7.1 to $17
$6.5 to $16
Total Monetized Health Co-benefits
combined with Monetized Climate
$19 to $29
$18 to $27
Benefits d
Final Guidelines, Mass-based Approach, 2030
PM2.5 precursors

b

SO2

280

NOX

278

Ozone precursor

$10 to $23
$0.87 to
$2.0

$9.0 to $20
$0.79 to
$1.8

$0.82 to
$3.5

$0.82 to
$3.5

$12 to $28

$11 to $26

c

NOX (ozone season
only)

121

Total Monetized Health Co-benefits

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 Page 1391 of 1560
Total Monetized Health Co-benefits
combined with Monetized Climate
Benefits d

$32 to $48

$31 to $46

a

All estimates are rounded to two significant figures, so
estimates may not sum. It is important to note that the
monetized co-benefits do not include reduced health effects from
direct exposure to SO2, direct exposure to NO2, exposure to
mercury, ecosystem effects or visibility impairment. Air
pollution health co-benefits are estimated using regional
benefit-per-ton estimates for the contiguous U.S.
b The monetized PM
2.5 co-benefits reflect the human health
benefits associated with reducing exposure to PM2.5 through
reductions of PM2.5 precursors, such as SO2 and NOX. The cobenefits do not include the benefits of reductions in directly
emitted PM2.5. These additional benefits would increase overall
benefits by a few percent based on the analyses conducted for
the proposed rule. PM co-benefits are shown as a range
reflecting the use of two concentration-response functions, with
the lower end of the range based on a function from Krewski et
al. (2009) and the upper end based on a function from Lepeule et
al. (2012). These models assume that all fine particles,
regardless of their chemical composition, are equally potent in
causing premature mortality because the scientific evidence is
not yet sufficient to allow differentiation of effect estimates
by particle type.
c The monetized ozone co-benefits reflect the human health
benefits associated with reducing exposure to ozone through
reductions of NOX during the ozone season. Ozone co-benefits are
shown as a range reflecting the use of several different
concentration-response functions, with the lower end of the
range based on a function from Bell, et al. (2004) and the upper
end based on a function from Levy, et al. (2005). Ozone cobenefits occur in the analysis year, so they are the same for
all discount rates.
d We estimate climate benefits associated with four different
values of a one ton CO2 reduction (model average at 2.5 percent
discount rate, 3 percent, and 5 percent; 95th percentile at 3
percent). Referred to as the social cost of carbon, each value
increases over time. For the purposes of this table, we show the
benefits associated with the model average at 3 percent discount
rate, however we emphasize the importance and value of
considering the full range of social cost of carbon values. We
provide combined climate and health estimates based on
additional discount rates in the RIA.

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 Page 1392 of 1560
The EPA has used the social cost of carbon (SC-CO2)
estimates presented in the Technical Support Document: Technical
Update of the Social Cost of Carbon for Regulatory Impact
Analysis Under Executive Order 12866 (May 2013, Revised June
2015) (“current TSD”) to analyze CO2 climate impacts of this
rulemaking.1053 We refer to these estimates, which were developed
by the U.S. government, as “SC-CO2 estimates.” The SC-CO2 is a
metric that estimates the monetary value of impacts associated
with marginal changes in CO2 emissions in a given year. It
includes a wide range of anticipated climate impacts, such as
net changes in agricultural productivity and human health,
property damage from increased flood risk, and changes in energy
system costs, such as reduced costs for heating and increased
costs for air conditioning. It is typically used to assess the
avoided damages as a result of regulatory actions (i.e.,

1053

Docket ID EPA-HQ-OAR-2013-0495, Technical Support Document:
Technical Update of the Social Cost of Carbon for Regulatory
Impact Analysis Under Executive Order 12866, Interagency Working
Group on Social Cost of Carbon, with participation by Council of
Economic Advisers, Council on Environmental Quality, Department
of Agriculture, Department of Commerce, Department of Energy,
Department of Transportation, Domestic Policy Council,
Environmental Protection Agency, National Economic Council,
Office of Management and Budget, Office of Science and
Technology Policy, and Department of Treasury (May 2013, Revised
July 2015). Available at:
http://www.whitehouse.gov/sites/default/files/omb/inforeg/scctsd-final-july-2015.pdf.
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 Page 1393 of 1560
benefits of rulemakings that lead to an incremental reduction in
cumulative global CO2 emissions).
The SC-CO2 estimates used in this analysis were developed
over many years, using the best science available, and with
input from the public. Specifically, an interagency working
group (IWG) that included the EPA and other executive branch
agencies and offices used three integrated assessment models
(IAMs) to develop the SC-CO2 estimates and recommended four
global values for use in regulatory analyses. The SC-CO2
estimates were first released in February 2010 and updated in
2013 using new versions of each IAM. The 2010 SC-CO2 Technical
Support Document (2010 TSD)1054 provides a complete discussion of
the methods used to develop these estimates and the current TSD
presents and discusses the 2013 update (including two recent
minor corrections to the estimates).1055

Docket ID EPA-HQ-OAR-2009-0472-114577, Technical Support
Document: Social Cost of Carbon for Regulatory Impact Analysis
Under Executive Order 12866, Interagency Working Group on Social
Cost of Carbon, with participation by the Council of Economic
Advisers, Council on Environmental Quality, Department of
Agriculture, Department of Commerce, Department of Energy,
Department of Transportation, Environmental Protection Agency,
National Economic Council, Office of Energy and Climate Change,
Office of Management and Budget, Office of Science and
Technology Policy, and Department of Treasury (February 2010).
Also available at:
http://www.whitehouse.gov/sites/default/files/omb/inforeg/foragencies/Social-Cost-of-Carbon-for-RIA.pdf.
1055 The current version of the TSD is available at:
https://www.whitehouse.gov/sites/default/files/omb/inforeg/scc1054

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 Page 1394 of 1560
The EPA received numerous comments on the SC-CO2 estimates
as part of this rulemaking. The comments covered a wide range of
topics including the technical details of the modeling conducted
to develop the SC-CO2 estimates, the aggregation and presentation
of the SC-CO2 estimates, and the process by which the SC-CO2
estimates were derived. Many but not all commenters were
supportive of the SC-CO2 and its application to this rulemaking.
Commenters also provided constructive recommendations for
potential opportunities to improve the SC-CO2 estimates in future
updates. Many of these comments were similar to those that OMB’s
Office of Information and Regulatory Affairs received in
response to a separate request for public comment on the
approach used to develop the estimates. After careful evaluation
of the full range of comments submitted to OMB, the IWG
continues to recommend the use of the SC-CO2 estimates in
regulatory impact analysis.1056 With the release of the response

response-to-comments-final-july-2015.pdf, Docket ID EPA-HQ-OAR2013-0495, Technical Support Document: Technical Update of the
Social Cost of Carbon for Regulatory Impact Analysis Under
Executive Order 12866, Interagency Working Group on Social Cost
of Carbon, with participation by Council of Economic Advisers,
Council on Environmental Quality, Department of Agriculture,
Department of Commerce, Department of Energy, Department of
Transportation, Domestic Policy Council, Environmental
Protection Agency, National Economic Council, Office of
Management and Budget, Office of Science and Technology Policy,
and Department of Treasury (May 2013, Revised July 2015).
1056
See https://www.whitehouse.gov/omb/oira/social-cost-of-carbon
for additional details, including the OMB Response to Comments
and the SC-CO2 TSDs.
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to comments, the IWG announced plans to obtain expert
independent advice from the National Academies of Sciences,
Engineering, and Medicine (Academies) to ensure that the SC-CO2
estimates continue to reflect the best available scientific and
economic information on climate change. The Academies review
will be informed by the public comments received and focus on
the technical merits and challenges of potential approaches to
improving the SC-CO2 estimates in future updates. See the EPA
Response to Comments document for the complete response to
comments received on SC-CO2 as part of this rulemaking.
Concurrent with OMB’s publication of the response to
comments on SC-CO2 and announcement of the Academies process, OMB
posted a revised TSD that includes two minor technical
corrections to the current estimates. One technical correction
addressed an inadvertent omission of climate change damages in
the last year of analysis (2300) in one model and the second
addressed a minor indexing error in another model. On average
the revised SC-CO2 estimates are one dollar less than the mean
SC-CO2 estimates reported in the November 2013 revision to the
May 2013 TSD. The change in the estimates associated with the
95th percentile estimates when using a 3 percent discount rate
is slightly larger, as those estimates are heavily influenced by
the results from the model that was affected by the indexing
error.
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The EPA, as a member of the IWG on the SC-CO2, has carefully
examined and evaluated the minor technical corrections in the
revised TSD and the public comments submitted to OMB’s separate
SC-CO2 comment process. Additionally, the EPA has carefully
examined and evaluated all comments received regarding the SC-CO2
through this rulemaking process. The EPA concurs with the IWG’s
conclusion that it is reasonable, and scientifically
appropriate, to use the current SC-CO2 estimates for purposes of
regulatory impact analysis, including for this proceeding.
The four SC-CO2 estimates are as follows: $12, $40, $60, and
$120 per short ton of CO2 emissions in the year 2020 (2011$).1057
The first three values are based on the average SC-CO2 from the
three IAMs, at discount rates of 5, 3, and 2.5 percent,
respectively. The SC-CO2 value at several discount rates are
included because the literature shows that the SC-CO2 is quite
sensitive to assumptions about the discount rate, and because no
consensus exists on the appropriate rate to use in an
intergenerational context (where costs and benefits are incurred
by different generations). The fourth value is the 95th

1057

The current version of the TSD is available at:
https://www.whitehouse.gov/sites/default/files/omb/inforeg/scctsd-final-july-2015.pdf. The 2010 and 2013 TSDs present SC-CO2 in
2007$ per metric ton. The estimates were adjusted to (1) short
tons for using conversion factor 0.90718474 and (2) 2011$ using
GDP Implicit Price Deflator, http://www.gpo.gov/fdsys/pkg/ECONI2013-02/pdf/ECONI-2013-02-Pg3.pdf.
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percentile of the SC-CO2 from all three models at a 3 percent
discount rate. It is included to represent higher-than-expected
impacts from temperature change further out in the tails of the
SC-CO2 distribution (representing less likely, but potentially
catastrophic, outcomes).
There are limitations in the estimates of the benefits from
the final emission guidelines, including the omission of climate
and other CO2 related benefits that could not be monetized. The
2010 TSD discusses a number of limitations to the SC-CO2
analysis, including the incomplete way in which the IAMs capture
catastrophic and non-catastrophic impacts, their incomplete
treatment of adaptation and technological change, uncertainty in
the extrapolation of damages to high temperatures, and
assumptions regarding risk aversion. Currently, IAMs do not
assign value to all of the important impacts of CO2 recognized in
the literature, such as ocean acidification or potential tipping
points, for various reasons, including the inherent difficulties
in valuing non-market impacts and the fact that the science
incorporated into these models understandably lags behind the
most recent research. Nonetheless, these estimates and the
discussion of their limitations represent the best available
information about the social benefits of CO2 emission reductions
to inform the benefit-cost analysis. As previously noted, the
IWG plans to seek independent expert advice on technical
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opportunities to improve the SC-CO2 estimates from the Academies.
The Academies process will help to ensure that the SC-CO2
estimates used by the federal government continue to reflect the
best available science and methodologies. Additional details are
provided in the TSDs.
The health co-benefits estimates represent the total
monetized human health benefits for populations exposed to
reduced PM2.5 and ozone resulting from emission reductions from
the illustrative compliance strategy for the final standards.
Unlike the global SC-CO2 estimates, the air pollution health cobenefits are estimated for the contiguous U.S. only. We used a
“benefit-per-ton” approach to estimate the benefits of this
rulemaking. To create the PM2.5 benefit-per-ton estimates, we
conducted air quality modeling for an illustrative scenario
reflecting the proposed standards to convert precursor emissions
into changes in ambient PM2.5 and ozone concentrations. We then
used these air quality modeling results in BenMAP1058 to calculate
average regional benefit-per-ton estimates using the health
impact assumptions used in the PM NAAQS RIA1059 and Ozone NAAQS

1058

http://www.epa.gov/airquality/benmap/index.html
U.S. Environmental Protection Agency (U.S. EPA). 2012.
Regulatory Impact Analysis for the Final Revisions to the
National Ambient Air Quality Standards for Particulate Matter.
Research Triangle Park, NC: Office of Air Quality Planning and
Standards, Health and Environmental Impacts Division. (EPA
1059

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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RIAs.1060,1061 The three regions were the Eastern U.S., Western
U.S., and California. To calculate the co-benefits for the final
standards, we multiplied the regional benefit-per-ton estimates
generated from modeling of the proposed standards by the
corresponding regional emission reductions for the final
standards.1062 All benefit-per-ton estimates reflect the
geographic distribution of the modeled emissions for the
proposed standards, which may not exactly match the emission
reductions in this final rulemaking, and thus they may not
reflect the local variability in population density,
meteorology, exposure, baseline health incidence rates, or other
local factors for any specific location. More information

document number EPA-452/R-12-003, December). Available at:
<http://www.epa.gov/pm/2012/finalria.pdf>.
1060 U.S. Environmental Protection Agency (U.S. EPA). 2008b. Final
Ozone NAAQS Regulatory Impact Analysis. Research Triangle Park,
NC: Office of Air Quality Planning and Standards, Health and
Environmental Impacts Division, Air Benefit and Cost Group
Research. (EPA document number EPA-452/R-08-003, March).
Available at:
<http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=194645>.
1061 U.S. Environmental Protection Agency (U.S. EPA). 2010.
Section 3: Re-analysis of the Benefits of Attaining Alternative
Ozone Standards to Incorporate Current Methods. Available at:
<http://www.epa.gov/ttnecas1/regdata/RIAs/s3supplemental_analysis-updated_benefits11-5.09.pdf>.
1062 U.S. Environmental Protection Agency. 2013. Technical support
document: Estimating the benefit per ton of reducing PM2.5
precursors from 17 sectors. Research Triangle Park, NC: Office
of Air and Radiation, Office of Air Quality Planning and
Standards, January. Available at:
<http://www.epa.gov/airquality/benmap/models/Source_Apportionmen
t_BPT_TSD_1_31_13.pdf>.
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regarding the derivation of the benefit-per-ton estimates is
available in the RIA.
PM benefit-per-ton values are generated using two
concentration-response functions, Krewski et al. (2009)
Lepeule et al. (2012)

1064.

1063

and

These models assume that all fine

particles, regardless of their chemical composition, are equally
potent in causing premature mortality because the scientific
evidence is not yet sufficient to allow differentiation of
effect estimates by particle type. Even though we assume that
all fine particles have equivalent health effects, the benefitper-ton estimates vary between PM2.5 precursors depending on the
location and magnitude of their impact on PM2.5 concentrations,
which drive population exposure.
It is important to note that the magnitude of the PM2.5 and
ozone co-benefits is largely driven by the concentration
response functions for premature mortality and the value of a
statistical life used to value reductions in premature
mortality. For PM2.5, we use two key empirical studies, one based

1063

Krewski D.; M. Jerrett; R. T. Burnett; R. Ma; E. Hughes; Y.
Shi, et al. 2009. Extended Follow-up and Spatial Analysis of the
American Cancer Society Study Linking Particulate Air Pollution
and Mortality. Health Effects Institute. (HEI Research Report
number 140). Boston, MA: Health Effects Institute.
1064 Lepeule, J.; F. Laden; D. Dockery; J. Schwartz. 2012.
“Chronic Exposure to Fine Particles and Mortality: An Extended
Follow-Up of the Harvard Six Cities Study from 1974 to 2009.”
Environmental Health Perspective, 120(7), July, pp. 965-970.
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on the American Cancer Society cohort study (Krewski et al,
2009) and one based on the extended Six Cities cohort study
(Lepuele et al, 2012). We present the PM2.5 co-benefits results as
a range based on benefit-per-ton estimates calculated using the
concentration-response functions from these two epidemiology
studies, but this range does not capture the full range of
uncertainty inherent in the co-benefits estimates. In the RIA
for this rule, which is available in the docket, we also include
PM2.5 co-benefits estimates using benefit-per-ton estimates based
on expert judgments of the effect of PM2.5 on premature mortality
(Roman et al., 2008)1065 as a characterization of uncertainty
regarding the PM2.5-mortality relationship.
For the ozone co-benefits, we present the results as a range
reflecting benefit-per-ton estimates which use several different
concentration-response functions for mortality, with the lower
end of the range based on a benefit-per-ton estimate using the
function from Bell et al. (2004)1066 and the upper end based on a
benefit-per-ton estimate using the function from Levy et al.

1065

Roman, H., et al. 2008. “Expert Judgment Assessment of the
Mortality Impact of Changes in Ambient Fine Particulate Matter
in the U.S.” Environmental Science & Technology, Vol. 42, No. 7,
February, pp. 2268 – 2274.
1066 Bell, M.L., et al. 2004. “Ozone and Short-Term Mortality in
95 U.S. Urban Communities, 1987-2000.” Journal of the American
Medical Association, 292(19), pp. 2372-8.
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(2005).1067 Similar to PM2.5, the range of ozone co-benefits does
not capture the full range of inherent uncertainty.
In this analysis, in estimating the benefits-per-ton for
PM2.5 precursors, the EPA assumes that the health impact function
for fine particles is without a threshold. This is based on the
conclusions of EPA’s Integrated Science Assessment for
Particulate Matter,1068 which evaluated the substantial body of
published scientific literature, reflecting thousands of
epidemiology, toxicology, and clinical studies that documents
the association between elevated PM2.5 concentrations and adverse
health effects, including increased premature mortality. This
assessment, which was twice reviewed by the EPA’s independent
Science Advisory Board, concluded that the scientific literature
consistently finds that a no-threshold model most adequately
portrays the PM-mortality concentration-response relationship.
In general, we are more confident in the magnitude of the
risks we estimate from simulated PM2.5 concentrations that
coincide with the bulk of the observed PM concentrations in the

1067

Levy, J.I., S.M. Chemerynski, and J.A. Sarnat. 2005. “Ozone
exposure and mortality: an empiric Bayes metaregression
analysis.” Epidemiology. 16(4): p. 458-68.
1068 U.S. Environmental Protection Agency. 2009. Integrated
Science Assessment for Particulate Matter (Final Report).
Research Triangle Park, NC: National Center for Environmental
Assessment, RTP Division. (EPA document number EPA-600-R-08139F, December). Available at:
http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=216546.
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epidemiological studies that are used to estimate the benefits.
Likewise, we are less confident in the risk we estimate from
simulated PM2.5 concentrations that fall below the bulk of the
observed data in these studies.
For this analysis, policy-specific air quality data are not
available,1069 and thus, we are unable to estimate the percentage
of premature mortality associated with this specific rule that
is above the lowest measured PM2.5 levels (LML) for the two PM2.5
mortality epidemiology studies that form the basis for our
analysis. As a surrogate measure of mortality impacts above the
LML, we provide the percentage of the population exposed above
the lowest measured PM2.5 level (LML) in each of the two studies,
using the estimates of baseline projected PM2.5 from the air
quality modeling for the proposed guidelines used to calculate
the benefit-per-ton estimates for the EGU sector. Using the
Krewski et al. (2009) study, 88 percent of the population is
exposed to annual mean PM2.5 levels at or above the LML of 5.8
micrograms per cubic meter (µg/m3). Using the Lepeule et al.
(2012) study, 46 percent of the population is exposed above the
LML of 8 µg/m3. It is important to note that baseline exposure is
only one parameter in the health impact function, along with
baseline incidence rates, population, and change in air quality.

