Case 3:14-cr-00175-WHA Document 1078 Filed 07/31/19 Page 1 of 37

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JENNER & BLOCK LLP
Reid J. Schar (pro hac vice)
RSchar@jenner.com
353 N. Clark Street
Chicago, IL 60654-3456
Telephone: +1 312 222 9350
Facsimile: +1 312 527 0484

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CLARENCE DYER & COHEN LLP
Kate Dyer (Bar No. 171891)
kdyer@clarencedyer.com
899 Ellis Street
San Francisco, CA 94109-7807
Telephone: +1 415 749 1800
Facsimile: +1 415 749 1694
CRAVATH, SWAINE & MOORE LLP
Kevin J. Orsini (pro hac vice)
korsini@cravath.com
825 Eighth Avenue
New York, NY 10019
Telephone: +1 212 474 1000
Facsimile: +1 212 474 3700

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Attorneys for Defendants PACIFIC GAS AND ELECTRIC COMPANY
UNITED STATES DISTRICT COURT
NORTHERN DISTRICT OF CALIFORNIA
SAN FRANCISCO DIVISION

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Case No. 14-CR-00175-WHA
UNITED STATES OF AMERICA,

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Plaintiff,
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v.
PACIFIC GAS AND ELECTRIC
COMPANY,

PACIFIC GAS AND ELECTRIC
COMPANY’S RESPONSE TO
REQUEST FOR INFORMATION
Judge: Hon. William Alsup
Date: July 31, 2019

Defendant.

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RESPONSE TO REQUEST FOR INFORMATION
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Defendant Pacific Gas and Electric Company (“PG&E”) respectfully submits this

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memorandum in response to the Court’s July 10, 2019 Request for Offender PG&E to Supply

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Information. As required by the Request, PG&E hereby responds to each paragraph of a Wall Street

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Journal article dated July 10, 2019, bearing the headline “PG&E Knew for Years Its Lines Could

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Spark Wildfires, and Didn’t Fix Them” (the “WSJ Article”).

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PG&E has acknowledged that its transmission equipment caused the devastating November 8,

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2018 Camp Fire that killed 85 people, destroyed the Town of Paradise, and burned over 150,000 acres.

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And PG&E understands the magnitude of the challenges it faces in reducing wildfire risk and the

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responsibility it owes all Californians to address those risks. The October 2017 wildfires and the

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Camp Fire have demonstrated the new normal of significantly increased wildfire risk. PG&E

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understands that it must do more than ever before to address this new risk profile. PG&E welcomes

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input from the community to the ongoing dialogue on how PG&E can operate its electric system more

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safely at this time of unprecedented fire risk.

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In preparing this submission, PG&E has investigated the factual basis for each statement in the

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WSJ Article. While it has not been possible to provide exhaustive responses here given the page limit

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for this submission, PG&E hopes that these responses will contribute to an accurate and more

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complete understanding of the issues, including PG&E’s maintenance of its transmission lines in the

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years before the Camp Fire and its efforts to develop enhanced, risk-based methods for inspecting and

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maintaining its thousands of transmission line miles.

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PG&E takes this opportunity at the outset to address briefly three issues raised by the WSJ

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Article. First, since the Camp Fire, PG&E has fundamentally changed its approach in light of the new

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increased risk environment by, among other things, comprehensively inspecting its transmission,

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distribution and substation assets in elevated and extreme fire-threat areas before the 2019 fire season.

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As PG&E reported on June 19, 2019, by that time, PG&E had addressed every highest-priority

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condition on transmission structures and at substations, and 97% of all such conditions on distribution

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poles. PG&E continues to take corrective actions to address remaining conditions. These enhanced

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inspections are but one element of PG&E’s redesigned Community Wildfire Safety Program, first

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implemented in response to the October 2017 wildfires. That program also includes real-time, round-

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the-clock monitoring of wildfire risks from PG&E’s Wildfire Safety Operations Center; proactively

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de-energizing power lines when high winds and dry conditions, combined with a heightened fire risk,

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are forecasted; enhanced vegetation management work focusing on high-risk trees that pose the most

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wildfire risk; disabling automatic reclosing of circuit breakers and reclosers in high fire-risk areas

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during wildfire season; and system hardening efforts that include installing stronger and more

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fire-resilient poles and covered power lines, as well as targeted undergrounding.

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Second, PG&E welcomes the growing public focus on the acute problem of aging transmission
infrastructure. In its filings with the Federal Energy Regulatory Commission (“FERC”), PG&E has

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sought and continues to seek authorization to set the rates it charges for electric transmission services

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at levels sufficient to support, among other things, replacement of aging equipment over time. When

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PG&E files its transmission revenue requirement requests with FERC, the other participants in those

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proceedings, including the California Public Utilities Commission (“CPUC”), PG&E’s wholesale

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transmission customers, and FERC Trial Staff review the filings while also conducting discovery

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related to PG&E’s requests. In the past, those participants have questioned PG&E’s proposed level of

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spending on transmission assets. For example, in a 2017 ratemaking proceeding, the CPUC stated,

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“While the CPUC recognizes that repair and replacement are necessary components of a utility’s

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operation, the amount that PG&E has been spending on what appears primarily to be replacement of

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transmission facilities is staggering and potentially unjustified.” (Ex. A, Initial Br. of the CPUC,

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Pacific Gas and Electric Co., Dkt. No. ER16-2320-002 (Mar. 15, 2018) at 8.) The CPUC also stated

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there was reason to believe that PG&E was “‘gold plating’ the system” and “unreasonably burden[ing]

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ratepayers with unnecessary costs.” (Id. at 2-3.) This ratemaking process has resulted in settlements

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at amounts less than what PG&E initially requested. Going forward, PG&E hopes to work with all

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relevant stakeholders to re-calibrate the level of investment in transmission asset replacement that will

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be supported in light of the unprecedented wildfire risk California is now facing.

