NECEE
FUTURE

TIER 1 DRAFT ENVIRONMENTAL IMPACT STATEMENT

Alternatives
Considered

 

Table of Contents
4.

ALTERNATIVES CONSIDERED ...................................................................................................................... 4-1
4.1
ALTERNATIVES DEVELOPMENT PROCESS OVERVIEW............................................................................................ 4-1
4.1.1 Initial Alternatives ............................................................................................................................... 4-3
4.1.2 Preliminary Alternatives ..................................................................................................................... 4-5
4.1.2.1

Preliminary Alternatives Dismissed ............................................................................................................ 4-7

4.1.3.1
4.1.3.2

Technology Considerations ........................................................................................................................ 4-8
Related Projects.......................................................................................................................................... 4-9

4.2.1.1

Interregional and Regional Markets ......................................................................................................... 4-11

4.2.2.1
4.2.2.2
4.2.2.3
4.2.2.4

Service Concepts and Operating Efficiencies ............................................................................................ 4-13
Service Planning Assumptions .................................................................................................................. 4-14
Connecting Transit and Rail Services ........................................................................................................ 4-17
Station Typology ....................................................................................................................................... 4-20

4.2.5.1
4.2.5.2
4.2.5.3

Storage and Maintenance Facilities.......................................................................................................... 4-31
Train Control Systems............................................................................................................................... 4-33
Communication and Signal Systems ......................................................................................................... 4-33

4.6.1.1
4.6.1.2
4.6.1.3

Chokepoint Relief Projects ....................................................................................................................... 4-45
New Track ................................................................................................................................................. 4-45
New Segment ........................................................................................................................................... 4-46

4.6.2.1
4.6.2.2
4.6.2.3

Chokepoint Relief Projects ....................................................................................................................... 4-48
New Track ................................................................................................................................................. 4-48
New Segment ........................................................................................................................................... 4-49

4.6.3.1
4.6.3.2
4.6.3.3

Chokepoint Relief Projects ....................................................................................................................... 4-51
New Track ................................................................................................................................................. 4-51
New Segment ........................................................................................................................................... 4-52

4.7.1.1

Washington, D.C. ...................................................................................................................................... 4-54

4.1.3

No Action and Action Alternatives ...................................................................................................... 4-7

4.1.4 Balancing Near-Term and Long-Term Needs ...................................................................................... 4-9
4.2
CHARACTERISTICS OF ACTION ALTERNATIVES ................................................................................................... 4-10
4.2.1 Markets Served ................................................................................................................................. 4-11
4.2.2

Service and Station Types ................................................................................................................. 4-12

4.2.3
4.2.4
4.2.5

Infrastructure Elements .................................................................................................................... 4-27
Representative Route ....................................................................................................................... 4-27
Ancillary Facilities and Supporting Structures .................................................................................. 4-31

4.3
NO ACTION ALTERNATIVE ............................................................................................................................ 4-33
4.3.1 Disinvestment Scenario .................................................................................................................... 4-35
4.4
ACTION ALTERNATIVES ................................................................................................................................ 4-36
4.4.1 Alternative 1 ..................................................................................................................................... 4-36
4.4.2 Alternative 2 ..................................................................................................................................... 4-36
4.4.3 Alternative 3 ..................................................................................................................................... 4-36
4.5
MARKETS AND SERVICE ............................................................................................................................... 4-38
4.5.1 No Action Alternative ....................................................................................................................... 4-38
4.5.2 Alternative 1 ..................................................................................................................................... 4-41
4.5.3 Alternative 2 ..................................................................................................................................... 4-41
4.5.4 Alternative 3 ..................................................................................................................................... 4-42
4.5.5 Stations/Metropolitan Areas Served ................................................................................................ 4-43
4.6
INFRASTRUCTURE ELEMENTS ........................................................................................................................ 4-44
4.6.1 Alternative 1 ..................................................................................................................................... 4-45

4.6.2

Alternative 2 ..................................................................................................................................... 4-48

4.6.3

Alternative 3 ..................................................................................................................................... 4-51

4.7
GEOGRAPHIC DEPICTION AND ORIENTATION OF ALTERNATIVES ........................................................................... 4-54
4.7.1 No Action Alternative ....................................................................................................................... 4-54

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 4. Alternatives Considered

4.7.1.2
4.7.1.3
4.7.1.4
4.7.1.5
4.7.1.6
4.7.1.7
4.7.1.8
4.7.1.9
4.7.1.10

Maryland .................................................................................................................................................. 4-54
Delaware .................................................................................................................................................. 4-57
Pennsylvania ............................................................................................................................................. 4-57
New Jersey................................................................................................................................................ 4-58
New York .................................................................................................................................................. 4-58
Connecticut .............................................................................................................................................. 4-59
Rhode Island ............................................................................................................................................. 4-59
Massachusetts .......................................................................................................................................... 4-60
Ownership of the existing NEC ................................................................................................................. 4-61

4.7.2.1
4.7.2.2
4.7.2.3
4.7.2.4
4.7.2.5

Maryland .................................................................................................................................................. 4-62
New Jersey................................................................................................................................................ 4-63
New York .................................................................................................................................................. 4-63
Connecticut .............................................................................................................................................. 4-63
Rhode Island ............................................................................................................................................. 4-64

4.7.3.1
4.7.3.2
4.7.3.3
4.7.3.4
4.7.3.5
4.7.3.6
4.7.3.7
4.7.3.8

Maryland .................................................................................................................................................. 4-65
Delaware .................................................................................................................................................. 4-66
Pennsylvania ............................................................................................................................................. 4-66
New Jersey................................................................................................................................................ 4-68
New York .................................................................................................................................................. 4-69
Connecticut .............................................................................................................................................. 4-69
Rhode Island ............................................................................................................................................. 4-69
Massachusetts .......................................................................................................................................... 4-70

4.7.4.1
4.7.4.2
4.7.4.3

Washington, D.C., to New York City ......................................................................................................... 4-70
New York City to Hartford ........................................................................................................................ 4-73
Hartford to Boston ................................................................................................................................... 4-75

4.7.2

Alternative 1 ..................................................................................................................................... 4-62

4.7.3

Alternative 2 ..................................................................................................................................... 4-64

4.7.4

Alternative 3 ..................................................................................................................................... 4-70

4.8
COST ....................................................................................................................................................... 4-78
4.8.1 Capital Costs ..................................................................................................................................... 4-78
4.8.2 Operations and Maintenance (O&M) Costs ..................................................................................... 4-79
4.9
PRESENTATION OF ALTERNATIVES ANALYSIS .................................................................................................... 4-80

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 4. Alternatives Considered

Tables
TABLE 4-1:
TABLE 4-2:
TABLE 4-3:
TABLE 4-4:
TABLE 4-5:
TABLE 4-6:
TABLE 4-7:
TABLE 4-8:
TABLE 4-9:
TABLE 4-10:
TABLE 4-11:
TABLE 4-12:
TABLE 4-13:
TABLE 4-14:
TABLE 4-15:
TABLE 4-16:

INITIAL ALTERNATIVES BUILDING BLOCKS ..................................................................................4-3
SUMMARY OF PRELIMINARY ALTERNATIVES ...............................................................................4-5
PRELIMINARY ALTERNATIVES EVALUATION CRITERIA ....................................................................4-7
ROLLING STOCK ASSUMPTIONS USED FOR SERVICE PLANNING PURPOSES ......................................4-16
NEC FUTURE STATIONS ....................................................................................................4-22
FOOTPRINT WIDTH OF THE REPRESENTATIVE ROUTE..................................................................4-29
POTENTIAL INTERCITY RAIL STORAGE AND MAINTENANCE FACILITIES ............................................4-32
TRAINS PER PEAK HOUR, EXISTING AND 2040 PEAK-HOUR PEAK DIRECTION AT SELECT
SCREENLINES – ALL ALTERNATIVES.........................................................................................4-39
TRAINS PER PEAK HOUR, 2040 PEAK-HOUR PEAK DIRECTION AT SELECT SCREENLINES –
ALTERNATIVE 3 ROUTE OPTIONS ...........................................................................................4-40
EXISTING NEC STATIONS (EXCLUDING CONNECTING CORRIDORS) SERVED UNDER THE NO ACTION
ALTERNATIVE ....................................................................................................................4-43
STATION TYPE FOR NO ACTION AND ACTION ALTERNATIVES........................................................4-44
MAPPING ATLAS REFERENCE GUIDE .......................................................................................4-55
CAPITAL COSTS – ACTION ALTERNATIVES ($2014 BILLIONS) .......................................................4-79
CAPITAL COSTS – ALTERNATIVE 3 ROUTE OPTIONS ($2014 BILLIONS) (END-TO-END COSTS) .............4-79
ANNUAL INTERCITY O&M COSTS AND REVENUES BY ALTERNATIVE ($2014 MILLIONS) ....................4-79
ANNUAL INTERCITY O&M COSTS AND REVENUES – ALTERNATIVE 3 ($2014 MILLIONS)...................4-80

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Figures
FIGURE 4-1: ALTERNATIVES DEVELOPMENT PROCESS ....................................................................................4-2
FIGURE 4-2: INITIAL ALTERNATIVES ...........................................................................................................4-4
FIGURE 4-3: STUDY AREA CONNECTING CORRIDORS ...................................................................................4-20
FIGURE 4-4: ALTERNATIVE 1 (CHOKEPOINT, NEW TRACK, AND NEW SEGMENT LOCATIONS) ...............................4-47
FIGURE 4-5: ALTERNATIVE 2 (CHOKEPOINT, NEW TRACK, AND NEW SEGMENT LOCATIONS) ...............................4-50
FIGURE 4-6: ALTERNATIVE 3 (CHOKEPOINT, NEW TRACK, AND NEW SEGMENT LOCATIONS) ...............................4-53
FIGURE 4-7: NO ACTION ALTERNATIVE (EXISTING NEC THROUGH BALTIMORE) ...............................................4-57
FIGURE 4-8: NO ACTION ALTERNATIVE (EXISTING NEC THROUGH NEW YORK CITY) .........................................4-59
FIGURE 4-9: NO ACTION ALTERNATIVE (EXISTING NEC THROUGH PROVIDENCE) ..............................................4-60
FIGURE 4-10: NO ACTION ALTERNATIVE (EXISTING NEC NEAR BOSTON) ..........................................................4-61
FIGURE 4-11: ALTERNATIVE 1 (EXISTING NEC AND NEW SEGMENT THROUGH BALTIMORE) .................................4-62
FIGURE 4-12: ALTERNATIVE 1 (EXISTING NEC AND NEW SEGMENT THROUGH NEW YORK CITY METROPOLITAN
AREA) ..............................................................................................................................4-63
FIGURE 4-13: ALTERNATIVE 1 (EXISTING NEC AND NEW SEGMENT NEAR OLD SAYBROOK, CT AND KENYON, RI) .....4-64
FIGURE 4-14: ALTERNATIVE 2 (EXISTING NEC AND NEW SEGMENT THROUGH MARYLAND AND DELAWARE) ...........4-66
FIGURE 4-15: ALTERNATIVE 2 (EXISTING NEC AND NEW SEGMENT THROUGH PHILADELPHIA) ..............................4-67
FIGURE 4-16: ALTERNATIVE 2 (EXISTING NEC AND NEW SEGMENT THROUGH NEW YORK CITY METROPOLITAN
AREA) ..............................................................................................................................4-68
FIGURE 4-17: ALTERNATIVE 3 (EXISTING NEC AND NEW SEGMENTS THROUGH BALTIMORE) ................................4-71
FIGURE 4-18: ALTERNATIVE 3 (EXISTING NEC AND NEW SEGMENTS THROUGH PHILADELPHIA) ............................4-72
FIGURE 4-19: ALTERNATIVE 3 (EXISTING NEC AND NEW SEGMENTS THROUGH NEW YORK CITY METROPOLITAN
AREA) ..............................................................................................................................4-73
FIGURE 4-20: ALTERNATIVE 3 (EXISTING NEC AND NEW SEGMENTS THROUGH PROVIDENCE) ..............................4-76
FIGURE 4-21: ALTERNATIVE 3 (EXISTING NEC AND NEW SEGMENTS THOUGH BOSTON) ......................................4-77

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Tier 1 Draft EIS

 4.

Alternatives Considered

This chapter describes the No Action and Action
Alternatives considered in this Tier 1 Draft The assumptions made herein at the Tier 1 level
Environmental Impact Statement (Tier 1 Draft EIS). are representative and illustrative to support
The Federal Railroad Administration (FRA) analysis in both the alternatives development
developed
these
alternatives
through
a process and the Tier 1 Draft EIS. The service and
comprehensive and collaborative alternatives infrastructure assumptions are not intended to be
development process to consider a broad array of prescriptive.
distinct alternatives that address the program’s
Purpose and Need. This chapter summarizes that
alternatives development process and presents the Action Alternatives assessed in the remainder of
this Tier 1 Draft EIS. (Appendix B provides further details and supporting documentation related to
this chapter.)
The FRA has defined the No Action and Action Alternatives to a level of detail consistent with a
programmatic EIS and sufficient to evaluate benefits and effects to both the built and natural
environments. Characteristics for the No Action and Action Alternatives described in this Tier 1 Draft
EIS include markets or cities served, service types, infrastructure improvements and routing, and
costs. For each Action Alternative, the FRA defined the markets or city-pairs and representative
routings linking those markets, but not specific alignments. This allows the FRA to better understand
the regional benefits or impacts resulting from the proposed construction of required infrastructure,
as well as the implementation of service. To facilitate the environmental assessment of the Action
Alternatives, this chapter provides the physical description of the No Action and Action Alternatives
from south to north by state and metropolitan area. This chapter presents some features of each
Action Alternative—such as service characteristics, capital costs, and operations and maintenance
(O&M) costs—corridor-wide rather than by geographic location. This chapter does not present the
ways in which the No Action and Action Alternatives address the Purpose and Need (as described in
Chapter 3); subsequent chapters (see Chapter 5, 6, and 7) provide more detail on the transportation,
economic, and environmental benefits and effects.

4.1

ALTERNATIVES DEVELOPMENT PROCESS OVERVIEW

There are many possible futures for the NEC. Some
involve significant changes in the way passenger
service is provided, while others focus on
modifications to the existing system, keeping service
much as it is today. Some options focus improvements
only on the existing NEC, while others include service
to new locations or different types of service.
Decisions about the future of the NEC affect a wide
range of stakeholders and FRA’s alternatives
development process included extensive public

Tier 1 Draft EIS

A cornerstone for the alternatives development
process was open and transparent engagement
with a wide range of stakeholders, from rail
passengers, agencies, and service operators on
the NEC to the residents, travelers, businesses,
and communities potentially affected by the
outcomes of NEC FUTURE.

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 4. Alternatives Considered

involvement and agency consultation activities including Scoping, consultation meetings, briefings,
workshops, and presentations.
Because of the unique geographic, technical, and institutional complexity of the program, the FRA
took an innovative approach to developing the NEC FUTURE alternatives, organizing the process into
three steps (Figure 4-1). The three-step process allowed for the preparation of corridor-wide service
plans and infrastructure projects, and subsequent testing, refining, and optimizing of different service
and geographic markets within the NEC. This process also provided the FRA with an understanding of
how discrete elements perform relative to one another so that the strongest “package” of separate
service, infrastructure, and route options could be crafted into different alternatives that meet the
needs of various markets along the NEC.

Figure 4-1:

Alternatives Development Process

Source: NEC FUTURE team, 2015

In evaluating the alternatives, the FRA used a number of technical tools (as described in Appendix B)
to assess engineering feasibility, ridership, operational impacts, capital and operating costs,
environmental impacts, and public benefits. The level of technical analysis and associated tools to
develop applicable data becomes more detailed as the alternatives advance through the
development process. This approach was designed to allow for the refinement and re-packaging of
elements of alternatives leading to FRA’s identification of the Action Alternatives to be further
analyzed and compared to a No Action Alternative.
The FRA defined and developed the Action Alternatives to a programmatic level, to focus on corridorwide solutions within the Tier 1 Draft EIS. The FRA’s approach to the alternatives development
process allows for holistic solutions that meet the needs of the entire Study Area to be considered,
free from constraints on existing physical assets and those imposed by institutional and jurisdictional
operating agreements. These alternatives establish a comprehensive, long-term vision for the

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 4. Alternatives Considered

corridor’s future development and are defined by (1) a range of corridor-wide service options (Service
Plans) required to meet varying degrees of projected growth and demand and (2) broad
infrastructure needs to accommodate the service. Assumptions made at the Tier 1 level are
representative and illustrative, to support analysis in both the alternatives development process and
the Tier 1 Draft EIS. These service and infrastructure assumptions are not intended to be prescriptive.
The Action Alternatives provide the FRA and other stakeholders with a range of options and
information over the No Action Alternative to determine the appropriate role of rail within the
region’s future transportation network. While focused on rail solutions (addressing the Purpose and
Need), the alternatives have different implications for other transportation modes, including the
region’s airports, highways, and transit networks. In this way, they provide important information for
policymakers to make decisions with this broader transportation system in mind.

4.1.1 Initial Alternatives
Developing a list of “Initial Alternatives” was the first step in the alternatives development process.
To develop these alternatives, the FRA began with an analysis of Study Area travel demand and
growth data to understand where people are traveling, where growth in population and employment
is forecast to occur, and how travel patterns are likely to change in the coming decades. In addition,
numerous route and service concepts were identified through input and data collected during
Scoping. The FRA organized these ideas into a combination of “building blocks,” including how trains
will potentially access the markets (network/route), the amount of service to provide to each market
(investment level), and the type of service to be provided (service). Mixing and matching these
building blocks provided the basis for testing and comparing multiple market, investment, and service
options. Table 4-1 describes these three building blocks.

Table 4-1:

Initial Alternatives Building Blocks
Building Blocks

Network/Route
§ How can markets be accessed by
rail?

Variations
§ Existing NEC
§ Potential second-spine
§ Potential new right-of-way segments
§ Potential connecting corridor links

Investment Level
§ How robust is the program?
§ How much service can be provided?
§ Which new markets can be served?

§ Low (A): 2040 growth on existing NEC serving existing markets
§ Medium-low (B): Additional capacity on existing NEC to add new
types of express, regional, and connecting corridor services
§ Medium-high (C): Targeted expansion of the NEC to serve new offcorridor markets and expand service options to NEC and
connecting corridor markets
§ High (D): Extensive end-to-end expansion of the NEC to serve new
markets and high-speed rail service

Service
§ How can markets be best served?

§ Standard service mix (services similar to today)
§ Enhanced service mix (new types of service and operations)

Source: NEC FUTURE team, 2015

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 4. Alternatives Considered

Using these three building blocks, the FRA identified approximately 100 Initial Alternatives to address
a broad spectrum of opportunities to upgrade and expand the NEC, serve existing and new markets
both on and off the corridor, provide better connectivity to other rail markets, transit, and airports,
and develop new high-speed rail service.1 Some of the initial ideas proposed, such as modifying the
existing NEC to serve markets off of the existing spine when those markets could be better served
through existing and/or future connecting corridors 2 did not advance. The FRA also dismissed less
efficient routing options, such as New York City to Boston via Albany. Figure 4-2 provides a schematic
representation of Initial Alternatives. (Appendix B, Initial Alternatives Report, provides additional
documentation on the Initial Alternatives.)

Figure 4-2:

Initial Alternatives

Source: NEC FUTURE team, 2015

1

The definition of high-speed rail varies depending on context and purpose. For NEC FUTURE, high-speed rail
consists of service provided by Intercity-Express trains operating at a range of speeds from 150 to 220 mph.
2
In NEC FUTURE, a connecting corridor is defined as a passenger rail corridor that connects directly to another rail
corridor (in this instance, the NEC) via a station transfer or through-train service.

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 4. Alternatives Considered

In December 2012, the FRA hosted a set of regional workshops. 3 These December Dialogues
presented the market-based approach underpinning the alternatives development process, the
results of Scoping, and the framework used to generate the Initial Alternatives. The feedback from
participants at the December Dialogues underscored the importance of providing a range of
investment scenarios for the NEC, as well as a flexible approach for the use of additional railroad
capacity, allowing operators to respond to changing needs. More information on the December
Dialogues is included in Chapter 10, Agency and Public Involvement.

4.1.2 Preliminary Alternatives
For the next step of the alternatives development process, the FRA organized the Initial Alternatives
into four program levels to facilitate a comparison of the benefits and impacts of distinct levels of
investment in the NEC. Some Initial Alternatives were not advanced into Preliminary Alternatives,
particularly those alternatives that included specific engineering and alignment solutions not
germane to a corridor-wide, programmatic planning process.
The four program levels (Table 4-2) differed by the level and types of rail service they provided to the
region and supported a broad range of options for the role that passenger rail could play on the NEC
and in the Study Area, from upgrading the existing NEC to building a second-spine to support highspeed rail operations for existing and future markets. As program levels increase from A to D, larger
investments in service and infrastructure are required.