1069

In addition, site-specific emission reductions will depend
upon how states implement the guidelines.
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Every benefit analysis examining the potential effects of a
change in environmental protection requirements is limited, to
some extent, by data gaps, model capabilities (such as
geographic coverage) and uncertainties in the underlying
scientific and economic studies used to configure the benefit
and cost models. Despite these uncertainties, we believe the air
quality co-benefit analysis for this rule provides a reasonable
indication of the expected health benefits of the air pollution
emission reductions for the illustrative analysis of the final
standards under a set of reasonable assumptions. This analysis
does not include the type of detailed uncertainty assessment
found in the 2012 PM2.5 National Ambient Air Quality Standard
(NAAQS) RIA (U.S. EPA, 2012) because we lack the necessary air
quality input and monitoring data to conduct a complete benefits
assessment. In addition, using a benefit-per-ton approach adds
another important source of uncertainty to the benefits
estimates. The 2012 PM2.5 NAAQS benefits analysis provides an
indication of the sensitivity of our results to various
assumptions.
We note that the monetized co-benefits estimates shown here
do not include several important benefit categories, including
exposure to SO2, NOX, and hazardous air pollutants (e.g., mercury
and hydrogen chloride), as well as ecosystem effects and
visibility impairment. Although we do not have sufficient
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information or modeling available to provide monetized estimates
for this rule, we include a qualitative assessment of these
unquantified benefits in the RIA for the final guidelines. In
addition, in the RIA for the final standards, we did not
estimate changes in emissions of directly emitted particles. As
a result, quantified PM2.5 related benefits are underestimated by
a relatively small amount. In the RIA for the proposed
guidelines, the benefits from reductions in directly emitted
PM2.5 were less than 10 percent of total monetized health cobenefits across all scenarios and years.
For more information on the benefits analysis, please refer
to the RIA for this rule, which is available in the rulemaking
docket.
XII. Statutory and Executive Order Reviews
Additional information about these Statutory and Executive
Orders can be found at http://www2.epa.gov/lawsregulations/laws-and-executive-orders.
A. Executive Order 12866: Regulatory Planning and Review, and
Executive Order 13563: Improving Regulation and Regulatory
Review
This final action is an economically significant regulatory
action that was submitted to the OMB for review. Any changes
made in response to OMB recommendations have been documented in
the docket. The EPA prepared an analysis of the potential costs
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and benefits associated with this action. This analysis, which
is contained in the “Regulatory Impact Analysis for Clean Power
Plan Final Rule” (EPA-452/R-15-003, July 2015), is available in
the docket and is briefly summarized in section XI of this
preamble.
Consistent with Executive Order 12866 and Executive Order
13563, the EPA estimated the costs and benefits for illustrative
compliance approaches of implementing the guidelines. The final
rule establishes: 1) carbon dioxide (CO2) emission performance
rates for two source categories of existing fossil fuel-fired
EGUs, fossil fuel-fired electric utility steam generating units
and stationary combustion turbines, and 2) guidelines for the
development, submittal and implementation of state plans that
implement the CO2 emission performance rates. Actions taken to
comply with the guidelines will also reduce the emissions of
directly-emitted PM2.5, SO2 and NOX. The benefits associated with
these PM2.5, SO2 and NOX reductions are referred to as cobenefits, as these reductions are not the primary objective of
this rule.
The EPA has used the social cost of carbon estimates
presented in the Technical Support Document: Technical
Update of the Social Cost of Carbon for Regulatory Impact
Analysis Under Executive Order 12866 (May 2013, Revised
July 2015) (“current TSD”) to analyze CO2 climate impacts of
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 Page 1407 of 1560
this rulemaking. We refer to these estimates, which were
developed by the U.S. government, as “SC-CO2 estimates.” The
SC-CO2 is an estimate of the monetary value of impacts
associated with a marginal change in CO2 emissions in a
given year. The four SC-CO2 estimates are associated with
different discount rates (model average at 2.5 percent
discount rate, 3 percent, and 5 percent; 95th percentile at
3 percent), and each increases over time. In this summary,
the EPA provides the estimate of climate benefits
associated with the SC-CO2 value deemed to be central in the
current TSD: the model average at 3 percent discount rate.
In the final emission guidelines, the EPA has translated
the source category-specific CO2 emission performance rates into
equivalent state-level rate-based and mass-based CO2 goals in
order to maximize the range of choices that states will have in
developing their plans. Because of the range of choices
available to states and the lack of a priori knowledge about the
specific choices states will make in response to the final
goals, the Regulatory Impact Analysis (RIA) for this rule
analyzed two implementation scenarios designed to achieve these
goals, which we term the “rate-based” illustrative plan approach
and the “mass-based” illustrative plan approach.
It is very important to note that the differences between
the analytical results for the rate-based and mass-based
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 Page 1408 of 1560
illustrative plan approaches presented in the RIA may not be
indicative of likely differences between the approaches if
implemented by states and affected EGUs in response to the final
guidelines. Rather, the two sets of analyses are intended to
illustrate two different approaches to accomplish the emission
performance rates finalized in the Clean Power Plan Final Rule.
In other words, if one approach performs differently than the
other on a given metric during a given time period, this does
not imply this will apply in all instances in all time periods
in all places.
The EPA estimates that, in 2020, the final guidelines
will yield monetized climate benefits (in 2011$) of
approximately $2.8 billion for the rate-based approach and
$3.3 billion for the mass-based approach (3 percent model
average). For the rate-based approach, the air pollution
health co-benefits in 2020 are estimated to be $0.7 billion
to $1.8 billion (2011$) for a 3 percent discount rate and
$0.64 billion to $1.7 billion (2011$) for a 7 percent
discount rate. For the mass-based approach, the air
pollution health co-benefits in 2020 are estimated to be
$2.0 billion to $4.8 billion (2011$) for a 3 percent
discount rate and $1.8 billion to $4.4 billion (2011$) for
a 7 percent discount rate. The annual, illustrative
compliance costs estimated by IPM and inclusive of demandThis document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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 Page 1409 of 1560
side EE program and participant costs and MRR costs in
2020, are approximately $2.5 billion for the rate-based
approach and $1.4 billion for the mass-based approach
(2011$). The quantified net benefits (the difference
between monetized benefits and compliance costs) in 2020
are estimated to range from $1.0 billion to $2.1 billion
(2011$) for the rate-based approach and from $3.9 billion
to 6.7 billion (2011$) for the mass-based approach, using a
3 percent discount rate (model average).
The EPA estimates that, in 2025, the final guidelines will
yield monetized climate benefits (in 2011$) of approximately $10
billion for the rate-based approach and $12 billion for the
mass-based approach (3 percent model average). For the ratebased approach, the air pollution health co-benefits in 2025 are
estimated to be $7.4 billion to $18 billion (2011$) for a 3
percent discount rate and $6.7 billion to $16 billion (2011$)
for a 7 percent discount rate. For the mass-based approach, the
air pollution health co-benefits in 2025 are estimated to be
$7.1 billion to $17 billion (2011$) for a 3 percent discount
rate and $6.5 billion to $16 billion (2011$) for a 7 percent
discount rate. The annual, illustrative compliance costs
estimated by IPM and inclusive of demand-side EE program and
participant costs and MRR costs in 2025, are approximately $1.0
billion for the rate-based approach and $3.0 billion for the
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mass-based approach (2011$). The quantified net benefits (the
difference between monetized benefits and compliance costs) in
2025 are estimated to range from $17 billion to $27 billion
(2011$) for the rate-based approach and $16 billion to $26
billion (2011$) for the mass-based approach, using a 3 percent
discount rate (model average).
The EPA estimates that, in 2030, the final guidelines will
yield monetized climate benefits (in 2011$) of approximately $20
billion for the rate-based approach and $20 billion for the
mass-based approach (3 percent model average). For the ratebased approach, the air pollution health co-benefits in 2030 are
estimated to be $14 billion to $34 billion (2011$) for a 3
percent discount rate and $13 billion to $31 billion (2011$) for
a 7 percent discount rate. For the mass-based approach, the air
pollution health co-benefits in 2030 are estimated to be $12
billion to $28 billion (2011$) for a 3 percent discount rate and
$11 billion to $26 billion (2011$) for a 7 percent discount
rate. The annual, illustrative compliance costs estimated by IPM
and inclusive of demand-side EE program and participant costs
and MRR costs in 2030, are approximately $8.4 billion for the
rate-based approach and $5.1 billion for the mass-based approach
(2011$). The quantified net benefits (the difference between
monetized benefits and compliance costs) in 2030 are estimated
to range from $26 billion to $45 billion (2011$) for the rateThis document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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based approach and from $26 billion to $43 billion (2011$) for
the mass-based approach, using a 3 percent discount rate (model
average).
Tables 20 and 21 provide the estimates of the climate
benefits, health co-benefits, compliance costs and net benefits
of the final emission guidelines for rate-based and mass-based
illustrative plan approaches, respectively.
Table 21. Summary of the Monetized Benefits, Compliance Costs,
and Net Benefits for the Final Guidelines in 2020, 2025 and 2030
Under the Rate-Based Illustrative Plan Approach [Billions of
2011$]a
Rate-Based Approach
2020

2025

2030

5% discount
rate

$0.80

$3.1

$6.4

3% discount
rate

$2.8

$10

$20

2.5%
discount
rate

$4.1

$15

$29

95th
percentile
at 3%
discount
rate

$8.2

$31

$61

Climate
Benefitsb

Air Quality Co-benefits Discount Rate

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Air Quality
Health Cobenefitsc
Compliance
Costsd
Net
Benefitse

3%

7%

3%

7%

3%

7%

$0.70
to $1.8

$0.64
to $1.7

$7.4
to $18

$6.7 to
$16

$14 to
$34

$13 to
$31

$2.5
$1.0 to
$2.1

$1.0 to
$2.0

$1.0
$17 to
$27

$16 to
$25

$8.4
$26 to
$45

$25 to
$43

Non-monetized climate benefits
Reductions in exposure to ambient NO2 and SO2
NonMonetized
Benefits

Reductions in mercury deposition
Ecosystem benefits associated with reductions in
emissions of NOX, SO2, PM, and mercury
Visibility impairment

a

All are rounded to two significant figures, so figures may not
sum.
b

The climate benefit estimate in this summary table reflects
global impacts from CO2 emission changes and does not account for
changes in non-CO2 GHG emissions. Also, different discount rates
are applied to SC-CO2 than to the other estimates because CO2
emissions are long-lived and subsequent damages occur over many
years. The benefit estimates in this table are based on the
average SC-CO2 estimated for a 3 percent discount rate. However,
we emphasize the importance and value of considering the full
range of SC-CO2 values. As shown in the RIA, climate benefits are
also estimated using the other three SC-CO2 estimates (model
average at 2.5 percent discount rate, 3 percent, and 5 percent;
95th percentile at 3 percent). The SC-CO2 estimates are yearspecific and increase over time.
c

The air pollution health co-benefits reflect reduced exposure
to PM2.5 and ozone associated with emission reductions of SO2 and
NOX. The range reflects the use of concentration-response
functions from different epidemiology studies. The co-benefits
do not include the benefits of reductions in directly emitted
PM2.5. These additional benefits would increase overall benefits
by a few percent based on the analyses conducted for the
proposed rule. The reduction in premature fatalities each year
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accounts for over 98 percent of total monetized co-benefits from
PM2.5 and ozone. These models assume that all fine particles,
regardless of their chemical composition, are equally potent in
causing premature mortality because the scientific evidence is
not yet sufficient to allow differentiation of effect estimates
by particle type.
d

Total costs are approximated by the illustrative compliance
costs estimated using the Integrated Planning Model for the
final guidelines and a discount rate of approximately 5 percent.
This estimate includes monitoring, recordkeeping, and reporting
costs and demand-side EE program and participant costs.
e

The estimates of net benefits in this summary table are
calculated using the global SC-CO2 at a 3 percent discount rate
(model average). The RIA includes combined climate and health
estimates based on additional discount rates.

Table 22. Summary of the Monetized Benefits, Compliance Costs,
and Net Benefits for the Final Guidelines in 2020, 2025 and 2030
Under the Mass-Based Illustrative Plan Approach [Billions of
2011$]a
Mass-Based Approach
2020

2025

2030

5% discount
rate

$0.9

$3.6

$6.4

3% discount
rate

$3.3

$12

$20

2.5%
discount
rate

$4.9

$17

$29

95th
percentile
at 3%

$9.7

$35

$60

Climate
Benefitsb

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discount
rate
Air Quality Co-benefits Discount Rate

Air Quality
Health Cobenefitsc
Compliance
Costsd
Net
Benefitse

3%

7%

3%

7%

3%

7%

$2.0 to
$4.8

$1.8 to
$4.4

$7.1
to $17

$6.5 to
$16

$12 to
$28

$11 to
$26

$1.4
$3.9 to
$6.7

$3.7 to
$6.3

$3.0
$16 to
$26

$15 to
$24

$5.1
$26 to
$43

$25 to
$40

Non-monetized climate benefits
Reductions in exposure to ambient NO2 and SO2
NonMonetized
Benefits

Reductions in mercury deposition
Ecosystem benefits associated with reductions in
emissions of NOX, SO2, PM, and mercury
Visibility improvement

a

All are rounded to two significant figures, so figures may not
sum.
b

The climate benefit estimate in this summary table reflects
global impacts from CO2 emission changes and does not account for
changes in non-CO2 GHG emissions. Also, different discount rates
are applied to SC-CO2 than to the other estimates because CO2
emissions are long-lived and subsequent damages occur over many
years. The benefit estimates in this table are based on the
average SC-CO2 estimated for a 3 percent discount rate. However,
we emphasize the importance and value of considering the full
range of SC-CO2 values. As shown in the RIA, climate benefits are
also estimated using the other three SC-CO2 estimates (model
average at 2.5 percent discount rate, 3 percent, and 5 percent;
95th percentile at 3 percent). The SC-CO2 estimates are yearspecific and increase over time.
c

The air pollution health co-benefits reflect reduced exposure
to PM2.5 and ozone associated with emission reductions of SO2 and
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NOX. The co-benefits do not include the benefits of reductions in
directly emitted PM2.5. These additional benefits would increase
overall benefits by a few percent based on the analyses
conducted for the proposed rule. The range reflects the use of
concentration-response functions from different epidemiology
studies. The reduction in premature fatalities each year
accounts for over 98 percent of total monetized co-benefits from
PM2.5 and ozone. These models assume that all fine particles,
regardless of their chemical composition, are equally potent in
causing premature mortality because the scientific evidence is
not yet sufficient to allow differentiation of effect estimates
by particle type.
d

Total costs are approximated by the illustrative compliance
costs estimated using the Integrated Planning Model for the
final guidelines and a discount rate of approximately 5 percent.
This estimate includes monitoring, recordkeeping, and reporting
costs and demand-side EE program and participant costs.
e

The estimates of net benefits in this summary table are
calculated using the global SC-CO2 at a 3 percent discount rate
(model average). The RIA includes combined climate and health
estimates based on additional discount rates.
There are additional important benefits that the EPA could not
monetize. Due to current data and modeling limitations, our
estimates of the benefits from reducing CO2 emissions do not
include important impacts like ocean acidification or potential
tipping points in natural or managed ecosystems. Unquantified
benefits also include climate benefits from reducing emissions
of non-CO2 GHGs (e.g., nitrous oxide and methane) and co-benefits
from reducing direct exposure to SO2, NOX and hazardous air
pollutants (e.g., mercury), as well as from reducing ecosystem
effects and visibility impairment. Based upon the foregoing
discussion, it remains clear that the benefits of this final

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action are substantial, and far exceed the costs. Additional
details on benefits, costs, and net benefits estimates are
provided in this RIA.
B. Paperwork Reduction Act (PRA)
The information collection requirements in this rule have
been submitted for approval to OMB under the PRA. The
Information Collection Request (ICR) document prepared by the
EPA has been assigned the EPA ICR number 2503.02. You can find a
copy of the ICR in the docket for this rule, and it is briefly
summarized here. The information collection requirements are not
enforceable until OMB approves them.
This rule does not directly impose specific requirements on
EGUs located in states or areas of Indian country. The rule also
does not impose specific requirements on tribal governments that
have affected EGUs located in their area of Indian country. For
areas of Indian country, the rule establishes CO2 emission
performance goals that could be addressed through either tribal
or federal plans. A tribe would have the opportunity under the
Tribal Authority Rule (TAR), but not the obligation, to apply to
the EPA for Treatment as State (TAS) for purposes of a CAA
section 111(d) plan and, if approved by the EPA, to establish a
CAA section 111(d) plan for its area of Indian country. To date,
no tribe has requested or obtained TAS eligibility for purposes
of a CAA section 111(d) plan. For areas of Indian country with
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affected EGUs where a tribe has not applied for TAS and
submitted any needed plan, if the EPA determines that a CAA
section 111(d) plan is necessary or appropriate, the EPA would
have the responsibility to establish the plans. Because tribes
are not required to implement section 111(d) plans and because
no tribe has yet sought TAS eligibility for this purpose, this
action is not anticipated to impose any information collection
burden on tribal governments over the 3-year period covered by
this ICR.
This rule does impose specific requirements on state
governments with affected EGUs. The information collection
requirements are based on the recordkeeping and reporting burden
associated with developing, implementing, and enforcing a plan
to limit CO2 emissions from existing sources in the utility power
sector. These recordkeeping and reporting requirements are
specifically authorized by CAA section 114 (42 U.S.C. 7414). All
information submitted to the EPA pursuant to the recordkeeping
and reporting requirements for which a claim of confidentiality
is made is safeguarded according to agency policies set forth in
40 CFR part 2, subpart B.
The annual burden for this collection of information for
the states (averaged over the first 3 years following
promulgation) is estimated to be a range of 505,000 to 821,000
hours at a total annual labor cost of $35.8 to $58.1
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million. The lower bound estimate reflects the assumption that
some states already have EE and RE programs in place. The higher
bound estimate reflects the overly-conservative assumption that
no states have EE and RE programs in place.
The total annual burden for the federal government
associated with the state collection of information (averaged
over the first 3 years following promulgation) is estimated to
be 54,000 hours at a total annual labor cost of $3.00 million.
Burden is defined at 5 CFR 1320.3(b).
An agency may not conduct or sponsor, and a person is not
required to respond to, a collection of information unless it
displays a currently valid OMB control number. The OMB control
numbers for the EPA’s regulations in 40 CFR are listed in 40 CFR
part 9. When OMB approves this ICR, the agency will announce
that approval in the Federal Register and publish a technical
amendment to 40 CFR part 9 to display the OMB control number for
the approved information collection activities contained in this
final rule.
C. Regulatory Flexibility Act (RFA)
I certify that this action will not have a significant
economic impact on a substantial number of small entities under
the RFA. This action will not impose any requirements on small
entities. Specifically, emission guidelines established under
CAA section 111(d) do not impose any requirements on regulated
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entities and, thus, will not have a significant economic impact
upon a substantial number of small entities. After emission
guidelines are promulgated, states establish emission standards
on existing sources, and it is those requirements that could
potentially impact small entities.
Our analysis here is consistent with the analysis of the
analogous situation arising when the EPA establishes NAAQS,
which do not impose any requirements on regulated entities. As
here, any impact of a NAAQS on small entities would only arise
when states take subsequent action to maintain and/or
achieve the NAAQS through their SIPs. See American Trucking
Assoc. v. EPA, 175 F.3d 1029, 1043-45 (D.C. Cir. 1999) (NAAQS do
not have significant impacts upon small entities because NAAQS
themselves impose no regulations upon small entities).
Nevertheless, the EPA is aware that there is substantial
interest in the rule among small entities and, as detailed in
section III.A of the preamble to the proposed carbon pollution
emission guidelines for existing EGUs (79 FR 34845-34847; June
18, 2014) and in section II.D of the preamble to the proposed
carbon pollution emission guidelines for existing EGUs in Indian
Country and U.S. Territories (79 FR 65489; November 4, 2014),
has conducted an unprecedented amount of stakeholder outreach.
As part of that outreach, agency officials participated in many
meetings with individual utilities and electric utility
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associations, as well as industry leaders and trade association
representatives from various industries. While formulating the
provisions of the rule, the EPA considered the input provided
over the course of the stakeholder outreach as well as the input
provided in the many public comments.
D. Unfunded Mandates Reform Act (UMRA)
This action does not contain an unfunded mandate of $100
million or more as described in UMRA, 2 U.S.C. 1531–1538, and does
not significantly or uniquely affect small governments. The
emission guidelines do not impose any direct compliance
requirements on EGUs located in states or areas of Indian country.
As explained in section XII.B above, the rule also does not impose
specific requirements on tribal governments that have affected
EGUs located in their area of Indian country. The rule does impose
specific requirements on state governments that have affected
EGUs. Specifically, states are required to develop plans to
implement the guidelines under CAA section 111(d) for affected
EGUs. The burden for states to develop CAA section 111(d) plans in
the 3-year period following promulgation of the rule was estimated
and is listed in section XII.B above, but this burden is estimated
to be below $100 million in any one year. Thus, this rule is not
subject to the requirements of section 202 or section 205 of the
UMRA.