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Third, PG&E strongly disagrees with the WSJ Article’s suggestion that PG&E knew of the
specific maintenance conditions that caused the Camp Fire and nonetheless deferred work that would

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have addressed those conditions. The article’s implication that PG&E delayed planned maintenance

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that could have averted the Camp Fire is based primarily on certain non-routine work PG&E was

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planning for the Caribou-Palermo 115 kV Transmission Line in response to an October 7, 2010 North

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American Electric Reliability Corporation (“NERC”) Recommendation to Industry (the “NERC

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Alert”). The purpose of that work was not to identify and fix worn or broken parts, such as the hook

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on the transmission tower that failed and caused the Camp Fire to ignite. Rather, the purpose of that

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work was to address the clearance between transmission line conductors and from transmission line

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conductors to the ground. The NERC work on the Caribou-Palermo line was just one of hundreds of

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projects within PG&E’s broader effort to respond to the NERC Alert. To date, PG&E has addressed

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more than 10,000 conductor clearance issues (out of the approximately 11,500 total), at a cost of over

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$750 million. PG&E provides regular updates on its progress to regulators.

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Critically, the WSJ Article fails to mention that the tower identified as the origin point of the

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Camp Fire—Tower :27/222—was not one of the towers slated for replacement under the NERC Alert

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program. In short, the NERC Alert work had nothing to do with the Camp Fire.

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PARAGRAPH 1 OF WALL STREET JOURNAL ARTICLE:

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PG&E Corp. knew for years that hundreds of miles of high-voltage power lines could
fail and spark fires, yet it repeatedly failed to perform the necessary upgrades.
RESPONSE TO PARAGRAPH 1:

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PG&E admits that it has long known that the approximately 18,000 miles of overhead high-

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voltage power lines in its transmission system, like all energized lines, have the potential to fail and

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ignite fires.

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Historically, though, equipment failures on PG&E’s high-voltage transmission lines have

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accounted for a small percentage of ignitions as compared to distribution lines. Based on ignition data

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for the 2014-2017 period that PG&E has reported to the CPUC, equipment failure on high-voltage

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lines operating at 115 kV or above was identified as the underlying cause of only 7 of the 1,552

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ignitions attributed to PG&E assets (less than 1% of all ignitions reported in that period). (See PG&E

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Fire Incident Data 2014-2018, available at

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https://www.cpuc.ca.gov/uploadedFiles/CPUCWebsite/Content/News_Room/NewsUpdates/2019/PG

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E_Fire%20Incident%20Data%202014-2018.pdf.) The reasons for the comparatively low number of

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ignitions attributed to PG&E’s high-voltage transmission lines are varied. Such lines typically use

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steel structures rather than wood poles, have higher conductor-to-ground clearances than distribution

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lines, and are situated on managed rights-of-way that are cleared of trees.

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By contrast, in the years preceding the Camp Fire, PG&E monitored data showing that a major

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driver of ignitions caused by its equipment was vegetation contact with distribution lines. During the

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2014-2017 period, PG&E reported 426 ignitions where vegetation came into contact with distribution

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assets, comprising approximately 27% of all ignitions reported in that period. (Id.) Some of the most

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devastating wildfires, including, for example, the Butte Fire, conformed to that pattern. As a result,

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PG&E focused earlier wildfire mitigation efforts on its distribution system—and vegetation

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management in particular.

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PG&E denies the generalized assertion that it repeatedly failed to perform the necessary

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upgrades to prevent failures on its transmission lines. The suggestion that PG&E has ignored

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investment in its transmission lines is inaccurate. Across its transmission system as a whole, PG&E’s

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actual spending on expense work related to its transmission lines, including routine maintenance,

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ranged from $140 million to $294 million per year from 2008 to 2018, with a general upward trend

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over that period. PG&E’s actual capital expenditures on transmission assets grew by an average of

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7.35% each year from 2007 to 2018, trending upwards from $655 million in 2008 to approximately

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$1.29 billion in 2018. PG&E spent the following amounts to upgrade its transmission system from

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2006 to 2018:

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approximately $1.5 billion on projects to increase transmission system capacity to serve
customer demand (including system rearrangements, new transmission lines, and line reconductoring);

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approximately $1.34 billion on “line preventative work,” which supports the replacement
of overhead conductors and devices on transmission structures on over 18,000 transmission
line miles operating at voltages from 60 kV to 500 kV. The primary reason for
replacement is to address the effects of aging;

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approximately $438 million to replace transmission wood poles, steel poles, and steel
towers at the end of their useful lives;

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approximately $108 million on projects to maintain access to transmission line
rights-of-way; and

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approximately $290 million on emergency response work that includes replacing damaged
line-related equipment that has resulted in an outage or is a high priority for safety reasons.

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PARAGRAPH 2 OF WALL STREET JOURNAL ARTICLE:
Documents obtained by The Wall Street Journal under the Freedom of Information Act
and in connection with a regulatory dispute over PG&E’s spending on its electrical grid
show that the company has long been aware that parts of its 18,500-mile transmission
system have reached the end of their useful lives.
RESPONSE TO PARAGRAPH 2:

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PG&E admits reporting in its regulatory filings that parts of its transmission system had

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reached or were reaching the end of their useful lives. PG&E’s publicly available filings also describe

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its efforts to replace parts of its transmission system at or near the end of useful life that cannot be

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repaired. As an example, in 2018, PG&E provided FERC with information on its “Tower

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Replacement Program . . . established to manage the replacement of steel structures that have reached

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the end of their useful lives . . . where repair is either less cost effective or not feasible.” (See Ex. B,

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PGE-0003 (D. Gabbard Direct Testimony), Pacific Gas and Electric, Dkt. No. ER19-13-0000 (Oct. 1,

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2018) at 12:1-6.)