Table 4-2:
Program
Level
A

B

C

D

Summary of Preliminary Alternatives
Alt.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

Service Objective
Addresses state of good repair and
provides some increase in service
and capacity along existing NEC
Substantially increases service to
existing and connecting markets
along existing NEC with high capacity
operations
Targeted expansion of existing NEC
to serve new markets, reduce trip
time, and introduce robust Regional
rail service
Achieves world-class high-speed rail
potential through the addition of
new spine

Possible Service Option
Standard (financially constrained)
Standard
Enhanced (mixture of services)
Standard
Enhanced: Maximum frequency of trains
Enhanced: Maximum trip time savings
Enhanced: Maximum service to connecting corridors
Standard
Enhanced: Maximum frequency of trains
Enhanced: Maximum trip time savings
Enhanced: Maximum service to connecting corridors
Second-spine generally parallel to existing NEC
Second-spine via Danbury-Hartford-Providence
Second-spine via Ronkonkoma-Hartford-Worcester
Second-spine via Delmarva and Nassau CountyStamford-Danbury-Springfield

Source: NEC FUTURE Appendix B, Preliminary Alternatives Report, April 2013

3

A summary of this meeting is available on the NEC FUTURE website:
http://necfuture.com/get_involved/public_meetings.aspx

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Within each program level, the FRA developed multiple alternatives to better understand and
quantify key market and service dynamics, such as the trade-offs between frequency of service, trip
time, and the convenience of one-seat end-to-end service. This allowed the FRA to test and compare
different operating scenarios, or, in the case of the second-spine, different route options. In all, the
FRA defined 15 Preliminary Alternatives (Table 4-2). Within Program Levels A, B, and C, the FRA
developed two different service scenarios for testing and comparison:
4 Standard service serves markets in much the same manner as they are served today, with
Intercity trains stopping at major stations along the corridor and commuter trains taking
passengers from suburban markets into urban centers.
4 Enhanced service involves the evaluation and testing of new operating approaches and services
that allow for more intensive use of existing or new infrastructure.
Because enhanced service, as defined, encompasses a broad range of potential new service options,
the FRA developed separate alternatives in Program Levels B and C to focus on three different
enhanced service objectives: maximizing the frequency of trains; providing the fastest express trip
time; or maximizing service to connecting corridors. (See Appendix B for additional information.)
In April 2013, the FRA hosted a second set of regional workshops to present the Preliminary
Alternatives to the general public. The feedback from participants at the April Dialogues confirmed
the importance of preserving a range of program levels in the Tier 1 Draft EIS to reflect different
visions for the future of the NEC. Participant feedback also highlighted the importance of evaluating
multiple route options. More information on the April Dialogues is included in Chapter 11, Agency
and Public Involvement.
In the final step of the alternatives development process, the FRA evaluated the 15 Preliminary
Alternatives by comparing them to understand whether and how each met the Purpose and Need
(Chapter 3), and analyzing their benefits in terms of ridership, travel time, and service quality.
Similarly, among the different Program Level D second-spine route alternatives, the FRA compared
performance (in terms of service and ridership) and environmental impacts.
To conduct the analyses of the 15 Preliminary Alternatives, the FRA developed evaluation criteria and
associated performance measures derived from the Purpose and Need. This set of evaluation criteria
is based on (i) best practices; (ii) results from models used in transportation investment programs of
similar physical and programmatic magnitude, (iii) available data; and (iv) stakeholder input. Table 4-3
details the criteria and data used to evaluate the Preliminary Alternatives.
The FRA’s key findings during this stage of the alternatives development process were related to 1)
defining service dynamics—evaluating passenger preferences for frequency of service, trip time, and
one-seat-ride services; and 2) defining the role that rail can play in transporting travelers across the
NEC region. (Appendix B, Preliminary Alternatives Evaluation Report, provides additional details on
this process.)

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 4. Alternatives Considered

Table 4-3:

Preliminary Alternatives Evaluation Criteria

Evaluation Criteria
Growth and Capacity Expansion

Aging Infrastructure
Service Effectiveness and Performance
Connectivity
Environmental Consequences

§
§
§
§
§
§
§
§
§
§
§
§

Metrics
Annual trips
Annual passenger miles
Peak-hour passengers at major screenlines*
Peak-hour trains, Hudson River screenline
NEC in a state of good repair
Express trip time savings
Maximum trains per hour
Peak-hour trains operating on NEC
Stations served by Intercity trains
Station-pairs served by Intercity trains
Airport stations
Acres of environmental sensitivity

Source: NEC FUTURE team, 2015
* A screenline is an imaginary line used to count rail traffic at a specific location in the Study Area (e.g., the Hudson River,
recognizing the capacity restrictions of the tunnels and/or to analyze certain defined types of service/markets).

4.1.2.1

Preliminary Alternatives Dismissed

The FRA used the metrics and data for each criterion (Table 4-3) to compare Program Levels A through
D, as well as to compare the separate alternatives within each program level. After evaluating the
environmental impacts of the Preliminary Alternatives, the FRA determined that each was likely to
result in environmental effects. The FRA dismissed Preliminary Alternative 12 (which represented a
second spine parallel to the entire existing NEC from Washington, D.C. to Boston) for service, cost,
and constructability reasons. Based on feedback received during the April Dialogues, the FRA
dismissed the Delmarva routing in Preliminary Alternative 15, because of public concerns that the
route was not viable for a variety of reasons, including the potential for environmental impacts as
well as from a growth and market perspective.
The FRA considered three route options for a second spine between New York City and Hartford, CT,
and three new off-corridor routes for a second spine from Hartford, CT, to Boston. Based on an
evaluation of service, ridership, and capital cost, the FRA narrowed the six route options to four. The
Nassau Hub in Uniondale, NY, routing (between New York City and Hartford, CT), and the Springfield,
MA, routing (between Hartford, CT and Boston) underperformed when compared to the other route
options and were not advanced for further consideration in this Tier 1 Draft EIS. These route options
could become part of a longer-term investment program to improve access to markets beyond the
NEC or along connecting corridors. (Appendix B, Preliminary Alternatives Evaluation Report and Tier
1 EIS Alternatives Report provide additional information on the route options considered.)

4.1.3 No Action and Action Alternatives
The FRA re-packaged the Preliminary Alternatives into three distinct Action Alternatives that meet
the Purpose and Need. Each Action Alternative includes the following:
4 A set of geographic markets to be served and assumptions about the level of passenger rail
service that will be provided to these markets (see Section 4.5).

Tier 1 Draft EIS

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 4. Alternatives Considered

4 Infrastructure improvements that support this level-of-service (see Section 4.6).
4 A Representative Route (or footprint) that connects these markets (see Section 4.7)
The FRA also defined a No Action Alternative to establish a baseline for comparative purposes. The
No Action Alternative represents a “snapshot in time,” developed using current information
regarding planning and funding for transportation projects within the Study Area. Refer to Section
4.3 and Appendix B, No Action Alternative Report, for additional information regarding the No Action
Alternative.
The FRA compared the Action Alternatives to the No Action Alternative (see Sections 4.3 and 4.4),
using ridership and service planning characteristics estimated with models 4 created and customized
for this effort. Chapters 5, 6, 7, and 8, present transportation effects, economic effects,
environmental consequences, and construction effects, respectively, of the Action Alternatives.

4.1.3.1

Technology Considerations

Emerging and new technologies may be applicable to rail service on the NEC and other transportation
needs across the Study Area. These technologies might include new information systems and
services, new train propulsion and guideway systems, fare collection innovations, and safety
enhancements. The FRA plays an important role in researching new rail transportation approaches
and technologies, as well as demonstrating their specific capabilities and role in the broader
multimodal transportation system. For example, the FRA sponsored development of next-generation
propulsion systems for locomotives and has explored the potential use of magnetic levitation train
technology. 5
An advanced guideway system, such as magnetic levitation technology, could be used to develop a
second spine or portions thereof. This system would require separate stations, and would not support
run-through trains from connecting corridors nor offer proven integration efficiencies with today’s
NEC infrastructure and operators. Furthermore, these technologies remain under development, with
few systems in operation internationally. For these reasons, the FRA did not incorporate advanced
guideway or similar new technologies in the Action Alternatives. However, such technologies could
be studied separately, and are not precluded as a future transformative investment in the regional
transportation system. Other potential applications of new technology transportation systems could
support the NEC passenger rail network by connecting off-corridor markets to the NEC, or a major
market to the NEC.

4

Additional documentation regarding specific models created for NEC FUTURE is located in the technical
memorandum specific to that subject. Appendix B contains these technical memorandums.
5
Magnetic levitation is an advanced transportation technology in which magnetic forces lift, propel, and guide a
vehicle over a specially designed guideway. For more information on magnetic levitation technology, see Federal
Railroad Administration, Magnetic Levitation Transportation Technology Deployment Program. 49 CFR Part 268.
[FRA Docket No. FRA–98–4545; Notice No.3]. RIN 2130–AB29.

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4.1.3.2

Related Projects

There are several ongoing independent rail projects located within the Study Area that are not
included in the No Action Alternative. Instead, these projects are referred to as “Related Projects”
since they generally fall within one of the following three categories:
4 Fully or partially funded projects located in a connecting corridor and not on the NEC
4 Unfunded projects along the NEC with ongoing or completed NEPA/PE
4 Fully or partially funded transit (e.g., NJ TRANSIT, MTA-LIRR) or freight projects located off of but
connecting to the NEC
These Related Projects, such as the Southeast High Speed Rail Corridor – Washington, D.C., to
Richmond, VA, have independent utility and many are currently undergoing their own separate NEPA
processes. Other Related Projects, such as Boston South Station expansion, Portal Bridge
replacement, and the B&P Tunnel replacement, are intended to address some of the NEC’s most
pressing reliability, safety, and capacity needs. As such, some of these projects or their components
may be included in an Action Alternative.
The FRA has considered these reasonably foreseeable projects in the cumulative impact analysis
(Chapter 7.20, Cumulative Effects), and is coordinating with Related Project sponsors to ensure that
those projects remain compatible with, and do not preclude, the future design and construction of
the NEC FUTURE No Action and Action Alternatives.

4.1.4 Balancing Near-Term and Long-Term Needs
While NEC FUTURE uses 2040 as a horizon year for planning purposes, the Action Alternatives could
take decades to fully implement. While considering a long-term vision, therefore, the immediate
needs of the NEC in the near-term will need to be addressed in a manner consistent with that longerterm vision. In defining Action Alternatives, the FRA considered the importance of incremental
implementation in phases, by multiple stakeholders, over many years, with specific timing dictated
in part by availability of funding, local needs, and construction considerations. Therefore, the FRA
designed each Action Alternative to be incrementally implemented. (Chapter 10, Phasing and
Implementation, describes specific priorities for advancing projects.)
At this point in the planning process, and given the
significant backlog of need identified for the NEC,
some near-term improvements would apply to all Challenges to project implementation, particularly
of the Action Alternatives. These improvements, in areas with known constraints, will be
known as the Universal First Phase, are a collection addressed during subsequent project-specific
of projects that would support enhancements to analyses.
service and address critical infrastructure
improvements for further advancing whichever
Action Alternative is recommended as the Preferred Alternative. These projects would not affect the
outcome of the subsequent decisions about a Preferred Alternative. (Chapter 10, Phasing and
Implementation, discusses additional information regarding the Universal First Phase.)

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Beyond this initial set of improvements, decisions about priorities and phasing would vary depending
on the Action Alternative and future vision. Public and stakeholder feedback on both near-term
priorities and the longer-term vision are therefore key inputs to the FRA’s decision-making process.
A key element of the NEC FUTURE planning process is to ensure improvements to the NEC are
prioritized, integrated, and packaged for optimal service benefits across the entire rail network.

4.2

CHARACTERISTICS OF ACTION ALTERNATIVES

Aging infrastructure, insufficient capacity, and gaps in connectivity with other transportation modes
and between different rail services limit the current passenger rail network, resulting in congestion
and delays on the NEC. The Action Alternatives address these needs, improving service to existing
markets and providing service to new markets. The Action Alternatives represent a broad range of
options and the FRA developed them with sufficient information to evaluate and make reliable, longterm decisions about the appropriate role of rail in the multimodal transportation system.
The FRA developed Action Alternatives to understand and quantify key rail market and service
dynamics, such as the trade-offs between frequency of service, travel time, fares, and the
convenience of one-seat service between markets. Action Alternatives are defined by markets,
service and station types, and infrastructure. Each Action Alternative represents a unique long-term
vision for improving passenger rail service that will enhance mobility options, improve performance,
and better serve existing and new markets to support future population and employment growth in
the Study Area. Although the visions are unique, each Action Alternative shares the following
attributes:
4 Maintain and improve service on the existing NEC.
4 Bring the NEC to a state of good repair 6 by replacing or renewing aging infrastructure on the
existing NEC and eliminating the backlog of infrastructure requiring replacement so that all future
capital upgrades are planned and implemented according to a regular replacement cycle.
4 Address the most pressing capacity and service chokepoints that constrain capacity on the
existing NEC.
4 Protect freight rail access and the opportunity for future expansion.
4 Incorporate national and international best practices to address capacity constraints, broaden
the mix of station pairs served, improve performance, and generate operating cost efficiencies.
The focus of the Action Alternatives is passenger rail. However, the Action Alternatives would have
different effects on the multimodal transportation system (air, highway, intercity bus, transit, and
rail). The FRA evaluated the potential effects of the Action Alternatives on other modes, particularly
6

State of good repair: A condition in which assets are fit for the purpose for which they were intended. American
Public Transportation Association. (2013). Defining a Transit Asset Management Framework to Achieve a State of
Good Repair. Washington, D.C.: American Public Transportation Association. The FTA is required to establish “a
definition of the term state of good repair (SGR) that includes objective standards for measuring the condition of
capital assets of recipients, including equipment, rolling stock, infrastructure, and facilities.” (Section 20008(b) of
MAP-21). The definition is currently under development.

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 4. Alternatives Considered

if travelers are attracted to passenger rail from congested highways and airports, in Chapter 5,
Transportation Effects, and Chapter 6, Economic Effects and Growth, and Indirect Effects. While
focused on passenger rail, the FRA considered the overall effects on travel across the entire
transportation system in evaluating the benefits and effects of each Action Alternative. Chapter 9,
Evaluation of Alternatives, also presents these broader system-wide effects.

4.2.1 Markets Served
For the NEC FUTURE alternatives development
The FRA’s market-based approach incorporated
process, the FRA took a market-based approach, first
analysis of current travel demand, population
identifying current travel patterns and how they have
growth projections, ridership projections, data
changed over the past three to four decades, and
from states and planning organizations, and
then identifying potential new rail markets. The FRA
identified four primary markets—Washington, D.C., public and agency comments.
Philadelphia, New York City, and Boston—based on
analysis of current travel demand and population
growth projections, ridership projections, data from states and planning organizations, and public
and agency comment during Scoping and other interactions. The data also show that there are other
important rail markets within the Study Area, including smaller intermediate cities or urban and
suburban areas. Some of these markets are located directly on the NEC, such as Baltimore, MD,
Wilmington, DE, and New Haven, CT. Others markets are located away from the NEC, such as
Hartford, CT, Ronkonkoma, NY, and Worcester, MA. 7

4.2.1.1

Interregional and Regional Markets

The interregional travel market includes trips that start and end in different metropolitan areas (e.g.,
beginning in Philadelphia and ending in Boston). A significant number of interregional trips include
travel from intermediate cities to a primary metropolitan area, or between two intermediate cities
(e.g., beginning in Wilmington, DE, and ending in Stamford, CT). Interregional trips today are primarily
served by Amtrak, the NEC’s Intercity rail operator. Regional travel includes trips within a
metropolitan area, such as journey-to-work trips (e.g., Canton, MA, to Boston). These trips are
primarily served by commuter or Regional rail operators (e.g., Massachusetts Bay Transportation
Authority).
For regional travel, demand exceeds capacity during peak periods in some locations, affecting system
performance and often leading to delays and queuing at major stations or terminals and standingroom-only conditions on trains in certain areas of the existing NEC. For some regional markets such
as northern New Jersey/New York, peak-period capacity constraints combined with growth in travel
demand result in higher volumes of travel for extended periods of time. As demand for Regional rail
services grows beyond the peak periods, railroads are left with only small windows of time within
which to accomplish maintenance activities, or they become limited in their ability to respond to
unforeseen events without service disruptions.

7

Intercity travel between these geographic market areas generally is assigned to stations or groups of stations.

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4.2.2 Service and Station Types
For NEC FUTURE, the FRA categorized passenger rail
service into two types—Intercity and Regional.
Intercity is passenger rail service between cities or
metropolitan areas, operating at speeds and
distances greater than that of Regional or commuter
rail. Intercity serves large, midsize, and selected
smaller markets, with station stops typically every 10
to 25 miles. Regional rail serves local markets, often
within one metropolitan area, with station stops
typically every 2 to 10 miles. Details on each of these
passenger rail service types are outlined below:

The term “Intercity” is defined as passenger rail
service between metropolitan areas. The term
“interregional” describes travel flows that start
and end in a different metropolitan area.
“Interregional" and "Intercity" may be used
interchangeably when referring to markets,
passengers, trips, and passenger rail service.
“Regional” describes travel within a metropolitan
area. “Regional rail” is defined as passenger rail
service within the travel shed of a metropolitan
area. “Regional rail” provides local and
commuter-focused service characterized by a
high-percentage of regular travelers. Regional rail
is a broad term that reflects the expanded role of
commuter railroads to also serve metropolitan
travel needs throughout the day and beyond the
work week.

4 Intercity-Express is premium Intercity rail service
operating at speeds of 160–220 miles per hour
(mph) on the NEC, making limited stops and only
serving the largest markets. Intercity-Express
service offers the shortest travel times for
Intercity trips, higher-quality on-board amenities,
at a premium price, using high-performance 8
trainsets. Amtrak’s Acela Express provides similar service today between Washington, D.C., and
Boston, although Acela Express operates at top speeds of 150 mph. 9
4 Intercity-Corridor is conventional Intercity rail service that operates at speeds of 110–160 mph10
on the NEC and on connecting corridors to markets beyond the electrified territory of the NEC.
This service provides connectivity and direct one-seat rides to large and midsize markets on the
NEC. The most prominent of the connecting corridors are the Keystone Corridor between
Harrisburg and Philadelphia, PA; the Southeast High-Speed Rail corridor south of Washington,
D.C., serving Virginia; the Knowledge Corridor serving central Massachusetts and Vermont; and
the Inland Route between Springfield and Boston, MA. In this Tier 1 Draft EIS, the IntercityCorridor trains are assumed to be the successors to today’s Amtrak Northeast Regional service.
Intercity-Corridor also includes long-distance service (Intercity-Corridor-Other), such as the
existing Amtrak services to Florida, New Orleans, Chicago, and Canada. For the purposes of this
analysis, these services are assumed to operate on the NEC outside of the travel peaks.
Intercity-Corridor includes a new service concept—Metropolitan—which offers improved service
to new and intermediate markets and key transfer locations, and stops at more stations than the
8
“High-performance trainsets” refers to new state-of-the-art rolling stock consisting of electric multiple units
(EMU) cars with high rates of acceleration and deceleration and capable of operating at speeds of 160 mph or
greater. An EMU is a multiple unit train consisting of self-propelled carriages, using electricity as the motive power.
An EMU requires no separate locomotive since electric traction motors are incorporated within one or a number of
the carriages.
9
Acela Express service is considered Intercity-Express service because it provides higher onboard amenities and
premium price points.
10
Operating speeds of Intercity-Corridor service is determined by the type of equipment being used and whether
the service is operating on the existing NEC or a connecting corridor.

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current Amtrak Northeast Regional service (including some stations that are served today by only
Regional rail trains). Metropolitan service would operate wholly within the electrified NEC with
high-performance trainsets at up to 160 mph achieving travel times within the NEC competitive
with current Intercity-Corridor service (even while making additional stops). Metropolitan service
would operate on regular schedules with high frequency (2–4 trains per hour), increasing the
number and frequency of direct station-pair connections. The service would also provide a travel
choice for longer-distance commuters.
4 Regional rail refers to service concentrated within a single metropolitan region. Regional rail
trains provide local and commuter-focused service with a high percentage of regular travelers
and fares discounted for weekly or monthly travel. Regional rail encompasses current services
provided by Virginia Railway Express (VRE), Maryland Area Regional Commuter (MARC),
Southeastern Pennsylvania Transportation Authority (SEPTA), NJ TRANSIT, MTA-Long Island Rail
Road (LIRR), MTA-Metro-North Railroad (MNR), Connecticut Shore Line East, and Massachusetts
Bay Transportation Authority (MBTA). Regional rail operations incorporate a variety of stopping
patterns, which vary by location and the available capacity provided in the Action Alternatives.
Representative stopping patterns considered for Regional rail service include the following:
-

All-stop local service

-

Zone express service (typically a weekday peak service that stops at a group of adjacent
stations and then operates express to the main terminal)

-

Limited stop service focusing on selected key stations.