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This rule is also not subject to the requirements of
section 203 of UMRA because it contains no regulatory
requirements that might significantly or uniquely affect small
governments. Specifically, the state governments to which rule
requirements apply are not considered small governments.
In light of the interest among governmental entities, the
EPA conducted outreach with national organizations representing
state and local elected officials and tribal governmental
entities while formulating the provisions of this rule. Sections
III.A and XI.F of the preamble to the proposed carbon pollution
emission guidelines for existing EGUs (79 FR 34845-34847; June
18, 2014) and sections II.D and VI.F of the preamble to the
proposed carbon pollution emission guidelines for existing EGUs
in areas of Indian Country and U.S. Territories (79 FR 65489;
November 4, 2014) describes the extensive stakeholder outreach
the EPA has conducted on setting emission guidelines for
existing EGUs. The EPA considered the input provided over the
course of the stakeholder outreach as well as the input provided
in the many public comments when developing the provisions of
these emission guidelines.
E. Executive Order 13132: Federalism
The EPA has concluded that this action may have federalism
implications, pursuant to agency policy for implementing the
Order, because it imposes substantial direct compliance costs on
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state or local governments, and the federal government will not
provide the funds necessary to pay those costs. As discussed in
the Supporting Statement found in the docket for this
rulemaking, the development of state plans will entail many
hours of staff time to develop and coordinate programs for
compliance with the rule, as well as time to work with state
legislatures as appropriate, to develop a plan submittal.
Consistent with this determination, the EPA provides the
following federalism summary impact statement.
The EPA consulted with state and local officials early in
the process of developing the proposed action to permit them to
have meaningful and timely input into its development. As
described in the Federalism discussion in the preamble to the
proposed standards of performance for GHG emissions from new
EGUs (79 FR 1501; January 8, 2014), the EPA consulted with state
and local officials in the process of developing the proposed
standards for newly constructed EGUs. This outreach addressed
planned actions for new, reconstructed, modified and existing
sources. The EPA invited the following 10 national organizations
representing state and local elected officials to a meeting on
April 12, 2011, in Washington DC: (1) National Governors
Association; (2) National Conference of State Legislatures, (3)
Council of State Governments, (4) National League of Cities, (5)
U.S. Conference of Mayors, (6) National Association of Counties,
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(7) International City/County Management Association, (8)
National Association of Towns and Townships, (9) County
Executives of America, and (10) Environmental Council of States.
The National Association of Clean Air Agencies also
participated. On February 26, 2014, the EPA re-engaged with
those governmental entities to provide a pre-proposal update on
the emission guidelines for existing EGUs and emission standards
for modified and reconstructed EGUs. In addition, as described
in section III.A of the preamble to the proposed carbon
pollution emission guidelines for existing EGUs (79 FR 3484534847; June 18, 2014), extensive stakeholder outreach conducted
by the EPA allowed state leaders, including governors, state
attorneys general, environmental commissioners, energy officers,
public utility commissioners, and air directors, opportunities
to engage with EPA officials and provide input regarding
reducing carbon pollution from power plants.
In the spirit of Executive Order 13132, and consistent with
the EPA’s policy to promote communications between the EPA and
state and local governments, the EPA specifically solicited
comment on the proposed action from state and local officials.
The EPA received comments from over 400 entities representing
state and local governments.
Several themes emerged from state and local government
comments. Commenters raised concerns with the building blocks
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that comprise the best system of emission reduction (BSER),
including the stringency of the building blocks, and the timing
of achieving interim CO2 levels. They also identified the
potential for electric system reliability issues and stranded
assets due to the proposed timeframe for plan submittals and CO2
emission reductions. In addition, states commented on state plan
development and implementation topics, including state plan
approaches, early actions, trading programs, interstate
crediting for RE, and EPA guidance and outreach.
Commenters identified overarching concerns regarding the
stringency of the CO2 goals and the timeframe for achieving
reductions that encompassed the building blocks, the BSER, and
associated timing for achievement of interim CO2 levels. State
commenters, in particular, identified changes to the stringency
of the building blocks, concerns with the timeframe over which
reductions must be achieved, and concerns with the approaches
and measures used for the BSER. For the final rule, in response
to stakeholder comments, the EPA has made refinements to the
building blocks, the period of time over which measures are
deployed, and the stringency of emission limitations that those
measures can achieve in a practical and reasonable cost way. The
final BSER reflects those refinements.
To many commenters, the proposal’s 2020 compliance date,
together with the stringency of the interim CO2 goal, bore
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significant reliability implications. In this final rule, the
agency is addressing those concerns via adjustments to the
compliance timeframe (an 8-year interim period that begins in
2022) and to the approach for meeting interim CO2 emission
performance rates (a glide path separated into three steps,
2022-2024, 2025-2027, and 2028-2029), as well as a more gradual
phase in of the emission reduction expectations. These
adjustments provide more time for planning, consultation and
decision making in the formulation of state plans and in EGUs’
choices of compliance strategies. The final rule also retains
flexibilities presented in the proposal and offers additional
opportunities, including opportunities for trading within and
between states, and other multi-state compliance approaches that
will further support electric system reliability. The EPA is
also requiring each state to demonstrate in its final state that
it has considered electric system reliability issues in
developing its plan - and is providing the time to do so. Even
with this foundation of flexibility in place, these final
guidelines further provide states with the option of proposing
amendments to approved plans in the event that unanticipated and
significant reliability challenges arise.
Commenters provided compelling information indicating that
it will take longer than the agency initially anticipated to for
states to complete the tasks necessary to finalize a state plan,
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including administrative and potential legislative processes.
Recognizing this, as well as the urgent need for actions to
reduce GHG emissions, the EPA is requiring states to make an
initial submittal by September 6, 2016, and is allowing states
two additional years to submit a final plan, if justified (to be
submitted by September 6, 2018).
States commented on state plan development and
implementation topics that included state plan approaches, early
actions being taken into account, trading programs being
allowed, interstate crediting for RE being allowed, and guidance
and outreach being provided by the EPA. For the state plan
approaches, commenters expressed concerns with the proposed
“portfolio approach” for state plans, including concerns with
enforceability of requirements, and identified a “state
commitment approach” with backstop measures as an option for
state plans. In this final rule, in response to stakeholder
comments on the portfolio approach and alternative approaches,
the EPA is finalizing a “state measures” approach that includes
a requirement for the inclusion of backstop measures.
State commenters supported providing incentives for states
and utilities to deploy CO2-reducing investments, such as RE and
demand-side EE measures, as early as possible. The EPA
recognizes the value of such early actions, and in this final
rule is establishing the CEIP to provide opportunities for
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investment in RE and demand-side EE projects that deliver
results in 2020 and/or 2021.
Many state commenters supported the use of mass-based and
rate-based emission trading programs in state plans, including
interstate emission trading programs. The EPA also received a
number of comments from states and stakeholders about the value
of EPA support in developing and/or administering tracking
systems to support state administration of rate-based and massbased emission trading programs. In this final rule, states may
use trading or averaging approaches and technologies or
strategies that are not explicitly mentioned in any of the three
building blocks as part of their overall plans, as long as they
achieve the required emission reductions from affected fossilfuel-fired EGUs. In addition, in response to concerns from
states and power companies that the need for up-front interstate
cooperation in developing multi-state plans could inhibit the
development of interstate programs that could lower cost, the
final rule provides additional options to allow individual EGUs
to use creditable out-of-state reductions to achieve required CO2
reductions, without the need for up-front interstate agreements.
The EPA is committed to working with states to provide support
for tracking of emissions and allowances or credits, to help
implement multi-state trading or averaging approaches.
In their comments, many states identified the need for the
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EPA to provide guidance, including guidance on RE and EE
emission measurement and verification (EM&V), and to maintain
regular contact/forums with states throughout the implementation
process. To provide state and local governments and other
stakeholders with an understanding of the rule requirements, and
to provide efficiencies where possible and reduce the cost and
administrative burden, the EPA will continue outreach throughout
the plan development and submittal process. Outreach will
include opportunities for states to participate in briefings,
teleconferences, and meetings about the final rule. The EPA’s 10
regional offices will continue to be the entry point for states
and tribes to ask technical and policy questions. The agency
will host (or partner with appropriate groups to co-host) a
number of webinars about various components of the final rule
during the first two months after the final rule is issued. The
EPA will use information from this outreach process to inform
the training and other tools that will be of most use to the
states and tribes that are implementing the final rule. The EPA
expects to issue guidance on specific topics, including
evaluation, measurement and verification (EM&V) for RE and
demand-side EE, state-community engagement, and resources and
financial assistance for RE and demand-side EE. As guidance
documents, tools, templates and other resources become
available, the EPA, in consultation with the U.S. Department of
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Energy and other federal agencies, will continue to make these
resources available via a dedicated website.
A list of the state and local government commenters has
been provided to OMB and has been placed in the docket for this
rulemaking. In addition, the detailed response to comments from
these entities is contained in the EPA’s response to comments
document on this final rulemaking, which has also been placed in
the docket for this rulemaking.
As required by section 8(a) of Executive Order 13132, the
EPA included a certification from its Federalism Official
stating that the EPA had met the Executive Order’s requirements
in a meaningful and timely manner when it sent the draft of this
final action to OMB for review pursuant to Executive Order
12866. A copy of the certification is included in the public
version of the official record for this final action.
F. Executive Order 13175: Consultation and Coordination with
Indian Tribal Governments
This action has tribal implications. However, it will
neither impose substantial direct compliance costs on federally
recognized tribal governments, nor preempt tribal law. Tribes
are not required to develop or adopt CAA programs, but they may
apply to the EPA for treatment in a manner similar to states
(TAS) and, if approved, do so. As a result, tribes are not
required to develop plans to implement the guidelines under CAA
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section 111(d) for affected EGUs in their areas of Indian
country. To the extent that a tribal government seeks and
attains TAS status for that purpose, these emission guidelines
would require that planning requirements be met and emission
management implementation plans be executed by the tribes. The
EPA notes that this rule does not directly impose specific
requirements on affected EGUs, including those located in areas
of Indian country, but provides guidance to any tribe approved
by the EPA to address CO2 emissions from EGUs subject to section
111(d) of the CAA. The EPA also notes that none of the affected
EGUs are owned or operated by tribal governments.
As described in sections III.A and XI.F of the preamble to
the proposed carbon pollution emission guidelines for existing
EGUs (79 FR 34845-34847; June 18, 2014) and sections II.D and
VI.F of the preamble to the proposed carbon pollution emission
guidelines for existing EGUs in Indian Country and U.S.
Territories (79 FR 65489; November 4, 2014), the rule was
developed after extensive and vigorous outreach to tribal
governments. These tribes expressed varied points of view. Some
tribes raised concerns about the impacts of the regulations on
EGUs located in their areas of Indian country and the subsequent
impact on jobs and revenue for their tribes. Other tribes
expressed concern about the impact the regulations would have on
the cost of water covered under treaty to their communities as a
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result of increased costs to the EGU that provide energy to
transport the water to the tribes. Other tribes raised concerns
about the impacts of climate change on their communities,
resources, ways of life and hunting and treaty rights. The
tribes were also interested in the scope of the guidelines being
considered by the agency (e.g., over what time period,
relationship to state and multi-state plans) and how tribes will
participate in these planning activities.
The EPA consulted with tribal officials under the EPA
Policy on Consultation and Coordination with Indian Tribes early
in the process of developing this action to permit them to have
meaningful and timely input into its development. A summary of
that consultation follows.
Prior to issuing the supplemental proposal on November 4,
2014, the EPA consulted with tribes as follows. The EPA held a
consultation with the Ute Tribe, the Crow Nation, and the
Mandan, Hidatsa, Arikara (MHA) Nation on July 18, 2014. On
August 22, 2014, the EPA held a consultation with the Fort
Mojave Tribe. On September 15, 2014, the EPA held a consultation
with the Navajo Nation. The Navajo Nation sent a letter to the
EPA on September 18, 2014, summarizing the information presented
at the consultation and the Navajo Nation’s position on the
supplemental proposal. One issue raised by tribal officials was
the potential impacts of the June 18, 2014 proposal and the
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supplemental proposal on tribes with budgets that are dependent
on revenue from coal mines and power plants, as well as
employment at the mines and power plants. The tribes noted the
high unemployment rates and lack of access to basic services on
their lands. Tribal officials also asked whether the rules will
have any impact on a tribe’s ability to seek TAS. Tribal
officials also expressed interest in agency actions with regard
to facilitating power plant compliance with regulatory
requirements. The Navajo Nation made the following
recommendations in their letter of September 18, 2014: the
Navajo Nation supports a mass-based CO2 emission standard based
on the highest historical CO2 emissions since 1996; the Navajo
Nation requests that the EPA grant the Navajo Nation carbon
credits and that the Navajo Nation retains ownership and control
of such credits; building block 2 is not appropriate for the
Navajo Nation because there are no NGCC plants located on the
Navajo Nation; building block 3 is not appropriate for the
Navajo Nation because the Navajo people already receive
virtually all of their electricity from carbon-free sources
(mostly hydroelectric power) and their use of electricity is
negligible compared to the generation at the power plants;
building block 4 is not appropriate for the Navajo Nation
because of the inadequate access to electricity, and the goal
should allow for an increase in energy consumption on the Navajo
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Nation; the supplemental proposal should consider the useful
life of the power plants located on the Navajo Nation; and the
supplemental proposal should clarify that RE projects located
within the Navajo Nation that provide electricity outside the
Navajo Nation should be counted toward meeting the relevant
state’s RE goals under the Clean Power Plan.
After issuing the supplemental proposal, the EPA held
additional consultation with tribes. On November 18, 2014, the
EPA held consultations with the following tribes: Fort McDowell
Yavapai Nation, Fort Mojave Tribe, Hopi Tribe, Navajo Nation,
and Ak-Chin Indian Community. A consultation with the Ute Indian
Tribe of the Uintah and Ouray Reservation was held on December
16, 2014 and with the Gila River Indian Community on January 15,
2015. The Navajo Nation reiterated the concerns raised during
the previous consultation. Several tribes also again indicated
that they wanted to ensure they would be included in the
development of any tribal or federal plans for areas of Indian
country. The Fort Mojave Tribe and the Navajo Nation expressed
concern with using data from 2012 as the basis for the goal for
their areas of Indian country; in their view, that year was not
representative for the affected EGU. On April 28, 2015, the EPA
held an additional consultation with the Navajo Nation. The
issues raised by the Navajo Nation during the consultation
included whether the EPA has the authority to set less stringent
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standards on a case-by-case basis, and a suggested “parity glide
path” that would account and adjust for the very low electricity
usage by the Navajo Nation and promote Navajo Nation economic
growth and demand. Furthermore, on July 7, 2015 the EPA
conducted an additional consultation with the Navajo Nation. One
of the goals of the consultation was for the new government of
the Navajo Nation to deepen their understanding of the
rulemaking. The questions raised by the nation had to do with
goal setting and carbon credits, the timing of the rulemaking,
and the proposed federal plan. Additionally, on July 14, 2015
the EPA conducted an additional consultation with the Fort
Mojave Tribe. The Fort Mojave tribes expressed concerns that
2012 is not a representative year, that natural gas-fired
combined cycle power plants should be treated differently from
coal-fired power plants, and that the proposed goal for Fort
Mojave was not appropriate. Additionally, they also expressed
interest in being engaged in the federal plan process. Responses
to these comments and others received are available in the
Response to Comment Document that is in the docket for this
rulemaking. As required by section 7(a), the EPA’s Tribal
Consultation Official has certified that the requirements of the
executive order have been met in a meaningful and timely manner.
A copy of the certification is included in the docket for this
action.
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G. Executive Order 13045: Protection of Children from
Environmental Health Risks and Safety Risks
This action is subject to Executive Order 13045 (62 FR
19885, April 23, 1997) because it is an economically significant
regulatory action as defined by Executive Order 12866, and the
EPA believes that the environmental health or safety risk
addressed by this action has a disproportionate effect on
children. Accordingly, the agency has evaluated the
environmental health and welfare effects of climate change on
children.
CO2 is a potent GHG that contributes to climate change and
is emitted in significant quantities by fossil fuel-fired power
plants. The EPA believes that the CO2 emission reductions
resulting from implementation of these final guidelines, as well
as substantial ozone and PM2.5 emission reductions as a cobenefit, will further improve children’s health.
The assessment literature cited in the EPA’s 2009
Endangerment Finding concluded that certain populations and
lifestages, including children, the elderly, and the poor, are
most vulnerable to climate-related health effects. The
assessment literature since 2009 strengthens these conclusions
by providing more detailed findings regarding these groups’
vulnerabilities and the projected impacts they may experience.

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These assessments describe how children’s unique
physiological and developmental factors contribute to making
them particularly vulnerable to climate change. Impacts to
children are expected from heat waves, air pollution, infectious
and waterborne illnesses, and mental health effects resulting
from extreme weather events. In addition, children are among
those especially susceptible to most allergic diseases, as well
as health effects associated with heat waves, storms, and
floods. Additional health concerns may arise in low income
households, especially those with children, if climate change
reduces food availability and increases prices, leading to food
insecurity within households.
More detailed information on the impacts of climate change
to human health and welfare is provided in section II.A of this
preamble.
H. Executive Order 13211: Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use
This action, which is a significant regulatory action under
EO 12866, is likely to have a significant effect on the supply,
distribution, or use of energy. The EPA has prepared a Statement
of Energy Effects for this action as follows. We estimate a 1 to
2 percent change in retail electricity prices on average across
the contiguous U.S. in 2025, and a 22 to 23 percent reduction in
coal-fired electricity generation as a result of this rule. The
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EPA projects that utility power sector delivered natural gas
prices will increase by up to 2.5 percent in 2030. For more
information on the estimated energy effects, please refer to the
economic impact analysis for this proposal. The analysis is
available in the RIA, which is in the public docket.
I. National Technology Transfer and Advancement Act (NTTAA)
This rulemaking does not involve technical standards.
J. Executive Order 12898: Federal Actions to Address
Environmental Justice in Minority Populations and Low-Income
Populations
Executive Order 12898 (59 FR 7629; February 16, 1994)
establishes federal executive policy on environmental justice.
Its main provision directs federal agencies, to the greatest
extent practicable and permitted by law, to make environmental
justice part of their mission by identifying and addressing, as
appropriate, disproportionately high and adverse human health or
environmental effects of their programs, policies, and
activities on minority populations and low-income populations in
the U.S. The EPA defines environmental justice as the fair
treatment and meaningful involvement of all people regardless of
race, color, national origin, or income with respect to the
development, implementation, and enforcement of environmental
laws, regulations, and policies. The EPA has this goal for all
communities and persons across this Nation. It will be achieved
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when everyone enjoys the same degree of protection from
environmental and health hazards and equal access to the
decision-making process to have a healthy environment in which
to live, learn, and work.
Leading up to this rulemaking the EPA summarized the public
health and welfare effects of GHG emissions in its 2009
Endangerment Finding. See, section VIII.A of this preamble where
the EPA summarizes the public health and welfare impacts from
GHG emissions that were detailed in the 2009 Endangerment
Finding under CAA section 202(a)(1).1070 As part of the
Endangerment Finding, the Administrator considered climate
change risks to minority populations and low-income populations,
finding that certain parts of the population may be especially
vulnerable based on their characteristics or circumstances.
Populations that were found to be particularly vulnerable to
climate change risks include the poor, the elderly, the very
young, those already in poor health, the disabled, those living
alone, and/or indigenous populations dependent on one or a few
resources. See sections XII.F and XII.G, above, where the EPA
discusses Consultation and Coordination with Tribal Governments
and Protection of Children. The Administrator placed weight on

1070

“Endangerment and Cause or Contribute Findings for Greenhouse
Gases Under Section 202(a) of the Clean Air Act,” 74 FR 66496
(Dec. 15, 2009) (“Endangerment Finding”).
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the fact that certain groups, including children, the elderly,
and the poor, are most vulnerable to climate-related health
effects.
The record for the 2009 Endangerment Finding summarizes the
strong scientific evidence in the major assessment reports by
the U.S. Global Change Research Program (USGCRP), the
Intergovernmental Panel on Climate Change (IPCC), and the
National Research Council (NRC) of the National Academies that
the potential impacts of climate change raise environmental
justice issues. These reports concluded that poor communities
can be especially vulnerable to climate change impacts because
they tend to have more limited adaptive capacities and are more
dependent on climate-sensitive resources such as local water and
food supplies. In addition, Native American tribal communities
possess unique vulnerabilities to climate change, particularly
those impacted by degradation of natural and cultural resources
within established reservation boundaries and threats to
traditional subsistence lifestyles. Tribal communities whose
health, economic well-being, and cultural traditions that depend
upon the natural environment will likely be affected by the
degradation of ecosystem goods and services associated with
climate change. The 2009 Endangerment Finding record also
specifically noted that Southwest native cultures are especially
vulnerable to water quality and availability impacts. Native
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Alaskan communities are already experiencing disruptive impacts,
including coastal erosion and shifts in the range or abundance
of wild species crucial to their livelihoods and well-being.
The most recent assessments continue to strengthen
scientific understanding of climate change risks to minority
populations and low-income populations in the U.S.1071 The new
assessment literature provides more detailed findings regarding
these populations’ vulnerabilities and projected impacts they
may experience. In addition, the most recent assessment reports
provide new information on how some communities of color (more
specifically, populations defined jointly by ethnic/racial
characteristics and geographic location) may be uniquely

1071

Melillo, Jerry M., Terese (T.C.) Richmond, and Gary W. Yohe,
Eds., 2014: Climate Change Impacts in the United States: The
Third National Climate Assessment. U.S. Global Change Research
Program, 841 pp.
IPCC, 2014: Climate Change 2014: Impacts, Adaptation, and
Vulnerability. Part A: Global and Sectoral Aspects. Contribution
of Working Group II to the Fifth Assessment Report of the
Intergovernmental Panel on Climate Change [Field, C.B., V.R.
Barros, D.J. Dokken, K.J. Mach, M.D. Mastrandrea, T.E. Bilir, M.
Chatterjee, K.L. Ebi, Y.O. Estrada, R.C. Genova, B. Girma, E.S.
Kissel, A.N. Levy, S. MacCracken, P.R. Mastrandrea, and L.L.
White (eds.)]. Cambridge University Press, 1132 pp.
IPCC, 2014: Climate Change 2014: Impacts, Adaptation, and
Vulnerability. Part B: Regional Aspects. Contribution of Working
Group II to the Fifth Assessment Report of the Intergovernmental
Panel on Climate Change [Barros, V.R., C.B. Field, D.J. Dokken,
M.D. Mastrandrea, K.J. Mach, T.E. Bilir, M. Chatterjee, K.L.
Ebi, Y.O. Estrada, R.C. Genova, B. Girma, E.S. Kissel, A.N.
Levy, S. MacCracken, P.R. Mastrandrea, and L.L. White (eds.)].
Cambridge University Press, 688 pp.
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vulnerable to climate change health impacts in the U.S. These
reports find that certain climate change related impacts—
including heat waves, degraded air quality, and extreme weather
events—have disproportionate effects on low-income populations
and some communities of color, raising environmental justice
concerns. Existing health disparities and other inequities in
these communities increase their vulnerability to the health
effects of climate change. In addition, assessment reports also
find that climate change poses particular threats to health,
well-being, and ways of life of indigenous peoples in the U.S.
As the scientific literature presented above and as the
2009 Endangerment Finding illustrates, low income populations
and some communities of color are especially vulnerable to the
health and other adverse impacts of climate change. The EPA
believes that communities will benefit from this final
rulemaking because this action directly addresses the impacts of
climate change by limiting GHG emissions through the
establishment of CO2 emission guidelines for existing affected
fossil fuel-fired EGUs.
In addition to reducing CO2 emissions, the guidelines
finalized in this rulemaking would reduce other emissions from
affected EGUs that reduce generation due to higher adoption of
EE and RE. These emission reductions will include SO2 and NOx,
which form ambient PM2.5 and ozone in the atmosphere, and
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hazardous air pollutants (HAP), such as mercury and hydrochloric
acid. In the final rule revising the annual PM2.5 NAAQS,1072 the
EPA identified low-income populations as being a vulnerable
population for experiencing adverse health effects related to PM
exposures. Low-income populations have been generally found to
have a higher prevalence of pre-existing diseases, limited
access to medical treatment, and increased nutritional
deficiencies, which can increase this population’s
susceptibility to PM-related effects.1073 In areas where this
rulemaking reduces exposure to PM2.5, ozone, and methylmercury,
low-income populations will also benefit from such emissions
reductions. The RIA for this rulemaking, included in the docket
for this rulemaking, provides additional information regarding
the health and ecosystem effects associated with these emission
reductions.
Additionally, as outlined in the community and
environmental justice considerations section IX of this
preamble, the EPA has taken a number of actions to help ensure
that this action will not have potential disproportionately high

1072

“National Ambient Air Quality Standards for Particulate
Matter, Final Rule,” 78 FR 3086 (Jan. 15, 2013).
1073
U.S. Environmental Protection Agency (U.S. EPA). 2009.
Integrated Science Assessment for Particulate Matter (Final
Report). EPA-600-R-08-139F. National Center for Environmental
Assessment – RTP Division. December. Available on the Internet
at <http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=216546>.
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and adverse human health or environmental effects on
overburdened communities. The EPA consulted its May 2015,
Guidance on Considering Environmental Justice During the
Development of Regulatory Actions, when determining what actions
to take.1074 As described in the community and environmental
justice considerations section of this preamble the EPA also
conducted a proximity analysis, which is available in the docket
of this rulemaking and is discussed in section IX. Additionally,
as outlined in sections I and IX of this preamble, the EPA has
engaged with communities throughout this rulemaking and has
devised a robust outreach strategy for continual engagement
throughout the implementation phase of this rulemaking.
K. Congressional Review Act (CRA)
This final action is subject to the CRA, and the EPA will
submit a rule report to each House of the Congress and to the
Comptroller General of the United States. This action is a
“major rule” as defined by 5 U.S.C. 804(2).
XIII. Statutory Authority
The statutory authority for this action is provided by
sections 111, 301, 302, and 307(d)(1)(C) of the CAA as amended

Guidance on Considering Environmental Justice During the
Development of Regulatory Actions.
http://epa.gov/environmentaljustice/resources/policy/considering
-ej-in-rulemaking-guide-final.pdf. May 2015.
1074

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(42 U.S.C. 7411, 7601, 7602, 7607(d)(1)(C)). This action is also
subject to section 307(d) of the CAA (42 U.S.C. 7607(d)).

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 Carbon Pollution
Emission Guidelines for Existing Stationary Sources: Electric
Utility Generating Units
Page 1445 of 1560
List of Subjects in 40 CFR Part 60
Environmental protection, Administrative practice and
procedure, Air pollution control, Intergovernmental relations,
Reporting and recordkeeping requirements.

Dated: ___________________.

____________________
Gina McCarthy,
Administrator.

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For the reasons stated in the preamble, title 40, chapter I,
part 60 of the Code of the Federal Regulations is amended as
follows:
PART 60--STANDARDS OF PERFORMANCE FOR NEW STATIONARY SOURCES
1. The authority citation for Part 60 continues to read as
follows:
Authority: 42 U.S.C. 7401 et seq.
2. Add subpart UUUU to read as follows:
Subpart--UUUU Emission Guidelines for Greenhouse Gas Emissions
and Compliance Times for Electric Utility Generating Units
Sec.
Introduction
60.5700
What is the purpose of this subpart?
60.5705
Which pollutants are regulated by this subpart?
60.5710
Am I affected by this subpart?
60.5715
What is the review and approval process for my State
plan?
60.5720
What if I do not submit a plan or my plan is not
approvable?
60.5725
In lieu of a State plan submittal, are there other
acceptable option(s) for a State to meet its section
111(d) obligations?
60.5730
Is there an approval process for a negative
declaration letter?
60.5735
What authorities will not be delegated to State,
local, or tribal agencies?
60.5736
Will the EPA impose any sanctions?
60.5737
What is the Clean Energy Incentive Program and how do
I participate?
State and Multi-State Plan Requirements
60.5740
What must I include in my federally enforceable State
or multi-State plan?
60.5745
What must I include in my final plan submittal?
60.5750
Can I work with other States to develop a multi-State
plan?
60.5760
What are the timing requirements for submitting my
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60.5765
60.5770
60.5775
60.5780
60.5785
60.5790

plan?
What must I include in an initial submittal if
requesting an extension for a final plan submittal?
What schedules, performance periods, and compliance
periods must I include in my plan?
What emission standards must I include in my plan?
What State measures may I rely upon in support of my
plan?
What is the procedure for revising my plan?
What must I do to meet my plan obligations?

Emission Rate Credit Requirements
60.5795
What affected EGUs qualify for generation of ERCs?
60.5800
What other resources qualify for issuance of ERCs?
60.5805
What is the process for the issuance of ERCs?
60.5810
What applicable requirements are there for an ERC
tracking system?
Mass Allocations Requirements
60.5815
What are the requirements for State allocation of
allowances in a mass-based program?
60.5820
What are my allowance tracking requirements?
60.5825
What is the process for affected EGUs to demonstrate
compliance in a mass-based program?
Evaluation Measurement
Verification
60.5830
What are the
resources?
60.5835
What are the
resources?

and Verification Plans and Monitoring and
Reports
requirements for EM&V plans for eligible
requirements for M&V reports for eligible

Applicability of Plans to Affected EGUs
60.5840
Does this subpart directly affect EGU owners and
operators in my State?
60.5845
What affected EGUs must I address in my State plan?
60.5850
What EGUs are excluded from being affected EGUs?
60.5855
What are the CO2 emission performance rates for
affected EGUs?
60.5860
What applicable monitoring, recordkeeping, and
reporting requirements do I need to include in my plan
for affected EGUs?
Recordkeeping and Reporting Requirements
60.5865
What are my recordkeeping requirements?
60.5870
What are my reporting and notification requirements?
60.5875
How do I submit information required by these emission
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guidelines to the EPA?
Definitions
60.5880
What definitions apply to this subpart?
Table 1 to Subpart UUUU of Part 60—CO2 Emission Performance Rates
(Pounds of CO2 per Net MWh)
Table 2 to Subpart UUUU of Part 60—Statewide Rate-based CO2
Emission Goals (Pounds of CO2 per Net MWh)
Table 3 to Subpart UUUU of Part 60—Statewide Mass-based CO2
Emission Goals (Short Tons of CO2)
Table 4 to Subpart UUUU of Part 60—Statewide Mass-based CO2
Emission Goals plus New Source CO2 Emission Complement
(Short Tons of CO2)

Introduction
§60.5700

What is the purpose of this subpart?