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PARAGRAPH 3 OF WALL STREET JOURNAL ARTICLE:
The failure last year of a century-old transmission line that sparked a wildfire, killed 85
people and destroyed the town of Paradise wasn’t an aberration, the documents show.
A year earlier, PG&E executives conceded to a state lawyer that the company needed
to process many projects, all at once, to prevent system failures—a problem they said
could be likened to a “pig in the python.”

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RESPONSE TO PARAGRAPH 3:

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PG&E acknowledges that the failure of a component on a nearly 100-year-old PG&E

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transmission tower caused the Camp Fire. The component that failed was a steel suspension hook

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known as a C-hook.

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PG&E disagrees with the assertion that this failure “wasn’t an aberration.” As stated in

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PG&E’s response to Paragraph 1, wildfire ignitions as a result of equipment failure on high-voltage

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transmission lines are relatively uncommon. (See also 2018 Annual Availability Report, available at

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http://www.caiso.com/Documents/PG-E-TransmissionAvailabilityReport.pdf (“Electric transmission

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(ET) wire down events typically account for between 1% and 2% of all T&D wire down events each

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year.”).)

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PG&E acknowledges that in connection with a FERC revenue requirement request, PG&E

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Senior Director David Gabbard gave written and oral testimony about projected replacement

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schedules for PG&E transmission infrastructure constructed in the early 1900s and in the years

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following World War II. Specifically, Mr. Gabbard explained in written testimony that “[a]

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significant part of PG&E’s transmission infrastructure was constructed in the years following World

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War II, with some assets being even older” and that “[d]ue to an increasingly large number of these

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assets nearing the end of their useful service lives, capital investment will shift significantly, from

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capacity increase-related projects, to lifecycle replacement projects.” (Ex. C, Prepared Rebuttal Test.

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of D. Gabbard, Pacific Gas and Electric Co., Dkt. No. ER16-2320-002 (Oct. 9, 2017) at 7:3-18.)
PG&E clarifies that it was not PG&E executives who initially likened the problem of aging

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transmission equipment due for replacement at approximately the same time “to a ‘pig in the python.’”

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That analogy was suggested by a CPUC attorney during cross-examination of Mr. Gabbard in a

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January 2018 regulatory rate proceeding. The relevant portion of the hearing transcript is set forth

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below:

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“Q. Yes. What years are you talking about when you say that
PG&E’s—a significant part of PG&E’s transmission infrastructure was
constructed in the years following World War II?
“A. Referencing a broad era of time in the ‘50s and ‘60s. That’s
referencing a large portion of our assets, but we have a significant
portion of our 115 kV assets that were built as early as in the 1920s time
frame and earlier.
“Q. This is what I described in your deposition as the pig and the
python problem. There were a lot of assets built at the same time during
this World War II period, in the ‘50s and ‘60s and that these assets will

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potentially need to be replaced around the same time. Is that an accurate
description of the problem?
“A. Yes.” (Ex. D, Hr’g Tr. (D. Gabbard Test.), Pacific Gas and
Electric Co., Dkt. No. ER16-2320-002 (Jan. 23, 2018) at 1341:251342:14.)
PARAGRAPH 4 OF WALL STREET JOURNAL ARTICLE:
Even before November’s deadly fire, the documents show, the company knew that 49
of the steel towers that carry the electrical line that failed needed to be replaced
entirely.
RESPONSE TO PARAGRAPH 4:
PG&E acknowledges that, prior to November 2018, it had identified approximately 60 towers

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for replacement on the Caribou-Palermo 115 kV Transmission Line. Tower :27/222, the tower

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identified as the origin point of the Camp Fire, was not one of the towers slated for replacement.

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The towers were identified for replacement in connection with PG&E’s response to the NERC

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Alert. The industry-wide NERC Alert required PG&E and other electric utilities across the nation to

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identify areas in their transmission system where conductors may be too close to the ground or to each

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other, or have the potential to sag too close to the ground under extreme temperatures. In response to

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the NERC Alert, PG&E identified thousands of towers on hundreds of lines throughout its

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transmission system—including the Caribou-Palermo line—that required work to increase the vertical

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clearance of conductors. To address vertical conductor clearance issues, PG&E typically installs

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extensions on towers to make them taller or raises the height of the wires by tightening or “re-

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tensioning” them. Tower replacements are typically done when PG&E determines that other

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mitigations are not feasible.

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For the Caribou-Palermo towers identified for replacement, PG&E determined that those

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towers should be replaced because the design of the towers made them unsuitable for tower extensions

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to raise the height of the towers, as explained in greater detail in PG&E’s response to Paragraph 24.

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Again, none of these towers slated for replacement was the tower at which the Camp Fire originated.

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PARAGRAPH 5 OF WALL STREET JOURNAL ARTICLE:
In a 2017 internal presentation, the large San Francisco-based utility estimated that its
transmission towers were an average of 68 years old. Their mean life expectancy was
65 years. The oldest steel towers were 108 years old.

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RESPONSE TO PARAGRAPH 5:

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PG&E admits that a slide in an internal PG&E presentation titled “Electric Overhead Steel

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Structure Strategy Overview”, dated June 2017, contains the figures referenced in the WSJ Article.