4.2.2.1

Service Concepts and Operating Efficiencies

To fully understand the dynamic operating
environment in which passenger rail service on the Representative service plans for each Action
NEC functions, the FRA explored the potential benefits Alternative are based on information and data
of enhanced service concepts, aimed at increasing the gathered by the FRA or provided by rail operators
efficiency of operations since the Action Alternatives along the NEC. The FRA developed the service
would eliminate chokepoints and expand capacity. plans to permit the comparison of alternatives
Enhanced services make efficient use of new rail and are not intended to be prescriptive.
infrastructure investments by enhancing the
attractiveness and convenience of train services,
increasing the efficiency of operations, and lowering the cost per capita of delivering rail service.
The Action Alternatives also incorporate the following representative operational improvements to
better integrate train service across today’s separate markets:
4 Expand the number of stations served by Intercity-Corridor trains, including numerous stations
that today are served only by Regional trains, which will increase travel options for many travelers
and could fill connectivity gaps in the existing passenger rail network.
4 Incorporate “through-service” at major stations to reduce the need to transfer between trains
and operators. For example, a higher level of through-running Regional rail service in New York

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 4. Alternatives Considered

and Washington, D.C., would increase train throughput and improve the effectiveness of terminal
operations.
4 Provide “clockface” train departures (i.e., regular and consistent departure time; 1:15, 2:15, 3:15,
etc.) and standard stopping patterns (i.e., consistent stopping patterns for particular service type
or service or run as noted on a timetable), to improve travel time and capacity.
4 Integrate ticketing and fares across the NEC to improve passenger convenience, and reduce dwell
time at stations and overall travel times.
4 Develop Regional rail slot catalogues, which is a concept to improve schedule flexibility where
schedule slots are assigned to services types, rather than a specific operator, where and when
demand is greatest.
4 Define scheduling policies to accommodate less reliable off-corridor operations without affecting
NEC operations (e.g., extended dwells at NEC entry point, open slots utilized for schedule padding
or late Intercity trains entering the NEC, etc.).
Appendix B, Tier 1 EIS Alternatives Report, provides more information on enhanced service concepts
used in the Action Alternatives.
Representative service plans developed for the Action
Alternatives 11 incorporated various elements of the
above service concepts and operating efficiencies. For
example, the FRA evaluated an enhanced service
concept to maximize benefits to targeted markets and
minimize investment in infrastructure, referred to as
transit-style service as an alternative to zone express
service in areas of heavy demand. This concept is
illustrative of the range of possible service concepts
that could be operated with varying benefits to
targeted markets. (Refer to Appendix B, Service Plans
and Train Equipment Options Technical Memorandum,
for additional information on transit-style services.)

4.2.2.2

Transit-style Regional rail makes more intensive
use of existing track capacity to significantly
reduce the need for additional rail infrastructure,
offering a simpler array of service patterns,
dedicated to and optimized for each main track in
the right-of-way. Transit-style service exists or
has been operated in the past on various rail
transit lines, notably in Chicago, New York City,
and Philadelphia.

Service Planning Assumptions

Representational service plans evaluated for each Action Alternative also incorporated assumptions
about fare policy, shared track use, rolling stock, and availability of connecting transit services. These
assumptions are discussed below.

Fare Policy
The FRA derived Intercity rail pricing fares from existing Amtrak fare policy to estimate ridership and
revenues but not as a fare-maximizing or ridership-maximizing analysis. The FRA considered changes

11

The representative service and infrastructure assumptions are not intended to be prescriptive.

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 4. Alternatives Considered

to the existing Amtrak fare policy to understand the price-sensitivity of passengers, but established a
threshold for analysis requiring that Intercity revenues cover operating expenses.
The FRA tested a range of fare discounts to establish a point in which revenues covered operating
expenses. This analysis determined that a 30-percent discount from current fares on non-express
services would attract additional riders and still cover operating expenses. The FRA used this fare
policy assumption to estimate ridership, revenues, and O&M costs.
O&M costs and revenue estimates related to Regional rail operations depend more on localized
choices and are less likely to be informative in the NEC FUTURE decision-making process. They are
not included in this estimate. (Appendix B, Ridership Analysis Technical Memorandum, provides
additional information on ridership and rail pricing fares.)

Shared Access and Consideration of Freight
The NEC FUTURE Scoping process, along with input received from freight rail operators and state and
regional stakeholders, identified the preservation and enhancement of freight rail as an important
concern, and the identification of opportunities to facilitate improved freight rail service as an
important objective of NEC FUTURE.
In all Action Alternatives, the FRA assumes that the existing NEC would continue to operate as a
shared-use corridor. Each Action Alternative preserves freight access and operations on the NEC and
does not preclude future expansion opportunities. The FRA developed specific assumptions for the
mixed operations of freight and passenger traffic on the same tracks and in the same right-of-way,
consistent with the current FRA regulatory framework:
4 Freight will not operate on high-speed tracks in mixed traffic with Tier III passenger trains
operating above 160 mph.
4 Mixed Tier 1 and Tier III traffic operations are assumed to be permissible in the future on existing
NEC tracks with passenger train speeds up to 160 mph. 12
4 Temporal separation may be required for portions of existing NEC where high-speed tracks are
closely parallel to existing tracks.
The FRA also considered opportunities to accommodate future growth and improvement of freight
rail service within the Study Area when defining infrastructure requirements for passenger services.
Additional infrastructure associated with the Action Alternatives could provide additional capacity to
accommodate an increase in freight traffic at select locations.
In addition to preserving freight rail access to industries along the NEC and not precluding future
expansion of freight rail service, the FRA reviewed the Action Alternatives with respect to their
potential effects on four specific freight traffic growth opportunities:
4 Freight access to the Port of Baltimore, Port of Wilmington, and Delmarva Peninsula
Appendix B, Tier 1 EIS Alternatives Report, describes more fully the railroad operating characteristics and
limitations on permissible maximum speeds and the mixing of freight and passenger traffic.
12

Tier 1 Draft EIS

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 4. Alternatives Considered

4 Freight access along the NEC in southeastern Connecticut and Rhode Island
4 Potential high-capacity, high-clearance freight line parallel to NEC between Washington, D.C., and
northern New Jersey
4 Freight access to Long Island and New England

Rolling Stock
The service plans for the Action Alternatives assume the use of high-performance trainsets, which is
consistent with the projected pace of rolling stock technology development and which utilize rail
infrastructure more efficiently by minimizing the variations in train performance (e.g., top speed,
acceleration and braking rates). Table 4-4 identifies the various types and configurations of rolling
stock.

Table 4-4:

Rolling Stock Assumptions Used for Service Planning Purposes

Rolling Stock

Tier

Intercity-Express HighPerformance Trainset
Intercity-Corridor
Trainset

III
III
III
III

Intercity-Corridor
Train

III
I
I
I
I
I

Locomotive Type/
Traction Power Type
Concentrated or distributed
power w/Catenary
Concentrated or distributed
power w/Catenary
Dual Power/Cat. + 3rd Rail
High-Performance Dual
Mode[3]
Dual Mode/3rd Rail + Diesel
High-Performance Dual
Mode[3]
Diesel locomotive
Electric locomotive/Catenary
EMU/Catenary or 3rd Rail
EMU/Catenary or 3rd Rail
Electric, Diesel or Dual-Mode
locomotive
Electric, Diesel or Dual-Mode
locomotive
Same locomotive options as
Intercity-Corridor trains

Train Length
(Locomotives +
Coaches, ft) [2]

Seats/
Car

OffCorridor
Ops

Max. Speed
on NEC
(mph)

595–1,190

50–60

No

220

595–1,190

60–70

No

220

1,020
1,020

60–70
60–70

Yes
Yes

160–220[3]
160–220

1,020
1,000

60–70
60–70

Yes
Yes

160–220
125

1,170
1,170
1,020
1,020
1,000

60–70
60–70
105
135
135

Yes
Yes
Yes
Yes
Yes

110
125
100–125
100–125
125/100

Regional rail Electric
Multiple-Unit (EMU) [4]
Regional rail PushPull,
Single level or BiI
755
135
Yes
125/100
level[4]
Intercity LongI
1,170
n.a.
Yes
125
Distance Train
Source: NEC FUTURE team, 2015
[1] Measured in equivalent 85-foot car lengths. Also can be operated in smaller consists as warranted by demand. Highperformance equipment assumed to comprise one or two intact trainset modules.
[2] Based on 85-foot-long passenger cars and 75-foot-long locomotives, or the equivalent length of intact trainset modules.
[3] There is currently no high-performance trainset 220 mph-capable that has both overhead electrification and third-rail
equipment. Also of note, this trainset would need to be compatible with the three types of AC power present on the existing
NEC.
[4] Includes through-running services, assuming compatibility with traction power system (if any) on all lines served.

However, NEC FUTURE is not prescriptive with respect to the use of particular equipment types, and
the Action Alternatives are flexible with respect to the mix of equipment that could be operated. In
light of the individual fleet standards and requirements for the Regional rail operators, rolling stock
assumptions for Action Alternatives are not prescriptive for Regional rail. The FRA considered,

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 4. Alternatives Considered

particularly in Alternative 1, the continued use of diesel-hauled trains for some Regional services as
an alternative to converting to all-electric operations. It should be noted that there are consequences
associated with decisions to utilize rolling stock with greater variability in performance.
Consequences include reduced scheduling flexibility (i.e., the need to schedule around other trains in
locations where tracks are shared), reduction in the number of train frequencies, particularly in the
standard peak hour, and needs for additional infrastructure for trains with different operating
characteristics to pass or overtake one another while en route. (Appendix B, Service Plans and Train
Equipment Options Technical Memorandum, contains additional information regarding rolling stock
assumptions.)

4.2.2.3

Connecting Transit and Rail Services

The FRA considered existing transit and passenger rail services at passenger rail stations in defining
the Action Alternatives, particularly since they contribute to the attractiveness and connectivity of
the passenger rail network with the overall transportation system. While the Action Alternatives do
consider the range of available public transit services—local and intercity bus, light rail and urban rail
transit, and passenger rail—at individual stations, resulting increases in service demands for these
connecting transit services were not evaluated in this Tier 1 Draft EIS. However, the FRA generally
considered improved connectivity at stations in the assessment of benefits and consequences of each
Action Alternative. Chapter 5, Transportation Effects, and Chapter 6, Economic Effects and Growth,
and Indirect Effects, discuss the range of possible effects on existing transit services. Of particular
note are the indirect effects on Regional rail operator’s branch lines and network of services beyond
those on the NEC. These and related requirements for additional improvements to existing or planned
connecting transit services would be considered in subsequent project-level assessments. Similarly,
the improvements proposed with Action Alternatives extend to related projects (defined in
Section 4.1.3.1), which provide connecting transit services and thereby expand the reach of the
Action Alternatives.
Several NEC connecting corridors 13 extend the passenger rail network to markets throughout the
Northeast and to points in the mid-Atlantic and New England. NEC connecting corridors include the
following:
4 South of Washington, D.C.
4 Keystone – Pittsburgh, Harrisburg, and Philadelphia
4 Empire – Western New York; Albany, NY; and New York City
4 New Haven-Hartford-Springfield – New Haven, CT; Hartford, CT; and Springfield, MA

South of Washington, D.C.
Connecting corridors south of Washington, D.C. provide intercity service to markets in Virginia (e.g.,
Lynchburg, Richmond, Newport News, Norfolk), North Carolina (e.g., Raleigh, Charlotte) and points
south such as Atlanta, GA and Jacksonville, FL. Regional rail service operates between Fredericksburg,
13

In NEC FUTURE, a connecting corridor is defined as a passenger rail corridor that connects directly to another rail
corridor (in this instance, the NEC) via a station transfer or through-train service.

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VA and Washington, D.C.; and between Bristow, VA and Washington, D.C. The connecting corridors
south of Washington, D.C., are owned by CSX Transportation or Norfolk Southern.
The Southeast High Speed Rail (SEHSR) program is a series of improvement projects that would
improve passenger rail service between Washington, D.C., south through Richmond, VA; Raleigh and
Charlotte in North Carolina and as far south as Florida. The SEHSR network connects to the existing
NEC and all Action Alternatives at Washington Union Station.
Multiple segments of the SEHSR network are going through the planning and environmental review
process. The FRA also signed a Record of Decision on the segment between Richmond, VA and
Hampton Roads, VA, in 2012. The Departments of Transportation for North Carolina and Virginia
prepared a Tier 2 EIS for the segment between Petersburg, VA, and Raleigh, NC. The FRA signed the
Final EIS in September 2015. The Virginia Department of Rail and Public Transportation (DRPT) is
preparing a Tier 2 Draft EIS for the segment between Richmond, VA, and Washington, D.C., referred
to as DC2RVA 14. A Tier 2 Record of Decision is expected in 2017.

Keystone Corridor
Pennsylvania’s Keystone Corridor connects Pittsburgh and Harrisburg, PA, to Philadelphia. Amtrak
owns the Keystone Corridor between Harrisburg, PA, and Philadelphia. Norfolk Southern owns the
corridor between Pittsburgh, PA, and Harrisburg, PA. Intercity service operates along the entire
length of the corridor; with more frequent service between Harrisburg, PA, and Philadelphia 30th
Station, with continuing service to New York City. Regional rail service operates between Thorndale,
PA, and 30th Street Station, through to Center City Philadelphia. The Keystone Corridor Intercity
service connects to the existing NEC at Philadelphia 30th Street Station.
Since 2000, over $400 million in infrastructure improvements have been made on the segment
between Harrisburg, PA, and Philadelphia, resulting in more frequent service, reduced travel times
and higher operating speeds 15 along the corridor. The Pennsylvania Department of Transportation
(Penn DOT) and the FRA studied options to reduce passenger rail travel times and increase trip
frequency—without hindering the important freight service that runs on the same tracks—between
Pittsburgh, PA and Harrisburg, PA. The study was completed in 2014.

Empire Corridor
The Empire Corridor connects Niagara Falls, and Albany, NY to New York City. Ownership of the
corridor is shared between Amtrak, Metro-North Railroad, and CSX Transportation. Amtrak owns the
territory between Penn Station New York and Bronx, NY. Metro-North Railroad owns the tracks
between Bronx, NY, and Poughkeepsie, NY. CSX Transportation owns the territory between
Poughkeepsie, NY, and Niagara Falls, NY.
Intercity service operates along the entire length of the corridor, providing service from New York
City to markets in the Hudson River Valley and western New York. Regional rail service operates from
New York City north to Poughkeepsie, however, service terminates at Grand Central Terminal in New
14
15

D.C. to Richmond Southeast High Speed Rail. http://www.dc2rvarail.com/ (accessed September, 28 2015)
Plan the Keystone. http://www.planthekeystone.com. (accessed September 28, 2015)

P a g e   4-18

Tier 1 Draft EIS

 4. Alternatives Considered

York City, not Penn Station New York, which is the terminal for Intercity services. The Empire Corridor
Intercity service connects to the existing NEC at Penn Station New York.
The FRA and the New York State Department of Transportation completed a draft Tier 1 EIS to
evaluate proposed system improvements between Penn Station New York and Niagara Falls Station.
A Public Comment period, which included public hearings, was held in 2014. 16

New Haven-Hartford-Springfield Corridor
The Amtrak-owned New Haven-Hartford-Springfield
Corridor connects Springfield, MA, and Hartford, CT, to New It is estimated that NHHS Rail Program
Haven, CT. Intercity service operates between along the improvements will result in 1.26 million
entire length of the corridor between Springfield, MA, and new annual trips and divert 1.15 million car
New Haven, CT; with some continuing service operating to trips to rail by 2030.
New York City and Washington, D.C.; and north to St.
Alban’s, VT. Regional rail service currently does not operate
on the corridor. The New Haven-Hartford-Springfield Corridor connects to the existing NEC at New
Haven Station.
The New Haven-Hartford-Springfield (NHHS) Program, 17 sponsored by the State of Connecticut,
would add Regional rail service and improve Regional and Intercity service between Connecticut and
western Massachusetts. With the No Action Alternative and Alternative 1 this connecting service
would provide improved access to the NEC at New Haven. The new service is expected in be
implemented in late 2016.
The Northern New England Intercity Rail Initiative (NNEIRI) 18 is examining opportunities for more
frequent and/or higher speed intercity passenger rail service on two major rail corridors that connect
New Haven, CT, Springfield, MA, and Boston; and Springfield, MA, to Montreal, Canada, through
northern Massachusetts and Vermont. NNEIRI would create connections in Springfield, MA, to the
south and the west–south via the planned New Haven Hartford Springfield (NHHS) connecting
corridor services; and east to Boston via the Inland Route.
In Alternatives 2 and 3 (which provide direct service to Hartford, CT), the opportunity exists for
improved Intercity service connections with in Harford to/from Massachusetts (Springfield and the
Knowledge Corridor) and Vermont. Additional services on the NHHS as well as the proposed
Springfield to Vermont segment of NNEIRI would allow travelers from Massachusetts and Vermont
to connect at Hartford for service to Boston along a new NEC Spine proposed in Alternatives 2 and 3.
Empire Corridor Tier 1 EIS. https://www.dot.ny.gov/empire-corridor (accessed September 28, 2015)
Additional information regarding the NHHS Rail Program can be found in the FRA’s Environmental
Assessment/Environmental Impact Evaluation for the New Haven – Hartford- Springfield High-Speed Intercity Rail
Program (2012).
18
The Northern New England Intercity Rail Initiative (NNEIRI) is being conducted by the Massachusetts Department
of Transportation (MassDOT) and the Vermont Agency of Transportation (VTRANS), in collaboration with the
Connecticut Department of Transportation and the Federal Railroad Administration. The Inland Route corridor
runs between South Station in Boston and western Massachusetts via Worcester and Springfield, MA and
southerly from Springfield to New Haven, CT for connections to the Northeast Corridor.
16
17

Tier 1 Draft EIS

P a g e   4-19

 4. Alternatives Considered

Additionally, Regional rail connections would be possible via Springfield in all Action Alternatives. The
additional services on the NHHS connecting corridor and the proposed NNEIRI service to Vermont
and points north also provide opportunities for connections to Bradley International Airport, located
north of Hartford, CT; and Burlington International Airport in northern Vermont.
Figure 4-3 depicts the Study Area connecting corridors.

Figure 4-3:

Study Area Connecting Corridors

Source: NEC FUTURE team, 2015

4.2.2.4

Station Typology

The FRA developed a hierarchy of station types, based on market size, quantities of, and types of rail
services offered. This typology applies to existing and future stations included in each of the Action
Alternatives. (Appendix B, Stations Location and Access Analysis Technical Memorandum, further
describes the station types for each alternative.) Stations are grouped into one of the following types:
4 Major Hub stations serve the largest markets in the Study Area and offer Intercity-Express,
Intercity-Corridor, and Regional rail services. Major Hub stations serve the four primary markets:
Washington, D.C., Philadelphia, New York City, and Boston, as well as other major markets within

P a g e   4-20

Tier 1 Draft EIS

 4. Alternatives Considered

the Study Area, including but not limited to Baltimore, MD; New Haven, CT; Hartford, CT; and
Providence, RI. Major Hub stations are located in the most populous and densely developed
metropolitan areas along the NEC.
4 Hub stations offer Intercity-Express and Intercity-Corridor service, although the Intercity-Express
service is more limited than the service levels offered at Major Hub stations. Hub stations include
existing smaller, intermediate Amtrak stations such as Newark, DE, and New London, CT, as well
as selected key Regional rail stations and new stations proposed to fill connectivity gaps in the
existing passenger rail network and serve special trip generators and/or provide important
intermodal connections. Specific examples of these stations include T.F. Green Airport, RI, and
Secaucus, NJ.
4 Local stations offer only Regional service. Examples of local stations include Halethorpe, MD;
Edison, NJ; and Attleboro, MA.
The FRA evaluated both services provided at
stations as well as physical improvements
associated with station tracks, platforms,
passenger waiting areas and facilities, access
and parking, and ancillary buildings. Each
Action Alternative defines the proposed types
of service and levels of service for each
station. Service type and frequency are the
focus of the transportation analysis (see
Chapter 5, Transportation Effects), in which
the FRA evaluated connectivity, service
frequency, travel times, and ridership. The
FRA estimated the size of a station area
footprint
to
capture
the
physical
improvements associated with each station
type as follows:
4 Major Hub (excluding Washington, D.C.,
Philadelphia, New York City, and
Boston 19 ): 1,500 feet x 600 feet;
approximately 20 acres

Source: Amtrak

Laying the groundwork for Union Station’s second century,
the Washington Union Station Master Plan envisions an
expanded and modernized multimodal station that can
accommodate three times as many passengers and twice
as many trains.

4 Hub: 2,000 feet x 900 feet; approximately 40 acres
4 Local : 1,500 feet x 600 feet; approximately 20 acres
The station area footprint takes into consideration the types of service provided as well as adjacent
land uses. Local and Major Hub stations (with the exception of Washington, D.C., Philadelphia, New
York City, and Boston) have the same size footprint, but for different reasons. Local stations currently
provide Regional rail services and would continue to do so. Local stations are usually smaller than
19

The FRA determined the station areas for Washington, D.C., Philadelphia, New York City, and Boston on a caseby-case basis, relying on previous planning and programming efforts by other agencies.

Tier 1 Draft EIS

P a g e   4-21

 4. Alternatives Considered

those with multiple service types, requiring less space for parking, smaller waiting areas and
associated facilities. Major Hub stations are served by both Regional and Intercity rail (both now and
in the future), but are often located in urban areas where land availability is constrained and modal
access to the station is more diverse, thus requiring a smaller footprint than other multi-service
stations such as Hub stations.
Major Hub stations in Washington, D.C., Philadelphia, New York City, and Boston are each undergoing
their own expansion plans. The FRA incorporated the assumptions in these expansion plans as inputs
into the Action Alternative service plans, to determine whether the capacity needs of each Action
Alternative are consistent with their respective expansion plans. (Appendix B, Service Plans and Train
Equipment Options Technical Memorandum, contains additional assumptions regarding these Major
Hub stations.)
Table 4-5 contains a complete list of stations, their locations, and the Action Alternative(s) in which
each station appears. The FRA used the station ID (the third column of Table 4-5) to refer to each
station in its assessment of station area Environmental Consequences for applicable resources. The
station ID is also a reference for information displayed in Chapter 7.

Table 4-5:

NEC FUTURE Stations

Geography
D.C.