This subpart establishes emission guidelines and approval
criteria for State or multi-State plans that establish emission
standards limiting greenhouse gas (GHG) emissions from an
affected steam generating unit, integrated gasification combined
cycle (IGCC), or stationary combustion turbine. An affected
steam generating unit, IGCC, or stationary combustion turbine
shall, for the purposes of this subpart, be referred to as an
affected EGU. These emission guidelines are developed in
accordance with sections 111(d) of the Clean Air Act and subpart
B of this part. To the extent any requirement of this subpart is
inconsistent with the requirements of subparts A or B of this
part, the requirements of this subpart will apply.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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§60.5705

Which pollutants are regulated by this subpart?

(a) The pollutants regulated by this subpart are greenhouse
gases. The emission guidelines for greenhouse gases established
in this subpart are expressed as carbon dioxide (CO2) emission
performance rates and equivalent statewide CO2 emission goals.
(b) PSD and Title V Thresholds for Greenhouse Gases.
(1) For the purposes of §51.166(b)(49)(ii), with
respect to GHG emissions from facilities, the “pollutant
that is subject to the standard promulgated under section
111 of the Act” shall be considered to be the pollutant
that otherwise is subject to regulation under the Act as
defined in §51.166(b)(48) and in any State Implementation
Plan (SIP) approved by the EPA that is interpreted to
incorporate, or specifically incorporates, §51.166(b)(48)
of this chapter.
(2) For the purposes of §52.21(b)(50)(ii), with
respect to GHG emissions from facilities regulated in the
plan, the “pollutant that is subject to the standard
promulgated under section 111 of the Act” shall be
considered to be the pollutant that otherwise is subject to
regulation under the Act as defined in §52.21(b)(49) of
this chapter.
(3) For the purposes of §70.2 of this chapter, with respect
to greenhouse gas emissions from facilities regulated in the
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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plan, the “pollutant that is subject to any standard promulgated
under section 111 of the Act” shall be considered to be the
pollutant that otherwise is "subject to regulation" as defined
in §70.2 of this chapter.
(4) For the purposes of §71.2, with respect to greenhouse
gas emissions from facilities regulated in the plan, the
“pollutant that is subject to any standard promulgated under
section 111 of the Act” shall be considered to be the pollutant
that otherwise is "subject to regulation" as defined in §71.2 of
this chapter.
§60.5710

Am I affected by this subpart?

If you are the Governor of a State in the contiguous United
States with one or more affected EGUs that commenced
construction on or before January 8, 2014, you must submit a
State or multi-State plan to the U.S. Environmental Protection
Agency (EPA) that implements the emission guidelines contained
in this subpart. If you are the Governor of a State in the
contiguous United States with no affected EGUs for which
construction commenced on or before January 8, 2014, in your
State, you must submit a negative declaration letter in place of
the State plan.
§60.5715

What is the review and approval process for my plan?

The EPA will review your plan according to §60.27 except
that under §60.27(b) the Administrator will have 12 months after
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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the date the final plan or plan revision (as allowed under
§60.5795) is submitted, to approve or disapprove such plan or
revision or each portion thereof. If you submit an initial
submittal under §60.5765(a) in lieu of a final plan submittal
the EPA will follow the procedure in §60.5765(b).
§60.5720

What if I do not submit a plan or my plan is not

approvable?
(a) If you do not submit an approvable plan the EPA will
develop a Federal plan for your State according to §60.27 except
that under §60.27(d) the EPA will have one year to promulgate a
Federal plan for your State from the date EPA finds you failed
to submit a plan or EPA disapproves your plan. The Federal plan
will implement the emission guidelines contained in this
subpart. Owners and operators of affected EGUs not covered by an
approved plan must comply with a Federal plan implemented by the
EPA for the State.
(b) After a Federal plan has been implemented in your
State, it will be withdrawn when your State submits, and the EPA
approves, a final plan.
§60.5725

In lieu of a State plan submittal, are there other

acceptable option(s) for a State to meet its CAA section 111(d)
obligations?

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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A State may meet its CAA section 111(d) obligations only by
submitting a final State or multi-State plan submittal or a
negative declaration letter (if applicable).
§60.5730

Is there an approval process for a negative

declaration letter?
No. The EPA has no formal review process for negative
declaration letters. Once your negative declaration letter has
been received, the EPA will place a copy in the public docket
and publish a notice in the FEDERAL REGISTER. If, at a later date,
an affected EGU for which construction commenced on or before
January 8, 2014 is found in your State, you will have been found
to have failed to submit a final plan as required, and a Federal
plan implementing the emission guidelines contained in this
subpart will apply to that affected EGU until you submit, and
the EPA approves, a final State plan.
§60.5735

What authorities will not be delegated to State,

local, or tribal agencies?
The authorities that will not be delegated to State, local,
or tribal agencies are specified in paragraphs (a) and (b) of
this section.
(a) Approval of alternatives, not already approved by this
subpart, to the CO2 emission performance rates in Table 1 to this
subpart established under §60.5855.

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(b) Approval of alternatives, not already approved by this
subpart, to the CO2 emissions goals in Tables 2, 3 and 4 to this
subpart established under §60.5855.
§60.5736

Will the EPA impose any sanctions?

The EPA will not withhold any existing federal funds from a
State on account of a State’s failure to submit, implement, or
enforce an approvable plan or plan revision, or to meet any
other requirements under this subpart or subpart B of this part.
§60.5737

What is the Clean Energy Incentive Program and how do

I participate?
(a) This subpart establishes the Clean Energy Incentive
Program (CEIP). Participation in this program is optional. The
program enables States to award early action emission rate
credits (ERCs) and allowances to eligible renewable energy (RE)
or demand-side energy efficiency (EE) projects that generate
megawatt hours (MWh) or reduce end-use energy demand during 2020
and 2021. Eligible projects are those that:
(1) Are located in or benefit a state that has submitted a
final state plan that includes requirements establishing its
participation in the CEIP; and
(2) Commence construction in the case of RE, or commence
operation in the case of demand-side EE, following the
submission of a final state plan to the EPA, or after September

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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6, 2018 for a state that chooses not to submit a final state
plan by that date; and
(3) Generate metered MWh from any type of wind or solar
resources; or
(4) Result in quantified and verified electricity savings
(MWh) through demand-side EE implemented in low-income
communities.
(b) The EPA will award matching ERCs or allowances to
States that award early action ERCs or allowances, up to a limit
equivalent to 300 million tons of CO2 emissions. The awards will
be executed as follows:
(1) For RE projects that generate metered MWh from wind or
solar resources: for every two MWh generated, the project will
receive one early action ERC (or the equivalent number of
allowances) from the state, and the EPA will provide one
matching ERC (or the equivalent number of allowances) to the
state to award to the project.
(2) For EE projects implemented in low-income communities:
for every two MWh in end-use demand savings achieved, the
project will receive two early action ERCs (or the equivalent
number of allowances), and the EPA will provide two matching
ERCs (or the equivalent number of allowances) to the state to
award to the project.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(c) You may participate in this program by including in
your State plan a mechanism that enables issuance of early
action ERCs or allowances by the State to parties effectuating
reductions in the calendar years 2020 and 2021 in a manner that
would have no impact on the emission performance of affected
EGUs required to meet rate-based or mass-based emission
standards during the performance periods. This mechanism is not
required to account for matching ERCs or allowances that may be
issued to the State by the EPA.
(d) If you are submitting an initial submittal by September
6, 2016, you must include a non-binding statement of intent to
participate in the program. If you are submitting a final plan
by September 6, 2016, your State plan must either include
requirements establishing the necessary infrastructure to
implement such a program and authorizing its affected EGUs to
use early action allowances or ERCs as appropriate, or you must
include a non-binding statement of intent as part of its
supporting documentation and revise your plan to include the
appropriate requirements at a later date.
(e) Your final State plan, or plan revision if applicable,
must require that projects eligible to be awarded under this
program be evaluated, monitored, verified, and issued per
applicable requirements of the State plan approved by the EPA as
meeting §60.5805 through §60.5835.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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State and Multi-State Plan Requirements
§60.5740

What must I include in my federally enforceable State

or multi State plan?
(a) You must include the components described in paragraphs
(a)(1) through (5) of this section in your plan submittal. The
final plan must meet the requirements and include the
information required under §60.5745.
(1) Identification of affected EGUs. Consistent with
§60.25(a), you must identify the affected EGUs covered by your
plan and all affected EGUs in your State that meet the
applicability criteria in §60.5845. In addition, you must
include an inventory of CO2 emissions from the affected EGUs
during the most recent calendar year for which data is available
prior to the submission of the plan.
(2) Emission standards. You must include an identification
of all emission standards for each affected EGU according to
§60.5775, compliance periods for each emission standard
according to §60.5770, and a demonstration that the emission
standards, when taken together, achieve the applicable CO2
emission performance rates or CO2 emission goals described in
§60.5855. Allowance systems are an acceptable form of emission
standards under this subpart.
(i) Your plan does not need to include corrective measures
specified in paragraph (a)(2)(ii) of this section if your plan:
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(A) Imposes emission standards on all affected EGUs that,
assuming full compliance by all affected EGUs, mathematically
assure achievement of the CO2 emission performance rates in the
plan for each plan period;
(B) Imposes emission standards on all affected EGUS that,
assuming full compliance by all affected EGUs, mathematically
assure achievement of the CO2 emission goals; or
(C) Imposes emission standards on all affected EGUs that,
assuming full compliance by all affected EGUs, in conjunction
with applicable requirements under state law for EGUs subject to
subpart TTTT of this subpart, assuming the applicable
requirements under state law are met by all EGUs subject to
subpart TTTT of this subpart, achieve the applicable mass-based
CO2 emission goals plus new source CO2 emission complement
allowed for in §60.5790(b)(5).
(ii) If your plan does not meet the requirements of
(a)(2)(i) of this section, your plan must include the
requirement for corrective measures to be implemented if
triggered. Upon triggering corrective measures, if you do not
already have them included in your approved State plan, you must
submit corrective measures to EPA for approval as a plan
revision per the requirements of §60.5785(c). These corrective
measures must ensure that the interim period and final period CO2
emission performance rates or CO2 emission goals are achieved by
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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your affected EGUs, as applicable, and must achieve additional
emission reductions to offset any emission performance
shortfall. Your plan must include the requirement that
corrective measures be triggered and implemented according to
paragraphs (a)(2)(ii)(A) through (H) of this section.
(A) Your plan must include a trigger for an exceedance of
an interim step 1 or interim step 2 CO2 emission performance rate
or CO2 emission goal by 10 percent or greater, either on average
or cumulatively (if applicable).
(B) Your plan must include a trigger for an exceedance of
an interim step 1 goal or interim step 2 goal of 10 percent or
greater based on either reported CO2 emissions with applied plus
or minus adjustments for net CO2 allowances “imports” or
“exports” (if applicable), or based on the adjusted CO2 emission
rate (if applicable).
(C) Your plan must include a trigger for a failure to meet
an interim period goal based on reported CO2 emissions with
applied plus or minus adjustments for net CO2 allowances
“imports” or “exports” (if applicable), or based on the adjusted
CO2 emission rate (if applicable).
(D) Your plan must include a trigger for a failure to meet
the interim period or any final reporting period CO2 emission
performance rate or CO2 emission goal, either on average or
cumulatively (if applicable).
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(E) Your plan must include a trigger for a failure to meet
any final reporting period goal based on reported CO2 emissions
with applied plus or minus adjustments for net CO2 allowances
“imports” or “exports” (if applicable).
(F) Your plan must include a trigger for a failure to meet
the interim period CO2 emission performance rate or CO2 emission
goal based on the adjusted CO2 emission rate (if applicable).
(G) Your plan must include a trigger for a failure to meet
any final reporting period CO2 emission performance rate or CO2
emission goal based on the adjusted CO2 emission rate (if
applicable).
(H) A net import adjustment represents the CO2 emissions
(in tons) equal to the number of net imported CO2 allowances.
This adjustment is added to reported CO2 emissions. Under this
adjustment, such allowances must be issued by a state with an
emission budget trading program that only applies to affected
EGUs (or affected EGUs plus EGUs covered by subpart TTTT of this
part as applicable). A net export adjustment represents the CO2
emissions (in tons) equal to the number of net exported CO2
allowances. This adjustment is subtracted from reported CO2
emissions.
(iii) If your plan relies upon State measures, in addition
to or in lieu of emission standards on your affected EGUs, then
the final State plan must include the information in paragraph
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(a)(3) of this section and the submittal must include the
information listed in §60.5745(a)(6).
(iv) If your plan requires emission standards in addition
to relying upon State measures, then you must demonstrate that
the emission standards and State measures are, when taken
together, results in the achievement of to meet the applicable
mass-based CO2 emission goal described in §60.5855 by your
State’s affected EGUs.
(3) State measures backstop. If your plan relies upon State
measures, you must submit, as part of the plan, a federally
enforceable backstop that includes emission standards for
affected EGUs that will be put into place, if there is a
triggering event listed in paragraph (a)(3)(i) of this section,
within 18 months of the due date of the report required in
paragraph (b) of §60.5870(c). The emission standards on the
affected EGUs as part of the backstop must be able to meet
either the CO2 emission performance rates or mass-based or ratebased CO2 emission goal for your State during the interim and
final periods. You must either submit, along with the backstop
emission standards, provisions to adjust the emission standards
to make up for the prior emission performance shortfall, such
that no modification of the emission standards is necessary in
order to address the emission performance shortfall, or you must
submit, as part of the final plan, backstop emission standards
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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that assure affected EGUs would achieve your State’s CO2 emission
performance rates or emission goals during the interim and final
periods, and then later submit appropriate revisions to the
backstop emission standards adjusting for the shortfall through
the State plan revision process described in §60.5785. The
backstop must also include the requirements in paragraphs
(a)(3)(i) through (iii).
(i) A trigger for the backstop to go into effect upon:
(A) A failure to meet a programmatic milestone;
(B) An exceedance of 10 percent or greater of an interim
step 1 goal or interim step 2 goal based on reported CO2
emissions, with applied plus or minus adjustments for net CO2
allowances “imports” or “exports” (if applicable);
(C) A failure to meet the interim period goal based on
reported CO2 emissions, with applied plus or minus adjustments
for net CO2 allowances “imports” or “exports” (if applicable); or
(D) A failure to meet any final reporting period goal based
on reported CO2 emissions, with applied plus or minus adjustments
for net CO2 allowances “imports” or “exports” (if applicable).
(ii) You may include in your plan any additional triggers
so long as they do not reduce the stringency of the triggers
required under paragraph (a)(3)(i) of this section.
(iii) A schedule for implementation of the backstop once
triggered, and you must identify all necessary State
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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administrative and technical procedures for implementing the
backstop.
(4) Identification of applicable monitoring, reporting, and
recordkeeping requirements for each affected EGU. You must
include in your plan all applicable monitoring, reporting and
recordkeeping requirements for each affected EGU and the
requirements must be consistent with or no less stringent than
the requirements specified in §60.5860.
(5) State reporting. You must include in your plan a
description of the process, contents, and schedule for State
reporting to the EPA about plan implementation and progress
including information required under §60.5870.
(i) You must include in your plan a requirement for a
report to be submitted by July 1, 2021, that demonstrates that
the State has met, or is on track to meet, the programmatic
milestone steps indicated in the timeline required in §60.5770.
(b) You must follow the requirements of subpart B of this
part and demonstrate that they were met in your State plan.
However, the provisions of §60.24(f) shall not apply.
§60.5745

What must I include in my final plan submittal?

(a) In addition to the components of the plan listed in
§60.5740, a final plan submittal to the EPA must include the
information in paragraphs (a)(1) through (13) of this section.
This information must be submitted to the EPA as part of your
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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final plan submittal but will not be codified as part of the
federally enforceable plan upon approval by EPA.
(1) You must include a description of your plan approach
and the geographic scope of the plan (i.e., State or multiState, geographic boundaries related to the plan elements),
including, if applicable, identification of multi-State plan
participants.
(2) You must identify CO2 emission performance rates or
equivalent statewide CO2 emission goals that your affected EGUs
will achieve. If the geographic scope of your plan is a single
State, then you must identify CO2 emission performance rates or
emission goals according to §60.5855. If your plan includes
multiple States and you elect to set CO2 emission performance
goals, you must identify CO2 emission goals calculated according
to §60.5750.
(i) You must specify in the plan submittal the CO2 emission
performance rates or emission goals that affected EGUs will meet
for the interim period, each interim step, and the final period
(including each final reporting period) pursuant to §60.5770.
(3) You must include a demonstration that the affected EGUs
covered by the plan are projected to achieve the CO2 emission
performance rates or CO2 emission goals described in §60.5855.

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(4) You must include a demonstration that each affected
EGU’s emission standard is quantifiable, non-duplicative,
permanent, verifiable, and enforceable according to §60.5775.
(5) If your plan includes emission standards on your
affected EGUs sufficient to meet either the CO2 emission
performance rates or CO2 emision goals, you must include in your
plan submittal the information in paragraphs (a)(5)(i) through
(v) of this section as applicable.
(i) If your plan applies separate rate-based CO2 emission
standards for affected EGUs (in lbs CO2/MWh) that are equal to or
lower than the CO2 emission performance rates listed in Table 1
of this subpart, then no additional demonstration is required
beyond inclusion of the emission standards in the plan.
(ii) If a plan applies rate-based emission standards to
individual affected EGUs at a lbs CO2/MWh rate that differs from
the CO2 emission performance rates in Table 1 of this subpart or
the State’s rate-based CO2 emission goal in Table 2 of this
subpart, then a further demonstration is required that the
application of the CO2 emission standards will achieve the CO2
emission performance rates or State rate-based CO2 goal. You must
demonstrate through a projection that the adjusted weighted
average CO2 emission rate of affected EGUs, when weighted by
generation (in MWh), will be equal to or less than the CO2
emission performance rates or the rate-based CO2 emission goal.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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This projection must address the interim period and the final
period. The projection in the plan submittal must include the
information listed in (a)(5)(v) and in addition the following:
(A) An analysis of the change in generation of affected
EGUs given the compliance costs and incentives under the
application of different emission rate standards across affected
EGUs in a State;
(B) A projection showing how generation is expected to
shift between affected EGUs and across affected EGUs and nonaffected EGUs over time;
(C) Assumptions regarding the availability and anticipated
use of the MWh of electricity generation or electricity savings
from eligible resources that can be issued ERCs;
(D) The specific calculation (or assumption) of how
eligible resource MWh of electricity generation or savings are
being used in the projection to adjust the reported CO2 emission
rate of affected EGUs;
(E) If a state plan provides for the ability of renewable
energy resources located in states with mass-based plans to be
issued ERCs, consideration in the projection that such resources
must meet geographic eligibility requirements, based on power
purchase agreements or related documentation; and
(F) Any other applicable assumptions used in the
projection.
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(iii) If a plan establishes mass-based emission standards
for affected EGUs that cumulatively do not exceed the State’s
EPA-specified mass CO2 emission goal then no additional
demonstration is required beyond inclusion of the emission
standards in the plan.
(iv) If a plan applies mass-based emission standards to
individual affected EGUs that do not meet the requirements of
paragraph (a)(5)(iii) you must include a demonstration that your
mass-based emission program will be designed such that
compliance by affected EGUs would achieve the State mass-based
CO2 emission goals. This demonstration includes the information
listed in paragraph (a)(5)(v) and emission budgets for affected
EGUs during the interim period and final periods that are equal
to or lower than the applicable State mass-based CO2 goals
specified in Table 3 of this subpart.
(v) Your plan demonstration to be included in your plan
submittal, if applicable, must include the information listed in
(a)(5)(v)(A) through (M) of this section.
(A) A summary of each affected EGU’s anticipated future
operation characteristics, including:
(1) Annual generation;
(2) CO2 emissions;
(3) Fuel use, fuel prices (when applicable), fuel carbon
content;
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(4) Fixed and variable operations and maintenance costs
(when applicable);
(5) Heat rates; and
(6) Electric generation capacity and capacity factors.
(B) An identification of any planned new electric
generating capacity.
(C) Analytic treatment of the potential for building
unplanned new electric generating capacity.
(D) A timeline for implementation of EGU-specific actions
(if applicable).
(E) All wholesale electricity prices.
(F) A geographic representation appropriate for capturing
impacts and/or changes in electric system.
(G) A time period of analysis, which must extend through at
least 2031.
(H) An anticipated electricity demand forecast (MWh load
and MW peak demand) at the State or regional level, including
the source and basis for these estimates, and, if appropriate,
justification and documentation of underlying assumptions that
inform the development of the demand forecast (e.g., annual
economic and demand growth rate or population growth rate).
(I) A demonstration that each emission standard included in
your plan meets the requirements of §60.5775.
(J) Any ERC or emission allowance prices, when applicable.
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(K) An identification of State-enforceable measures with
electricity savings and RE generation, in MWh, expected for
individual and collective measures and any assumptions related
to the quantification of the MWh, as applicable.
(L) An identification of planning reserve margins.
(M) Any other applicable assumptions used in the
projection.
(6) If your plan relies upon State measures, in addition to
or in lieu of the emission standards required by paragraph
§60.5740(a)(2), the final State plan submittal must include the
information under paragraphs (a)(5)(iv) and (a)(6)(i) through
(v) of this section.
(i) You must include a description of all the State
measures the State will rely upon to achieve the applicable CO2
emission goals required under §60.5855(e), the projected impacts
of the State measures over time, the applicable State laws or
regulations related to such measures, and identification of
parties or entities implementing such State measures.
(ii) You must include the schedule and milestones for the
implementation of the State measures. If the State measures in
your plan submittal rely upon measures that do not have a direct
effect on the emissions measured at an affected EGU’s stack, you
must also demonstrate how the minimum emission, monitoring and

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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verification (EM&V) requirements listed under §60.5795 that
apply to those programs and projects will be met.
(iii) You must demonstrate that federally enforceable
emission standards for affected EGUs in conjunction with any
State measures relied upon for your plan, are sufficient to
achieve the mass-based CO2 emission goal for the interim period,
each interim step in that interim period, the final period, and
each final reporting period. In addition, you must demonstrate
that each emission standard included in your plan meets the
requirements of §60.5775 and each State measure included in your
plan submittal meets the requirements of §60.5780.
(iv) You must include a CO2 performance projection of your
State measures that shows how the measures will achieve the
future CO2 performance at affected EGUs. Elements of this
projection must include the following for the interim period and
the final period:
(A) A baseline demand and supply forecast as well as the
underlying assumptions and data sources of each forecast;
(B) The magnitude of energy and emission impacts from all
measures included in the plan and applicable assumptions;
(C) An explanation of the tools and emission quantification
approaches used in the projection; and
(D) Underlying emission quantification assumptions.