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(See Ex. E, Electric Overhead Steel Structure Strategy Overview (June 2017) at 7.) As noted on the

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same slide, the life expectancy and age estimates referenced in the June 2017 presentation are based

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on a section of a May 2010 “Transmission Line Component Management Report” prepared at

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PG&E’s request by Quanta Technology (the “Quanta Study”).

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However, the Quanta Study notes that the life expectancy estimates in the study (on which the

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figures in the June 2017 presentation are based) do not refer to the point at which “complete failure of

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a structure” is anticipated. (Ex. F, Quanta Study, “Structures” Chapter, at 37.) Rather, they are

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averages “based on the ages of failed components as found in maintenance records from 2004-2009”,

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with “failure” referring to the point at which a component “requir[es] significant maintenance or

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replacement”. (Id. (emphasis added).) The conditions that qualified as “failures” for the purposes of

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the Quanta Study included slack guy wires, earth-covered anchors, cracked foundations and bent steel,

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all of which can be addressed through maintenance work and typically do not require replacement of

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the entire structure. Moreover, the Quanta Study specifically notes that “[t]here are many structures

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100 years old that have not failed or, more likely, have had component replacement o[r] significant

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maintenance prior to the period of this data set” and that “[l]attice steel structures installed in the

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1920s in the US utility industry remain in service in many locations.” (Id. at 20, 38.)

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The same slide referenced in the WSJ Article also notes that the life expectancy for towers

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varies substantially depending on the surrounding environment. The slide states that the “max” life

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expectancy for towers in “coastal” environments is 80 years, while the “max” life expectancy for

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towers in “valley” environments is “100+ years.” (Ex. E, Electric Overhead Steel Structure Strategy

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Overview (June 2017) at 7.) These variable estimates are consistent with the Quanta Study, which

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found that the failure rates for towers in “coastal regions” are “significantly higher” than the failure

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rates for structures “in the valley and mountain regions,” principally because coastal environments are

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more corrosive than mountain and valley regions. (Ex. F, Quanta Study, “Structures” Chapter, at 46,

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49.) Tower :27/222 on the Caribou-Palermo 115 kV Transmission Line is located in a mountain

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region.

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In the years leading up to the Camp Fire, PG&E was implementing a Tower Replacement

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Program to replace certain towers that it determined to be at heightened risk of failure. Consistent

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with Quanta’s recommendations, and as noted in the June 2017 presentation, towers in coastal

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environments that were subject to corrosion (and thus at greater risk of failure) were higher priorities

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for replacement under that program. (See Ex. E, Electric Overhead Steel Structure Strategy Overview

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(June 2017) at 4, 15.) Specifically, PG&E focused on towers in the San Francisco Bay area due to

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their direct exposure to saltwater from the bay. (See id.) Over the medium to long term, PG&E’s

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Tower Replacement Program called for replacement of additional towers in valley and mountain areas

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according to a data-driven, risk-weighted prioritization.

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PARAGRAPH 6 OF WALL STREET JOURNAL ARTICLE:
PG&E, which supplies electricity and natural gas to 16 million people, or about one in
20 Americans, operates one of the oldest long-distance electrical transmission networks
in the world. It was built beginning in the early 1900s to carry hydroelectric power
from the Sierra Nevada to the San Francisco Bay Area. Many of its original steel
towers and other equipment are still in service.

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RESPONSE TO PARAGRAPH 6:

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PG&E is not in a position to comment on the age of transmission systems other than its own,

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but acknowledges that portions of its transmission system have been in operation since the early

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1900s. PG&E admits that many of its original steel towers and other equipment are still in service.

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PARAGRAPH 7 OF WALL STREET JOURNAL ARTICLE:
The danger posed by PG&E’s neglect of its transmission lines increased around 2013,
when a historic drought dried up much of California, creating extraordinary fire
conditions. In its 2017 internal presentation, the company said it needed a plan to
replace towers and better manage lines to prevent “structure failure resulting [in]
conductor on ground causing fire.”

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RESPONSE TO PARAGRAPH 7:

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PG&E admits that the June 2017 internal presentation titled “Electric Transmission Overhead

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Steel Structure Strategy Overview” outlined a series of PG&E’s safety, reliability and environmental

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objectives for overhead steel transmission lines, including “[e]nsur[ing] the environment is protected

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from structure failure resulting [in] conductor on ground causing fire.” (Ex. E, Electric Overhead

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Steel Structure Strategy Overview (June 2017) at 3.) PG&E admits that short-term goals listed in that

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same internal presentation included “[d]evelop[ing] a steel structure replacement plan,” managing data

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associated with steel structures, and “[e]valuat[ing] the effectiveness of [PG&E’s existing] design,

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maintenance and inspection program and mak[ing] necessary recommendations for improvement.”

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(Id. at 4.)

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PG&E denies that it has “neglect[ed]” its transmission lines. PG&E had programs in place

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before the Camp Fire to inspect, maintain, repair and replace transmission equipment, as well as to

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manage vegetation in the vicinity of its transmission lines. PG&E has enhanced those programs since

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the Camp Fire.

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It is true that environmental changes have fundamentally altered wildfire risk in the State of

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California, including, in particular, PG&E’s service territory in recent years. The combined effects of

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record drought and heat, unprecedented tree mortality, and extreme wind events have greatly

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exacerbated the risk and destructiveness of California wildfires.