County

Prince George’s

Anne Arundel
Baltimore County
MD
Baltimore City

Harford
Cecil

DE

P a g e   4-22

New Castle

Station
ID
1
2
3
4
5
6
6
7
15
8
9
10
11
12
13
14
16
17
22
23
24
25
26
27
28
29

Station Name
Washington Union
New Carrolton
Seabrook
Bowie State
Odenton
BWI Airport
BWI Airport H.S.
Halethorpe
Martin Airport
West Baltimore
Upton
Baltimore Penn Station
Baltimore Downtown
Broadway
Bayview
Bayview H.S.
Edgewood
Aberdeen (NEC)
Perryville
Elkton
Newark, DE
Churchman's Crossing
Newport
Wilmington Station
Edgemoor
Claymont

Station
Type
Existing
Existing
Existing

Alt
1
X
X
X
X
X
X

Alt
2
X
X
X
X
X
X

X
X
X
X
X

X
X
X
X
X

X
X

X
X

X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X

New
Existing
Existing
New
Existing
New

Existing
Existing
New
Existing
New
Existing
New
Existing

Alt
3.1
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alternative 3
Alt Alt
3.2 3.3
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alt
3.4
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Tier 1 Draft EIS

 4. Alternatives Considered

Table 4-5:

NEC FUTURE Stations (continued)

Geography

County

Delaware

PA

Philadelphia

Bucks

Mercer

Middlesex
NJ

Union

Essex
Hudson

Tier 1 Draft EIS

Statio
n ID
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76

Station Name
Marcus Hook
Highland Avenue
Chester
Eddystone
Baldwin
Crum Lynne
Ridley Park
Prospect Park
Norwood
Glenolden
Folcroft
Sharon Hill
Curtis Park
Darby
Philadelphia Airport*
Philadelphia 30th St
Philadelphia Market East
North Philadelphia
Bridesburg
Wissinoming
Tacony
Holmesburg Junction
Torresdale
Cornwells Heights
Eddington
Croyton
Bristol
Levittown
Trenton
Hamilton
Princeton Junction
North Brunswick
Jersey Avenue
New Brunswick
Edison
Metuchen
Metropark
Metropark H.S.
Rahway
Linden
Elizabeth
North Elizabeth
Newark Airport
Newark Penn Station
Newark Penn Station H.S.
Secaucus

Station
Type
Existing
New

Existing

Alt
1
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alt
2
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X

X
X

X
X
X
X
X
X

X
X
X
X

X

X

New

Existing

Existing

Existing
New

Existing

New
Existing

Existing
New
Existing

X

Alt
3.1
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alternative 3
Alt Alt
3.2 3.3
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alt
3.4
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

P a g e   4-23

 4. Alternatives Considered

Table 4-5:

Geography

NEC FUTURE Stations (continued)

County
New York
Queens

Bronx

NY
Westchester

Putnam
Nassau
Suffolk

CT

P a g e   4-24

Fairfield

Station
ID
77
9993
144
145
78
79
80
81
82
83
84
85
86
87
88
151
153
146
148
149
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
107
108
154

Station Name
Penn Station New York
Grand Central Terminal
Jamaica
Jamaica H.S.
Hunts Point
Parkchester
Morris Park
Co-op City
New Rochelle
Larchmont
Mamaroneck
Harrison
Rye
Cross-Westchester
Port Chester
White Plains East
Brewster - Katonah
Nassau Hub
Suffolk Hub
Ronkonkoma
Greenwich
Cos Cob
Riverside
Old Greenwich
Stamford
Stamford H.S.
Noroton Heights
Darien
Rowayton
South Norwalk
East Norwalk
Westport
Greens Farms
Southport
Fairfield
Fairfield Metro
Bridgeport
East Bridgeport
Stratford
Danbury

Station
Type
Existing

Alt
1
X

Alt
2
X

Alt
3.1
X
X

X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X

X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X

Existing
New
New

Existing

New
Existing
New
New
New
New
Existing

Existing

New

Existing

New
Existing
New

Alternative 3
Alt Alt Alt
3.2 3.3 3.4
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X

Tier 1 Draft EIS

 4. Alternatives Considered

Table 4-5:

NEC FUTURE Stations (continued)

Geography

CT (cont’d)

County

New Haven

Middlesex

New London
CT (cont’d)

Hartford

Tolland
Washington
RI

Kent
Providence

Bristol

Worcester
MA
Middlesex
Suffolk
Norfolk

Tier 1 Draft EIS

Station
ID
109
110
111
112
113
156
114
115
116
155
117
118
119
120
121
124
122
160
160
161
164
165
166
123
125
126
127
128
129
130
131
132
133
172
173
174
175
176
178
181
182
134
135
136

Station Name
Milford
West Haven
New Haven Station
New Haven Station H.S.
New Haven State Street
Meriden H.S.
Branford
Guilford
Madison
Waterbury South
Clinton
Westbrook
Old Saybrook
Old Saybrook H.S.
New London
Mystic/New London
H.S.
Mystic
West Hartford
Berlin
Newington
Hartford (New)
Willimantic/Storrs
Tolland/Storrs
Westerly
Kingston
Wickford Junction
T.F. Green
Providence Station
Providence Station H.S.
Pawtucket
South Attleboro
Attleboro
Mansfield
Worcester
Grafton-Shrewsbury
Westborough
Blue Star Hwy (I-495)
Southborough/Ashland
Framingham
Riverside (I-95)
Beacon Park
Sharon
Canton Junction
Rte 128

Station
Type
Existing

Alt
1
X
X
X

New
Existing
New

X

Existing

X
X
X

Alt
2
X
X
X
X
X
X
X
X
X

New
Existing
New
Existing
New
Existing

X
X
X
X

New
Existing

X

X
X
X

X

X

X

X

X
X
X
X
X
X

X

X

X

X

X
X

X
X

X

X

X
X
X
X

X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X

X
X
X

X
X
X

X
X
X

X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X

X
X
X
X
X

Existing
New

New
New
Existing

Alt
3.4
X
X
X

X
X
X

X
X
X
X
X

New

Existing
Existing

Alternative 3
Alt Alt
3.2 3.3
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X
X
X
X
X
X

New

Existing

X
X
X
X
X
X
X
X

New
Existing

Alt
3.1
X
X
X

P a g e   4-25

 4. Alternatives Considered

Table 4-5:

Geography

MA (cont’d)

NEC FUTURE Stations (continued)

County

Suffolk

Station
ID
137
138
139
140
141
142
143

Station Name
Readville
Hyde Park
Forest Hills
Ruggles Street
Back Bay
Back Bay H.S.
Boston South Station

Station
Type

Existing

New
Existing

Alt
1
X
X
X
X
X

Alt
2
X
X
X
X
X

X

X

Alt
3.1
X
X
X
X
X
X
X

Alternative 3
Alt Alt
3.2 3.3
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alt
3.4
X
X
X
X
X
X
X

Source: NEC FUTURE team, 2015
* The airport is currently served by Regional rail service located off the existing NEC. The Philadelphia International Airport
Station identified in the Action Alternatives would be built as part of the NEC FUTURE. The station area is co-located in
Delaware County, PA.
H.S. = high speed

P a g e   4-26

Tier 1 Draft EIS

 4. Alternatives Considered

4.2.3 Infrastructure Elements
Individual infrastructure elements comprise an Action Alternative’s path or horizontal location. The
FRA developed the geographic extent of each linear element using aerial photography, taking into
consideration topography and known areas of environmental sensitivity. These elements describe
the proposed physical infrastructure relative to the existing NEC. The four infrastructure elements
are:
4 Junction – Major track connections or interlockings 20 at points where tracks converge or diverge
allowing trains to switch from one set of tracks to another. The footprint for these major
connections can extend beyond the rights-of-way to accommodate grade-separated, conflict-free
movement between tracks. As a result, the footprint of junctions could be contained within the
rights-of-way defined for new track, new segments, or curve modifications but could also flare
beyond those linear dimensions.
4 Curve Modification – Modifications to the existing NEC where the existing track alignment is
shifted, thereby straightening a curve or eliminating the curve entirely. Curve modifications
address performance of the existing NEC by reducing, or even eliminating, speed restrictions at
certain locations.
4 New Track – Additional track and/or associated systems improvements along the existing NEC.
These upgrades are defined as the addition of one or two tracks to the existing NEC, or an upgrade
to the catenary or signal systems. New track includes associated junctions or interlockings
similarly assumed to be within the rights-of-way of the existing NEC.
4 New Route Segment – Sections of new track that may be constructed outside the existing NEC
right-of-way. New segments diverge from and reconnect to the existing NEC providing additional
track capacity to relieve chokepoints.

4.2.4 Representative Route
The FRA linked infrastructure elements together to create a
two-dimensional Representative Route for the purposes of The term Representative Route is
conducting the environmental review. The term intentionally used to capture the highly
Representative Route is intentionally used to capture the conceptual and representative nature of
highly conceptual and representative nature of a proposed a proposed route for an Action
route for an Action Alternative. At this Tier 1 level, the FRA Alternative. At this Tier 1 level, the FRA
has not defined specific alignments. The Representative has not defined specific alignments.
Route provides a basis for programmatic evaluation of the
environmental effects of each Action Alternative. Consistent
with the overall intended outcome of the Tier 1 EIS, the Representative Route establishes the markets
to be served and the “corridor” or “envelope” within which the improvements would occur. It is not
the intent of this Tier 1 Draft EIS to select a site-specific alignment.

20

Interlockings are locations on multi-track rail lines where lines join or where crossovers between tracks are
placed to permit trains to change from one track to another. They are part of the signaling and train control system
and are centrally controlled by train dispatchers on the NEC.

Tier 1 Draft EIS

P a g e   4-27

 4. Alternatives Considered

The Representative Route includes the physical footprint of the improvements associated with the
Action Alternatives. The dimensions of the footprint of the Representative Route are based on cross
sections identifying construction type (e.g., tunnel, viaduct, bridge, embankment, at-grade) that are
applied to topography or land use type, stations supporting facilities, and right-of-way requirements.
The footprints associated with the Representative Route range from 150 feet to 300 feet wide.
Improvements associated with stations and supporting facilities (e.g., tracks, platforms, parking)
could flare out beyond the dimensions of the Representative Route. The width of the Representative
Route for an Action Alternative includes the existing NEC and any new segment(s), where applicable.
The FRA standardized the width of the existing NEC to 150 feet, conservatively accounting for a fourtrack right-of-way between Washington, D.C., and Boston.
For some areas of the Representative Route, both the existing NEC and new segments are adjacent
to each other. In these cases, where footprint dimensions vary by more than 100 feet because of offcorridor segments or typical cross section requirements, the FRA adjusted the Representative Route
width. For example, Alternative 2 includes additional tracks along the NEC between New Haven and
Hartford, CT, and therefore flares out to 250 feet for that segment; the Representative Route then
returns to 150 feet where a new two-track configuration is proposed between Hartford, CT, and
Providence, RI. Similarly, the current track configuration of the existing NEC between Washington,
D.C., and New York City varies between two and six tracks. The Representative Route width of
Alternative 3 in this area is 300 feet, for two tracks designed for speeds up to 220 mph adjacent to an
existing, six-track right-of-way. Although the existing NEC configuration varies, a 300-foot-wide
Representative Route is a conservative envelope and provides a smooth, encompassing footprint
over a longer stretch of the Study Area in which to conduct the environmental review. Table 4-6
describes the dimensions of the Representative Route of the No Action and Action Alternatives.
The FRA prepared the environmental effects assessment, presented in Chapter 7, using the
Representative Route, and in some cases, the construction type, of the Action Alternatives,
categorizing potential effects by both geography and construction type. (Appendix A, Mapping Atlas,
provides a graphical depiction of the Representative Routes of the Action Alternatives relative to
environmental features analyzed in Chapter 7.)

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Tier 1 Draft EIS

 4. Alternatives Considered

Table 4-6:
Alternative
Alternative 1

Alternative 2

Alternative 3

Footprint Width of the Representative Route
From
To
Washington, D.C.
Boston
Washington, D.C.
New Haven
New Haven
Providence
New Haven
Hartford
Hartford
Providence
Providence
Boston
Washington, D.C. to New York City
Washington, D.C.
Penn Station
New York City to Hartford, CT
Penn Station New York Hartford
Penn Station New York Ronkonkoma
Ronkonkoma
Centereach
New Haven
Hartford
Hartford to Boston
Hartford
Providence
Providence
Boston
Hartford
Worcester
Worcester
Boston

Width
(feet)
150
150
150
250
150
150

Representative Typical Cross Section
150 feet existing NEC
150 feet existing NEC
150 feet existing NEC
New tracks in center of existing, At-grade, existing track centers
Two-track typical – At-grade
150 feet existing NEC + New Segments + Curve Modifications

280

New tracks adjacent to Existing, 6-Track At-grade

150
250
150
250

Two-track typical – At-grade
New tracks adjacent 2 Exist At-grade 100 feet
Two-track typical – At-grade
New tracks adjacent 2 Exist At-grade 100 feet

150
250
150
150

Two-track typical – At-grade
New tracks adjacent to Existing, 2-Track At-grade
Two-track typical – At-grade
Two-track typical – At-grade

Source: NEC FUTURE team, 2015

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 4. Alternatives Considered

Defining construction types allowed the FRA to highlight effects on resources based on
Representative Route widths, as well as, sensitivity to construction-specific methods. For example,
the climate change environmental effects assessment includes analysis specific to at-grade and
trench construction types, as these types would be more vulnerable to flood risk than other methods
not constructed at the surface (e.g., tunnel, aerial, embankment and major bridge). (Chapter 8,
Construction Effects, contains additional information on construction methods and effects.) The FRA
is considering the following six construction types:
4 Tunnel construction types are generally applied to the Representative Route where the
topography is submersed beneath a large body of water, such as the Hudson River, where the
topography is too steep for track designed for speeds of 160 to 220 mph to accomplish the
grades 21 for climbing or braking, as is the case in northern Connecticut, and in densely developed
areas where surface operations are not practical like downtown Baltimore, New York City, and
Providence.
4 Trench construction places the tracks in an open cut that is supported by retaining walls. Trench
construction types were applied to a Representative Route in transition areas where the tunnel
returns to at-grade or embankment.
4 At-grade construction is used where the topography is flat or locations where effects on
environmental resources would be minimal. The at-grade construction type would generally be
applied to the Representative Route where existing highway and roadway rights-of-way are grade
separated on aerial structures above the tracks.
4 Embankment construction places the tracks atop an earthen embankment or retaining wall of
varying height that slopes down to meet the existing grade. The embankment construction type
generally would be applied to the Representative Route prior to and following an aerial structure.
4 Aerial Structure construction elevates the tracks on infrastructure above the ground. The aerial
structure construction type generally would be applied to the Representative Route in heavily
urbanized areas where at-grade construction is not practical. Aerial structures would also be
constructed at river crossings, wetland areas, valleys, or crossings over existing
highways/roadways where vertical grade changes do not permit at-grade construction. Aerial
structures consist of both bridges and viaducts, depending on topography, land use, and presence
of environmental resources.
4 Major Bridge construction is used over large water crossings. The major bridge construction types
for Action Alternatives would be applied where marine traffic requires adequate vertical
clearance during ordinary high tides. 22

21
The desired maximum grade for high-speed track is 2.5% with 3.0% permitted in limited situations. The
maximum length of continuous run at the maximum grade should be less than 10,000 feet. In order to comply with
these criteria, the contours of the existing terrain may require tunneling or viaducts to meet these conditions.
Vertical alignment guidelines are based on American Railway Engineering and Maintenance of Way Association
(AREMA) design criteria used on recent high-speed rail studies, including the California High-Speed Train Project
(California high-Speed Rail Authority, Alignment Design Standards for High-Speed Train Operation TM 2.1.2. (2009,
April 4). Retrieved August 17, 2015.
22
Minimum vertical distance required for marine vessels traveling under a major bridge at Mean Higher High
Water (MHHW) levels

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 4. Alternatives Considered

The FRA developed a set of typical cross sections to understand the physical footprint associated with
the possible combinations of construction type and required track configuration. Track configurations
describe the number of tracks, structures, ancillary facilities, or station areas associated with
proposed service and infrastructure improvements. The FRA considered three possible track
configuration templates for NEC FUTURE:
4 New tracks within the existing NEC
4 New tracks adjacent to the existing NEC
4 New tracks outside of the existing NEC
The FRA customized the physical dimensions of these track configurations for construction type and
mix of services. As such, the FRA developed 46 possible combinations of six different construction
types and track configurations both on and off the existing NEC. For example, tunnel construction
types are represented in two typical cross sections: 1) tunnel, which is applied to tunnel lengths less
than or equal to 10 miles; and 2) long tunnel, which is applied to tunnels greater than 10 miles in
length. The FRA used these typical cross sections to develop capital costs. 23
Section 4.7 describes the geographic location and orientation of the Representative Route of each
Action Alternative. The description highlights key environmental features, including existing rail
stations, interstate and county roadways, parks, water features, and political boundaries (i.e., state,
county, major metropolitan areas, etc.). The descriptions orient the reader to recognizable features
along the path and are referenced throughout this Tier 1 Draft EIS to facilitate review of the No Action
and Action Alternatives. (Section 4.6 provides additional details regarding the infrastructure
requirements associated with the Action Alternatives.)

4.2.5 Ancillary Facilities and Supporting Structures
The FRA did not evaluate the physical footprint or service-related effects associated with ancillary
facilities and supporting structures for storage and maintenance facilities, train control systems, and
communication and signal systems in this Tier 1 Draft EIS. The specific geographic placement of these
features would depend on further more-detailed analysis. From a programmatic perspective, the FRA
identified the overall requirements, possible features, and potential locations. The assumptions for
how the FRA considered each of these facilities or supporting structures are described below.

4.2.5.1

Storage and Maintenance Facilities

The FRA considered existing storage and maintenance facility locations where capacity could be
added to accommodate the rolling stock requirements of the Action Alternatives. Potential sites
could be located within, or could flare out beyond, the dimensions of the Representative Route. The
potential locations, summarized in Table 4-7, are representative of the types of locations where
storage and maintenance facilities would be located, and take into consideration the functional
requirements of each Action Alternative.

23

Refer to Appendix B, Capital Cost Technical Memorandum, for more information on typical cross sections.

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 4. Alternatives Considered

Table 4-7:

Potential Intercity Rail Storage and Maintenance Facilities

Intercity Facility
Location
Washington, D.C.

Philadelphia
New York City

New Haven, CT

Boston

Current Principal Functions
Ivy City Facility: storage and
maintenance of Acela Express, NE
Regional, off-corridor and LongDistance equipment
Philadelphia Coach Yard: storage
and maintenance of Keystone
Corridor equipment
Sunnyside Yard: storage and
maintenance of Acela Express, NE
Regional and Long-Distance
equipment
New Haven Yard: storage and
maintenance of Hartford Line
equipment, including diesel
engines
Southampton Street Yard: storage
and maintenance of Acela Express
and NE Regional equipment

NEC FUTURE assumptions
Yard expansion for growth; shop expansion for
longer high-performance trainsets; new site
required to accommodate full growth; storage and
servicing of Metropolitan trainsets in northern VA
(Alts. 2 & 3)
Expanded storage, servicing and inspection of NEC
equipment required for peak service
Yard expansion for growth; shop expansion for
longer high-performance trainsets; new site in
northern NJ may be required for full growth
Expanded storage, servicing and inspection of NEC
equipment required for peak service
Yard expansion for growth; shop expansion for
longer high-performance trainsets; new site
required to accommodate full growth

Source: NEC FUTURE, 2015
Note: The location and principle functions of each location are applicable to all Action Alternatives.

The Action Alternatives would continue to use facilities in or near Washington, D.C., New York City,
and Boston, where most trains would start and end service. Additional facilities could be located in
Philadelphia and New Haven, CT, which are considered the “quarter points” of the existing NEC, and
would support the beginning and end of the service day and tapering of the peak-period services.
The FRA did not consider footprint- and service-based environmental effects from storage and
maintenance facilities for the Action Alternatives. The programming requirements and their potential
effects on the local environment would be considered in subsequent project-level assessments.
Specific locations for new facilities would consider, to the extent practical, the compatibility of
adjacent land uses (e.g., industrial, consistent with manufacturing or warehouse uses) and resources
considered in an effects assessment would include the possibility of existing hazardous materials,
noise and vibration effects associated with overnight storage and layover of equipment, and visual
effects of storage and maintenance facilities. As noted, to the extent possible, existing storage and
maintenance facilities would be used and expanded as necessary to accommodate additional
trainsets and service.
The potential sites are representative of future locations. They are included as placeholders and are
based on current available information and a scan of potential locations with sufficient size and access
to accommodate storage and maintenance requirements. (Appendix B, Service Plans and Train
Equipment Options Technical Memorandum, provides additional details regarding representative
Intercity and Regional rail storage and maintenance facilities.)

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 4. Alternatives Considered

The FRA did not identify Regional rail storage and maintenance facilities requirements. Similar to
Intercity service, storage and maintenance facilities would be located at the end points of the
Regional rail network, where most trains would start and end service. However, the location and
requirements for storage and maintenance facilities would depend on the specific operating patterns
identified by individual Regional rail operators and how those services were integrated with each
Regional rail operator’s system, including branch line services not on the NEC. The requirements for
additional Regional rail storage and maintenance facilities would be considered in subsequent
project-level analyses.