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(v) A State must demonstrate that the combined Stateenforceable measures, in conjunction with any federally
enforceable CO2 emission standards for affected EGUs, if
included, will result in the achievement by the affected EGUs of
the State’s mass-based CO2 emission goals for the interim period,
interim step, and final reporting periods. In addition, you must
demonstrate that each State measure included in your plan
submittal meets the requirements of §60.5780.
(7) Your plan submittal must include a demonstration that
the reliability of the electrical grid has been considered.
(8) Your plan submittal must include a timeline with all
the programmatic milestone steps the State intends to take
between the time of the State plan submittal and January 1, 2022
to ensure the plan is effective as of January 1, 2022.
(9) Your plan submittal must adequately demonstrate that
your State has the legal authority (e.g., through regulations or
legislation) and funding to implement and enforce each component
of the State plan submittal, including federally enforceable
emission standards for affected EGUs or State measures as
applicable.
(10) Your State plan submittal must demonstrate that each
interim step goal required under §60.5855(c), will be met and
include in its supporting documentation a description of the

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analytic process, tools, methods, and assumptions used to make
this demonstration.
(11) Your plan submittal must include certification that a
hearing required under §60.23(c)(1) on the State plan was held,
a list of witnesses and their organizational affiliations, if
any, appearing at the hearing, and a brief written summary of
each presentation or written submission pursuant to the
requirements of §60.23(f).
(12) Your plan submittal must include documentation of any
conducted community outreach and community involvement,
including engagement with vulnerable communities.
(13) Your plan submittal must include supporting material
for your plan including:
(i) Materials demonstrating the State's legal authority to
carry out each component of its plan, including emissions
standards or State measures;
(ii) Materials supporting that the CO2 emission performance
rates or CO2 emission goals will be achieved by affected EGUs
identified under the plan, according to paragraph (a)(3) of this
section;
(iii) Materials supporting any calculations for CO2 emission
goals calculated according to §60.5855, if applicable; and
(iv) Any other materials necessary to support evaluation of
the plan by the EPA.
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(b) You must submit your final plan to the EPA
electronically according to §60.5875.
§60.5750

Can I work with other States to develop a multi-State

plan?
A multi-State plan must include all the required elements
for a plan specified in §60.5740(a). A multi-State plan must
meet the requirements of paragraphs (a) and (b) of this section.
(a) The multi-State plan must demonstrate that all affected
EGUs in all participating States will meet the CO2 emission
performance rates listed in Table 1 of this subpart or an
equivalent CO2 emission goal according to paragraphs (a)(1) or
(2) of this section. States may only follow the procedures in
(a)(1) or (2) if they have functionally equivalent requirements
meeting §60.5775 and §60.5790 included in their plans.
(1) For States electing to demonstrate performance with a
CO2 emission rate-based goal, the CO2 emission goals identified
in the plan according to §60.5855 will be an adjusted weighted
(by net energy output) average lbs CO2/MWh emission rate to be
achieved by all affected EGUs in the multi-State area during the
plan periods; or
(2) For States electing to demonstrate performance with a
CO2 emission mass-based goal, the CO2 emission goals identified
in the multi-State plan according to §60.5855 will be total CO2
emissions by all affected EGUs in the multi-State area during
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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the plan periods.
(b) Options for submitting a multi-State plan include the
following:
(1) States participating in a multi-State plan may submit
one multi-State plan submittal on behalf of all participating
States. The joint submittal must be signed electronically,
according to §60.5875, by authorized officials for each of the
States participating in the multi-State plan. In this instance,
the joint submittal will have the same legal effect as an
individual submittal for each participating State. The joint
submittal must address plan components that apply jointly for
all participating States and components that apply for each
individual State in the multi-State plan, including necessary
State legal authority to implement the plan, such as State
regulations and statutes.
(2) States participating in a multi-State plan may submit a
single plan submittal, signed by authorized officials from each
participating State, which addresses common plan elements. Each
participating States must, in addition, provide individual plan
submittals that address State-specific elements of the multiState plan.
(3) States participating in a multi-State plan may
separately make individual submittals that address all elements
of the multi-State plan. The plan submittals must be materially
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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consistent for all common plan elements that apply to all
participating States, and also must address individual Statespecific aspects of the multi-State plan. Each individual State
plan submittal must address all required plan components in
§60.5740.
(c) A State may elect to participate in more than one
multi-State plan. If a State elects to participate in more than
one multi-State plan then you must identify in the State plan
submittal required under §60.5745, the subset of affected EGUs
that are subject to the specific multi-State plan or your
State’s individual plan. An affected EGU can only be subject to
one plan.
(d) A State may elect to allow its affected EGUs to
interact with affected EGUs in other States through mass-based
trading programs or a rate-based trading program without
entering into a formal multi-State plan allowed for under this
section, so long as such programs are part of an EPA-approved
state plan.
(1) For States that elect to do mass-based trading under
this option the State must indicate in its plan that its
emission budget trading program will be administered using an
EPA-approved (or EPA-administered) emission and allowance
tracking system.
(2) For States that elect to use a rate-based trading
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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program which allows the affected EGUs to use ERCs from other
State rate-based trading programs, the plan must require
affected EGUs within their State to comply with emission
standards equal to the sub-category CO2 emission performance
rates in Table 1 of this subpart.
§60.5760

What are the timing requirements for submitting my

plan?
(a) You must submit a final plan with the information
required under §60.5745 by September 6, 2016, unless you are
submitting an initial submittal, allowed under §60.5765, in lieu
of a final State plan submittal, according to paragraphs (b) of
this section.
(b) For States seeking a two year extension for a final
plan submittal, you must include the information in §60.5765(a)
in an initial submittal by September 6, 2016, to receive an
extension to submit your final State plan submittal by September
6, 2018.
(c) You must submit all information required under
paragraphs (a) and (b) of this section according to the
electronic reporting requirements in §60.5875.
§60.5765

What must I include in an initial submittal if

requesting an extension for a final plan submittal?
(a) You must sufficiently demonstrate that your State is
able to undertake steps and processes necessary to timely submit
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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a final plan by the extended date of September 6, 2018, by
addressing the following required components in an initial
submittal by September 6, 2016, if requesting an extension for a
final plan submittal:
(1) An identification of final plan approach or approaches
under consideration and description of progress made to date on
the final plan components;
(2) An appropriate explanation of why the State requires
additional time to submit a final plan by September 6, 2018; and
(3) Demonstration or description of opportunity for public
comment on the initial submittal and meaningful engagement with
stakeholders, including vulnerable communities, during the time
in preparation of the initial submittal and the plans for
engagement during development of the final plan.
(b) You must submit an initial submittal allowed in
paragraph (a) of this section, information required under
paragraph (c) of this section (only if a State elects to submit
an initial submittal to request an extension for a final plan
submittal), and a final State plan submittal according to
§60.5870. If a State submits an initial submittal, an extension
for a final State plan submittal is considered granted and a
final State plan submittal is due according to §60.5760(b)
unless a State is notified within 90 days of the EPA receiving
the initial submittal that the EPA finds the initial submittal
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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does not meet the requirements listed in paragraph (a) of this
section and the State has failed to submit the final plan
required by September 6, 2016.
(c) If an extension for submission of a final plan has been
granted, you must submit a progress report by September 6, 2017.
The 2017 report must include the following:
(1) A summary of the status of each component of the final
plan, including an update from the 2016 initial submittal and a
list of which final plan components are not complete.
(2) A commitment to a plan approach (e.g., single or multiState, rate-based or mass-based emission performance level,
rate-based or mass-based emission standards), including draft or
proposed legislation and/or regulations.
(3) An updated comprehensive roadmap with a schedule and
milestones for completing the final plan, including any updates
to community engagement undertaken and planned.
§60.5770

What schedules, performance periods, and compliance

periods must I include in my plan?
(a) The affected EGUs covered by your plan must meet the CO2
emission requirements required under §60.5855 for the interim
period, interim steps, and the final reporting periods according
to paragraph (b) of this section. You must also include in your
plan compliance periods for each affected EGU regulated under
the plan according to paragraphs (c) and (d) of this section.
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(b) Your plan must require your affected EGUs to achieve
each CO2 emission performance rate or CO2 emission goal, as
applicable, required under §60.5855 over the periods according
to paragraphs (b)(1) through (3) of this section.
(1) The interim period.
(2) Each interim step.
(3) Each final reporting period.
(c) The emission standards for affected EGUs regulated
under the plan must include the following compliance periods:
(1) For the interim period, affected EGUs must have
emission standards that have compliance periods that are no
longer than each interim step and are imposed for the entirety
of the interim step either alone or in combination.
(2) For the final period, EGUs must have emission standards
that have compliance periods that are no longer than each final
reporting period and are imposed for the entirety of the final
reporting period either alone or in combination.
(3) Compliance periods for each interim step and each final
reporting period may take forms shorter than specified in this
regulation, provided the schedules of compliance collectively
end on the same schedule as each interim step and final
reporting period.
(d) If your plan relies upon State measures in lieu of or
in addition to emission standards for affected EGUs regulated
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under the plan, then the period for achievement of each State
measure must be identical to the compliance periods for affected
EGUs listed in paragraphs (c)(1) through (3) of this section.
§60.5775

What emission standards must I include in my plan?

(a) Emission standard(s) for affected EGUs under your plan
must be quantifiable, verifiable, non-duplicative, permanent,
and enforceable with respect to each affected EGU. The plan must
include the methods by which each emission standard meets each
of the following requirements in paragraphs (b) through (f) of
this section.
(b) An affected EGU’s emission standard is quantifiable if
it can be reliably measured in a manner that can be replicated.
(c) An affected EGU’s emission standard is verifiable if
adequate monitoring, recordkeeping and reporting requirements
are in place to enable the State and the Administrator to
independently evaluate, measure, and verify compliance with the
emission standard.
(d) An affected EGU’s emission standard is non-duplicative
with respect to a State plan if it is not already incorporated
as an emission standard in another State plan unless
incorporated in multi-State plan.
(e) An affected EGU’s emission standard is permanent if the
emission standard must be met for each compliance period, or
unless it is replaced by another emission standard in an
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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approved plan revision, or the State demonstrates in an
approvable plan revision that the emission reductions from the
emission standard are no longer necessary for the State to meet
its State level of performance.
(f) An affected EGU’s emission standard is enforceable if:
(1) A technically accurate limitation or requirement and
the time period for the limitation or requirement are specified;
(2) Compliance requirements are clearly defined;
(3) The affected EGUs responsible for compliance and liable
for violations can be identified;
(4) Each compliance activity or measure is enforceable as a
practical matter; and
(5) The Administrator, the State, and third parties
maintain the ability to enforce against violations (including if
an affected EGU does not meet its emission standard based on its
emissions, its allowances if it is subject to a mass-based
emission standard, or its ERCs if it is subject to a rate-based
emission standard) and secure appropriate corrective actions, in
the case of the Administrator pursuant to CAA sections 113(a)–
(h), in the case of a State, pursuant to its plan, State law or
CAA section 304, as applicable, and in the case of third
parties, pursuant to CAA section 304.
§60.5780

What State measures may I rely upon in support of my

plan?
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You may rely upon State measures in support of your plan
that are not emission standard(s) on affected EGUs, provided
those State measures meet the requirements in paragraph (a) of
this section.
(a) Each State measure is quantifiable, verifiable, nonduplicative, permanent, and enforceable with respect to each
affected entity (entities other than affected EGUs with no
federally enforceable obligations under a State plan), and your
plan supporting materials include the methods by which each
State measure meets each of the following requirements in
paragraphs (1) through (5) of this subpart.
(1) A State measure is quantifiable with respect to an
affected entity if it can be reliably measured in a manner that
can be replicated.
(2) A State measure is verifiable with respect to an
affected entity if adequate monitoring, recordkeeping and
reporting requirements are in place to enable the State to
independently evaluate, measure, and verify compliance with the
State measure.
(3) A State measure is non-duplicative with respect to an
affected entity if it is not already incorporated as a State
measure or an emission standard in another State plan or State
plan supporting material unless incorporated in multi-State
plan.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(4) A State measure is permanent with respect to an
affected entity if the State measure must be met for at least
each compliance period, or unless it is replaced by another
State measure in an approved plan revision, or the State
demonstrates in an approved plan revision that the emission
reductions from the State measure are no longer necessary for
the State’s affected EGUs to meet its CO2 emission performance
rates.
(5) A State measure is enforceable against an affected
entity if:
(i) A technically accurate limitation or requirement and
the time period for the limitation or requirement are specified;
(ii) Compliance requirements are clearly defined;
(iii) The affected entities responsible for compliance and
liable for violations can be identified;
(iv) Each compliance activity or measure is enforceable as
a practical matter; and
(v) The State maintains the ability to enforce violations
and secure appropriate corrective actions.
§60.5785 What is the procedure for revising my plan?
(a) Plans can be revised only with approval by the
Administrator. The Administrator will approve a plan revision if
it is satisfactory with respect to the applicable requirements
of this subpart and any applicable requirements of subpart B of
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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this part, including the requirement in §60.5745(a)(3) to
demonstrate achievement of the CO2 emission performance rates in
§60.5855. If one (or more) of the elements of the plan set in
§60.5740 require revision with respect to achieving the CO2
emission performance rates in §60.5855, a request must be
submitted to the Administrator indicating the proposed revisions
to the plan to ensure the CO2 emission performance rates are met.
In addition, the following provisions in (b) through (d) may
apply.
(b) You may submit revisions to a plan to adjust CO2
emission goals under the following instances:
(1) Addressing the addition of an affected EGU required to
be included in a plan under §60.5740(a)(1).
(2) Addressing EGUs that become subject to subpart TTTT of
this part and are no longer considered affected EGUs for
incorporation in a plan.
(c) If your State is required to submit a notification
according to section §60.5870(d) indicating a triggering of
corrective measures as described in §60.5740(a)(2)(i) and your
plan does not already include corrective measures to be
implemented if triggered, you must revise your State plan to
include corrective measures to be implemented. The corrective
measures must ensure achievement of the CO2 emission performance
rates or State CO2 emission goal. Additionally, the corrective
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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measures must achieve additional emission reductions to offset
any emission performance shortfall relative to the overall
interim period or final period CO2 emission performance rate or
State CO2 emission goal. The State plan revision submission must
explain how the corrective measures both make up for the
shortfall and address the State plan deficiency that caused the
shortfall. The State must submit the revised plan and explanation
to the EPA within 24 months after submitting the State report
required in section §60.5870(a) indicating the exceedance in
lieu of the requirements of §60.28(a). The State must implement
corrective measures within 6 months of the EPA’s approval of a
plan revision adding them. The shortfall must be made up as
expeditiously as practicable.
(d) If your plan relies upon State measures, your State
triggers the backstop under §60.5740(a)(3)(i), and your State
measures plan backstop does not include a mechanism to make up
the shortfall, you must revise your backstop emission standards
to make up the shortfall. The shortfall must be made up as
expeditiously as practicable.
(e) Reliability Safety Valve
(1) In order to trigger a reliability safety valve, you
must notify the EPA within 48 hours of an unforeseen, emergency
situation that threatens reliability, such that your State will
need a short–term modification of emission standards under a
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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State plan for a specified affected EGU or EGUs. The EPA will
consider the notification in §60.5870(g)(1) to be an approved
short-term modification to the State plan without needing to go
through the full State plan revision process if the State
provides a second notification to the EPA within seven days of
the first notification. The short-term modification under a
reliability safety valve allows modification to emission
standards under the State plan for an affected EGU or EGUs for
an initial period of up to 90 days. During that period of time,
the EGU or EGUs will need to comply with the modified emission
standards identified in the initial notification required under
§60.5870(g)(1) or amended in the second notification required
under §60.5870(g)(2). For the duration of the up to 90-day
short-term modification, the emissions of the affected EGU or
EGUs that exceed their obligations under the approved State plan
will not be counted against the State’s CO2 emission performance
rate or goal. The EPA reserves the right to review any such
notification required under §60.5870(g), and, in the event that
the EPA finds such notification is improper, the EPA may
disallow the short-term modification and affected EGUs must
continue to operate under the approved State plan emission
standards. As described more fully below in §60.5870(g)(3), at
least seven days before the end of the initial 90-day
reliability safety valve period, the State must notify the
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appropriate EPA regional office whether the reliability concern
has been addressed and the EGU or EGUs can resume meeting the
original emission standards established in the State plan prior
to the short-term modification or whether a serious, ongoing
reliability issue necessitates the EGU or EGUs emitting beyond
the amount allowed under the State plan.
(2) Plan revisions submitted pursuant to §60.5870(g)(3)
must meet the requirements for State plan revisions under
§60.5785(a).
§60.5790

What must I do to meet my plan obligations?

(a) To meet your plan obligations, you must demonstrate
that your affected EGUs are complying with their emission
standards as specified in §60.5740, and you must demonstrate
that the emission standards on affected EGUs in conjunction with
any State measures are resulting in achievement of the CO2
emission performance rates or statewide CO2 emission goals using
the procedures in paragraphs (b) through (d) of this section. If
your plan requires the use of allowances for your affected EGUs
to comply with their emission standards, you must follow the
requirements under paragraph (b) of this section and §60.5830.
If your plan requires the use of ERCs for your affected EGUs to
comply with their emission standards, you must follow the
requirements under paragraphs (c) and (d) of this section and
§§60.5795 through 60.5805.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(b) If you submit a plan that sets a mass-based emission
trading program for your affected EGUs, the State plan must
include emission standards and requirements that specify the
allowance system, related compliance requirements and
mechanisms, and the emission budget as appropriate. These
requirements must include those listed in paragraphs (b)(1)
through (5).
(1) CO2 emission monitoring, reporting, and recordkeeping
requirements for affected EGUs.
(2) Requirements for State allocation of allowances
consistent with §60.5815.
(3) Requirements for tracking of allowances, from issuance
through submission for compliance, consistent with §60.5820.
(4) The process for affected EGUs to demonstrate compliance
(allowance “true-up” with reported CO2 emissions) consistent with
§60.5825.
(5) Requirements that address increased emissions from new
sources, beyond the emissions expected from new sources if
existing EGUs were given standards of performance in the form of
the subcategory-specific emission performance rates. You may
meet this requirement by requiring one of the options under
paragraphs (b)(5)(i) through (iii).
(i) You may include, as part of your plan’s supporting
documentation, requirements enforceable as a matter of State law
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regulating emissions from existing affected EGUs and emissions
from EGUs covered by subpart TTTT of this part under the massbased CO2 goal plus new source CO2 emission complement applicable
to your State in Table 4 of this subpart. If you choose this
option, the term “mass-based CO2 goal plus new source CO2
emission complement” shall apply rather than “CO2 mass based
goal” and the term “CO2 emission goal” shall include “mass-based
CO2 goal plus new source CO2 emission complement” in these
emission guidelines.
(ii) You may include requirements in your State plan for
emission budget allowance allocation methods that align
incentives to generate to existing or new sources;
(iii) You may submit an approvable equivalent method which
requires affected EGUs to meet the mass-based CO2 emission goal.
The EPA will evaluate the approvability of such an alternative
method on a case by case basis.
(c) If you submit a plan that sets rate-based emission
standards on your affected EGUs, to meet the requirements of
§60.5775, you must follow the requirements in paragraphs (c)(1)
through (4).
(1) You must require the owner or operator of each affected
EGU covered by your plan to calculate an adjusted CO2 emission
rate to demonstrate compliance with its emission standard by
factoring stack emissions and any ERCs into the following
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equation:
 

 

 

∑

∑
 

∑ 

 

 

Where:
CO2 emission rate = An affected EGU’s calculated CO2
emission rate that will be used to determine
compliance with the applicable CO2 emission
standard.
MCO2 =

Measured CO2 mass in units of pounds (lbs) summed
over the compliance period for an affected EGU.

MWhop =

Total net energy output over the compliance
period for an affected EGU in units of MWh.

MWhERC =

ERC replacement generation for an affected EGU in
units of MWh (ERCs are denominated in whole
integers as specified in paragraph (d) of this
section).

(2) Your plan must specify that an ERC qualifies for the
compliance demonstration specified in paragraph (c)(1) of this
section if the ERC meets the requirements of paragraphs
(c)(2)(i) through (iv).
(i) An ERC must have a unique serial number.
(ii) An ERC must represent one MWh of actual energy
generated or saved with zero associated CO2 emissions.

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(iii) An ERC must only be issued to an eligible resource
that meets the requirements of §60.5795 or to an affected EGU
that meets the requirements of §60.5800 and must only be issued
by a State or its State agent through an EPA-approved ERC
tracking system that meets the requirements of §60.5810, or by
the EPA through an EPA-administered tracking system; and
(iv) An ERC must be surrendered and retired only once for
purpose of compliance with this regulation through an EPAapproved ERC tracking system that meets the requirements of
§60.5810, or by the EPA through an EPA-administered tracking
system.
(3) Your plan must specify that an ERC does not qualify for
the compliance demonstration specified in paragraph (c)(1) of
this section if it does not meet the requirements of paragraph
(c)(2) of this section or if any State has used that same ERC
for purposes of demonstrating achievement of its State measures.
The plan must additionally include provisions that address
requirements for revocation or adjustment that apply if an ERC
issued by the State is subsequently found to have been
improperly issued.
(4) Your plan must include provisions either allowing for
or restricting banking of ERCs between compliance periods for
affected EGUs, and provisions not allowing any borrowing of any