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PARAGRAPH 8 OF WALL STREET JOURNAL ARTICLE:
Nevertheless, PG&E repeatedly delayed upgrades of some of its oldest transmission
lines, ranking them as low-risk projects, while it spent billions of dollars on other work
it considered higher priority, such as substation upgrades, according to federal
regulatory filings.
RESPONSE TO PARAGRAPH 8:
PG&E denies the statement that it “repeatedly delayed upgrades of some of its oldest

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transmission lines, ranking them as low-risk projects,” as an oversimplification and misrepresentation

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of PG&E’s process for prioritizing repair and replacement of its transmission asset base. PG&E

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adheres to a maintenance program under which it determines repair and replacement priorities for

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transmission assets based on a variety of factors. Among the factors that PG&E considers beyond

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asset age are public and employee safety, system criticality, customer impact, asset health,

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maintenance records, inspection history, and operational considerations. (Ex. G, PGE-0037, Prepared

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Rebuttal Test. of K. Dasso, Pacific Gas and Electric Co., Dkt. No. ER16-2320-002 (Oct. 9, 2017)

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at 13.) While PG&E—like all utilities—has to make decisions about how to prioritize work, it has

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done so based upon a multi-factored analysis that it has disclosed to its regulators.

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PARAGRAPH 9 OF WALL STREET JOURNAL ARTICLE:

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Among the problems, the utility has struggled to figure out which of its lines needed
the most attention.
RESPONSE TO PARAGRAPH 9:
PG&E denies the generalized assertion that it “has struggled to figure out which of its lines

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needed the most attention.” To identify and prioritize assets for repair and replacement, PG&E uses

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data from multiple sources, including PG&E’s Systems, Applications and Products (“SAP”) database,

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which stores inspection and maintenance records for transmission assets; the Electric Transmission

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Geographic Information System, which stores known information about asset location, age,

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manufacturer, ratings, configuration and type; and PG&E’s outage information database. While

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PG&E strives to collect and maintain comprehensive information on the condition of its transmission

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assets, the availability and quality of such data varies for a number of reasons, including PG&E’s

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acquisition over time of smaller utilities that did not keep reliable asset age data. Currently, PG&E is

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evaluating how to leverage the improved asset condition information provided by its recent enhanced

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inspections.

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The asset condition data available to PG&E are used as inputs to PG&E’s Risk-Informed

5

Budget Allocation (“RIBA”) process. In 2014, PG&E adopted that methodology for prioritizing

6

projects, including asset replacements, based on consideration of a project’s impact on safety,

7

reliability and the environment. Other prioritization considerations include any mandatory work

8

commitments, compliance requirements, external commitments and the interrelationship among

9

projects.

10

13

PARAGRAPH 10 OF WALL STREET JOURNAL ARTICLE:
Until recently, PG&E hadn’t regularly climbed its towers to inspect their condition,
despite the suggestion of an outside consultant it hired, according to interviews with
current and former company officials and documents filed in connection with a
spending dispute between PG&E and state regulators. It began detailed inspections of
its transmission lines only after the Camp Fire that destroyed Paradise.

14

RESPONSE TO PARAGRAPH 10:

11
12

15

PG&E admits that its policies did not require routine climbing inspections of transmission

16

lines below 500 kV before the Camp Fire. Even before the Camp Fire, however, PG&E’s policies did

17

require climbing inspections on its 500 kV lines at intervals of every three years for “critical steel

18

structures” and every 12 years for “non-critical steel structures”. In addition, PG&E’s policy called

19

for conducting climbing inspections on all transmission lines, including 115 kV lines, in response to

20

specific “triggering” events such as component defects identified by inspection, component failure,

21

fire hazards and suspected vegetation clearance issues. And, in the months before the Camp Fire,

22

PG&E performed non-routine climbing inspections of approximately 80 structures on the Caribou-

23

Palermo 115 kV Transmission Line (not including Tower :27/222) as part of an effort to assess the

24

condition of aging transmission lines.

25

PG&E denies that it “began detailed inspections of its transmission lines only after the Camp

26

Fire that destroyed Paradise.” Prior to the Camp Fire, PG&E policy called for detailed ground

27

inspections of overhead transmission lines between 60 and 230 kV at least every five years, as well as

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aerial patrols of such lines every year in which a detailed inspection was not performed. In addition to

2

inspecting and patrolling every transmission line mile on a routine basis, PG&E policy called for

3

infrared (“IR”) inspections every five years for all transmission assets and as triggered by specific

4

events.

5

PG&E has significantly enhanced its inspection efforts in Tier 2 and Tier 3 High Fire-Threat

6

Districts since the Camp Fire. As PG&E has publicly disclosed, those efforts have identified

7

thousands of conditions requiring repairs on PG&E’s system that had not been previously identified.

8

PARAGRAPH 11 OF WALL STREET JOURNAL ARTICLE:

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21
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24

In addition to those inspections, PG&E said it began using drones and helicopters
earlier this year to capture images of its transmission structures to analyze their
condition, identify potential points of failure and prioritize repairs.
RESPONSE TO PARAGRAPH 11:
PG&E admits Paragraph 11.
PARAGRAPH 12 OF WALL STREET JOURNAL ARTICLE:
State fire officials concluded in May that a failure of PG&E equipment on a line known
as the Caribou-Palermo, built in 1921, caused the fire, the deadliest in California
history.
RESPONSE TO PARAGRAPH 12:
PG&E admits Paragraph 12.
PARAGRAPH 13 OF WALL STREET JOURNAL ARTICLE:
Federal and state regulators have paid little attention to the condition of PG&E’s
transmission system, and have largely left it up to the company to decide what to
upgrade and when. California officials are proposing adding more inspections and
oversight.
RESPONSE TO PARAGRAPH 13:
PG&E has no specific knowledge of any plans that California officials may be contemplating
regarding inspection or oversight of utilities.