4.2.5.2

Train Control Systems

Positive Train Control (PTC) is a control technology used to improve safety conditions on the railroad
by preventing or avoiding train collisions and derailments due to excessive speeding. The purpose of
PTC is to slow or stop a train that is operating at an excessive speed or operating in a manner
inconsistent with the section of track it is traversing. The Rail Safety Improvement Act of 2008 (RISA)
requires that PTC is implemented over much of the passenger and freight rail network by December
31, 2015.24
Although no specific specifications for PTC are provided in NEC FUTURE, it is assumed that the
concept of PTC would be implemented in the No Action and Action Alternatives and the railroad
network would be compliant with all FRA safety regulations.

4.2.5.3

Communication and Signal Systems

The existing NEC signaling system would be upgraded where needed to permit the higher-density
operations called for in the service plans. Service planning specifications include a fixed block (cab,
no wayside) signal system and an overlay PTC system. Shorter block signal lengths provide for higherdensity operation at shorter headways than the existing signal system.
Moving block technology was not assumed for the NEC or connecting corridors in the NEC FUTURE
analysis. (Appendix B, Service Plans and Train Equipment Options Technical Memorandum, provides
additional information.)

4.3

NO ACTION ALTERNATIVE

As a baseline for comparison, consistent with NEPA requirements, the FRA defined a No Action
Alternative that identifies improvements to highway, freight rail, transit, air, and maritime modes
that will occur by 2040 regardless of NEC FUTURE. The No Action Alternative represents a “snapshot
in time” of reasonably foreseeable future transportation conditions in the Study Area while avoiding
being speculative, since there is uncertainty in economic conditions, available funding, and political
support for transportation projects.
The No Action Alternative is used to understand the consequences of continuing to invest in and
operate the NEC as it operates today, particularly in comparison with the Action Alternatives. Given
24

U.S. Rail Safety Improvement Act of 2008, Pub.L. 110–432, 122 Stat. 4848, 49 U.S.C. § 20101. Approved 2008-1016

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 4. Alternatives Considered

the growing population and economy of the Northeast
region, operating the NEC at these current services levels in
the year 2040 will mean more people riding the same
number of trains, resulting in overcrowded trains and
stations and a general worsening of train performance.
(Appendix B, No Action Alternative Report, provides
additional information on the No Action Alternative.)

The No Action includes both funded and
unfunded improvements necessary to
continue operations on the NEC. It
provides a baseline for understanding the
consequences of continuing to invest in
and operate the NEC as it operates today.

The No Action Alternative continues today’s service levels in the peak hours of operation—defined
as the number of trains per hour by operator and type of service. The No Action Alternative assumes
annual investments in programmed and funded major projects and in maintaining existing
infrastructure sufficient to operate today’s level of rail service. The capital cost of the No Action
Alternative establishes a baseline from which to compare the incremental effects of the Action
Alternatives. The capital cost estimate for the No Action Alternative is approximately $20 billion
($2014) and includes the estimated costs for planned rail projects grouped into three categories:
4 Category 1: Funded projects or projects with approved funding plans – Approximately $8 billion
4 Category 2: Funded or unfunded mandates – Approximately $1 billion
4 Category 3: Unfunded projects necessary to keep the railroad running – Approximately $11 billion
This cost estimate represents a reasonable best-case approximation for the amount of capital
spending required to continue current NEC services. Examples of funded projects (Category 1) that
are included in the No Action Alternative include NJ TRANSIT’s Mid-Line Loop project, MTA-LIRR’s
East Side Access, MTA-MNR’s Penn Station Access Improvements (initial funded phase); Connecticut
DOT’s Norwalk River Bridge Replacement, NJ TRANSIT/Amtrak’s Raceway project, and various fleet
acquisition programs (including Amtrak, Connecticut, and Massachusetts). Even when considered
together with the other unfunded improvements (Categories 2 and 3), the No Action Alternative will
fall short of bringing the NEC to a state of good repair. Therefore, in the No Action Alternative, the
existing NEC will remain at heightened risk of service disruption due to infrastructure failures or
external impacts, such as severe weather events. Unpredictable failures of antiquated system
components and major structures are likely to remain under this alternative, but the specific scope
or scale of cost impacts from these failures is highly uncertain. Nonetheless, additional capital costs
will result from emergency or unplanned repairs, and substantial impacts to ongoing operations will
be likely as well. (Appendix B, No Action Alternative Report, contains additional details regarding the
rail project selection process.)
The FRA assumes that the No Action Alternative continues current service levels provided on the NEC,
and—because the implications of continuing current funding levels on service are hard to predict—
that sufficient funding will be made available. However, even with sufficient funding available to
continue service levels, the No Action Alternative will not achieve a corridor-wide state of good repair
or meet the needs of the Study Area, including addressing existing capacity constraints, gaps in
connectivity, or expansion to markets that are underserved by rail.

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Tier 1 Draft EIS

 4. Alternatives Considered

The No Action Alternative will require annual funding levels in excess of current or historical funding
trends of averaged approximately $600 million per year over the last 10 years. 25 At an estimated cost
of approximately $20 billion, the No Action Alternative will require an additional $200 million per
year (in today’s dollars) 26 above these historical levels and in excess of capital funding from federal,
state, and local sources. Even at this level of investment, the No Action Alternative will fall short of
bringing the existing NEC to a state of good repair.

4.3.1 Disinvestment Scenario
The FRA also considered defining a disinvestment scenario in which the current funding levels are
maintained (but are not increased to allow for the maintenance of the current service levels as
described in Section 4.3). Forecasting the implications of insufficient funding on the performance of
the eight commuter railroads and Amtrak is difficult because of the uncertainty of what
improvements would be funded and the related performance implications. However, given the
condition of the aging infrastructure on the NEC, it is likely that the NEC’s reliability, capacity, and
services levels will decline under any scenario in which the current funding levels are not increased.
It remains uncertain if sufficient funding will be provided to sustain the increasing level of investment
necessary to support the No Action Alternative. If sufficient funding is not made available, the NEC’s
reliability, capacity, and service levels will continue to degrade with the possible following
repercussions:
4 Reliability will decline, resulting in more frequent and longer delays, and reduced on-time
performance of train service. This reduction in reliability will result from unscheduled delays, as
well as “scheduled” delays required periodically (and randomly) to allow engineering crews to
access the railroad to make remedial repairs.
4 Scheduled travel times will increase as the deteriorating condition of NEC infrastructure—
particularly rail, bridge, and foundation that the tracks are built on—will require trains to operate
more slowly on some portions of the railroad to ensure safety.
4 Operating costs for infrastructure maintenance will rise in response to the need for more
frequent maintenance and unscheduled and sometimes substantial repairs.
4 Costs for train operations will increase as longer cycle times for equipment will require greater
fleet sizes and more crew time and overtime.
4 Ridership will decline in response to the reduced level and performance of passenger rail service,
leading to declines in revenue and greater operating losses.
However, as mentioned earlier, the FRA has decided that, for the purposes of providing a baseline
for comparison against the Action Alternatives, the No Action Alternative assumes sufficient funding
to maintain current service levels. In this way, the FRA can separate the discussion of historical or
future funding trends from the assessment of positive and negative impacts of the Action
Alternatives.
Northeast Corridor Infrastructure and Operations Advisory Commission. (2014). Northeast Corridor Five-Year
Capital Needs Assessment: Fiscal Years 2015 to 2019.
26
Assumes $20 billion cost of the No Action Alternative spent evenly over a 25-year timeframe.
25

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 4. Alternatives Considered

4.4

ACTION ALTERNATIVES

The FRA developed three distinct Action Alternatives for detailed study in this Tier 1 Draft EIS, drawing
from the evaluation of the Preliminary Alternatives, interim analysis, and public and stakeholder
outreach. These Action Alternatives are presented in the following sections.
The Action Alternatives represent a range of possible future visions for the Study Area, each intended
to capture a different role for passenger rail in the future. The descriptions of the Action Alternatives
are intended to represent what the NEC could be (but not prescribe) and would be influenced by
many variables. The naming (to maintain, grow, or transform) captures the intent of each Action
Alternative in describing a different vision for the future of passenger rail; however, the terminology
is not intended to be a measurable outcome of the Action Alternatives but an organizing principle.
The specific features of each Action Alternative represent the service and investment necessary to
achieve three separate visions for passenger rail on the NEC.

4.4.1 Alternative 1
Alternative 1 maintains the role of rail as it is today in the region, with the level of rail service keeping
pace with the growth in population in the Study Area. Alternative 1 includes new rail services and
commensurate investment in the NEC to expand capacity, add tracks, and relieve key chokepoints.
Alternative 1 would bring the existing NEC to a state of good repair.

4.4.2 Alternative 2
Alternative 2 grows the role of rail, expanding rail service at a rate greater than the proportional
growth in regional population and employment. Alternative 2 maximizes capacity of the existing NEC
and removes speed restrictions where practical and safe. Alternative 2 would bring the existing NEC
to a state of good repair. Alternative 2 provides a new segment between New Haven and Hartford,
CT, and Providence, RI, improving performance between New York City and Boston while connecting
to new markets in the Connecticut River Valley.

4.4.3 Alternative 3
Alternative 3 transforms the role of rail, supporting trips over longer distances and to places not
currently well connected by passenger rail, positioning rail as the dominant mode for interregional
travel to urban centers along the NEC. Alternative 3 includes a continuous second spine operating
between Washington, D.C., and Boston. The second spine would be separate from the existing NEC,
but connected to and integrated with services offered on the existing NEC at designated Major Hub
and Hub stations. The second spine would support speeds up to 220 mph between major NEC
markets and provide additional capacity for Intercity and Regional rail services throughout the Study
Area. Alternative 3 would also include service and infrastructure improvements on the existing NEC
to increase capacity, eliminate chokepoints, and bring the existing NEC to a state of good repair.
Between Washington, D.C., and New York City, Alternative 3 includes a single route for the second
spine, located parallel to the existing NEC. This section of the second spine would connect to the
existing NEC at several Major Hub stations, including Washington, D.C.; Baltimore-Washington
International (BWI) Airport; Wilmington, DE; and Newark Penn Station, NJ.

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Between New York City and Boston, Alternative 3 includes four “route options,” all of which connect
through Hartford, CT. The four route options give the FRA flexibility to consider different intermediate
markets north of New York City should Alternative 3 be selected as the Preferred Alternative. There
are two options for connecting New York City to Hartford and two options for connecting Hartford to
Boston. These options include:
4 New York City to Hartford
- Via Central Connecticut – interacting with the existing NEC at Hub stations in Bronx and
Westchester Counties, NY; providing service to new markets in northern Fairfield and
Hartford Counties, CT.
-

Via Long Island – providing service to new markets in Nassau and Suffolk Counties, NY, and
northern New Haven and Hartford Counties, CT.

4 Hartford to Boston (two routing options):
- Via Providence, RI – interacting with the existing NEC at Major Hubs in Providence, Boston
Back Bay, and Boston South Station; providing service to new markets in Hartford and Tolland
Counties, CT.
-

Via Worcester, MA – providing service to new markets in Tolland County, CT, and Worcester,
Middlesex, and Suffolk Counties, MA.

To measure the corridor-wide effects, the four route options between New York City and Boston were
combined with the single Washington, D.C., to Boston section into four end-to-end versions of
Alternative 3 as follows:
4 Alternative 3.1: Washington, D.C., to Boston via Central Connecticut/Providence
- Via Washington, D.C.; New York City; Danbury and Hartford, CT; Providence, RI; and Boston
4 Alternative 3.2: Washington, D.C. to Boston via Long Island/Providence
- Via Washington, D.C.; New York City; Ronkonkoma, NY; New Haven and Hartford, CT;
Providence, RI; and Boston
4 Alternative 3.3: Washington, D.C. to Boston via Long Island/Worcester
- Via Washington, D.C.; New York City; Ronkonkoma, NY; New Haven and Hartford, CT;
Worcester and Boston, MA
4 Alternative 3.4: Washington, D.C. to Boston via Central Connecticut/Worcester
- Via Washington, D.C.; New York City; Danbury and Hartford, CT; Worcester and Boston, MA
Section 4.7.4 explains the Alternative 3 routing options and their relationship to the existing NEC.

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4.5

MARKETS AND SERVICE

The No Action Alternative operates similarly to and at the same approximate level as today’s service
in the peak hours. The No Action Alternative serves the same stations and market areas along the
NEC that are served today with one exception: East Side Access, a project currently under
construction and thus part of the No Action Alternative, which will provide new LIRR service into
Grand Central Terminal in New York City.
The Action Alternatives each offer the same service types: Intercity-Express, Intercity-Corridor, and
Regional rail. Action Alternatives also incorporate enhanced service concepts (see Section 4.2.2.1).
The differences between the No Action and Action Alternatives are measured in the total number of
trains, travel times, and passenger and train capacities for existing and new markets. (Table 4-8 and
Table 4-9 describe the service for the No Action and Action Alternatives by service type and train
frequency at selected screenlines 27 along the NEC). Screenlines are used to capture the volume of
passenger rail traffic at key locations along the NEC, particularly where capacity or utilization might
change. The following screenlines along the NEC express the volume of passenger rail traffic as trains
per hour per direction by service type:
4 Washington, D.C.
4 Philadelphia, PA
4 Hudson River, between New Jersey and New York County
4 East River, between New York County and Queens County
4 New Rochelle, NY
4 Boston
Service types are summarized by Intercity, which includes Intercity-Express and Intercity-Corridor,
and Regional rail service. Existing (2012) service levels are compared to services levels under the No
Action Alternative and Action Alternatives (2040) for the peak-hour peak direction. 28

4.5.1 No Action Alternative
The No Action Alternative assumes the same types of Amtrak interregional services, including
Intercity-Express (Acela), Intercity-Corridor (Regional), and connecting corridors (i.e., to Springfield,
MA; Harrisburg, PA; Albany, NY; or Richmond, VA). The No Action Alternative also assumes the same
types of Regional rail services offered by the eight commuter railroads currently operating on the
NEC. The No Action Alternative service levels for the peak hour, in the peak direction are the same as
existing (2012) service levels as shown in Table 4-8.

27

Screenlines are imaginary lines across which rail and passenger traffic can be counted or measured.
“Peak hour” refers to when demand for transportation services is greatest. Peak direction refers to the direction
of travel within the peak hour. In the morning, the peak direction is often toward metropolitan centers. In the
evening, the peak direction is often away from metropolitan centers. Transit Cooperative Research Program.
(2003). TCRP Report 100, Transit Capacity and Quality of Service Manual. Washington, D.C.: Transportation
Research Board.

28

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 4. Alternatives Considered

Table 4-8:

Trains per Peak Hour, Existing and 2040 Peak-Hour Peak Direction at Select
Screenlines – All Alternatives

Alternative
Screenline
Existing
No Action
1
Washington, D.C. (north of Washington, D.C., at Anacostia River)
Intercity
2
2
6
Regional rail
4
4
6
TOTAL
6
6
12
Philadelphia South (Chester, Pennsylvania)
Intercity
2
2
6
Regional rail
3
3
6
TOTAL
5
5
12
Hudson River (between New Jersey and New York)
Intercity
3
3
7
Regional rail
21
21
30
TOTAL
24
24
37
East River (between Manhattan and Queens)
Intercity
4
4
7
Regional rail
36
36
68
TOTAL
40
64
75
New Rochelle (near New Rochelle Station)
Intercity
0
0
6
Regional rail
21
21
26
TOTAL
21
21
32
Boston (south of Back Bay Station)
Intercity
1
1
5
Regional rail
9
9
12
TOTAL
10
10
17

Alternative
2

Alternative 3
(range)

10
10
20

12
12
24

10
8
18

12
8
20

10
42
52

16
54
70

10
74
84

8–16
76-82
84–98

10
32
42

8-16
36-42
44-58

8
14
22

6–14
20
26–34

Source: NEC FUTURE, 2015
Note: Where all Alternative 3 route options are the same, a single number is used.
* Connecting corridors include Springfield, Empire, Keystone, and Virginia service south of Washington Union Station.
** Only includes service to stations on the existing NEC; excludes new LIRR service to Grand Central Terminal with the East Side
Access project.

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Table 4-9:

Trains per Peak Hour, 2040 Peak-Hour Peak Direction at Select Screenlines –
Alternative 3 Route Options

Alternative 3
Central CT/
Long Island/
Long Island/
Screenline
Providence
Providence
Worcester
Washington, D.C. (north of Washington, D.C., at Anacostia River)
Intercity
12
12
12
Regional rail
12
12
12
TOTAL
24
24
24
Philadelphia South (Chester, Pennsylvania)
Intercity
16
16
16
Regional rail
8
8
8
TOTAL
24
24
24
Hudson River (between New Jersey and New York)
Intercity
16
16
16
Regional rail
54
54
54
TOTAL
70
70
70
East River (between Manhattan and Queens)
Intercity
8
16
16
Regional rail
76
82
82
TOTAL
84
98
98
New Rochelle (between Shell Junction and New Rochelle Station)
Intercity
16
8
8
Regional rail
42
36
36
TOTAL
58
44
44
Boston (south of Back Bay Station)
Intercity
14
14
6
Regional rail
20
20
20
TOTAL
34
34
26

Central CT/
Worcester
12
12
24
16
8
24
16
54
70
8
76
84
16
42
58
6
20
26

Source: NEC FUTURE Intercity Travel Demand Model outputs, April 2015; Regional Travel Demand Model outputs, April 2015
Note: Intercity-Corridor service includes Metropolitan and Intercity-Corridor-Other (off-corridor and long-distance services).

P a g e   4-40

Tier 1 Draft EIS

 4. Alternatives Considered

4.5.2 Alternative 1
Under Alternative 1, Intercity service would increase two to threefold for markets between
Washington, D.C., and New York. In markets from New York City to Boston where Intercity service
today is 1 or less than 1 train per hour, service increases would be more dramatic with an increase
from 1 to 8 trains an hour at the Boston screenline and an increase from 0 to 6 trains an hour at the
New Rochelle, NY, screenline.
Intercity-Express travel times, representing the fastest travel times, between representative citypairs are:
4 Washington, D.C., to New York City: 2 hours 40 minutes (a decrease of 5 minutes from the No
Action Alternative)
4 New York City to Boston: 3 hours (a decrease of 30 minutes from the No Action Alternative)
4 Washington, D.C., to Boston: 5 hours 40 minutes (a decrease of 35 minutes from the No Action
Alternatives)
Alternative 1 provides opportunities for improvements for through trips on connecting corridor
services in Washington, D.C., Philadelphia, New York City, New Haven, CT, and Boston. Connecting
corridor services would benefit from Action Alternative 1 travel time savings for those trips continuing
on to the NEC.
Regional rail service to existing NEC markets increases to meet demand but varies by market within
the Study Area. Peak-hour Regional rail service in markets from Washington, D.C., to New York City
would more than double. Increases in peak-hour trains along with expansion of trainset lengths,
where possible, would meet the forecasted increase in ridership and maintain the Regional rail share
of journey-to-work trips to and from the major metropolitan central business districts. Reverse-peak
and off-peak service continues to be operated where it is provided today.

4.5.3 Alternative 2
Intercity peak-hour service would be five times that available in the No Action Alternative at some
screenlines with Alternative 2. Peak service would be greatest south of New York City, but the
increase from the No Action Alternative would be most dramatic between New York City and Boston,
with increases up to eight- or tenfold at New Rochelle, NY and Boston screenlines.
Intercity-Express travel times, representing the fastest travel times, between representative citypairs are:
4 Washington, D.C., to New York City: 2 hours 30 minutes (a decrease of 15 minutes from the No
Action Alternative)
4 New York City to Boston: 2 hours 40 minutes (a decrease of 50 minutes from the No Action
Alternative)
4 Washington, D.C., to Boston: 5 hours 10 minutes (a decrease of 1 hour 5 minutes from the No
Action Alternative)

Tier 1 Draft EIS

P a g e   4-41

 4. Alternatives Considered

As with Alternative 1, Alternative 2 provides opportunities for improvement to through trips with
connecting corridor services in Washington, D.C., Philadelphia, New York City, New Haven, CT, and
Boston. Connecting corridor services would benefit from Action Alternative 2 travel time savings for
those trips continuing on to the NEC.
Regional rail peak-hour service would more than double in Alternative 2. At heavily traveled
screenlines, such as the Hudson River, Regional rail service would increase from 21 trains per hour to
42. Alternative 2 also includes additional service zones to increase peak zone express service and
reduce average trip times. In addition, Alternative 2 increases service to Regional branch lines where
sufficient capacity exists.

4.5.4 Alternative 3
Under Alternative 3, Intercity peak hour service would be six times greater than the No Action
Alternative service. For screenlines north of New York City, service would increase to 8 to 10 peakhour trains where No Action Alternative frequency is 1 or less than 1 train per hour. In Alternative 3,
these service increases would be distributed to both the existing NEC and the new second spine route
option.
Intercity-Express travel times, representing the fastest travel times, between representative citypairs are:
4 Washington, D.C., to New York City: 1 hour 40 minutes (an average decrease of 1 hour 5 minutes
from the No Action Alternative)
4 New York City to Boston: 1 hour 40 minutes (an average decrease of 1 hour 50 minutes from the
No Action Alternative)
4 Washington, D.C., to Boston: 5 hours 10 minutes (an average decrease of 2 hours 55 minutes
from the No Action Alternative)
As with Alternatives 1 and 2, Alternative 3 provides opportunities for improvement to through trips
with connecting corridor services in Washington, D.C., Philadelphia, New York City, New Haven, CT,
and Boston. Connecting corridor services would benefit from Action Alternative 3 travel time savings
for those trips continuing on to the NEC.
Regional rail service would increase nearly three times the peak-hour service in the No Action
Alternative for many screenlines south of New York City. Regional service north of New York City
would be nearly double the No Action Alternative’s peak-hour trains per hour. Alternative 3 also
includes additional service zones that would be created to increase peak zone express service and
reduce average trip times. Service to branch lines would increase and more through service would be
available where transfers are required in the No Action Alternative. Regional rail service would share
the new second spine tracks with Intercity trains, offering significantly reduced trip times for longdistance commuters. In areas with heaviest demand, Regional rail services would operate at
frequencies close to 1 train per minute.