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ERCs from future compliance periods by affected EGUs or eligible
resources.
(d) If you want an affected EGU subject to a rate-based
emission standard (whether under an emission standards plan or
as a part of the federally enforceable backstop in a State
measures plan) to be able to use ERCs issued pursuant to your
State measures to demonstrate compliance with its emission
standard, to meet the requirements of §60.5775, such ERCs must
meet the requirements of paragraphs (c) of this section.
Emission Rate Credit Requirements
§60.5795 What affected EGUs qualify for generation of ERCs?
(a) For issuance of ERCs to affected EGUs, the plan must
specify the accounting method and process for ERC issuance. For
plans that require that affected EGUs meet a rate-based CO2
emission goal, where all affected EGUs have identical emission
standards, you must specify the accounting method listed in
paragraph (a)(1) of this section for generating ERCs. For plans
that require affected EGUs to meet the CO2 emission performance
rates or CO2 emission goals where affected EGUs have emission
standards that are not equal for all affected EGUs, you must
specify the accounting methods listed in paragraphs (a)(1) and
(2) of this section for generating ERCs.
(1) You must include the calculation method for determining
the number of ERCs, denominated in MWh, that may be issued to an
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affected EGU that is in compliance with its emission standard,
based on the difference between its emission standard and its CO2
emission rate for the compliance period; and
(2) You must include the calculation method for determining
the number of ERCs, denominated in MWh, that may be issued to
affected EGUs that meet the definition of a stationary
combustion turbine based on the displaced emissions from
affected EGUs not meeting the definition of a stationary
combustion turbine, resulting from the difference between its
annualized net energy output in MWh for the calendar year(s) in
the compliance period and its net energy output in MWh for the
2012 calendar year (January 1, 2012, through December 31, 2012).
(b) Any ERCs generated through the method described as
required by paragraph (a)(2) must not be used by any affected
EGUs other than steam generating units or IGCCs to demonstrate
compliance as prescribed under §60.5790(c)(1).
(c) Any states in a multi-State plan that requires the use
of ERCs for affected EGUs to comply with their emission
standards must have functionally equivalent requirements
pursuant to paragraphs (a)(1) and (2) of this section for
generating ERCs.
§60.5800 What other resources qualify for issuance of ERCs?
(a) ERCs may only be issued for generation or savings
produced on or after January 1, 2022, to an eligible resource
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that meets each of the requirements in paragraphs (a)(1) through
(4) of this section.
(1) Resources qualifying for eligibility only include
resources that increased new installed electrical generation
nameplate capacity, or new electrical savings measures installed
or implemented on or after January 1, 2013. If a resource had a
nameplate capacity uprate, ERCs may be issued only for the
difference in generation between the uprated nameplate capacity
and its nameplate capacity prior to the uprate. ERCs must not be
issued for generation for an uprate that followed a derate that
occurred on or after January 1, 2013. A resource that is
relicensed or receives a license extension is considered
existing capacity and is not an eligible resource, unless it
receives a capacity uprate as a result of the relicensing
process that is reflected in its relicensed permit. In such a
case, only the difference in nameplate capacity between its
relicensed permit and its prior permit is eligible to be issued
ERCs.
(2) The resource must be connected to, and deliver energy
to or save electricity on, the electric grid in the contiguous
United States.
(3) The resource is located in either:
(i) A State whose affected EGUs are subject to rate-based
emission standards pursuant to this regulation; or
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(ii) A State with mass-based emission standards, and the
resource can demonstrate (e.g., through a power purchase
agreement or contract for delivery) that the electricity
generated is delivered with the intention to meet load in a
State with affected EGUs which are subject to rate-based
emission standards pursuant to this regulation, and was treated
as a generation resource used to serve regional load that
included the State whose affected EGUs are subject to rate-based
emission standards. In this situation the only type of eligible
resource in the State with mass-based emission standards is
renewable generating technologies listed in (a)(4)(i) of this
section.
(4) The resource falls into one of the following categories
of resources:
(i) Renewable electric generating technologies using one of
the following renewable energy resources: wind, solar,
geothermal, hydro, wave, tidal;
(ii) Qualified biomass;
(iii) Waste-to-energy (biogenic portion only);
(iv) Nuclear power;
(v) A non-affected combined heat and power unit, including
waste heat power;
(vi) A demand-side EE or demand-side management measure
that saves electricity and is calculated on the basis of
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quantified ex post savings, not “projected” or “claimed”
savings; or
(vii) A category identified in a State plan and approved
by the EPA to generate ERCs.
(b) Any resource that does not meet the requirements of
this subpart or an approved State plan cannot be issued ERCs for
use by an affected EGU with its compliance demonstration
required under §60.5790(c).
(c) ERCs may not be issued to any of the following:
(1) New, modified, or reconstructed EGUs that are subject
to subpart TTTT of this part, except combined heat and power
(CHP) units that meet the requirements of a CHP unit under
paragraph (a);
(2) EGUs that do not meet the applicability requirements of
§§60.5845 and 60.5850, except CHP units that meet the
requirements of a CHP unit under paragraph (a);
(3) Measures that reduce CO2 emissions outside the electric
power sector, including GHG offset projects representing
emission reductions that occur in the forestry and agriculture
sectors, direct air capture, and crediting of CO2 emission
reductions that occur in the transportation sector as a result
of vehicle electrification; and
(4) Any measure not approved by the EPA for issuance of
ERCs in connection with a specific State plan.
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(d) You must include the appropriate requirements in
paragraphs (d)(1) through (3) for an applicable eligible
resource in your plan.
(1) If qualified biomass is an eligible resource, the plan
must include a description of why the proposed feedstocks or
feedstock categories should qualify as an approach for
controlling increases of CO2 levels in the atmosphere as well as
the proposed valuation of biogenic CO2 emissions. In addition,
for sustainably-derived agricultural and forest biomass
feedstocks, the state plan must adequately demonstrate that such
feedstocks appropriately control increases of CO2 levels in the
atmosphere and methods for adequately monitoring and verifying
these feedstock sources and related sustainability practices.
For all qualified biomass feedstocks, plans must specify how
biogenic CO2 emissions will be monitored and reported, and
identify specific EM&V, tracking and auditing approaches.
(2) If waste-to-energy is an eligible resource, the plan
must assess both their capacity to strengthen existing or
implement new waste reduction, reuse, recycling and composting
programs, and measures to minimize any potential negative
impacts of waste-to-energy operations on such programs.
Additionally the plan must include a method for determining the
proportion of total MWh generation from a waste-to-energy
facility that is eligible for use in adjusting a CO2 emission
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rate (i.e., that which is generated from biogenic materials).
(3) If carbon capture and utilization (CCU) is an eligible
resource in a plan, the plan must include analysis supporting
how the proposed qualifying CCU technology results in CO2
emission mitigation from affected EGUs and provide monitoring,
reporting, and verification requirements to demonstrate the
reductions.
(e) States and areas of Indian country that do not have any
affected EGUs, and other countries, may provide ERCs to adjust
CO2 emissions provided they are connected to the contiguous U.S.
grid and meet the other requirements for eligibility and
eligible resources included in this section.
§60.5805 What is the process for the issuance of ERCs?
If your plan uses ERCs your plan must include the process
and requirements for issuance of ERCs to affected EGUs and
eligible resources set forth in paragraphs (a) through (f) of
this section.
(a) Eligibility application. Your plan must require that,
to receive ERCs, the owner or operator must submit an
eligibility application to you that demonstrates that the
requirements of your State plan as approved by the EPA as
meeting §60.5792 (for an affected EGU) or §60.5800 (for an
eligible resource) are met, and, in the case of an eligible
resource, includes at a minimum:
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(1) Documentation that the eligibility application has only
been submitted to you, or pursuant to an EPA-approved multiState collaborative approach;
(2) An EM&V plan that meets the requirements of the State
plan as approved by the EPA as meeting §60.5795; and
(3) A verification report from an independent verifier that
verifies the eligibility of the eligible resource to be issued
an ERC and that the EM&V plan meets the requirements of the
State plan as approved by the EPA of meeting §60.5795.
(b) Registration of eligible resources. Your plan must
require that any affected EGU or eligible resource register with
an ERC tracking system that meets the requirements of §60.5810
prior to the issuance, and your plan must specify that you will
only register an affected EGU or eligible resource after you
approve its eligibility application and determine that the
requirements of paragraph (a) of this section are met.
(c) M&V reports. For an eligible resource registered
pursuant to paragraph (b) above, your plan must require that,
prior to issuance of ERCs by you, the owner or operator must
submit the following:
(1) An M&V report that meets the requirements of your State
plan as approved by the EPA as meeting §60.5835; and
(2) A verification report from an independent verifier that
verifies that the requirements of the M&V report are met.
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(e) Issuance of ERCs. Your plan must specify your procedure
for issuance of ERCs based on your review of an M&V report and
verification report, and must require that ERCs be issued only
on the basis of energy actually generated or saved, and that
only one ERC is issued for each verified MWh.
(f) Tracking system. Your plan must require that ERCs may
only be issued through an ERC tracking system approved as part
of the State plan.
(g) Error Adjustment. Your plan must include a mechanism to
adjust the number of ERCs issued if any are issued based on
error (clerical, formula input error, etc.).
(h) Qualification status of an eligible resource. Your plan
must include a mechanism to temporarily or permanently revoke
the qualification status of an eligible resource, such that it
can no longer be issued ERCs for at least the duration that it
does not meet the requirements for being issued ERCs in your
State plan.
(i) Qualification status of an independent verifier.
(1) Eligibility. To be an independent verifier, a person
must be approved by the State as:
(A) An independent verifier, as defined by this regulation;
and
(B) Eligible to verify EM&V plans and/or M&V reports per
the requirements of the approved State plan as meeting §§60.5830
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and 60.5835 respectively.
(2) Revocation of qualification. Your plan must include a
mechanism to temporarily or permanently revoke the qualification
status of an independent verifier, such that it can no longer
verify EM&V plans or M&V reports for at least the duration of
the period it does not meet the requirements of your State plan.
§60.5810 What applicable requirements are there for an ERC
tracking system?
(a) Your plan must include provisions for an ERC tracking
system, if applicable, that meets the following requirements:
(1) It electronically records the issuance of ERCs,
transfers of ERCs among accounts, surrender of ERCs by affected
EGUs as part of a compliance demonstration, and retirement or
cancellation of ERCs; and
(2) It documents and provides electronic, internet-based
public access to all information that supports the eligibility
of eligible resources and issuance of ERCs and functionality to
generate reports based on such information, which must include,
for each ERC, an eligibility application, EM&V plan, M&V
reports, and independent verifier verification reports.
(b) If approved in a State plan, an ERC tracking system may
provide for transfers of ERCs to/from another ERC tracking
system approved in a State plan, or provide for transfers of
ERCs to/from an EPA-administered ERC tracking system used to
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administer a federal plan.
Mass Allocation Requirements
§60.5815

What are the requirements for State allocation of

allowances in a mass-based program?
(a) For a mass-based trading program, a State plan must
include requirements for CO2 allowance allocations according to
paragraphs (b) through (f) of this section.
(b) Provisions for allocation of allowances for each
compliance period for each affected EGU prior to the beginning
of the compliance period.
(c) Provisions for allocation of set-aside allowance, if
applicable, must be established to ensure that the eligible
resources must meet the same requirements for the ERC eligible
resource requirements of §60.5800, and the State must include
eligibility application and verification provisions equivalent
to those for ERCs in §60.5805 and EM&V plan and M&V report
provisions that meet the requirements of §60.5830 and §60.5835.
(d) Provisions for adjusting allocations if the affected
EGUs or eligible resources are incorrectly allocated CO2
allowances.
(e) Provisions allowing for or restricting banking of
allowances between compliance periods for affected EGUs.
(f) Provisions not allowing any borrowing of emissions from
future compliance periods by affected EGUs.
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§60.5820

What are my allowance tracking requirements?

(a) Your plan must include provisions for an allowance
tracking system, if applicable, that meets the following
requirements:
(1) It electronically records the issuance of allowances,
transfers of allowances among accounts, surrender of allowances
by affected EGUs as part of a compliance demonstration, and
retirement of allowances; and
(2) It documents and provides electronic, internet-based
public access to all information that supports the eligibility
of eligible resources and issuance of set aside allowances and
functionality to generate reports based on such information,
which must include, for each set aside allowance, an eligibility
application, EM&V plan, M&V reports, and independent verifier
verification reports.
(b) If approved in a State plan, an allowance tracking
system may provide for transfers of allowances to/from another
ERC tracking system approved in a State plan, or provide for
transfers of allowances to/from an EPA-administered allowance
tracking system used to administer a federal plan.
§60.5825

What is the process for affected EGUs to demonstrate

compliance in a mass-based program?
(a) A plan must require affected EGUs owners and operators
to demonstrate compliance with emission standards in a mass
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based program by holding an amount not less than the tons of
total CO2 emissions for such compliance period from all affected
EGUs at the facility in the account for the affected EGU’s
emissions in the allowance tracking system required under
60.5820 during the applicable compliance period.
(b) In a mass-based trading program a plan may allow
multiple affected EGUs co-located at the same facility to
demonstrate that they are meeting the applicable emission
standards on a facility-wide basis by the owner or operator
holding enough allowances to cover all the affected EGUs at the
facility.
(1) If there are not enough allowances to cover the
facility’s affected EGUs’ emissions then there must be
provisions for determining the compliance status of each
affected EGU located at that facility.
Evaluation Measurement and Verification Plans and Monitoring and
Verification Reports
§60.5830 What are the requirements for EM&V plans for eligible
resources?
(a) If your plan requires your affected EGUs to meet their
emission standards in accordance with §60.5790, your plan must
include requirements that any EM&V plan that is submitted in
accordance with the requirements of §60.5805, in support of the
issuance of an ERC or set-aside allowance that can be used in
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accordance with §60.5790, must meet the EM&V criteria approved
as part of your State plan.
(b) Your plan must require each EM&V plan to include
identification of the eligible resource and its applicable
approved eligibility application.
(c) Your plan must require that an EM&V plan must contain
specific criteria, as applicable to the specific eligible
resource. For example, for RE resources, requirements discussing
how the generation data will be physically measured on a
continuous basis using a revenue-quality meter.
(1) For demand-side EE, your State plan must require that
each EM&V plan quantify and verify electricity savings on a
retrospective (ex-post) basis using industry best-practice EM&V
protocols and methods that yield accurate and reliable
measurements of electricity savings. Your plan must also require
each EM&V plan to include an assessment of the independent
factors that influence the electricity savings, the expected
life of the savings (in years), and a baseline that represents
what would have happened in the absence of the demand-side EE
activity. Additionally, your plan must require that each EM&V
plan include a demonstration of how the industry best-practices
protocol and methods were applied to the specific activity,
project, measure, or program covered in the EM&V plan, and
include an explanation of why these protocols or methods were
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selected.
(d) For EM&V plans to be acceptable, eligible resources
must clearly demonstrate how all such best-practice approaches
will be applied for the purposes of quantifying and verifying
MWh results. Subsequent reporting of demand-side EE savings
values must demonstrate and explain how the EM&V plan was
followed.
§60.5835 What are the requirements for M&V reports for eligible
resources?
(a) If your plan requires your affected EGUs to meet their
emission standards in accordance with §60.5790, your plan must
include requirements that any M&V report that is submitted in
accordance with the requirements of §60.5805, in support of the
issuance of an ERC or set-aside allocation that can be used in
accordance with §60.5790, must meet the requirements of this
section.
(b) Your plan must require that each M&V report include the
following:
(1) For the first M&V report submitted, documentation that
the energy-generating resources, energy-saving measures, or
practices were installed or implemented consistent with the
description in the approved eligibility application required in
§60.5805(a).
(2) Each M&V report submitted must include the following:
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(i) Identification of the time period covered by the M&V
report;
(ii) A description of how relevant quantification methods,
protocols, guidelines, and guidance specified in the EM&V plan
were applied during the reporting period to generate the
quantified MWh of generation or MWh of energy savings;
(iii) Documentation (including data) of the energy
generation and/or energy savings from any activity, project,
measure, resource, or program addressed in the EM&V report,
quantified and verified in MWh for the period covered by the M&V
report, in accordance with its EM&V plan, and based on ex-post
energy generation or savings; and
(iv) Documentation of any change in the energy generation
or savings capability of the eligible resource from the
description of the resource in the approved eligibility
application during the period covered by the M&V report and the
date on which the change occurred, and/or demonstration that the
eligible resource continued to meet the requirements of
§60.5800.
Applicability of Plans to Affected EGUs
§60.5840

Does this subpart directly affect EGU owners or

operators in my State?
(a) This subpart does not directly affect EGU owners or
operators in your State. However, affected EGU owners or
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operators must comply with the plan that a State or States
develop to implement the emission guidelines contained in this
subpart.
(b) If a State does not submit, or EPA disapproves, a final
plan or initial submittal to implement and enforce the emission
guidelines contained in this subpart by September 6, 2016, the
EPA will implement and enforce a Federal plan, as provided in
§60.5720, to ensure that each affected EGU within the State that
commenced construction on or before January 8, 2014 complies
with all the provisions of this subpart.
§60.5845

What affected EGUs must I address in my State plan?

(a) The EGUs that must be addressed by your plan are any
affected steam generating unit, IGCC, or stationary combustion
turbine that commenced construction on or before January 8,
2014.
(b) An affected EGU is a steam generating unit, IGCC, or
stationary combustion turbine that meets the relevant
applicability conditions specified in paragraph (b)(1) through
(3) of this section except as provided in §60.5850.
(1) Serves a generator connected to a utility power
distribution system with a nameplate capacity of 25 MW-net or
greater (i.e., capable of selling greater than 25 MW of
electricity);

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(2) Has a base load rating (i.e., design heat input
capacity) greater than 260 GJ/hr (250 MMBtu/hr) heat input of
fossil fuel (either alone or in combination with any other
fuel); and
(3) Stationary combustion turbines that meet the definition
of either a combined cycle or combined heat and power combustion
turbine.
§60.5850 What EGUs are excluded from being affected EGUs?
(a) EGUs that are excluded from being affected EGUs are:
(1) EGUs that are subject to subpart TTTT of this part as a
result of commencing construction after the subpart TTTT
applicability date; and those subject to subpart TTTT of this
part as a result of commencing modification or reconstruction;
(2) Steam generating units and IGCC units that are currently
and always have been subject to a federally enforceable permit
limiting annual net-electric sales to one-third or less of its
potential electric output, or 219,000 MWh or less;
(3) Non-fossil units (i.e., units that are capable of
combusting 50 percent or more non-fossil fuel) that have always
historically limited the use of fossil fuels to 10 percent or
less of the annual capacity factor or are subject to a federally
enforceable permit limiting fossil fuel use to 10 percent or
less of the annual capacity factor.

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(4) Stationary combustion turbines not capable of
combusting natural gas (e.g., not connected to a natural gas
pipeline)
(5) EGUs that are combined heat and power units that have
always historically limited, or are subject to a federally
enforceable permit currently limiting and always historically
limiting, annual net-electric sales to a utility distribution
system to the design efficiency times the potential electric
output or 219,000 MWh (whichever is greater), or less;
(6) EGUs that serve a generator along with other steam
generating unit(s), IGCC(s), or stationary combustion turbine(s)
where the effective generation capacity (determined based on a
prorated output of the base load rating of each steam generating
unit, IGCC, or stationary combustion turbine) is 25 MW or less;
(7) EGUs that are a municipal waste combustor unit that is
subject to subpart Eb of this part; and
(8) EGUs that are a commercial or industrial solid waste
incineration unit that is subject to subpart CCCC of this part.
§60.5855

What are the CO2 emission performance rates for

affected EGUs?
(a) You must require, in your plan, emission standards on
affected EGUs to meet the CO2 emission performance rates listed
in Table 1 of this subpart except as provided in paragraph (b)
of this section. In addition, you must set CO2 emission
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performance rates for the interim steps, according to paragraph
(a)(1) of this section.
(1) You must set CO2 emission performance rates for your
affected EGUs to meet during the interim step periods on average
and as applicable for the two subcategories of affected EGUs.
(b) You may elect to require your affected EGUs to meet
emission standards that differ from the CO2 emission performance
rates listed in Table 1 of this subpart, provided that you
demonstrate that the affected EGUs in your State will
collectively meet their CO2 emission performance rate by
achieving statewide emission goals that are equivalent and no
less stringent than the CO2 emission performance rates listed in
Table 1, and provided that your equivalent statewide CO2 emission
goals take one of the following forms:
(1) Average statewide rate-based CO2 emission goals listed
in Table 2 of this subpart, except as provided in paragraphs (c)
and (d); or
(2) Cumulative statewide mass-based CO2 emission goals
listed in Table 3 of this subpart, except as provided in
paragraphs (c) and (d).
(c) If your plan incorporates CO2 emission goals listed in
paragraphs (b)(1) or (2) of this section you must develop your
own interim step goals and final reporting period goal for your
affected EGUs to meet either on average or cumulatively.
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Additionally the following applies if you elect to develop your
own goals:
(1) The interim period and interim steps CO2 emission goals
must be in the same form, either both rate (in units of pounds
per net MWh) or both mass (in tons); and
(2) You must set interim step goals that will either on
average or cumulatively meet the State’s interim period goal, as
applicable to a rate-based or mass-based goal.
(d) Your plan’s interim period and final period CO2 emission
goals incorporated pursuant to paragraph (b)(1) or (2) of this
section, may be changed in the plan only according to situations
listed in paragraphs (d)(1) through (3) of this section. If a
situation requires a plan revision, you must follow the
procedures in §60.5785 to submit a plan revision.
(1) If your plan implements CO2 emission goals, you may
submit a plan or plan revision, allowed in §60.5785, to make
corrections to them, as a result of changes in the inventory of
affected EGUs; and
(2) You may address EGUs that become subject to subpart
TTTT of this part and are no longer considered affected EGUs for
incorporation in a plan.
(3) If you elect to require your affected EGUs to meet
emission standards or State measures, in addition to or in lieu
of emission standards, to meet mass-based CO2 emission goals in
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your plan, you may elect to incorporate the mass emissions from
EGUs that are subject to subpart TTTT of this part that are
considered new affected EGUs under subpart TTTT of this part.
(e) If your plan submittal requires your affected EGUs to
meet State measures in addition to or in lieu of emission
standards, you must only use the mass-based goals allowed for in
paragraph (b)(2) of this section to demonstrate that your
affected EGUs are meeting the required emissions performance.
(f) Nothing in this subpart precludes an affected EGU from
complying with its emission standard or you from meeting your
State measures.
§60.5860

What applicable monitoring, recordkeeping, and

reporting requirements do I need to include in my plan for
affected EGUs?
(a) Your plan must include monitoring for affected EGUs
that is no less stringent than what is described in (a)(1)
through (8) of this section.
(1) The owner or operator of an affected EGU (or group of
affected EGUs that share a monitored common stack) that is
required to meet rate-based or mass-based emission standards
must prepare a monitoring plan in accordance with the applicable
provisions in §75.53(g) and (h) of this chapter, unless such a
plan is already in place under another program that requires CO2

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mass emissions to be monitored and reported according to part 75
of this chapter.
(2) For rate-based emission standards, each compliance
period shall include only “valid operating hours” in the
compliance period, i.e., full or partial unit (or stack)
operating hours for which:
(i) “Valid data” (as defined in §60.5880) are obtained for
all of the parameters used to determine the hourly CO2 mass
emissions (lbs). For the purposes of this subpart, substitute
data recorded under part 75 of this chapter are not considered
to be valid data; and
(ii) The corresponding hourly net energy output value is
also valid data (Note: for operating hours with no useful
output, zero is considered to be a valid value).
(3) For rate-based emission standards, the owner or
operator of an affected EGU must measure and report the hourly
CO2 mass emissions (lbs) from each affected unit using the
procedures in paragraphs (a)(3)(i) through (vi) of this section,
except as otherwise provided in paragraph (a)(4) of this
section.
(i) The owner or operator of an affected EGU must install,
certify, operate, maintain, and calibrate a CO2 continuous
emissions monitoring system (CEMS) to directly measure and
record CO2 concentrations in the affected EGU exhaust gases
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emitted to the atmosphere and an exhaust gas flow rate
monitoring system according to §75.10(a)(3)(i) of this chapter.
However, when an O2 monitor is used this way, it only quantifies
the combustion CO2; therefore, if the EGU is equipped with
emission controls that produce non-combustion CO2 (e.g., from
sorbent injection), this additional CO2 must be accounted for, in
accordance with section 3 of appendix G to part 75 of this
chapter. As an alternative to direct measurement of CO2
concentration, provided that the affected EGU does not use
carbon separation (e.g., carbon capture and storage), the owner
or operator of an affected EGU may use data from a certified
oxygen (O2) monitor to calculate hourly average CO2
concentrations, in accordance with §75.10(a)(3)(iii) of this
chapter. If CO2 concentration is measured on a dry basis, the
owner or operator of the affected EGU must also install,
certify, operate, maintain, and calibrate a continuous moisture
monitoring system, according to §75.11(b) of this chapter.
Alternatively, the owner or operator of an affected EGU may
either use an appropriate fuel-specific default moisture value
from §75.11(b) or submit a petition to the Administrator under
§75.66 of this chapter for a site-specific default moisture
value.
(ii) For each “valid operating hour” (as defined in
paragraph (a)(2) of this section), calculate the hourly CO2 mass
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emission rate (tons/hr), either from Equation F-11 in Appendix F
to part 75 of this chapter (if CO2 concentration is measured on a
wet basis), or by following the procedure in section 4.2 of
Appendix F to part 75 of this chapter (if CO2 concentration is
measured on a dry basis).
(iii) Next, multiply each hourly CO2 mass emission rate by
the EGU or stack operating time in hours (as defined in §72.2 of
this chapter), to convert it to tons of CO2. Multiply the result
by 2,000 lbs/ton to convert it to lbs.
(iv) The hourly CO2 tons/hr values and EGU (or stack)
operating times used to calculate CO2 mass emissions are required
to be recorded under §75.57(e) of this chapter and must be
reported electronically under §75.64(a)(6), if required by a
plan. The owner or operator must use these data, or equivalent
data, to calculate the hourly CO2 mass emissions.
(v) Sum all of the hourly CO2 mass emissions values from
paragraph (a)(3)(ii) of this section over the entire compliance
period.
(vi) For each continuous monitoring system used to
determine the CO2 mass emissions from an affected EGU, the
monitoring system must meet the applicable certification and
quality assurance procedures in §75.20 of this chapter and
Appendices A and B to part 75 of this chapter.
(4) The owner or operator of an affected EGU that
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exclusively combusts liquid fuel and/or gaseous fuel may, as an
alternative to complying with paragraph (a)(3) of this section,
determine the hourly CO2 mass emissions according to paragraphs
(a)(4)(i) through (a)(4)(vi) of this section.
(i) Implement the applicable procedures in appendix D to
part 75 of this chapter to determine hourly EGU heat input rates
(MMBtu/hr), based on hourly measurements of fuel flow rate and
periodic determinations of the gross calorific value (GCV) of
each fuel combusted. The fuel flow meter(s) used to measure the
hourly fuel flow rates must meet the applicable certification
and quality-assurance requirements in sections 2.1.5 and 2.1.6
of appendix D to part 75 (except for qualifying commercial
billing meters). The fuel GCV must be determined in accordance
with section 2.2 or 2.3 of appendix D, as applicable.
(ii) For each measured hourly heat input rate, use Equation
G-4 in Appendix G to part 75 of this chapter to calculate the
hourly CO2 mass emission rate (tons/hr).
(iii) For each “valid operating hour” (as defined in
paragraph (a)(2) of this section), multiply the hourly tons/hr
CO2 mass emission rate from paragraph (a)(4)(ii) of this section
by the EGU or stack operating time in hours (as defined in §72.2
of this chapter), to convert it to tons of CO2. Then, multiply
the result by 2,000 lbs/ton to convert it to lbs.
(iv) The hourly CO2 tons/hr values and EGU (or stack)
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operating times used to calculate CO2 mass emissions are required
to be recorded under §75.57(e) of this chapter and must be
reported electronically under §75.64(a)(6), if required by a
plan. You must use these data, or equivalent data, to calculate
the hourly CO2 mass emissions.
(v) Sum all of the hourly CO2 mass emissions values (lb)
from paragraph (a)(4)(iii) of this section over the entire
compliance period.
(vi) The owner or operator of an affected EGU may determine
site-specific carbon-based F-factors (Fc) using Equation F-7b in
section 3.3.6 of appendix F to part 75 of this chapter, and may
use these Fc values in the emissions calculations instead of
using the default Fc values in the Equation G-4 nomenclature.
(5) For both rate-based and mass-based standards, the owner
or operator of an affected EGU (or group of affected units that
share a monitored common stack) must install, calibrate,
maintain, and operate a sufficient number of watt meters to
continuously measure and record on an hourly basis net electric
output. Measurements must be performed using 0.2 accuracy class
electricity metering instrumentation and calibration procedures
as specified under ANSI Standards No. C12.20. Further, the owner
or operator of an affected EGU that is a combined heat and power
facility must install, calibrate, maintain and operate equipment
to continuously measure and record on an hourly basis useful
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thermal output and, if applicable, mechanical output, which are
used with net electric output to determine net energy output.
The owner or operator must use the following procedures to
calculate net energy output, as appropriate for the type of
affected EGU(s).
(i) Determine Pnet the hourly net energy output in MWh. For
rate-based standards, perform this calculation only for valid
operating hours (as defined in paragraph (a)(2) of this
section). For mass-based standards, perform this calculation for
all unit (or stack) operating hours, i.e., full or partial hours
in which any fuel is combusted.
(ii) If there is no net electrical output, but there is
mechanical or useful thermal output, either for a particular
valid operating hour (for rate-based applications), or for a
particular operating hour (for mass-based applications), the
owner or operator of the affected EGU must still determine the
net energy output for that hour.
(iii) For rate-based applications, if there is no (i.e.,
zero) gross electrical, mechanical, or useful thermal output for
a particular valid operating hour, that hour must be used in the
compliance determination. For hours or partial hours where the
gross electric output is equal to or less than the auxiliary
loads, net electric output shall be counted as zero for this
calculation.
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(iv) Calculate Pnet for your affected EGU (or group of
affected EGUs that share a monitored common stack) using the
following equation. All terms in the equation must be expressed
in units of MWh. To convert each hourly net energy output value
reported under part 75 of this chapter to MWh, multiply by the
corresponding EGU or stack operating time.
=

 

   
TDF

     

   

   

 

Where:
Pnet =

Net energy output of your affected EGU for each
valid operating hour (as defined in
60.5860(a)(2)) in MWh.