25

PG&E disagrees with the assertion that “[f]ederal and state regulators have paid little attention

26

to the condition of PG&E’s transmission system” and “have largely left it up to the company to decide

27

what to upgrade and when.” PG&E’s transmission system is governed by federal and state regulations

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and a regulatory oversight regime. For example, CPUC General Order 95 (“GO 95”) imposes

2

requirements to which utilities like PG&E must adhere in constructing and maintaining overhead

3

power lines, including transmission lines. Those requirements apply to, among other things, the

4

vertical clearance of transmission line conductors (Section III, Rule 38), vegetation management

5

around transmission lines (Section III, Rule 35), and the requisite strength of materials used on electric

6

transmission systems, including on steel transmission towers (Section IV, Rule 48).

7

The CPUC enforces compliance with the foregoing standards through regular audits of

8

PG&E’s transmission facilities. CPUC staff may review PG&E’s inspection and maintenance records

9

at any time on 30 days’ notice. See Public Utilities Code § 314(a); GO 165 § IV; GO 95, Section I,

10

Rule 18(A)(1). Since 2010, the CPUC has elected to review PG&E’s inspection and maintenance

11

records and visit PG&E transmission facilities at least five times.

12

PG&E’s transmission system is also subject to oversight by the California Independent System

13

Operator (“CAISO”). CAISO, which was created by California state law and approved by FERC as a

14

FERC-jurisdictional Independent System Operator, coordinates transmission activities among its state

15

utility members, including PG&E, to help ensure the safe and reliable operation of the broader electric

16

grid. Each utility with facilities under CAISO’s operational control, including PG&E, must submit

17

detailed information regarding its maintenance practices to CAISO through filing a Transmission

18

Owner Maintenance Plan (“TOMP”), and also to the Western Electric Coordinating Council

19

(“WECC”) through filing a Transmission Maintenance Inspection Plan (“TMIP”). Each such utility is

20

also required to review those plans annually and is responsible for notifying CAISO and WECC of

21

any changes to its plans. (May 21, 2007 ISO Memorandum; WECC Standard FAC 501.) Further,

22

under FERC Order Number 890, CAISO also reviews certain proposed transmission projects by each

23

Transmission Owner, such as proposed system capacity upgrades, as part of an overall transmission

24

planning process.

25

Each year, CAISO also randomly selects up to 10% of PG&E’s transmission facilities and

26

station facilities (e.g., substations and switching stations) for review. (See ISO Maintenance Review

27

Transmission Maintenance Procedure No. 4 § 4.1.2.)

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Moreover, as described above, PG&E’s proposed spending on its transmission system is

2

subject to review by federal and state regulators through the process surrounding PG&E’s annual

3

transmission owner filings with FERC. Such filings set forth PG&E’s spending plans for its

4

transmission system and request FERC authorization of proposed rates that PG&E seeks to charge for

5

its electric transmission services. Far from “le[aving] it up to [PG&E] to decide what to upgrade and

6

when,” as the WSJ Article claims, the CPUC has intervened in those proceedings to challenge

7

PG&E’s requests for rate increases. Indeed, much of the testimony by PG&E employees cited in the

8

WSJ Article was given in rate case proceedings where the CPUC disputed PG&E’s explanation that

9

required upgrades to its infrastructure justified its proposed rate increase. (See Ex. A, Initial Br. of the

10

CPUC, Pacific Gas and Electric Co., Dkt. No. ER16-2320-002 (Mar. 15, 2018) at 2-3.)

11

PARAGRAPH 14 OF WALL STREET JOURNAL ARTICLE:

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13
14
15
16

Utilities across the U.S. have neglected to maintain older high-voltage lines, many built
to support booming population growth in the decades before and after World War II,
said Gregory Reed, director of the Energy GRID Institute at the University of
Pittsburgh.
RESPONSE TO PARAGRAPH 14:
PG&E is not in a position to comment on whether the WSJ Article accurately paraphrased

17

Mr. Reed or presented his paraphrased statements in the context of his complete remarks.

18

PARAGRAPH 15 OF WALL STREET JOURNAL ARTICLE:

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20
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22
23

“We have known for a long time that we are dealing with aging and antiquated
infrastructure,” he said. “In a lot of cases, the business model was to wait for a failure
and then respond.”
RESPONSE TO PARAGRAPH 15:
PG&E is not in a position to comment on whether the WSJ Article accurately quoted Mr. Reed
or presented his statements in the context of his complete remarks.

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PARAGRAPH 16 OF WALL STREET JOURNAL ARTICLE:
PG&E sought bankruptcy protection in January, citing more than $30 billion in
potential liability stemming from lawsuits and other claims related to its role in
sparking fires. The company in December began “enhanced inspections” that included
climbing towers, some for the first time in decades.
RESPONSE TO PARAGRAPH 16:
PG&E acknowledges seeking bankruptcy protection in January 2019 and, in doing so, having
cited potential liabilities with respect to the October 2017 wildfires and 2018 Camp Fire.
PG&E admits the second sentence in Paragraph 16. PG&E’s enhanced wildfire mitigation
efforts have been described extensively in prior filings. (See, e.g., Dkt No. 976 at 47-50.)
PARAGRAPH 17 OF WALL STREET JOURNAL ARTICLE:
After completing those inspections, the company disclosed June 19 that it needs to
make thousands of repairs. And it decided to permanently shut down the CaribouPalermo line after assessing the amount of work it would take to operate it safely.
RESPONSE TO PARAGRAPH 17:
PG&E admits that, as a result of recently concluded Wildfire Safety Inspection Program

15

(“WSIP”) inspections of the bulk of its transmission, distribution and substation assets in Tier 2 and

16

Tier 3 High Fire-Threat Districts, PG&E identified thousands of conditions requiring corrective

17

action. As PG&E reported on June 19, 2019, by that time, PG&E had addressed all highest-priority

18

conditions associated with its transmission and substation facilities, and all but 3% of the highest-

19

priority distribution conditions.