P a g e   4-42

Tier 1 Draft EIS

 4. Alternatives Considered

4.5.5 Stations/Metropolitan Areas Served
The No Action Alternative will continue to serve the same 110 stations that exist on the NEC today.
Table 4-10 identifies the stations that will be served under the No Action Alternative. Regional rail
serves all stations unless noted.

Table 4-10:

Existing NEC Stations (excluding Connecting Corridors) Served under the No
Action Alternative

Geography
Washington, D.C.
Maryland

Total
1
12

Delaware
Pennsylvania

4
25

New Jersey

15

New York

7

Connecticut

29

Rhode Island
Massachusetts

5
12

NEC Stations (excluding Connecting Corridors)
Washington Union Station*
New Carrollton*, Seabrook, Bowie State, Odenton, BWI Airport*, Halethorpe, West
Baltimore, Baltimore Penn Station*, Martin Airport, Edgewood, Aberdeen*,
Perryville
Newark, DE*, Churchman's Crossing, Wilmington Station*, Claymont
Marcus Hook, Highland Ave, Chester, Eddystone, Crum Lynne, Ridley Park, Prospect
Park, Norwood, Glenolden, Folcroft, Sharon Hill, Curtis Park, Darby, Philadelphia
30th St*, North Philadelphia*, Bridesburg, Wissinoming, Tacony, Holmesburg
Junction, Torresdale, Cornwells Heights*, Eddington, Croydon, Bristol, Levittown
Trenton*, Hamilton, Princeton Junction*, Jersey Avenue, New Brunswick*, Edison,
Metuchen, Metropark*, Rahway, Linden, Elizabeth, North Elizabeth, Newark
Airport*, Newark Penn Station*, Secaucus
Penn Station New York*, New Rochelle*, Larchmont, Mamaroneck, Harrison, Rye,
Port Chester
Greenwich, Cos Cob, Riverside, Old Greenwich, Stamford*, Noroton Heights,
Darien, Rowayton, South Norwalk, East Norwalk, Westport, Green’s Farms,
Southport, Fairfield, Fairfield Metro, Bridgeport*, Stratford, Milford, West Haven,
New Haven Union Station*, New Haven State Street, Branford, Guilford, Madison,
Clinton, Westbrook, Old Saybrook*, New London*, Mystic**
Westerly**, Kingston*, Wickford Junction, T.F. Green, Providence Station*
South Attleboro, Attleboro, Mansfield, Sharon, Canton Junction, Route 128*,
Readville, Hyde Park, Forest Hills, Ruggles, Back Bay*, Boston South Station*

Source: NEC FUTURE team, 2015
Note: Stations that do not have an asterisk are served by Regional rail only.
* Serves Intercity and Regional rail services
** Serves Intercity services only

Alternative 1 adds 19 new stations for a total of 129 stations. Five new stations are located in New
York, the most of any state within the Study Area. Four stations each are added in both Maryland and
Connecticut. The following five Local Hub stations would be upgraded to Hub stations to
accommodate new service types and improve gaps in connectivity:
4 Odenton (Maryland)
4 West Baltimore (Maryland)
4 Secaucus (New Jersey)
4 Greens Farms (Connecticut)
4 T.F. Green Airport (Rhode Island)

Tier 1 Draft EIS

P a g e   4-43

 4. Alternatives Considered

Alternative 2 includes 134 stations: 24 are new, including 6 in Connecticut and 5 in New York. A new
station at Philadelphia International Airport would serve Intercity services.
Alternative 3 brings the most change to the Study Area, with 141–151 stations. Most of the stations
would continue to operate as they do today with some improvements to keep up with increased local
demand. Between 4 and 7 stations would be upgraded to Hub stations to accommodate new service
types. Hartford Station would be upgraded from Hub to Major Hub to accommodate Intercity-Express
service.
The remaining new stations would serve new or underserved markets (such as Long Island and
Central Connecticut) or stations with highway access to the NEC (such as Baldwin Station near
Chester, PA) or are adjacent to existing stations and designed to accommodate multiple service types
with multiple levels of tracks and platforms and convenient passenger connections to the existing
station. Table 4-11 lists the quantities of stations, by type, for the No Action and Action Alternatives.

Table 4-11:
Station Type
Major Hub
Hub
Local
TOTAL

Station Type for No Action and Action Alternatives
Existing NEC

14
16
80
110

No Action
14
19
77
110

Alternative 1
17
25
87
129

Alternative 2
18
27
89
134

Alternative 3 (range)
22–24
30–36
88–92
141–151

Source: NEC FUTURE team, 2015
Note: Table 4-5 provides a complete list of stations, their locations, and the Action Alternative(s) in which each station appears.
Appendix B, Stations Location and Access Analysis Technical Memorandum, further describes the selection of specific station
types for each alternative.

4.6

INFRASTRUCTURE ELEMENTS

Individual infrastructure elements identify the construction type and physical improvement
associated with the Representative Route of the Action Alternatives. The FRA organized
infrastructure elements by their functionality: chokepoint relief projects, new track, or new segment
(see Section 4.2.5). Sections 4.6.1 through 4.6.3 describe the infrastructure elements for each Action
Alternative. Consideration of service plans consistent with the vision of the Action Alternatives when
determining the appropriate infrastructure allows improvements to be considered across different
NEC markets and provides a framework for considering incremental or alternative combinations, but
still within the long-term vision for a system-wide integrated passenger rail network.
The Action Alternatives use existing and proposed infrastructure to support the operations necessary
to meet market growth. All Action Alternatives accommodate different types of trains; however,
some segments in Alternatives 2 and 3 are dedicated to high-performance trainsets. This integration
of service, performance, and infrastructure allows for a smaller infrastructure footprint, compared to
a more typical approach where infrastructure is designed to accommodate shared use by a variety of
operators with different operating requirements. (Appendix B, Tier 1 EIS Alternatives Report, contains
further information on the location of selected infrastructure elements for the Action Alternatives.)

P a g e   4-44

Tier 1 Draft EIS

 4. Alternatives Considered

4.6.1 Alternative 1
Alternative 1 would support increases in Intercity and Regional rail services, eliminating key
chokepoints along the corridor, and increasing capacity at selected locations by adding additional
track within the existing NEC and new segments parallel to and outside the existing NEC right-of-way.

4.6.1.1

Chokepoint Relief Projects

Alternative 1 contains 11 chokepoint relief projects. Eight are located south of New York City in
Maryland, Delaware, Pennsylvania, and New Jersey. Two projects north of New York City would
address conflicting train movements near the New Rochelle station and South Norwalk and
Bridgeport, CT. The FRA identified chokepoint projects at the following locations, which are keyed to
Figure 4-4:
4 New Carrollton Station (MD), four platform tracks, to permit express and local trains to operate
on separate tracks
4 Newark, DE, station relocation and track reconfiguration, to provide for smoother Intercity,
Regional rail, and freight train movements
4 Holly Interlocking reconfiguration, DE, to separate local and express train traffic
4 Philadelphia flyover, to facilitate regional rail local train movements
4 Trenton Station and yard access, to facilitate regional rail terminal operations
4 Metropark Station (NJ) platforms on express tracks, to permit Intercity-Express and IntercityCorridor trains to stop at this station without switching to the local tracks
4 Hunter flyover and Westbound Waterfront Connection (NJ), improving access to the NEC from
the Raritan Valley Line and from Hoboken Terminal
4 New Rochelle (Shell Junction) grade separation (NY), to provide smoother train flows between
the Hell Gate Line and New Haven Line.
4 South Norwalk and Devon junction improvements (CT), to facilitate Danbury and Waterbury
regional rail branch line train movements
4 East Bridgeport yard access and turnback track (CT), to facilitate turning of local regional rail
services
4 Canton Junction to Readville track and junction improvements (MA), to facilitate a smoother flow
of trains

4.6.1.2

New Track

Alternative 1 includes five new track projects (Figure 4-4). Of the three located south of Midtown
Manhattan, two are in Maryland where the existing NEC is currently a two- and three-track railroad.
There are two new track projects north of Midtown Manhattan. Two tracks are included on the Hell
Gate Line in Queens, NY and Bronx, NY, and one or two additional tracks are included near Route 128
station in Westwood, MA. New track projects, identified from junction to junction, are listed below:
4 Odenton, MD, to Halethorpe, MD, fourth track

Tier 1 Draft EIS

P a g e   4-45

 4. Alternatives Considered

4 Bayview, MD to Newark, DE, additional track(s)
4 Elizabeth, NJ to Newark Airport, NJ, additional track(s)
4 Hell Gate Line, Queens, NY and Bronx, NY, expanded to four tracks
4 East Greenwich, RI-Warwick, RI, additional track(s)
4 Canton Junction, MA to Westwood/Route 128, MA, additional track(s)

4.6.1.3

New Segment

Alternative 1 has three new segments 29 parallel to and outside of the existing NEC right-of-way. Two
new segments are located south of New York City: a new tunnel near Baltimore Penn Station and a
third and fourth tunnel under the Hudson River between New Jersey and New York. New segments
are listed below (approximate length in parentheses):
4 New Baltimore tunnel (approximately 2 miles)
4 Hudson River third and fourth tunnels and expanded Penn Station New York (approximately 3
miles)
4 Old Saybrook-Kenyon new segment (approximately 50 miles)
All of these new segments are locations where the railroad is capacity-constrained, where expanding
capacity within the existing right-of-way is difficult or impractical, or, in the case of the New Baltimore
Tunnel, where existing facilities require life-cycle replacement.
Alternative 1 includes the Old Saybrook-Kenyon new segment, between Old Saybrook, CT, and
Kenyon, RI. This new segment would provide a more direct and faster route and would circumvent
the existing movable bridges over navigable waterways connected to Long Island Sound, over which
daily train movements are capped by current agreements and where approval for significant
increases in future train traffic could be difficult to obtain. The new segment would save
approximately 30 minutes of travel time compared to the existing Shore Line route and would free
capacity on the existing Shore Line route.
Figure 4-4 depicts the chokepoint, new track, and new segment locations in Alternative 1.

29

New segments contribute to the representative route of an alternative and are described in greater detail in
Section 4.2.4.

P a g e   4-46

Tier 1 Draft EIS

 4. Alternatives Considered

Figure 4-4:

Alternative 1 (Chokepoint, New Track, and New Segment Locations)

Source: NEC FUTURE team, 2015

Tier 1 Draft EIS

P a g e   4-47

 4. Alternatives Considered

4.6.2 Alternative 2
Alternative 2 enhances the capacity of the existing NEC. Alternative 2 includes chokepoint relief
projects, new track projects, and new segments to improve travel times in and around the major
urban areas, on antiquated bridges, and in southeast Connecticut.

4.6.2.1

Chokepoint Relief Projects

Most of the chokepoint projects in Alternative 2 are the same as those identified for Alternative 1,
addressing chokepoints near stations, at railroad junctions, and at yard locations where trains lay
over and change direction. The inclusion of new segments or new tracks at certain locations obviates
the need for a separate chokepoint project. The FRA identified chokepoint projects at the following
locations, which are keyed to Figure 4-5:
4 New Carrollton Station (MD), 4 platform tracks, to permit express and local trains to operate on
separate tracks
4 Newark, DE, station relocation and track reconfiguration, to provide for smoother Intercity,
Regional rail and freight train movements
4 Philadelphia 30th Street – Penn Interlocking – four-track approaches, to enable the station to
operate as a pulse hub with coordinated transfers between train services at timed intervals
4 Trenton Station and yard access (NJ), to facilitate regional rail terminal operations
4 Metropark Station platforms on express tracks (NJ), to enable Intercity-Express and IntercityCorridor trains, including Metropolitan trains, to stop at this station on the express tracks
4 Hunter Flyover and Westbound Waterfront Connection (NJ), improving access to the NEC from
the Raritan Valley Line and from Hoboken Terminal
4 New Rochelle (Shell Junction) grade separation (NY), to provide smoother train flows between
the Hell Gate Line and New Haven Line
4 New Haven Station (CT), to facilitate the smooth movement of Intercity and Regional rail trains
into and out of the station
4 Canton Junction to Readville track and junction improvements (MA), to facilitate a smoother flow
of trains

4.6.2.2

New Track

Alternative 2 includes the construction of several new track projects. Three are located in Maryland
where the existing NEC is currently a two- and three-track railroad. One project is located north of
Midtown Manhattan, adding two tracks to the Hell Gate Line in Bronx, NY.
4 Washington, D.C., to New Carrollton, MD, third track
4 New Carrollton, MD, to Halethorpe, MD, fourth track

P a g e   4-48

Tier 1 Draft EIS

 4. Alternatives Considered

4 Bayview, MD, to Perryville, MD, four-track railroad
4 Hell Gate Line, Queens, NY and Bronx, NY, expanded to four tracks
4 Providence, RI, to Hyde Park, MA, four tracks

4.6.2.3

New Segment

Alternative 2 includes 11 new segments, parallel to and outside of the existing NEC right-of-way, at
the following locations (approximate length in parentheses):
4 Baltimore Tunnel (approximately 2 miles)
4 Aberdeen, MD, to Newark, DE (approximately 23 miles)
4 Wilmington, DE, Bypass (approximately 8 miles)
4 Baldwin, PA, to Philadelphia 30th Street Station via Philadelphia International Airport
(approximately 10 miles)
4 Philadelphia 30th Street Station to Bridesburg, PA, through North Philadelphia, PA (approximately
8 miles)
4 North Brunswick, NJ, to Colonia, NJ (approximately 16 miles)
4 Elizabeth, NJ, to Secaucus, NJ (approximately 12 miles)
4 Secaucus, NJ, to Hell Gate Viaduct, Queens, NY via new Hudson and East River Tunnels and
expanded Penn Station New York (approximately 8 miles)
4 New Rochelle, NY, to Westport, CT (approximately 29 miles)
4 Sharon, MA to Canton Junction, MA (approximately 3 miles)
The biggest change in the Representative Route between the No Action Alternative and Alternative
2 is in eastern Connecticut and western Rhode Island. Alternative 2 includes a New Haven-HartfordProvidence new segment, providing a second route between New Haven, CT, and Providence, RI, that
would remove train traffic from 120 miles of the Shore Line route that has capacity-limited, movable
bridges and over which Providence and Worcester, MA, freight trains operate in addition to Shore
Line East and MBTA Regional rail services. Figure 4-5 depicts the chokepoint, new track, and new
segment locations in Alternative 2.

Tier 1 Draft EIS

P a g e   4-49

 4. Alternatives Considered

Figure 4-5:

Alternative 2 (Chokepoint, New Track, and New Segment Locations)

Source: NEC FUTURE team, 2015

P a g e   4-50

Tier 1 Draft EIS

 4. Alternatives Considered

4.6.3 Alternative 3
Alternative 3 provides major new rail capacity throughout the entire NEC with two new tracks
between Washington, D.C., and Boston, as well as upgrades to the existing NEC similar to Alternative
1, which would bring the existing NEC to a state of good repair and would provide capacity and
chokepoint relief along the corridor.

4.6.3.1

Chokepoint Relief Projects

These projects address chokepoints near stations, at railroad junctions, and at yard locations where
trains lay over and change direction. The FRA identified chokepoint projects at the following
locations, which are keyed to Figure 4-6:
4 New Carrollton Station, four platform tracks, to permit express and local trains to operate on
separate tracks
4 Odenton Station island platforms, to enable Metropolitan trains to stop at this station on the
express tracks
4 Newark, DE, station relocation and track reconfiguration, to provide for smoother intercity,
regional rail and freight train movements
4 Philadelphia flyover, to facilitate regional rail local train movements
4 Trenton Station and yard access, to facilitate regional rail terminal operations
4 Metropark Station platforms on express tracks, to enable Intercity-Express and Intercity-Corridor
trains, including Metropolitan trains, to stop at this station on the express tracks
4 Hunter Flyover and Westbound Waterfront Connection, improving access to the NEC from the
Raritan Valley Line and from Hoboken Terminal
4 New Rochelle (Shell Junction) grade separation, to provide smoother train flows between the Hell
Gate Line and New Haven Line.
4 Canton Junction to Readville track and junction improvements (MA), to facilitate a smoother flow
of trains

4.6.3.2

New Track

There are fewer new track projects on the existing NEC in Alternative 3 since the need for additional
tracks on the existing NEC is reduced with the construction of new high-speed tracks along the entire
corridor. The locations of the most prominent new track projects are:
4 Odenton, MD, to Halethorpe, MD, fourth track
4 Bayview, MD, to Perryville, MD, additional track(s)
4 Hell Gate Line, Queens, NY and Bronx, NY, expanded to four tracks
4 Providence, RI, to Hyde Park, MA, four tracks

Tier 1 Draft EIS

P a g e   4-51

 4. Alternatives Considered

4.6.3.3

New Segment

Alternative 3 includes new segments parallel to and outside of the existing NEC right-of-way,
providing a second spine route between Washington, D.C., and Boston, MA. 30. Alternative 3 also
increases the capacity of the existing NEC with the Baltimore and Potomac Tunnel and new segments
parallel to the existing NEC between New Rochelle, NY, and Stamford, CT.
Alternative 3 includes a new route through New York City, resulting in six tracks in tunnels beneath
the Hudson and East Rivers, along with station facilities for all service types, which would address the
most critical capacity issues within the Study Area. Additional infrastructure improvements in
Alternative 3 include downtown routing in Baltimore and Philadelphia and terminal capacity
expansion in Washington, D.C., New York City, and Boston. Alternative 3 includes new stations in
downtown Baltimore, Philadelphia International Airport, and Center City Philadelphia. North of New
York, new stations are specific to each routing option, as shown below.
4 Central CT/Providence:

New stations – Danbury, CT, Willimantic/Storrs, CT

4 Long Island/Providence: New stations – Ronkonkoma, NY, Tolland/Storrs, CT
4 Long Island/Worcester:

New stations – Nassau, NY, Framingham, MA

4 Central CT/Worcester:

New stations – White Plains, NY, Beacon Park, MA

There are several new six-track sections of railroad, locations where there is a new, two-track
segment adjacent to a four-track NEC Spine, south of New York in Alternative 3. Six-track segments
extend from Washington, D.C., to Baltimore, MD, and Philadelphia to New York City. Six-track sections
are also located in coastal Fairfield County.
Figure 4-6 depicts the chokepoint, new track, and new segment locations included in Alternative 3.

30

Alternative 3 does not include the Old Saybrook-Kenyon new segment.

P a g e   4-52

Tier 1 Draft EIS

 4. Alternatives Considered

Figure 4-6:

Alternative 3 (Chokepoint, New Track, and New Segment Locations)

Tier 1 Draft EIS

P a g e   4-53

 4. Alternatives Considered

4.7

GEOGRAPHIC DEPICTION AND ORIENTATION OF ALTERNATIVES

This section provides a state-by-state description of the Representative Route for each of the
alternatives. The descriptions highlight key geographic features of the built and natural
environments, how the alternative is positioned relative to the existing NEC, and the typical
construction type. Where Action Alternatives have similar features, those features are described
when they are first introduced and then referenced in subsequent alternative descriptions.
Descriptions of the routes are organized south to north (or west to east) by state, metropolitan area
or construction type being assigned—beginning in Washington, D.C., and ending in Boston. Appendix
A, Mapping Atlas, provides the spatial location of each Representative Route relative to the general
location of selected environmental resources. Table 4-12 provides a reference table to the map
sheet(s) relative to the following subsection(s).

4.7.1 No Action Alternative
The rail component of the No Action Alternative includes the existing NEC between Washington
Union Station in Washington, D.C., and Boston South Station in Boston, and the MTA-LIRR East Side
Access project (currently under construction). The Representative Route of the existing NEC is
described for each state the corridor passes through. 31 The East Side Access project is described in
New York only since the project extent is entirely within that state.

4.7.1.1

Washington, D.C.

The existing NEC exits Washington Union Station in Washington, D.C., at-grade or on embankment
and parallel to U.S. Route 50. The railroad is on embankment through the National Arboretum before
crossing the Anacostia River into Prince George’s County, Maryland.

4.7.1.2

Maryland

The existing NEC is usually at-grade or on embankment, parallel to U.S. Route 50 through New
Carrollton, crossing under Interstate 495 (I-495) at-grade near the suburban town of Seabrook and
Bowie State University. The railroad crosses the Patuxent River into Anne Arundel County on
embankment adjacent to the Patuxent Research Refuge before transitioning at-grade near Odenton
and continuing north near BWI Rail Station and BWI Airport. The railroad is at-grade near State Route
(S.R.) 295 and Patapsco Valley State Park crossing the Patapsco River into Baltimore County near
I-895.

31

The Representative Route of the Action Alternatives is described relative to the Representative Route of the No
Action Alternative.