(Pe)ST =

Electric energy output plus mechanical energy
output (if any) of steam turbines in MWh.

(Pe)CT =

Electric energy output plus mechanical energy
output (if any) of stationary combustion
turbine(s) in MWh.

(Pe)IE =

Electric energy output plus mechanical energy
output (if any) of your affected EGU’s integrated
equipment that provides electricity or mechanical
energy to the affected EGU or auxiliary equipment
in MWh.

(Pe)A =

Electric energy used for any auxiliary loads in
MWh.

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(Pt)PS =

Useful thermal output of steam (measured relative
to SATP conditions, as applicable) that is used
for applications that do not generate additional
electricity, produce mechanical energy output, or
enhance the performance of the affected EGU. This
is calculated using the equation specified in
paragraph (a)(5)(v) of this section in MWh.

(Pt)HR =

Non-steam useful thermal output (measured
relative to SATP conditions, as applicable) from
heat recovery that is used for applications other
than steam generation or performance enhancement
of the affected EGU in MWh.

(Pt)IE =

Useful thermal output (relative to SATP
conditions, as applicable) from any integrated
equipment is used for applications that do not
generate additional steam, electricity, produce
mechanical energy output, or enhance the
performance of the affected EGU in MWh.

TDF =

Electric Transmission and Distribution Factor of
0.95 for a combined heat and power affected EGU
where at least on an annual basis 20.0 percent of
the total gross or net energy output consists of
electric or direct mechanical output and 20.0
percent of the total net energy output consist of

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useful thermal output on a 12-operating month
rolling average basis, or 1.0 for all other
affected EGUs.
(v) If applicable to your affected EGU (for example, for
combined heat and power), you must calculate (Pt)PS using the
following equation:
 

 

 

 

Where:
Qm =

Measured steam flow in kilograms (kg) (or pounds
(lbs)) for the operating hour.

H =

Enthalpy of the steam at measured temperature and
pressure (relative to SATP conditions or the
energy in the condensate return line, as
applicable) in Joules per kilogram (J/kg) (or
Btu/lb).

CF =

Conversion factor of 3.6 x 109 J/MWh or 3.413 x
106 Btu/MWh.

(v) For rate-based standards, sum all of the values of Pnet
for the valid operating hours (as defined in paragraph (a)(2) of
this section), over the entire compliance period. Then, divide
the total CO2 mass emissions for the valid operating hours from
paragraph (a)(3)(v) or (a)(4)(v) of this section, as applicable,
by the sum of the Pnet values for the valid operating hours plus

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any ERC replacement generation (as shown in §60.5790(c)), to
determine the CO2 emissions rate (lb/net MWh) for the compliance
period.
(vi) For mass-based standards, sum all of the values of Pnet
for all operating hours, over the entire compliance period.
(6) In accordance with §60.13(g), if two or more affected
EGUs implementing the continuous emissions monitoring provisions
in paragraph (a)(2) of this section share a common exhaust gas
stack and are subject to the same emissions standard, the owner
or operator may monitor the hourly CO2 mass emissions at the
common stack in lieu of monitoring each EGU separately. If an
owner or operator of an affected EGU chooses this option, the
hourly net electric output for the common stack must be the sum
of the hourly net electric output of the individual affected
EGUs and the operating time must be expressed as “stack
operating hours” (as defined in §72.2 of this chapter).
(7) In accordance with §60.13(g), if the exhaust gases from
an affected EGU implementing the continuous emissions monitoring
provisions in paragraph (a)(2) of this section are emitted to
the atmosphere through multiple stacks (or if the exhaust gases
are routed to a common stack through multiple ducts and you
elect to monitor in the ducts), the hourly CO2 mass emissions and
the “stack operating time” (as defined in §72.2 of this chapter)
at each stack or duct must be monitored separately. In this
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case, the owner or operator of an affected EGU must determine
compliance with an applicable emissions standard by summing the
CO2 mass emissions measured at the individual stacks or ducts and
dividing by the net energy output for the affected EGU.
(8) Consistent with §60.5775 or §60.5780, if two or more
affected EGUs serve a common electric generator, you must
apportion the combined hourly net energy output to the
individual affected EGUs according to the fraction of the total
steam load contributed by each EGU. Alternatively, if the EGUs
are identical, you may apportion the combined hourly net
electrical load to the individual EGUs according to the fraction
of the total heat input contributed by each EGU.
(b) For mass-based standards, the owner or operator of an
affected EGU must determine the CO2 mass emissions (tons) for the
compliance period as follows:
(1) For each operating hour, calculate the hourly CO2 mass
(tons) according to paragraph (a)(3) or (a)(4) of this section,
except that a complete data record is required, i.e., CO2 mass
emissions must be reported for each operating hour. Therefore,
substitute data values recorded under part 75 of this chapter
for CO2 concentration, stack gas flow rate, stack gas moisture
content, fuel flow rate and/or GCV shall be used in the
calculations; and

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(2) Sum all of the hourly CO2 mass emissions values over the
entire compliance period.
(3) The owner or operator of an affected EGU must install,
calibrate, maintain, and operate a sufficient number of watt
meters to continuously measure and record on an hourly basis net
electric output. Measurements must be performed using 0.2
accuracy class electricity metering instrumentation and
calibration procedures as specified under ANSI Standards No.
C12.20. Further, the owner or operator of an affected EGU that
is a combined heat and power facility must install, calibrate,
maintain and operate equipment to continuously measure and
record on an hourly basis useful thermal output and, if
applicable, mechanical output, which are used with net electric
output to determine net energy output (Pnet). The owner or
operator must calculate net energy output according to
paragraphs (a)(5)(i)(A) and (B) of this section.
(c) Your plan must require the owner or operator of each
affected EGU covered by your plan to maintain the records, as
described in (b)(1) through (2) of this subpart, for at least 5
years following the date of each compliance period, occurrence,
measurement, maintenance, corrective action, report, or record.
(1) The owner or operator of an affected EGU must maintain
each record on site for at least 2 years after the date of each
compliance period, compliance true-up period, occurrence,
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measurement, maintenance, corrective action, report, or record,
whichever is latest, according to §60.7. The owner or operator
of an affected EGU may maintain the records off site and
electronically for the remaining year(s).
(2)

The owner or operator of an affected EGU must keep all

of the following records:
(i) All documents, data files, and calculations and methods
used to demonstrate compliance with an affected EGU’s emission
standard under §60.5775.
(ii) Copies of all reports submitted to the State under
paragraph (c) of this section.
(iii) Data that are required to be recorded by 40 CFR Part
75 Subpart F.
(iv) Data with respect to any ERCs generated by the
affected EGU or used by the affected EGU in its compliance
demonstration including the information in paragraphs
(c)(2)(iv)(A) and (B) of this section.
(A)

All documents related to any ERCs used in a compliance

demonstration, including each eligibility application, EM&V
plan, M&V report, and independent verifier verification report
associated with the issuance of each specific ERC.
(B)

All records and reports relating to the surrender and

retirement of ERCs for compliance with this regulation,

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including the date each individual ERC with a unique serial
identification number was surrendered and/or retired.
(d) Your plan must require the owner or operator of an
affected EGU covered by your plan to include in a report
submitted to you at the end of each compliance period the
information in paragraphs (d)(1) through (5) of this section.
(1) Owners or operators of an affected EGU must include in
the report all hourly CO2, for each affected EGU (or group of
affected EGUs that share a monitored common stack).
(2) For rate-based standards, each report must include:
(i) The hourly CO2 mass emission rate values (tons/hr) and
unit (or stack) operating times, (as monitored and reported
according to part 75 of this chapter), for each valid operating
hour in the compliance period;
(ii) The net electric output and the net energy output
(Pnet) values for each valid operating hour in the compliance
period;
(iii) The calculated CO2 mass emissions (lb) for each valid
operating hour in the compliance period;
(iv) The sum of the hourly net energy output values and the
sum of the hourly CO2 mass emissions values, for all of the valid
operating hours in the compliance period;
(v) ERC replacement generation (if any), properly justified
(see paragraph (c)(5) of this section); and
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(vi) The calculated CO2 mass emission rate for the
compliance period (lbs/net MWh).
(3) For mass-based standards, each report must include:
(i) The hourly CO2 mass emission rate value (tons/hr) and
unit (or stack) operating time, as monitored and reported
according to part 75 of this chapter, for each unit or stack
operating hour in the compliance period;
(ii) The calculated CO2 mass emissions (tons) for each unit
or stack operating hour in the compliance period;
(iii) The sum of the CO2 mass emissions (tons) for all of
the unit or stack operating hours in the compliance period;
(iv) The net electric output and the net energy output
(Pnet) values for each unit or stack operating hour in the
compliance period; and
(v) The sum of the hourly net energy output values for all
of the unit or stack operating hours in the compliance period.
(vi) Notwithstanding the requirements in paragraphs
(c)(3)(i) through (c)(3)(iii) of this section, if the compliance
period is a discrete number of calendar years (e.g., one year,
three years), in lieu of reporting the information specified in
those paragraphs, the owner or operator may report:
(A) The cumulative annual CO2 mass emissions (tons) for each
year of the compliance period, derived from the electronic

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emissions report for the fourth calendar quarter of that year,
submitted to EPA under §75.64(a) of this chapter; and
(B) The sum of the cumulative annual CO2 mass emissions
values from paragraph (c)(3)(v)(A) of this section, if the
compliance period includes multiple years.
(4) For each affected EGU’s compliance period, the report
must also include the applicable emission standard and
demonstration that it met the emission standard. An owner or
operator must also include in the report the affected EGU’s
calculated emission performance as a CO2 emission rate or
cumulative mass in units of the emission standard required in
§§60.5790(b) through (d) and 60.5855, as applicable.
(5) If the owner or operator of an affected EGU is
complying with an emission standard by using ERCs, they must
include in the report a list of all unique ERC serial numbers
that were retired in the compliance period, and, for each ERC,
the date an ERC was surrendered and retired and eligible
resource identification information sufficient to demonstrates
that it meets the requirements of §60.5800 and qualifies to be
issued ERCs (including location, type of qualifying generation
or savings, date commenced generating or saving, and date of
generation or savings for which the ERC was issued).
(6) If the owner or operator of an affected EGU is
complying with an emission standard or State measures by using
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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allowances, they must include in the report a list of all unique
allowance serial numbers that were retired in the compliance
period, and, for each allowance, the date an allowance was
surrendered and retired and if the allowance was a set-aside
allowance the eligible resource identification information
sufficient to demonstrate that it meets the requirements of
§60.5815(c) and qualifies to be issued set-aside allowances
(including location, type of qualifying generation or savings,
date commenced generating or saving, and date of generation or
savings for which the allowance was issued).
(e) The owner or operator of an affected EGU must follow
any additional requirements for monitoring, recordkeeping and
reporting in a plan that are required under §60.5785, if
applicable.
(f) If an affected EGU captures CO2 to meet the applicable
emission limit, owners and operator must report in accordance
with the requirements of 40 CFR Part 98 Subpart PP and either:
(1) Report in accordance with the requirements of 40 CFR
Part 98 subpart RR, if injection occurs on-site, or
(2) Transfer the captured CO2 to an EGU or facility that
reports in accordance with the requirements of 40 CFR Part 98
subpart RR, if injection occurs off-site.

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(3) Transfer the captured CO2 to a facility that has
received an innovative technology waiver from EPA pursuant to
paragraph (g) of this section.
(g) Any person may request the Administrator to issue a
waiver of the requirement that captured CO2 from an affected EGU
be transferred to a facility reporting under 40 CFR Part 98
subpart RR. To receive a waiver, the applicant must demonstrate
to the Administrator that its technology will store captured CO2
as effectively as geologic sequestration, and that the proposed
technology will not cause or contribute to an unreasonable risk
to public health, welfare, or safety. In making this
determination, the Administrator shall consider (among other
factors) operating history of the technology, whether the
technology will increase emissions or other releases of any
pollutant other than CO2, and permanence of the CO2 storage. The
Administrator may test the system itself, or require the
applicant to perform any tests considered by the Administrator
to be necessary to show the technology’s effectiveness, safety,
and ability to store captured CO2 without release. The
Administrator may grant conditional approval of a technology,
the approval conditioned on monitoring and reporting of
operations. The Administrator may also withdraw approval of the
waiver on evidence of releases of CO2 or other pollutants. The
Administrator will provide notice to the public of any
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application under this provision, and provide public notice of
any proposed action on a petition before the Administrator takes
final action.
Recordkeeping and Reporting Requirements
§60.5865

What are my recordkeeping requirements?

(a) You must keep records of all information relied upon in
support of any demonstration of plan components, plan
requirements, supporting documentation, and the status of
meeting the plan requirements defined in the plan for each
interim step and the interim period. After 2029, States must
keep records of all information relied upon in support of any
continued demonstration that the final emissions goals are being
achieved.
(b) You must keep records of all data submitted by the
owner or operator of each affected EGU that is used to determine
compliance with each affected EGU emissions standard or
requirements in an approved State plan, consistent with the
affected EGU requirements listed in §60.5860.
(c) If your State has a requirement for all hourly CO2
emissions and net generation information to be used to calculate
compliance with an annual emissions standard or State measure
for affected EGUs, any information that is submitted by the
owners or operators of affected EGUs to the EPA electronically
pursuant to requirements in Part 75 meets the recordkeeping
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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requirement of this section and you are not required to keep
records of information that would be in duplicate of paragraph
(b) of this section.
(d) You must keep records at a minimum for 10 years, for
the interim period, and 5 years, for the final period, from the
date the record is used to determine compliance with an
emissions standard, plan requirement, CO2 emission performance
rate or CO2 emissions goal. Each record must be in a form
suitable and readily available for expeditious review.
§60.5870

What are my reporting and notification requirements?

(a) In lieu of the annual report required under §60.25(e)
and (f) of this part, you must report the information in
paragraphs (b) through (f) of this section.
(b) You must submit a report covering each interim step
within the interim period and each of the final 2-calendar year
periods due no later than July 1 of the year following the end
of the period. The interim period reporting starts with a
reporting covering interim step 1 due no later than July 1,
2025. The final period reports start with a biennual report
covering the first final reporting period (which is due by July
1, 2032), a 2-calendar year average of emissions or cumulative
sum of emissions used to determine compliance with the final CO2
emission performance rate or CO2 emission goal (as applicable).

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The report must include the information in paragraphs (b)(1)
through (4) of this paragraph.
(1) The report must include the emissions performance
achieved by all affected EGUs during the reporting period,
consistent with the plan approach according to §60.5745(a), and
identification of whether each affected EGU is in compliance
with its emission standard and whether the collective of all
affected EGUs covered by the State are on schedule to meet the
applicable CO2 emission performance rate or emission goal during
the performance periods and compliance periods, as specified in
the plan.
(2) The report must include a comparison of the CO2 emission
performance rate or CO2 emission goal identified in the State
plan for the applicable interim step period versus the actual
average, cumulative, or adjusted CO2 emission performance (as
applicable) achieved by all affected EGUs.
(i) For interim step 3, you do not need to include a
comparison between the applicable interim step 3 CO2 emission
performance rate or emission goal; you must only submit the
average, cumulative or adjusted CO2 emission performance (as
applicable) of your affected EGUs during that period in units of
your applicable CO2 emission performance rate or emission goal.
(3) The report must include all other required information,
as specified in your State plan according to §60.5740(a)(5).
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(4) The report must include a program review that your
State has conducted that addresses all aspects of the
administration of the state plan and overall program, including
State evaluations and regulatory decisions regarding eligibility
applications for ERC resources and M&V reports (and associated
EM&V activities), and State issuance of ERCs. The program review
must assess whether the program is being administered properly
in accordance with the approved plan, that reported annual MWh
of generation and savings from qualified ERC resources are being
properly quantified, verified, and reported in accordance with
approved EM&V plans, and that appropriate records are being
maintained. The program review must also address determination
of the eligibility of verifiers by the State and the conduct of
verifiers, including the quality of verifier reviews.
(c) If your plan relies upon State measures, in lieu of or
in addition to emission standards, then you must submit an
annual report to the EPA in addition to the reports required
under paragraph (b) of this section for the interim period. In
the final period, you must submit biennual reports consistent
with those required under paragraph (b) of this section. The
annual reports in the interim period must be submitted no later
than July 1 following the end of each calendar year starting
with the annual year 2022 (January 1, 2022 to December 31,