20
21

PG&E also admits that it has decided to de-energize the Caribou-Palermo 115 kV
Transmission Line permanently.

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24
25
26
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PARAGRAPH 18 OF WALL STREET JOURNAL ARTICLE:
PG&E said it already has repaired or made spot fixes to the most severe problems it
uncovered throughout its system. Risks remain, and the company said it is working to
prioritize and address them as wildfire season progresses.
RESPONSE TO PARAGRAPH 18:
PG&E admits Paragraph 18. As PG&E reported on June 19, 2019, by that time, PG&E had

6

addressed every highest-priority condition on transmission structures and at substations, and 97% of

7

all such conditions on distribution poles. PG&E continues to take corrective actions to address

8

remaining conditions. PG&E is aware of the continuing inherent risk of operating an electrical system

9

in a high fire-threat environment and is committed to doing everything it can to minimize that risk.

10
11
12
13
14
15
16
17
18
19
20

PARAGRAPH 19 OF WALL STREET JOURNAL ARTICLE:
“The reality is the number of safety risks that we’ve found from our standpoint is
unacceptable,” said Sumeet Singh, vice president of the company’s community wildfire
safety program.
RESPONSE TO PARAGRAPH 19:
PG&E admits Paragraph 19.
PARAGRAPH 20 OF WALL STREET JOURNAL ARTICLE:
Elizaveta Malashenko, the safety and enforcement chief for the California Public
Utilities Commission, said that after reviewing the inspection results, she “would not be
comfortable making a statement that [the Caribou-Palermo] was an outlier.”
RESPONSE TO PARAGRAPH 20:
PG&E is not in a position to comment on whether the WSJ Article accurately quoted
Ms. Malashenko or presented her quoted statement in the context of her complete remarks.

21
22
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PARAGRAPH 21 OF WALL STREET JOURNAL ARTICLE:
Ms. Malashenko said the CPUC’s safety auditors have historically relied on utility
records rather than field inspections, which are far more costly to conduct. After the
Camp Fire, the agency has asked the state for $25 million to create a three-year
program to put its own inspectors in the field, in part because of the problems PG&E
has discovered within its system.
RESPONSE TO PARAGRAPH 21:
PG&E is not in a position to comment on whether the WSJ Article accurately paraphrased

7

Ms. Malashenko or presented her paraphrased statements in context. PG&E has no specific

8

knowledge of whether the CPUC has made any non-public requests to the State of California,

9

including the request referenced in Paragraph 21, or to whom any such requests were made, nor does

10

PG&E know the cost of CPUC field inspections relative to audits of records.

11

PARAGRAPH 22 OF WALL STREET JOURNAL ARTICLE:

12
13

“No matter how you look at it, PG&E has a lot of work to do,” she said.
RESPONSE TO PARAGRAPH 22:

14

PG&E is not in a position to comment on whether the WSJ Article accurately quoted

15

Ms. Malashenko or presented her quoted statement in the context of her complete remarks. PG&E

16

does not dispute that it has “a lot of work to do” to address the current, unprecedented level of risk of

17

wildfire in its service territory, including the work described extensively in PG&E’s prior filings with

18

this Court.

19

PARAGRAPH 23 OF WALL STREET JOURNAL ARTICLE:

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21
22
23
24
25

The part of PG&E’s grid that includes the Caribou-Palermo line, known as the
Caribou-Valona system, is so old that segments were considered candidates for the
National Register of Historic Places at one point by federal agencies. Approximately
800 of the original steel towers built to hold up the transmission lines are still in use,
according to PG&E correspondence with federal officials, uncovered through a publicrecords request.
RESPONSE TO PARAGRAPH 23:
PG&E admits that federal agencies considered parts of the Caribou-Valona system, including

26

the section of the Caribou-Palermo 115 kV Transmission Line from the Caribou Powerhouse to the

27

Big Bend Switching Station, for inclusion on the National Register of Historic Places (“NRHP”). In

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response to PG&E’s request for authorization to perform NERC work on the Caribou-Palermo line,

2

the United States Forest Service (“USFS”) took the position that the Caribou-Big Bend section of the

3

line is historically significant and should be included on the NRHP “for its association with key

4

historical events and trends in the development of long-distance hydroelectric transmission lines in

5

California.” (Ex. H, Ltr. from J. Bird, Forest Supervisor, USFS, to J. Polanco, State Historic

6

Preservation Officer (Mar. 13, 2019) at 2.) Based on that finding and the California State Historic

7

Preservation Officer’s concurrence, PG&E understood that the National Historic Preservation Act

8

required additional measures to accommodate the line’s eligibility for historic status before PG&E

9

could proceed with the proposed work.

10

PG&E admits that more than 800 original towers on the historical Caribou-Valona

11

transmission network, which includes the Caribou-Palermo 115 kV Transmission Line and ten other

12

lines, are still in place. As noted above, following the Camp Fire, the Caribou-Palermo 115 kV

13

Transmission Line has been permanently de-energized.