P a g e   4-54

Tier 1 Draft EIS

 4. Alternatives Considered

Table 4-12:
Sheet
#1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26

Mapping Atlas Reference Guide

Existing
NEC
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

Alt 1
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X
X

Tier 1 Draft EIS

Alt 2
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X

X

X

D.C. to
NYC
X
X
X
X
X
X
X
X
X
X
X
X
X

X

Alternative 3
New York City to Hartford
via Central CT
via LI

X
X
X

X
X

X
X
X
X
X

Hartford to Boston
via PVD
via WOR

X
X
X
X
X
X
X
X
X

X

X

X

Regional Coverage (State and County)
Washington D.C.; Prince George's County, MD
Anne Arundel, Baltimore County, Baltimore City, MD
Baltimore City, Baltimore County, MD
Harford County, MD
Cecil County, MD
New Castle County, DE
Delaware County, PA
Philadelphia County, PA
Bucks County, PA
Mercer, Middlesex County, NJ
Union, Essex, Hudson County, NJ; New York County, NY
New York, Bronx County, NY
Westchester County, NY; Fairfield County, CT
Mercer, Middlesex County, NJ
Fairfield County, CT
New Haven County, CT
New Haven County, CT
New York, Kings, Queens County, NY
Nassau, Suffolk County, NY
Suffolk County, NY
Suffolk County, NY; Long Island Sound
Westchester County, NY
Westchester County, NY
Fairfield County, CT
New Haven County, CT
Hartford County, CT

P a g e   4-55

 4. Alternatives Considered

Table 4-12:
Sheet
#1
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41

Mapping Atlas Reference Guide (continued)

Existing
NEC

X
X
X
X
X

X

X

Alt 1

X

Alt 2
X
X
X
X
X

D.C. to
NYC

Alternative 3
New York City to Hartford
via Central CT
via LI
X
X

Hartford to Boston
via PVD
via WOR
X
X
X
X
X
X

X

X
X
X
X
X
X

X
X
X

X

X

X
X
X
X

Regional Coverage (State and County)
Hartford County, CT
Tolland County, CT
Windham County, CT
Providence County, RI
New Haven County, CT
Middlesex, New London County, CT
New London County, CT
Washington County, RI
Washington, Kent County, RI
Providence County, RI; Bristol County, MA
Norfolk County, MA
Tolland County, CT
Worcester County, MA
Worcester, Middlesex County, MA
Middlesex, Norfolk, Suffolk County, MA

Source: NEC FUTURE team, 2015
1 Sheet # refers to Map Sheet in Appendix A, Mapping Atlas.

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The existing NEC is at-grade adjacent to U.S. Route 1 crossing into the city of Baltimore (Baltimore);
shifting northeast on embankment and crossing Gwynns Falls on the west side of the Baltimore. The
railroad shifts northeast in tunnel and trench system known as the Baltimore and Potomac Tunnels
before crossing under I-83 and shifting southeast at-grade east of Baltimore Penn Station. The
railroad is on embankment and aerial structure east of Baltimore Penn Station, transitioning to atgrade west of I-895, reentering Baltimore County near I-95 (Figure 4-7). The railroad is at-grade or on
embankment, adjacent to Martin State Airport, between U.S. Route 40 and the Chesapeake Bay,
crossing the Gunpowder River into Harford County. The existing NEC is at-grade or on embankment
through Harford County, crossing the Bush River in Aberdeen, north of Aberdeen Proving Ground.
The corridor crosses the Susquehanna River into suburban Cecil County, shifting at-grade to the north
side of U.S. Route 40 and I-95, before entering New Castle County, DE, just east of Newark.

Figure 4-7:

No Action Alternative (Existing NEC through Baltimore)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.1.3

Delaware

The existing NEC is at-grade on the north side of I-95 through Newark, Stanton, and Newport, shifting
east under I-95 on embankment and aerial structure through Wilmington’s Central Business District
on the north side of the Christina River. The railroad shifts north, crossing the Brandywine River,
continuing at-grade between I-495 and the Delaware River through Edgemoor and Claymont into
Delaware County, PA.

4.7.1.4

Pennsylvania

The existing NEC is at-grade or on embankment between I-95 and the Delaware River through the
industrial towns of Marcus Hook and Trainer in southern Delaware County. The railroad transitions

Tier 1 Draft EIS

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 4. Alternatives Considered

to a series of embankments and aerial structures through Chester, shifting north and crossing I-95
east of I-476 in Crum Lynne. The railroad continues at-grade or on embankment northeast through
suburban Ridley Park, Glenolden, and Sharon Hill, crossing Cobbs Creek near Colwyn into the City of
Philadelphia near I-76 and the Schuylkill River. The existing NEC follows the contour of the Schuylkill
River north through Philadelphia 30th Street Station in University City, crossing the Schuylkill River
near the Philadelphia Zoo, and continuing on embankment through the Bridesburg, Tacony, and
Holmesburg sections of Philadelphia, before crossing Poquessing Creek into Bucks County, at-grade
and parallel to I-95 and the Delaware River. The railroad is at-grade through Cornwells Heights,
crossing the Neshaminy Creek into Croydon and transitioning to embankment, then shifting east and
transitioning back to grade near U.S. Route 13 in Bristol. The existing NEC crosses at-grade under
I-276 through northern Bucks County, crossing the Delaware River into Mercer County, NJ.

4.7.1.5

New Jersey

The existing NEC crosses the Delaware River into the City of Trenton, Hamilton, and West Windsor.
The railroad crosses the Millstone River on aerial structure into Middlesex County, continuing north
parallel to U.S. Route 1 and the New Jersey Turnpike. The existing NEC transitions mostly at-grade
from an urban setting in Trenton, to a suburban setting in Monmouth Junction, back to an urban
setting in the City of New Brunswick. The railroad crosses the Raritan River into Highland Park and
continues usually on embankment through northern Middlesex County, Elizabeth in Union County,
and Newark in Essex County. The existing NEC crosses the Passaic River into Hudson County northeast
usually on embankment through Secaucus, before shifting east and in tunnel under the New Jersey
Palisades and Hudson River into Midtown Manhattan.

4.7.1.6

New York

The existing NEC remains in tunnel under Midtown Manhattan and the East River, transitioning atgrade near Hunters Point Avenue and I-495 in Queens County. The railroad shifts north onto
embankment and again onto an aerial structure known as the Hell Gate Viaduct in Astoria, Queens
(Figure 4-8). The railroad crosses the East River, Wards and Randalls Island, and Bronx Kill into Bronx
County, continuing at-grade near I-278 in the Hunts Point section of the Bronx. The railroad is atgrade, parallel to I-278, shifting east near Bronx River Parkway, through the Parkchester, Morris Park,
and Co-Op City sections of the Bronx. The existing NEC shifts north at-grade through Pelham Bay Park,
entering Westchester County parallel to I-95. The railroad continues at-grade through New Rochelle,
Mamaroneck, Rye, and Port Chester, crossing the Byram River into Fairfield County, CT.
As noted earlier, East Side Access, currently under construction, is also part of the No Action
Alternative. That project will provide new LIRR service into Grand Central Terminal in New York. The
rail infrastructure, described from east to west, consists of new tracks aboveground in Sunnyside Yard
in Queens, extending north and connecting to the east side of the existing 63rd Street Tunnel near
43rd Avenue in Long Island City section of Queens. A new tunnel will connect to the 63rd Street Tunnel
on the west side in Manhattan under Second Avenue, shifting south under Park Avenue and
terminating under Grand Central Terminal on the east side of Manhattan.

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Tier 1 Draft EIS

 4. Alternatives Considered

Figure 4-8:

No Action Alternative (Existing NEC through New York City)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.1.7

Connecticut

The existing NEC is at-grade on the north side of I-95 in western Fairfield County, shifting at-grade to
the south side of I-95 in Cos Cob, crossing the Mianus River and continuing east between I-95 and the
Long Island Sound. The railroad is on embankment through Stamford on the north side of I-95, shifting
back to the south side in Darien. The existing NEC enters the City of Norwalk at-grade, before crossing
the Norwalk and Saugatuck Rivers. The railroad continues at-grade or on embankment east through
Fairfield and Bridgeport, crossing the Housatonic River into New Haven County.
The existing NEC is at-grade or on embankment through Milford and the City of New Haven, shifting
northeast, adjacent to I-91 before crossing the Quinnipiac River and shifting toward the Long Island
Sound. The railroad continues at-grade or on embankment south of I-95 through Branford, Guilford
and Madison along coastal New Haven County. The existing NEC crosses the Hammonasset River into
Middlesex County and continues east through Clinton, Westbrook, and Old Saybrook usually at-grade
or on embankment. The railroad crosses the Connecticut River into New London County, continuing
east at-grade or on embankment through Old Lyme, Niantic, and New London, crossing the Thames
River and continuing at-grade or on embankment east along the Long Island Sound through Mystic
and Stonington. The railroad crosses the Pawcatuck River on aerial structure into Westerly, RI.

4.7.1.8

Rhode Island

The existing NEC is usually at-grade or on embankment through Westerly, Hopkinton, Charlestown,
and Richmond in southern Washington County, shifting northeast near South Kingston, and north in

Tier 1 Draft EIS

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Exeter. The railroad continues at-grade or on embankment through North Kingston, crossing the Huet
River into Kent County, continuing north through East Greenwich and Warwick, before crossing the
Pawtuxet River into Providence County. The existing NEC is adjacent to I-95 through Cranston,
entering the City of Providence at-grade and parallel to S.R. 10 before shifting east through
downtown Providence. The railroad shifts north again near the Rhode Island State House and the
Moshassuck River, and continues at-grade adjacent to I-95 through Pawtucket and Central Falls,
crossing the Seekonk River into Bristol County, MA (Figure 4-9).

Figure 4-9:

No Action Alternative (Existing NEC through Providence)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.1.9

Massachusetts

The existing NEC continues east, parallel to I-95 in Attleboro, shifting north near Ten Mile River,
usually at-grade or on embankment, through Attleboro and Mansfield. The railroad crosses I-495 atgrade in northern Mansfield, entering Norfolk County near the Rumford River. The railroad continues
north through Foxborough, entering Sharon near the Canoe River and continuing north at-grade or
on embankment through Canton. The existing NEC crosses the Neponset River and I-95 into
Westwood near Route 128 Rail Station and continues north on embankment through Neponset River
State Reservation in Dedham. The railroad enters the City of Boston near Sprague Street and

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 4. Alternatives Considered

continues usually at-grade north, parallel to Hyde Park Avenue. The existing NEC shifts northeast
entering a series of trenches and tunnels near S.R. 203 near Columbus Avenue and Northeastern
University, shifting east to the south side of I-90, and continuing at-grade east of Boston Back Bay
Station. The railroad shifts north near I-93 and terminates at Boston South Station near Fort Point
Channel (Figure 4-10).

Figure 4-10:

No Action Alternative (Existing NEC near Boston)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.1.10 Ownership of the existing NEC
As mentioned in Chapter 3, ownership of the NEC is divided among Amtrak, MTA-Metro-North
Railroad, Connecticut Department of Transportation, and Massachusetts. Amtrak owns the existing
NEC extending from Washington Union Station to New Rochelle, NY; and from Mill River, located east
of New Haven, CT, to the Rhode Island/Massachusetts state border. Metro-North Railroad owns the
existing NEC from New Rochelle, NY to the New York/Connecticut state border. The Connecticut
Department of Transportation owns the existing NEC extending from the New York/Connecticut state
border to Mill River. Massachusetts owns the existing NEC from the Rhode Island/Massachusetts
state border to Boston South Station. A graphic depiction of ownership along the existing NEC is
located in Appendix A, Mapping Atlas (Part 2). 32

32

Various states, cities, and agencies own stations along the existing NEC. For example, NJ TRANSIT owns 14
stations along the NEC.

Tier 1 Draft EIS

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4.7.2 Alternative 1
The Representative Route of Alternative 1 is largely confined to the existing NEC between
Washington, D.C., and Boston, except in locations where infrastructure is added to provide
chokepoint relief or add capacity.
The following describes the locations where Alternative 1 differs or varies from the Representative
Route of the No Action Alternative described previously. The bulleted details highlight adjacent
environmental features, metropolitan areas and major passenger rail stations and their location
relative to the existing NEC.

4.7.2.1

Maryland

4 New, two-track infrastructure in tunnel, approaching Baltimore Penn Station from the west
(Figure 4-11). This new segment diverges from the existing NEC in West Baltimore, and continues
in an arching path under U.S. Route 1 (North Avenue), keeping to the south of Druid Hill Park, and
crossing under I-83 before reconnecting at-grade to the existing NEC north of Baltimore Penn
Station.

Figure 4-11:

Alternative 1 (Existing NEC and New Segment through Baltimore)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

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 4. Alternatives Considered

4.7.2.2

New Jersey

4 Two new tracks in one or two tunnels, beginning on embankment east of Secaucus Station
adjacent to the existing NEC and continues east in tunnel west of U.S. Routes 1 & 9. The new
segment continues in tunnel under the New Jersey Palisades and the Hudson River.

4.7.2.3

New York

4 Two new tracks in one or two tunnels continue from New Jersey at the Hudson River and
terminate under 31st Street, south of Penn Station New York (Figure 4-12).

Figure 4-12:

Alternative 1 (Existing NEC and New Segment through New York City
Metropolitan Area)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.2.4

Connecticut

4 Two new segments adjacent to the existing NEC in Fairfield County. The western segment is on
aerial structure, adjacent to the existing NEC near Stamford Station. The eastern segment is
parallel to the existing NEC between Noroton Heights Station and near Green’s Farms Station,

Tier 1 Draft EIS

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 4. Alternatives Considered

near the Saugatuck River. Most of this segment is north of the existing NEC, parallel to I-95 and
inland from the coast.
4 New, two-track segment beginning east of Old Saybrook Station, shifting north of the existing
NEC, crossing the Connecticut River on aerial structure in Old Lyme, and continuing in a series of
tunnels, trenches, and aerial structures parallel to I-95 through East Lyme. The new segment shifts
northeast and continues a short distance parallel to I-395 in Waterford before crossing to the
south of I-395 in tunnel and continuing east adjacent to I-95. The segment crosses the Thames
River in New London, between the eastbound and westbound bridge spans of I-95 and continues
on embankment or aerial structure parallel to I-95 through Groton and Stonington, crossing the
Pawcatuck River north of the existing NEC into Westerly, Rhode Island (Figure 4-13).

Figure 4-13:

Alternative 1 (Existing NEC and New Segment near Old Saybrook, CT and
Kenyon, RI)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.2.5

Rhode Island

4 The Old Saybrook to Kenyon new segment continues east through Westerly, adjacent to the
existing NEC, shifting south through Branford and Wood River Junction, reconnecting to the
existing NEC in Kenyon, north of the Pawcatuck River.

4.7.3 Alternative 2
Much of the Representative Route of Alternative 2 is identical to the No Action Alternative between
Washington, D.C., and New Haven, CT, with some exceptions where infrastructure is added or

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 4. Alternatives Considered

modified to provide chokepoint relief, add capacity, or improve performance. Alternative 2 includes
curve modifications—sections of the existing NEC that would be shifted to increase operating speeds
and reduce travel times, as identified below. Section 4.7.1 describes the Representative Route for the
No Action Alternative.
The following describes locations where Alternative 2 is different or varies from the No Action
Alternative. Following the pattern of the No Action Alternative description, adjacent environmental
features, metropolitan areas and major passenger rail stations and their location relative to the
existing NEC or new segments are identified.

4.7.3.1

Maryland

4 New, two-track infrastructure in tunnel, approaching Baltimore Penn Station from the west. This
new segment diverges from the existing NEC in West Baltimore, and continues in an arching path
under U.S. Route 1 (North Avenue), keeping to the south of Druid Hill Park, and crossing under I83 before reconnecting at-grade to the existing NEC north of Baltimore Penn Station.
4 The existing NEC shifts approximately 300 feet at the widest point from its current location in the
city of Baltimore, east of Baltimore Penn Station and continues east of I-895.
4 The existing NEC shifts approximately 500 feet at the widest point from its current location in
Baltimore and Harford counties centered on the Gunpowder River.
4 The existing NEC shifts approximately 250 feet at the widest point from its current location just
east of Aberdeen Rail Station.
4 New, two-track infrastructure in Cecil County, MD, beginning in Perryville, beginning west of
Principio Creek, and shifting north of the existing NEC typically on an aerial structure and parallel
to U.S. Route 40. The new segment continues at-grade or on embankment east through the town
of North East, MD, shifting to the north side of I-95 and continuing through rural Cecil County.
The segment enters New Castle County north of the West Branch of the Christina River,
reconnecting with the existing NEC west of the Newark Rail Station (Figure 4-14).

Tier 1 Draft EIS

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 4. Alternatives Considered

Figure 4-14:

Alternative 2 (Existing NEC and New Segment through Maryland and Delaware)

s

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

4.7.3.2

Delaware

4 New, two-track infrastructure near Wilmington, beginning east of Banning Park, shifting south of
the existing NEC and east of I-95, continuing at-grade or on embankment east, crossing the
Christina River, U.S. Route 13, and the Christina River again in succession. The segment shifts
north, running parallel to I-495, reconnecting with the existing NEC near Fox Point State Park in
Edgemoor.

4.7.3.3

Pennsylvania

4 New, two-track infrastructure, south of Center City, Philadelphia, beginning near Eddystone Rail
Station in Delaware County, shifting south of the existing NEC and running parallel to S.R. 291
through Essington. The segment shifts north on embankment and major bridge, in close proximity
to S.R. 291, through the John Heinz National Wildlife Refuge, continuing at-grade north, parallel
to SEPTA’s “Airport Line.” The segment shifts east of the SEPTA Regional Rail “Airport Line,”
reconnecting with the existing NEC near the Schuylkill River and the University City section of
Philadelphia.
4 New, two-track spur, separate from what is described in the previous bullet to provide direct
service to Philadelphia International Airport. The new infrastructure begins east of I-95,
continuing in tunnel under Philadelphia International Airport, reconnecting to the segment near
Island Avenue.

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4 New two-track infrastructure north of 30th Street Station and continuing to the east of the
Schuylkill River. The infrastructure follows I-76 on the east side.
4 The existing NEC shifts in North Philadelphia beginning east of the North Philadelphia Rail Station
and ending just west of the Bridesburg Rail Station. The segment would be shifted in tunnel or
trench approximately 1,800 feet at the widest point from its current location.
4 The existing NEC shifts in the Torresdale section of Philadelphia beginning near Holmesburg Rail
Station and Pennypack Creek and ending west of the Bucks County border. The shift is
approximately 300 feet from its current location.

Figure 4-15:

Alternative 2 (Existing NEC and New Segment through Philadelphia)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

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 4. Alternatives Considered

4.7.3.4

New Jersey

4 New, two-track infrastructure in central and northern New Jersey, beginning in North Brunswick,
Middlesex County and continuing generally at-grade or on embankment adjacent to the existing
NEC through central Middlesex County. The segment is in tunnel under the Raritan River through
New Brunswick and Highland Park, and short tunnel segments near Metuchen in Middlesex
County, Elizabeth in Union County, and Newark in Essex County. The new segment reconnects
with the existing NEC in Kearney, Hudson County west of the Passaic River.
4 New third and fourth Hudson River tunnels, beginning on embankment east of Secaucus Rail
Station, adjacent to the existing NEC, continuing east in tunnel west of U.S. Routes 1 & 9, adjacent
to the existing NEC, under the New Jersey Palisades and Hudson River, terminating south of the
existing NEC and Penn Station New York, under West 31st Street (Figure 4-16).

Figure 4-16:

Alternative 2 (Existing NEC and New Segment through New York City
Metropolitan Area)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

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 4. Alternatives Considered

4.7.3.5

New York

4 New fifth and sixth East River Tunnels, beginning at Penn Station New York in Midtown
Manhattan, and continuing east under the East River south of the existing NEC through
Woodside, Queens. The tunnels rise to an aerial structure, connecting with the Hell Gate Viaduct
in Astoria, Queens (Figure 4-16).
4 The existing NEC in Bronx County, near I-895 and I-95, shifts approximately 500 feet at the widest
point from its current location on the east side of the Bronx River.
4 The existing NEC shifts approximately 300 feet at the widest point from its current location in
Bronx County, near Pelham Bay Park. The improvement includes a new crossing over the
Hutchinson River (Pelham Bay).
4 The existing NEC shifts approximately 150 feet at its widest point from its current location near
New Rochelle rail Station.
4 New, two-track infrastructure, beginning west of the New Rochelle Rail Station and continuing
at-grade or on embankment parallel to the existing NEC to Rye in eastern Westchester County,
into Fairfield County, CT.

4.7.3.6

Connecticut

4 New, two-track infrastructure, continuing from Westchester County, NY, through coastal Fairfield
County, parallel to I-95 typically on embankment or aerial structure through Greenwich,
Stamford, and Norwalk; terminating in Westport west of Green’s Farms Rail Station.
4 Alternative 2 diverges from the existing NEC at New Haven, and continues inland on new
infrastructure to Providence, RI, via Hartford, CT. Beginning in New Haven, CT, Alternative 2
continues north at-grade or embankment, crossing I-91 and the Quinnipiac River through North
Haven. The new segment continues at-grade or on embankment north, parallel to I-91 through
Wallingford and Meriden entering Hartford County near U.S. Route 5, continuing north through
New Britain and Newington. In New Britain, Alternative 2 shifts east toward the City of Hartford,
entering downtown Hartford in tunnel and continuing east in tunnel under the Connecticut River
to East Hartford. The new segment continues east into Tolland County, shifting northeast, usually
in tunnel or embankment, south of Storrs into Windham County, crossing into central Providence
County, RI.