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2022). The annual and biennual reports must include the
information in paragraphs (c)(1) and (2) of this section.
(1) You must include in your report the status of
implementation of federally enforceable emission standards (if
applicable) and State measures.
(2) You must include information regarding the status of
the periodic programmatic milestones to show progress in program
implementation. The programmatic milestones with specific dates
for achievement must be consistent with the State measures
included in the State plan submittal.
(d) If your plan includes the requirement for emission
standards on your affected EGUs, then you must submit a
notification in the report required under paragraph (b) of this
section to the EPA if your affected EGUs trigger corrective
measures as described in §60.5740(a)(2)(i). If corrective
measures are required you must follow the requirements in
60.5785 for revising your plan to implement the corrective
measures.
(e) If your plan relies upon State measures, in lieu of or
in addition to emission standards, than you must submit a
notification as required under paragraphs (e)(1) and (2) of this
section.
(1) You must submit a notification in the report required
under paragraph (c) of this section to the EPA if at the end of
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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the calendar year your State did not meet a programmatic
milestone included in your plan submittal. This notification
must detail the implementation of the backstop required in your
plan to be fully in place within 18 months of the due date of
the report required in paragraph (b) of this section. In
addition, the notification must describe the steps taken by the
State to inform the affected EGUs in its State that the backstop
has been triggered.
(2) You must submit a notification in the report required
under paragraph (b) of this section to the EPA if you trigger
the backstop as described in §60.5740(a)(3)(i). This
notification must detail the steps that will be taken by you to
implement the backstop so that it is fully in place within 18
months of the due date of the report required in paragraph (b)
of this section. In addition, the notification must describe the
steps taken by the State to inform the affected EGUs that the
backstop has been triggered.
(f) You must include in your 2029 report (which is due by
July 1, 2030) the calculation of average emissions, cumulative
sum of emissions, or adjusted emissions (as applicable) over the
interim period and a comparison of those values to your interim
CO2 emission performance rate or emission goal. The calculated
value must be in units consistent with the approach you set in
your plan for the interim period.
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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(g) The notifications listed in paragraphs (g)(1) through
(3) of this section are required for the reliability safety
valve allowed in §60.5785(e).
(1) As required under §60.5785(e), you must submit an
initial notification to the appropriate EPA regional office
within 48 hours of an unforeseen, emergency situation. The
initial notification must:
(i) Include a full description, to the extent that it is
known, of the emergency situation that is being addressed;
(ii) Identify the affected EGU or EGUs that are required to
run to assure reliability; and
(iii) Specify the modified emission standards at which the
identified EGU or EGUs will operate.
(2) Within 7 days of the initial notification in
§60.5870(g)(1), the State must submit a second notification to
the appropriate EPA regional office that documents the initial
notification. If the State fails to submit this documentation on
a timely basis, the EPA will notify the State, which must then
notify the affected EGU(s) that they must operate or resume
operations under the original approved State plan emissions
standards. This notification must include the following:
(i) A full description of the reliability concern and why
an unforeseen, emergency situation that threatens reliability
requires the affected EGU or EGUs to operate under modified
This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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emission standards from those originally required in the State
plan including discussion of why the flexibilities provided
under the state’s plan are insufficient to address the concern;
(ii) A description of how the State is coordinating or will
coordinate with relevant reliability coordinators and planning
authorities to alleviate the problem in an expedited manner;
(iii) An indication of the maximum time that the State
anticipates the affected EGU or EGUs will need to operate in a
manner inconsistent with its or their obligations under the
State’s approved plan;
(iv) A written concurrence from the relevant reliability
coordinator and/or planning authority confirming the existence
of the imminent reliability threat and supporting the temporary
modification request or an explanation of why this kind of
concurrence cannot be provided;
(v) The modified emission standards or levels that the
affected EGU or EGU will be operating at for the remainder of
the 90-day period if it has changed from the initial
notification; and
(vi) Information regarding any system-wide or other
analysis of the reliability concern conducted by the relevant
planning authority, if any.
(3) At least 7 days before the end of the 90-day
reliability safety valve period, the State must notify the
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appropriate EPA regional office that either:
(i) The reliability concern has been addressed and the
affected EGU or EGUs can resume meeting the original emissions
standards in the State plan approved prior to the short-term
modification; or
(ii) There still is a serious, ongoing reliability issue
that necessitates the EGU or EGUs to emit beyond the amount
allowed under the State plan. In this case, the State must
provide a notification to the EPA that it will be submitting a
State plan revision according to paragraph §60.5785(a) of this
section to address the reliability issue. The notification must
provide the date by which a revised State plan will be submitted
to EPA and documentation of the ongoing emergency with a written
concurrence from the relevant reliability coordinator and/or
planning authority confirming the continuing urgent need for the
EGU or EGUs to operate beyond the requirements of the State plan
and that there is no other reasonable way of addressing the
ongoing reliability emergency but for the EGU or EGUs to operate
under an alternative emission standard than originally approved
under the State plan. After the initial 90-day period, any
excess emissions beyond what is authorized in the original
approved State plan will count against the State’s overall CO2
emission goal or emission performance rate for affected EGUs.
§60.5875 How do I submit information required by these Emission
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Guidelines to the EPA?
(a) You must submit to the EPA the information required by
these emission guidelines following the procedures in paragraphs
(b) through (e) of this section.
(b) All negative declarations, State plan submittals,
supporting materials that are part of a State plan submittal,
any plan revisions, and all State reports required to be
submitted to the EPA by the State plan must be reported through
EPA’s State Plan Electronic Collection System (SPeCS). SPeCS is
a web accessible electronic system is accessed at the EPA’s
Central Data Exchange (CDX) (http://www.epa.gov/cdx/). States
who claim that a State plan submittal or supporting
documentation includes confidential business information (CBI)
must submit that information on a compact disc, flash drive, or
other commonly used electronic storage media to the EPA. The
electronic media must be clearly marked as CBI and mailed to
U.S. EPA/OAQPS/CORE CBI Office, Attention: State and Local
Programs Group, MD C539-01, 4930 Old Page Rd., Durham, NC 27703.
(c) Only a submittal by the Governor or the Governor’s
designee by an electronic submission through SPeCS shall be
considered an official submittal to the EPA under this subpart.
If the Governor wishes to designate another responsible official
the authority to submit a State plan, the EPA must be notified
via letter from the Governor prior to the September 6, 2016,
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deadline for plan submittal so that they have the ability to
submit the initial or final plan submittal in the SPeCS. If the
Governor has previously delegated authority to make CAA
submittals on the Governor’s behalf, a State may submit
documentation of the delegation in lieu of a letter from the
Governor. The letter or documentation must identify the designee
to whom authority is being designated and must include the name
and contact information for the designee and also identify the
State plan preparers who will need access to SPeCS. A State may
also submit the names of the State plan preparers via a separate
letter prior to the designation letter from the Governor in
order to expedite the State plan administrative process.
Required contact information for the designee and preparers
includes the person’s title, organization and email address.
(d) The submission of the information by the authorized
official must be in a non-editable format. In addition to the
non-editable version all plan components designated as federally
enforceable must also be submitted in an editable version.
Following initial plan approval, States must provide the EPA
with an editable copy of any submitted revision to existing
approved federally enforceable plan components, including State
plan backstop measures. The editable copy of any such submitted
plan revision must indicate the changes made at the State level,
if any, to the existing approved federally enforceable plan
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components, using a mechanism such as redline/strikethrough.
These changes are not part of the State plan until formal
approval by EPA.
(e) You must provide the EPA with non-editable and editable
copies of any submitted revision to existing approved federally
enforceable plan components, including State plan backstop
measures. The editable copy of any such submitted plan revision
must indicate the changes made at the State level, if any, to
the existing approved federally enforceable plan components,
using a mechanism such as redline/strikethrough. These changes
are not part of the State plan until formal approval by EPA.
Definitions
§60.5880 What definitions apply to this subpart?
As used in this subpart, all terms not defined herein will
have the meaning given them in the Clean Air Act and in subparts
A (General Provisions) and B of this part.
Adjusted CO2 emission rate means the reported CO2 emission
rate of an affected EGU, adjusted as described in §60.5790(c)(1)
to reflect any ERCs used by an affected EGU to demonstrate
compliance with its CO2 emission standards.
Affected electric generating unit or Affected EGU means a
steam generating unit, integrated gasification combined cycle
(IGCC), or stationary combustion turbine that meets the relevant
applicability conditions in section §60.5845.
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Allowance means an authorization for each specified unit of
actual CO2 emitted from an affected EGU or a facility during a
specified period.
Allowance system means a control program under which the
owner or operator of each affected EGU is required to hold an
authorization for each specified unit of CO2 emitted from that
facility during a specified period and which limits the total
amount of such authorizations available to be held for CO2 for a
specified period and allows the transfer of such authorizations
not used to meet the authorization-holding requirement.
Annual capacity factor means the ratio between the actual
heat input to an EGU during a calendar year and the potential
heat input to the EGU had it been operated for 8,760 hours
during a calendar year at the base load rating.
Base load rating means the maximum amount of heat input
(fuel) that an EGU can combust on a steady-state basis, as
determined by the physical design and characteristics of the EGU
at ISO conditions. For a stationary combustion turbine, base
load rating includes the heat input from duct burners.
Biomass means biologically based material that is living or
dead (e.g., trees, crops, grasses, tree litter, roots) above and
below ground, and available on a renewable or recurring basis.
Materials that are biologically based include non-fossilized,
biodegradable organic material originating from modern or
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contemporarily grown plants, animals, or microorganisms
(including plants, products, byproducts and residues from
agriculture, forestry, and related activities and industries, as
well as the non-fossilized and biodegradable organic fractions
of industrial and municipal wastes, including gases and liquids
recovered from the decomposition of non-fossilized and
biodegradable organic material).
CO2 emission goal means a statewide rate-based CO2 emission
goal or mass-based CO2 emission goal specified in §60.5855.
Combined cycle unit means an electric generating unit that
uses a stationary combustion turbine from which the heat from
the turbine exhaust gases is recovered by a heat recovery steam
generating unit to generate additional electricity.
Combined heat and power unit or CHP unit, (also known as
“cogeneration”) means an electric generating unit that uses a
steam-generating unit or stationary combustion turbine to
simultaneously produce both electric (or mechanical) and useful
thermal output from the same primary energy source.
Common practice baseline or CPB means a baseline derived
based on a default technology or condition that would have been
in place at the time of implementation of an EE measure in the
absence of the EE measure (for example, the standard or marketaverage or pre-existing equipment that a typical
consumer/building owner would have continued to use or would
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have installed at the time of project implementation in a given
circumstance, such as a given building type, EE program type or
delivery mechanism, and geographic region).
Compliance period means a discrete time period for an
affected EGU to comply with either an emission standard or State
measure. Compliance periods for affected EGUs required in plans
must meet the requirements of §60.5770.
Control area operator means an electric system or systems,
bounded by interconnection metering and telemetry, capable of
controlling generation to maintain its interchange schedule with
other control areas and contributing to frequency regulation of
the interconnection.
Demand-side energy efficiency means an installed piece of
equipment or system, a modification of existing equipment or
system, or a strategy intended to affect consumer electricityuse behavior, that results in a reduction in electricity use (in
MWh) at an end-use facility, premises, or equipment connected to
the electricity grid.
Derate means a decrease in the available capacity of an
electric generating unit, due to a system or equipment
modification or to discounting a portion of a generating unit’s
capacity for planning purposes.

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Design efficiency means the rated overall net efficiency
(e.g., electric plus thermal output) on a higher heating value
basis of the EGU at the base load rating and ISO conditions.
Eligible resource means a resource that meets the
requirements of §60.5800(a).
Emission Rate Credit or ERC means a tradable compliance
instrument that meets the requirements of §60.5790(c).
EM&V plan means a plan that meets the requirements of
§60.5830.
ERC tracking system means a system for the issuance,
surrender and retirement of ERCs that meets the requirements of
§60.5810.
Essential generating characteristics means any
characteristic that affects the eligibility of an eligible
resource for generating ERCs pursuant to this regulation,
including the type of resource.
Existing State program, requirement, or measure means, in
the context of a State plan, a regulation, requirement, program,
or measure administered by a State, utility, or other entity
that is currently established.
Final period means the period that begins on January 1,
2030, and continues thereafter. The final period is comprised of
final reporting periods, each of which may be no longer than two
calendar years (with a calendar year beginning on January 1 and
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ending on December 31).
Final reporting period means an increment of plan
performance within the final period, with each final reporting
period being no longer than two calendar years (with a calendar
year beginning on January 1 and ending on December 31), with the
first final reporting period in the final period beginning on
January 1, 2030, and ending no later than December 31, 2031.
Fossil fuel means natural gas (as defined in subpart TTTT
of this part), petroleum (as defined in subpart TTTT of this
part), coal (as defined in subpart TTTT of this part), and any
form of solid fuel (as defined in subpart TTTT of this part),
liquid fuel (as defined in subpart TTTT of this part), or
gaseous fuel (as defined in subpart TTTT of this part) derived
from such material for the purpose of creating useful heat.
Heat recovery steam generating unit (HRSG) means a unit in
which hot exhaust gases from the combustion turbine engine are
routed in order to extract heat from the gases and generate
useful output. Heat recovery steam generating units can be used
with or without duct burners.
Independent verifier means a person (including any company,
any corporate parent or subsidiary, any contractors or
subcontractors, and the actual person) who has the appropriate
technical and other qualifications to provide verification
reports. The independent verifier must not have, or have had,
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any direct or indirect financial or other interest in the
subject of its verification report or ERCs that could impact
their impartiality in performing verification services.
Integrated gasification combined cycle facility or IGCC
facility means a combined cycle facility that is designed to
burn fuels containing 50 percent (by heat input) or more solidderived fuel not meeting the definition of natural gas plus any
integrated equipment that provides electricity or useful thermal
output to either the affected facility or auxiliary equipment.
The Administrator may waive the 50 percent solid-derived fuel
requirement during periods of the gasification system
construction, startup and commissioning, shutdown, or repair. No
solid fuel is directly burned in the unit during operation.
Interim period means the period of eight calendar years
from January 1, 2022, to December 31, 2029. The interim period
is composed of at least three interim steps, interim step 1,
interim step 2, and interim step 3, and may be composed of more
than three interim steps at your discretion, provided your first
and second interim steps and no single interim step is longer
than three calendar years each (with a calendar year beginning
on January 1 and ending on December 31), and your last interim
step is no longer than two calendar years (with a calendar year
beginning on January 1 and ending on December 31).
Interim step means an increment of plan performance within
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the interim period. You must have at least three interim steps
within the interim period. You may have more than three interim
steps at your discretion, provided your first and second interim
steps and no single interim step is longer than three calendar
years each (with a calendar year beginning on January 1 and
ending on December 31), and your last interim step is no longer
than two calendar years (with a calendar year beginning on
January 1 and ending on December 31).
Interim step 1 means the period of three calendar years
from January 1, 2022, to December 31, 2024.
Interim step 2 means the period of three calendar years
from January 1, 2025, to December 31, 2027.
Interim step 3 means the period of two calendar years from
January 1, 2028, to December 31, 2029.
ISO conditions means 288 Kelvin (15o C), 60 percent relative
humidity and 101.3 kilopascals pressure.
M&V report means a report that meets the requirements of
§60.5835].
Mechanical output means the useful mechanical energy that
is not used to operate the affected facility, generate
electricity and/or thermal output, or to enhance the performance
of the affected facility. Mechanical energy measured in
horsepower hour must be converted into MWh by multiplying it by
745.7 then dividing by 1,000,000.
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 Page 1550 of 1560
Nameplate capacity means, starting from the initial
installation, the maximum rated output of a generator, prime
mover, or other electric power production equipment under
specific conditions designated by the manufacturer is capable of
producing on a steady-state basis and during continuous
operation (when not restricted by seasonal or other deratings)
as of such installation as specified by the manufacturer of the
equipment, starting from the completion of any subsequent
physical change resulting in an increase in the maximum
electrical generating output that the equipment is capable of
producing on a steady-state basis and during continuous
operation (when not restricted by seasonal or other deratings),
such increased maximum amount (in MWe, rounded to the nearest
tenth) as of such completion as specified by the person
conducting the physical change.
Natural gas means a fluid mixture of hydrocarbons (e.g.,
methane, ethane, or propane), composed of at least 70 percent
methane by volume or that has a gross calorific value between 35
and 41 megajoules (MJ) per dry standard cubic meter (950 and
1,100 Btu per dry standard cubic foot), that maintains a gaseous
State under ISO conditions. In addition, natural gas contains
20.0 grains or less of total sulfur per 100 standard cubic feet.
Finally, natural gas does not include the following gaseous
fuels: landfill gas, digester gas, refinery gas, sour gas, blast
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furnace gas, coal-derived gas, producer gas, coke oven gas, or
any gaseous fuel produced in a process which might result in
highly variable sulfur content or heating value.
Net allowance export/import means a net transfer of CO2
allowances during an interim step, the interim period, or final
reporting period which represents the net number of CO2
allowances (issued by a respective State) that are transferred
from the compliance accounts of affected EGUs in that state to
the compliance accounts of affected EGUs in another State. This
net transfer is determined based on compliance account holdings
at the end of the plan performance period. Compliance account
holdings, as used here, refer to the number of CO2 allowances
surrendered for compliance during a plan performance period, as
well as any remaining CO2 allowances held in a compliance account
as of the end of a plan performance period.
Net-electric output means the amount of gross generation
the generator(s) produce (including, but not limited to, output
from steam turbine(s), combustion turbine(s), and gas
expander(s)), as measured at the generator terminals, less the
electricity used to operate the plant (i.e., auxiliary loads);
such uses include fuel handling equipment, pumps, fans,
pollution control equipment, other electricity needs, and
transformer losses as measured at the transmission side of the
step up transformer (e.g., the point of sale).
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 Page 1552 of 1560
Net energy output means:
(1) The net electric or mechanical output from the affected
facility, plus 100 percent of the useful thermal output measured
relative to SATP conditions that is not used to generate
additional electric or mechanical output or to enhance the
performance of the unit (e.g., steam delivered to an industrial
process for a heating application).
(2) For combined heat and power facilities where at least
20.0 percent of the total gross or net energy output consists of
electric or direct mechanical output and at least 20.0 percent
of the total gross or net energy output consists of useful
thermal output on a 12-operating month rolling average basis,
the net electric or mechanical output from the affected EGU
divided by 0.95, plus 100 percent of the useful thermal output;
(e.g., steam delivered to an industrial process for a heating
application).
Qualified biomass means a biomass feedstock that is
demonstrated as a method to control increases of CO2 levels
in the atmosphere.
Standard ambient temperature and pressure (SATP)
conditions means 298.15 Kelvin (25o C, 77

oF))

and 100.0

kilopascals (14.504 psi, 0.987 atm) pressure. The enthalpy
of water at SATP conditions is 50 Btu/lb.
State agent means an entity acting on behalf of the State,
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 Page 1553 of 1560
with the legal authority of the State.
State measures means measures that the State adopts and
implements as a matter of State law. Such measures are
enforceable only per State law, and are not included in and
codified as part of the federally enforceable State plan.
Stationary combustion turbine means all equipment,
including but not limited to the turbine engine, the fuel, air,
lubrication and exhaust gas systems, control systems (except
emissions control equipment), heat recovery system, fuel
compressor, heater, and/or pump, post-combustion emissions
control technology, and any ancillary components and subcomponents comprising any simple cycle stationary combustion
turbine, any combined cycle combustion turbine, and any combined
heat and power combustion turbine based system plus any
integrated equipment that provides electricity or useful thermal
output to the combustion turbine engine, heat recovery system or
auxiliary equipment. Stationary means that the combustion
turbine is not self-propelled or intended to be propelled while
performing its function. It may, however, be mounted on a
vehicle for portability. If a stationary combustion turbine
burns any solid fuel directly it is considered a steam
generating unit.
Steam generating unit means any furnace, boiler, or other
device used for combusting fuel and producing steam (nuclear
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 Page 1554 of 1560
steam generators are not included) plus any integrated equipment
that provides electricity or useful thermal output to the
affected facility or auxiliary equipment.
Uprate means an increase in available electric generating
unit power capacity due to a system or equipment modification.
Useful thermal output means the thermal energy made
available for use in any heating application (e.g., steam
delivered to an industrial process for a heating application,
including thermal cooling applications) that is not used for
electric generation, mechanical output at the affected EGU, to
directly enhance the performance of the affected EGU (e.g.,
economizer output is not useful thermal output, but thermal
energy used to reduce fuel moisture is considered useful thermal
output), or to supply energy to a pollution control device at
the affected EGU. Useful thermal output for affected EGU(s) with
no condensate return (or other thermal energy input to the
affected EGU(s)) or where measuring the energy in the condensate
(or other thermal energy input to the affected EGU(s)) would not
meaningfully impact the emission rate calculation is measured
against the energy in the thermal output at SATP conditions.
Affected EGU(s) with meaningful energy in the condensate return
(or other thermal energy input to the affected EGU) must measure
the energy in the condensate and subtract that energy relative
to SATP conditions from the measured thermal output.
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 Page 1555 of 1560
Valid data means quality-assured data generated by
continuous monitoring systems that are installed, operated, and
maintained according to part 75 of this chapter. For CEMS, the
initial certification requirements in §75.20 of this chapter and
appendix A to part 75 of this chapter must be met before
quality-assured data are reported under this subpart; for ongoing quality assurance, the daily, quarterly, and
semiannual/annual test requirements in sections 2.1, 2.2, and
2.3 of appendix B to part 75 of this chapter must be met and the
data validation criteria in sections 2.1.5, 2.2.3, and 2.3.2 of
appendix B to part 75 of this chapter apply. For fuel flow
meters, the initial certification requirements in section 2.1.5
of appendix D to part 75 of this chapter must be met before
quality-assured data are reported under this subpart (except for
qualifying commercial billing meters under section 2.1.4.2 of
appendix D), and for on-going quality assurance, the provisions
in section 2.1.6 of appendix D to part 75 of this chapter apply
(except for qualifying commercial billing meters).
Waste-to-Energy means a process or unit (e.g., solid waste
incineration unit) that recovers energy from the conversion or
combustion of waste stream materials, such as municipal solid
waste, to generate electricity and/or heat.

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 Page 1556 of 1560
Table 1 to Subpart UUUU of Part 60—CO2 Emission Performance Rates
(Pounds of CO2 per Net MWh)
Affected EGU

Interim Rate

Final Rate

Steam generating
unit or integrated
gasification
combined cycle
(IGCC)
Stationary
combustion turbine

1,534

1,305

832

771

Table 2 to Subpart UUUU of Part 60—Statewide Rate-based CO2
Emission Goals (Pounds of CO2 per Net MWh)
State
Alabama
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
Florida
Georgia
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Lands of the Fort
Mojave Tribe
Lands of the Navajo
Nation
Lands of the Uintah
and Ouray
Reservation
Louisiana
Maine

Interim Emission
Goal
1,157
1,173
1,304
907
1,362
852
1,023
1,026
1,198
832
1,456
1,451
1,505
1,519
1,509

Final Emission Goal
1,018
1,031
1,130
828
1,174
786
916
919
1,049
771
1,245
1,242
1,283
1,293
1,286

832

771

1,534

1,305

1,534

1,305

1,293
842

1,121
779

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version. 

 Page 1557 of 1560
Maryland
Massachusetts
Michigan
Minnesota
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Virginia
Washington
West Virginia
Wisconsin
Wyoming

1,510
902
1,355
1,414
1,061
1,490
1,534
1,522
942
947
885
1,325
1,025
1,311
1,534
1,383
1,223
964
1,258
832
1,338
1,352
1,411
1,188
1,368
1,047
1,111
1,534
1,364
1,526

1,287
824
1,169
1,213
945
1,272
1,305
1,296
855
858
812
1,146
918
1,136
1,305
1,190
1,068
871
1,095
771
1,156
1,167
1,211
1,042
1,179
934
983
1,305
1,176
1,299

Table 3 to Subpart UUUU of Part 60—Statewide Mass-based CO2
Emission Goals (Short Tons of CO2)

State

Interim Emission
Goal (2022-2029)

Alabama
Arizona
Arkansas
California

497,682,304
264,495,976
269,466,064
408,216,600

Final Emission Goals
(2 year blocks
starting with 20302031)
113,760,948
60,341,500
60,645,264
96,820,240

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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 Page 1558 of 1560
Colorado
Connecticut
Delaware
Florida
Georgia
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Lands of the Fort
Mojave Tribe
Lands of the Navajo
Nation
Lands of the Uintah
and Ouray
Reservation
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota
Missouri
Mississippi
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South Carolina
South Dakota
Tennessee
Texas

267,103,064
57,902,920
40,502,952
903,877,832
407,408,672
12,401,136
598,407,008
684,936,520
226,035,288
198,874,664
570,502,416

59,800,794
13,883,046
9,423,650
210,189,408
92,693,692
2,985,712
132,954,314
152,227,670
50,036,272
43,981,652
126,252,242

4,888,824

1,177,038

196,462,344

43,401,174

20,491,560
314,482,512
17,265,472
129,675,168
101,981,416
424,457,200
203,468,736
500,555,464
218,706,504
102,330,640
165,292,128
114,752,736
33,947,936
139,411,048
110,524,488
268,762,632
455,888,200
189,062,568
660,212,104
356,882,656
69,145,312
794,646,616
29,259,080
231,756,984
31,591,600
254,278,880
1,664,726,728

4,526,862
70,854,046
4,147,884
28,695,256
24,209,494
95,088,128
45,356,736
110,925,768
50,608,674
22,606,214
36,545,478
27,047,168
7,995,158
33,199,490
24,825,204
62,514,858
102,532,468
41,766,464
147,539,612
80,976,398
16,237,308
179,644,616
7,044,450
51,997,936
7,078,962
56,696,792
379,177,684

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
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 Page 1559 of 1560
Utah
Virginia
Washington
West Virginia
Wisconsin
Wyoming

212,531,040
236,640,576
93,437,656
464,664,712
250,066,848
286,240,416

47,556,386
54,866,222
21,478,344
102,650,684
55,973,976
63,268,824

Table 4 to Subpart UUUU of Part 60— Statewide Mass-based CO2
Goals plus New Source CO2 Emission Complement (Short Tons of CO2)

State
Alabama
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
Florida
Georgia
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Lands of the Fort
Mojave Tribe
Lands of the Navajo
Nation
Lands of the Uintah
and Ouray
Reservation
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota

504,534,496
275,895,952
272,756,576
430,988,824
277,022,392
58,986,192
41,133,688
917,904,040
412,826,944
13,155,256
604,953,792
692,451,256
228,426,760
200,960,120
576,522,048

Final Emission Goals
(2 year blocks
starting with 20302031)
115,272,348
64,760,392
61,371,058
105,647,270
63,645,748
14,121,986
9,562,772
213,283,190
93,888,808
3,278,026
134,398,348
153,885,208
50,563,762
44,441,644
127,580,002

5,186,112

1,292,276

202,938,832

45,911,608

21,167,080

4,788,708

318,356,976
17,592,128
131,042,600
103,782,424
429,446,408
205,761,008

71,708,642
4,219,936
28,996,872
24,606,744
96,188,604
45,862,346

Interim Emission
Goal (2022-2029)

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 Page 1560 of 1560
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Virginia
Washington
West Virginia
Wisconsin
Wyoming

221,990,024
505,904,560
105,704,024
167,021,320
120,916,064
34,519,280
141,919,248
114,741,592
272,940,440
461,424,928
191,025,152
667,812,080
361,531,056
72,774,608
804,705,296
29,819,360
234,516,064
31,963,696
257,149,584
1,707,356,792
220,386,616
240,240,880
97,691,736
469,488,232
252,985,576
295,724,848

51,332,926
112,105,626
23,913,816
36,926,888
29,436,214
8,121,182
33,752,728
26,459,850
63,436,364
103,753,712
42,199,354
149,215,950
82,001,704
17,644,106
181,863,274
7,168,032
52,606,510
7,161,036
57,329,988
396,210,498
50,601,386
55,660,348
23,127,324
103,714,614
56,617,764
66,945,204

This document is a prepublication version, signed by EPA Administrator, Gina McCarthy on 8/3/2015.  We have 
taken steps to ensure the accuracy of this version, but it is not the official version.