4.7.3.7

Rhode Island

4 New, two-track infrastructure continues east from Windham County, CT, through rural western
Providence County, usually on embankment. The infrastructure continues in tunnel beginning
east of I-295, under the city of Providence, intersecting with the existing NEC at Providence rail
station. The new segment continues in tunnel under the Seekonk River into East Providence and
comes to grade in Rumford, east of the Ten Mile River, where the infrastructure continues atgrade north before entering Bristol County, MA.

Tier 1 Draft EIS

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 4. Alternatives Considered

4.7.3.8

Massachusetts

4 New, two-track infrastructure continues north from Providence County, RI, reconnecting with the
existing NEC near Ten Mile River at-grade in Bristol County.
4 New, two-track infrastructure, beginning north of Canton Junction Rail Station continuing north
and reconnecting with the existing NEC near Route 128 Rail Station in Dedham.

4.7.4 Alternative 3
The following describes the Representative Route of Alternative 3, highlighting the location of the
second spine relative to the existing NEC, environmental features, metropolitan areas, and major
passenger rail stations.
Alternative 3 is organized into three segments with routing options in two of the three segments as
described in Section 4.4.3, providing the FRA with the flexibility to analyze options that would serve
various intermediate markets north of New York should the FRA select Alternative 3 as the Preferred
Alternative. Section 4.7.2 describes improvements to the existing NEC under Alternative 3. Only the
second spine separate from the existing NEC is described below. Section 4.7.1 describes the
Representative Route for the existing NEC.

4.7.4.1

Washington, D.C., to New York City

Washington, D.C.
Alternative 3 connects with existing NEC Intercity and Regional rail services at Washington Union
Station in Washington, D.C., and exits Washington Union Station in tunnel adjacent to the existing
NEC. The alternative emerges from tunnel east of Bladensburg Road, NE and continues northeast on
embankment through the National Arboretum, crossing the Anacostia River into Prince George’s
County, MD.

Maryland
Alternative 3 continues at-grade or on embankment, through suburban Prince George’s County
before crossing the Patuxent River and Patuxent Research Refuge into Anne Arundel County,
continuing at-grade or on embankment northeast through Maryland, shifting approximately
1,000 feet from the existing NEC for short distances near Odenton and BWI Rail Stations. North of
BWI Rail Station, Alternative 3 is adjacent to the existing NEC, crossing the Patapsco River on an aerial
structure, returning to at-grade or on embankment through Patapsco Valley State Park into Baltimore
County. Alternative 3 continues adjacent to the existing NEC and U.S. Route 1 (Figure 4-17) into
Baltimore City where it shifts east of the existing NEC in tunnel through downtown Baltimore and
north of the Inner Harbor. The alternative continues at-grade near I-895 on the west side of
Baltimore, continuing in the same general northeast direction, but not adjacent to, the existing NEC
through Rossville and White Marsh in suburban Baltimore County. Alternative 3 continues northeast,
parallel to U.S. Route 40 through Edgewood and Riverside in Harford County before shifting closer to
the existing NEC near Aberdeen Proving Ground and Aberdeen Station in northern Harford County.
Alternative 3 crosses the Susquehanna River on an aerial structure parallel to the existing NEC into
Cecil County, where it shifts away from the existing NEC near Perryville and continues parallel to U.S.

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 4. Alternatives Considered

Route 40 through rural Cecil County and into New Castle County, DE, north of the West Branch of the
Christina River.

Figure 4-17:

Alternative 3 (Existing NEC and New Segments through Baltimore)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

Delaware
Alternative 3 continues northeast into Delaware, adjacent to the existing NEC between Newark and
Wilmington, typically at-grade or on an aerial structure. The alternative shifts approximately one-mile
south of the existing NEC near Wilmington Station, where it crosses the Christina and Brandywine
Rivers on an aerial structure through an industrial section of the city. Alternative 3 continues north
adjacent to the existing NEC east of I-495, and the Delaware River and Fox Point Park in Edgemoor,
and continues north, adjacent to the existing NEC into Pennsylvania.

Pennsylvania
Alternative 3 continues north, adjacent to the existing NEC in southern Delaware County to Chester,
where the alternative shifts three-miles south of the existing NEC in tunnel under the Philadelphia
International Airport, where a new station would be built under the airport. The alternative continues
in tunnel under the Schuylkill River, Philadelphia Navy Yard, and Center City section of Philadelphia
near Market Street Station (Figure 4-18). Alternative 3 is at-grade or on embankment adjacent to the

Tier 1 Draft EIS

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existing NEC east of Frankford Creek through northeast Philadelphia, crossing Poquessing Creek on
an aerial structure into Bucks County. Alternative 3 continues adjacent to the existing NEC through
Cornwells Heights, Bristol, and Morrisville before crossing the Delaware River into Mercer County,
NJ.

Figure 4-18:

Alternative 3 (Existing NEC and New Segments through Philadelphia)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed July 2015

New Jersey
Alternative 3 is typically at-grade or on embankment adjacent to the existing NEC from Trenton
Station north through rural sections of northern Mercer County and southern Middlesex County. The
alternative is in tunnel under the Raritan River through New Brunswick. Proceeding north, the route
shifts from the existing NEC and is in short tunnel segments near Metuchen in Middlesex County,
Elizabeth in Union County, and Newark in Essex County. Alternative 3 is above grade across
Hackensack River, shifting south of the existing NEC in tunnel east of the Hackensack River and
continuing through Jersey City, Union City, and Hoboken in Hudson County.

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 4. Alternatives Considered

New York
Alternative 3 includes six tracks under the Hudson River: two existing tunnels (North River Tunnels),
two new tracks in one or two tunnels as described in Alternative 1, and two new tracks in one or two
tunnels in Alternative 3 (Figure 4-19). The alternative continues in tunnel east under Midtown
Manhattan entering Penn Station New York.

Figure 4-19:

Alternative 3 (Existing NEC and New Segments through New York City
Metropolitan Area)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed February 2015

4.7.4.2

New York City to Hartford

New York (via Central Connecticut)
East of Penn Station New York, the six-track configuration for Alternative 3 continues east under the
East River (four existing East River tunnels and two new tracks in one or two tunnels under the East
River), and continues in tunnel south of the existing NEC through Woodside Queens, where the two

Tier 1 Draft EIS

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tracks rise to connect with the Hell Gate Viaduct in Astoria. At Third Avenue, two tracks in one or two
tunnels split from the six-track railroad headed east, continuing north along the east side of
Manhattan in tunnel(s) under the East River, Wards Island, and Randall’s Island, continuing at-grade
near the Bruckner and Sheridan Expressways in Bronx County at which point the two new tracks join
and continue parallel to the existing NEC, generally at-grade or on embankment through Pelham Bay
Park, entering Westchester County along the Long Island Sound.
In Mamaroneck, Westchester County, Alternative 3 veers north of the existing NEC near Mamaroneck
Avenue and continues north primarily in tunnel or aerial structure through Scarsdale and White
Plains, where the new White Plains East station is proposed. Alternative 3 continues northwest,
adjacent to Westchester County Airport in Harrison, crossing into Connecticut for a short distance
before reentering Westchester County and continuing north through northern Westchester County
and southern Putnam County parallel to I-684 in tunnel, on embankment or aerial structure.
Alternative 3 crosses the Connecticut state line again north of I-84.

Connecticut (via Central Connecticut)
Alternative 3 is in tunnel parallel to I-84, through northern Fairfield County to north of Danbury. The
alternative crosses the Housatonic River via aerial structure into New Haven County and continues
east in tunnel south of Waterbury. Alternative 3 crosses into Hartford County near I-691 and I-84 and
continues northeast in tunnel to New Britain in the same general direction as I-84. In New Britain,
Alternative 3 shifts north toward Hartford, entering downtown Hartford in tunnel.

New York City (via Long Island)
Alternative 3 continues east in six tracks under the East River (four existing East River tunnels and
two new tracks in one or two tunnels under the East River), and continues in tunnel south of the
existing NEC through Woodside Queens. At Woodside, the Representative Route splits into two; one
segment rising to connect with the Hell Gate Viaduct in Astoria Queens. The other segment continues
as Alternative 3, diverging south in one or two tunnels and continues south and east through Queens
County, near the LIRR Montauk Branch. Alternative 3 continues on aerial structure or embankment
east from I-678 to Floral Park in Nassau County, east of the Cross Island Parkway. The alternative
shifts in tunnel south adjacent to the LIRR Hempstead Branch, continuing east in trench through
Garden City. Alternative 3 continues in trench east parallel to Stewart Avenue, through Eisenhower
Park and the village of Levittown. The alternative continues in trench east, reconnecting with the LIRR
Main Line in Farmingdale, and continues east, crossing in the Suffolk County, adjacent to the Main
Line through Wyandanch, Brentwood, and Ronkonkoma. Alternative 3 shifts north near Long Island
MacArthur Airport, crossing I-495 in tunnel and continuing typically on embankment or aerial
structure north to Stony Brook. Alternative 3 transitions to trench and then into tunnel near Port
Jefferson where the alternative continues across the Long Island Sound in tunnel, emerging in New
Haven County, Connecticut.

Connecticut (via Long Island)
At New Haven Rail Station, Alternative 3 travels north, inland between New Haven and Hartford, CT,
on new infrastructure. Alternative 3 continues north at-grade or embankment, crossing I-91 and the
Quinnipiac River through North Haven. Alternative 3 continues north, at-grade or on embankment,

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 4. Alternatives Considered

parallel to I-91 through Wallingford and Meriden entering Hartford County near U.S. Route 5. The
alternative continues north through New Britain and Newington. In New Britain, Alternative 3 shifts
east toward the city of Hartford, entering downtown Hartford in tunnel.

4.7.4.3

Hartford to Boston

Connecticut (via Providence)
Alternative 3 continues east in tunnel in downtown Hartford under the Connecticut River to East
Hartford. The alternative continues east into Tolland County, shifting northeast, usually in tunnel or
on embankment, continuing south of Storrs in to Windham County, and crossing the Rhode Island
state line in central Providence County.

Rhode Island (via Providence)
New, two-track infrastructure continues east from Windham County, CT, through rural western
Providence County, usually on embankment. The infrastructure continues in tunnel beginning east of
I-295, under the city of Providence, intersecting with the existing NEC at Providence Rail Station.
Alternative 3 continues in tunnel under the Seekonk River into East Providence and comes to grade
in Rumford, east of the Ten Mile River, where the infrastructure continues at-grade north before
entering Bristol County, MA. (Figure 4-20)

Massachusetts (via Providence)
Alternative 3 continues north through Bristol County, usually at-grade, shifting adjacent to the
existing NEC south of Attleboro Rail Station. Alternative 3 continues parallel to the existing NEC,
usually at-grade or on embankment, deviating near Forest Hills, before it reaches its eastern terminus
in Boston near Fort Point Channel.

Connecticut (via Worcester)
Alternative 3 via Worcester from downtown Hartford is in trench through East Hartford, east of the
Connecticut River. The alternative diverges north near Long Hill Road, continuing in a northwest
direction parallel to I-84 through Tolland and Windham Counties entering Massachusetts in
Worcester County.

Massachusetts (via Worcester)
Alternative 3 continues north, parallel to I-84, before veering east near I-90 in Sturbridge. The
alternative continues east, parallel to I-90 (Figure 4-21), consisting of a mix of construction types
through Charlton and Oxford, keeping north of I-90 and west of I-290.

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Figure 4-20:

Alternative 3 (Existing NEC and New Segments through Providence)

Source: NEC FUTURE team, 2015
Background Image Source: Microsoft Bing Maps, Accessed February 2015

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Figure 4-21:

Alternative 3 (Existing NEC and New Segments though Boston)

Source: NEC FUTURE, 2015
Background Image Source: Microsoft Bing Maps, Accessed February 2015

Refer to Appendix A, Mapping Atlas (Part 2) for a depiction of the Representative Route, by
construction type, for each Action Alternatives.

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4.8

COST

The FRA estimated capital and O&M costs for the No Action and Action Alternatives to better
understand the associated costs of constructing, operating, and maintaining each Action Alternative
relative to the amount of travel benefits each would provide. Section 4.3 provides the No Action
Alternative capital cost estimating methodology and capital cost estimate. Cost estimates are highlevel, order-of-magnitude estimates, based on a set of reasonable assumptions related to railroad
infrastructure, equipment, service plans, and fare policies. The FRA will use the capital and O&M cost
estimates to evaluate the No Action and Action Alternatives (see Chapter 9, Evaluation of
Alternatives).

4.8.1 Capital Costs
The FRA based the capital cost estimates for the Action Alternatives on infrastructure element
quantities. Key elements include stations, shops, and lengths of infrastructure by construction type
(e.g., tunnel, aerial, embankment), and rail systems. The FRA based vehicle costs on fleet
requirements for the representative service plans and assumed vehicle performance specifications
(e.g., speed, seating capacity and configuration, amenities). Rolling stock requirements were
estimated for Intercity rail service only. Capital cost estimates include storage and maintenance
facilities used for Intercity rail operations. Capital costs for these yards are non-site specific, and do
not include acquisition costs for yard right-of-way.
Capital cost estimates are summarized for infrastructure, rolling stock and No Action Alternative
projects or programs, as described in Section 4.3. Action Alternative costs include only No Action
Alternative Categories 1 and 2 (defined in Section 4.3). No Action Alternative Category 3 costs are
eliminated in the Action Alternatives because they include the capital cost to replace or rehabilitate
obsolete assets. (Appendix B, Capital Costs Technical Memorandum, details the methodology used to
estimate capital costs.)
Table 4-13 presents the estimated costs of the Action Alternatives. Capital costs for Alternatives 1
and 2 represent a range based on low to high allocated contingency rates 33. An average capital cost
estimate for the four Alternative 3 route options is presented as a range of lowest to highest values
across all options. Table 4-14 presents a breakdown of capital costs for the individual Alternative 3
route options.

33

The low allocated contingency rate is based on typical historical project values. The high allocated contingency is
50 percent greater than the low allocated contingency rates to reflect unknown risk

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Table 4-13:

Capital Costs – Action Alternatives ($2014 billions)

Category
Infrastructure
Vehicles

Subtotal
No Action Alternative Projects
Total

Alternative 1 (range)
$52–54
$3
$54–$57
$9
$64–$66

Alternative 2 (range)
$116–$121
$5
$122–$127
$9
$131–$136

Alternative 3 (range)
$252–$293
$6
$257–$299
$9
$267–$308

Source: NEC FUTURE team, 2015
Notes: Infrastructure costs include professional services; costs do not include property acquisition costs for yards or stations.

Table 4-14:

Capital Costs – Alternative 3 Route Options ($2014 billions) (end-to-end costs)

Category
Infrastructure
Vehicles

Subtotal
No Action Alternative Projects
Total

Central
Connecticut/
via Providence
$267–$279
$6
$273–$285
$9
$283–$294

Long Island/
via Providence
$252–$262
$6
$257–$268
$9
$267–$277

Long Island/
via Worcester
$265–$276
$6
$271–$281
$9
$280–$291

Central
Connecticut/
via Worcester
$281–$293
$6
$286–$299
$9
$296–$308

Source: NEC FUTURE team, 2015
Notes: Infrastructure costs include professional services; costs do not include property acquisition costs for yards or stations.

4.8.2 Operations and Maintenance (O&M) Costs
The FRA estimated NEC FUTURE O&M costs based on existing Intercity and Regional railroad
operating costs for typical cost categories such as labor (e.g., train and maintenance crews), power
and fuel, and management and administrative costs. The FRA developed the O&M cost estimates for
the Action Alternatives through an iterative process, balancing operating costs with ridership and
revenues. This process included cycles of review and validation and determining how the changes in
service and operations, resulting from an Action Alternative, would require adjustments to estimated
future costs since some services would be different than what is operated today. For Intercity
services, the FRA assessed service plans to determine if operating revenues were likely to exceed
operating costs. Table 4-15 and Table 4-16 present the O&M cost estimates for Intercity services only.
(Appendix B, Operations & Maintenance Cost Technical Memorandum, details the O&M cost
methodology.)

Table 4-15:

Annual Intercity O&M Costs and Revenues by Alternative ($2014 millions)

Revenue
Cost
Operating Profit (Loss)

No Action
Alternative
$1,895
$920
$970

Alternative 1
$2,065
$1,220
$840

Alternative 2
$2,525
$1,850
$680

Alternative 3
(average)
$2,740
$2,165
$570

Source: NEC FUTURE, 2015
Note: Numbers may not add due to rounding.

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 4. Alternatives Considered

Table 4-16:

Annual Intercity O&M Costs and Revenues – Alternative 3 ($2014 millions)

Revenue
Cost
Operating Profit (Loss)

Central
Connecticut/
via Providence
$2,685
$2,245
$445

Long Island/
via Providence
$2,765
$2,175
$590

Long Island/
via Worcester
$2,805
$2,150
$660

Central
Connecticut/
via Worcester
$2,695
$2,105
$590

Source: NEC FUTURE, 2015
Note: Numbers may not add due to rounding.

The No Action Alternative did not undergo this iterative balancing process due to the expectation
that its service plan will continue current service levels and fares on the NEC as a baseline. Fares per
passenger are therefore higher in the No Action Alternative than in each of the Action Alternatives.
The significant expansion in total intercity seats offered in the Action Alternatives allows an intercity
operator to generate substantial revenue through higher passenger volumes at lower per-passenger
costs. The No Action Alternative may also incur additional operating costs due to the higher risk of
unplanned service disruptions resulting from infrastructure that is not in a state of good repair, or
due to increased costs caused by operating in a highly constrained environment with many
chokepoints that limit operational flexibility and the ability to recover from service issues.

4.9

PRESENTATION OF ALTERNATIVES ANALYSIS

The FRA analyzes the No Action and Action Alternatives presented in this chapter in subsequent
chapters of this Tier 1 Draft EIS.
The FRA defined each Action Alternative as an end-to-end routing with associated service plans,
infrastructure requirements, and costs, at a level of detail consistent with the programmatic nature
of the decisions to be made through this Tier 1 Draft EIS.
While the FRA analyzed and considered the Action Alternatives in the context of corridor-wide
benefits and consequences, it also evaluated the Action Alternatives in the context of varying regional
and/or local needs, perspectives, and estimated demand for services. This layered approach builds in
flexibility to customize the elements of a preferred investment program from across the full range of
Action Alternative elements considered. Depending on the qualities or requirements of each subject
area, analyses are organized around the following perspectives:
4 As a corridor-wide investment program
4 As a geographic grouping within the corridor (South, Central, North)
4 Within an individual state or Washington, D.C.
4 Within or between metropolitan areas
4 Between existing and new stations

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Following from this layered structure, the analyses and findings presented in Chapters 5 through 9 of
the Tier 1 Draft EIS are organized around one or more of these five perspectives, depending on the
resource-specific requirements.
4 Chapter 5, Transportation Effects, analyzes the effects the No Action Alternative and Action
Alternatives have on the multimodal transportation network. The FRA presents changes in travel
mode, volume, and accessibility around station areas (among other data) within metropolitan
areas (e.g., trips within the Greater Philadelphia Area) and between metropolitan areas (e.g.,
vehicle-miles traveled reduction between Washington, D.C., and New York City). The analysis
allows effects to be compared at local and regional levels.
4 Chapter 6, Economic Effects and Growth, and Indirect Effects, provides an analysis of the effects
the No Action Alternative and Action Alternatives have within the Study Area, as they relate to
direct and indirect economic growth. The FRA presents employment data, induced growth, and
travel cost savings (among other data) from multiple geographic perspectives. The FRA presents
employment effects on capital spending corridor-wide. Induced growth at select stations is
presented by region: South, Central, and North. The FRA presents the effects of the No Action
Alternative and Action Alternatives on travel cost savings by metropolitan area.
4 Chapter 7, Affected Environment, Environmental Consequences, and Mitigation Strategies,
presents potential benefits and consequences of the Action Alternatives on built and natural
resources. The FRA organizes the presentation of the analysis by state, or resource-specific
geographies where those are more relevant (e.g., coastal zones).
4 Chapter 8, Construction Effects, analyzes the potential construction activities associated with the
Action Alternatives. Construction effects described in this Tier 1 Draft EIS are qualitative,
representative of each Action Alternative, and are presented corridor-wide.
4 Chapter 9 synthesizes the above analyses and evaluates how well the No Action Alternative and
Action Alternatives address the Purpose and Need for NEC FUTURE.
The FRA intends to select a Preferred Alternative based on the analysis of benefits and consequences
for the No Action and Action Alternatives presented in this Tier 1 Draft EIS. The Preferred Alternative
will be one that reflects stakeholder and public input, but that allows elements of all Action
Alternatives to be considered to reflect regional and local priorities. This approach to analysis,
evaluation, and presentation of findings allows the FRA to refine the Preferred Alternative using the
full range of components for the Action Alternatives considered in this Tier 1 Draft EIS. It is possible
that the Preferred Alternative may involve a re-packaging of elements of the Action Alternatives to
best meet the service needs of specific markets.
Although the Preferred Alternative will articulate a long-term vision for the role of rail on the NEC,
the timing for incrementally implementing infrastructure and service in particular markets could vary,
depending on how growth is expected to occur. Improvements required to meet rail demand in
specific NEC markets would be added only as required, all within the framework of a consistent,
comprehensive, long-term vision for a system-wide integrated passenger rail network.

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