14

PARAGRAPH 24 OF WALL STREET JOURNAL ARTICLE:

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16
17
18

PG&E delayed safety work on the Caribou-Palermo line for more than five years, the
Journal reported in February. The company needed to replace 49 steel towers “due to
age,” and hardware and aluminum line on 57 towers “due to age and integrity,”
according to memos PG&E officials sent in 2017 and early 2018 to the U.S. Forest
Service, whose territory the line crosses. The Journal learned the scope of the work,
which hasn’t previously been reported, through a Freedom of Information Act request
to federal forest managers.

19
20
21

RESPONSE TO PARAGRAPH 24:
PG&E admits that the completion date for NERC Alert-related work on the Caribou-Palermo

22

115 kV Transmission Line to address vertical conductor clearance issues was delayed due to a variety

23

of reasons, including engineering, operational and permitting reasons. As stated above, PG&E

24

identified approximately 60 towers on the Caribou-Palermo line for replacement in response to the

25

NERC Alert. The purpose of the work was to increase the vertical clearance of conductors. It was not

26

to identify and repair or replace worn or broken parts. Tower :27/222, which initiated the Camp Fire,

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was not included within the scope of the project because the conductor clearance on that span was

2

determined to be compliant with applicable regulations for vertical clearance.

3

PG&E denies that “the company needed to replace 49 steel towers” on the Caribou-Palermo

4

115 kV Transmission Line because of their age and no other reason. Age, in and of itself, was not the

5

reason PG&E decided to replace the towers. Rather, the older design of the towers made them

6

unsuitable for other methods for increasing the vertical clearance of the conductors, such as adding

7

extensions to raise the height of the towers. As the 2018 Forest Service memorandum states:

8

11

“Tower replacements are planned due to age and type of the existing steel lattice
towers. The existing towers are approximately 100 years old and are directly buried
grillage with no concrete foundations. The towers are not considered structurally
suited to the addition of lattice steel cage top, waist cage, or other extensions to raise
the heights of the towers.” (Ex. I, Memorandum Regarding PG&E NERC Program
(Jan. 3, 2018) at 2 (emphasis added).)

12

Similarly, PG&E also denies that it was planning to replace conductor segments due to age and

9
10

13

integrity and no other reason. The conductor was scheduled to be replaced as a consequence of the

14

planned installation of taller replacement towers. As the 2018 Forest Service memorandum states, the

15

conductor on certain spans needed to be replaced because it did “not have adequate strength to

16

withstand the increased tension resulting from installing taller replacement structures.” (Id. at 5.)

17

PG&E is not in a position to comment on whether the Wall Street Journal obtained the

18

referenced memoranda through a Freedom of Information Act request.

19

22

PARAGRAPH 25 OF WALL STREET JOURNAL ARTICLE:
PG&E has delayed maintenance work on several lines in Northern California’s highestthreat fire areas, including at least one near the Plumas National Forest, federal
documents show. The company hasn’t detailed the scope of the work needed for each
line, but it has disclosed that some require upgrades similar to those needed on the
Caribou-Palermo line it stopped using.

23

RESPONSE TO PARAGRAPH 25:

20
21

24

PG&E understands Paragraph 25 to refer to NERC Alert-related work. As stated above, the

25

purpose of that work was not to identify and fix worn or broken parts, but rather to address issues

26

related to the clearance (ground-to-wire or wire-to-wire) of conductors.

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PG&E acknowledges that the planning, timing and completion date for specific NERC Alert

2

projects has changed for a variety of reasons, including prioritization of work across the system and

3

engineering, permitting and operational reasons. Overall, PG&E has made significant progress toward

4

addressing NERC Alert work across its system, and has provided regular updates on its progress to

5

WECC. Specifically, PG&E has addressed more than 10,000 conductor clearance issues out of the

6

approximately 11,500 identified for work as part of that program (approximately 88%) along hundreds

7

of circuits, at a cost of over $750 million.

8
9

PG&E has completed all NERC mitigation work on 7 of the 11 in-service transmission lines in
the vicinity of Plumas National Forest on which PG&E identified conductor clearance issues,

10

addressing a total of approximately 120 identified clearance issues on those lines. PG&E has some

11

outstanding NERC mitigation work on three in-service transmission lines in the vicinity of Plumas

12

National Forest. On those three lines, PG&E has thus far addressed all but approximately five of the

13

identified clearance issues.

14

PARAGRAPH 26 OF WALL STREET JOURNAL ARTICLE:

15
16
17
18
19

The deferred maintenance became a problem when drought this decade killed millions
of trees, greatly heightening the risk of wildfire throughout Northern California State
fire officials concluded that the company’s equipment sparked 18 wildfires in 2017, in
most cases because trees made contact with lower-voltage lines.
RESPONSE TO PARAGRAPH 26:
PG&E denies that it has “deferred maintenance” on its transmission lines and refers to its

20

response to Paragraph 1. PG&E admits Paragraph 26 with respect to the heightened risk of wildfire

21

resulting from drought and tree mortality and refers to its response to Paragraph 7. PG&E further

22

admits that CAL FIRE has concluded that PG&E electrical equipment caused 18 wildfires in 2017, the

23

majority of which CAL FIRE has attributed to trees coming into contact with distribution lines.

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PARAGRAPH 27 OF WALL STREET JOURNAL ARTICLE:
In response, the company doubled down on tree trimming. The Camp Fire forced
PG&E to turn its attention to higher-voltage lines, which typically run through wide
paths cleared of trees.
RESPONSE TO PARAGRAPH 27:
PG&E admits that it enhanced its tree trimming and vegetation management work on

6

distribution lines in response to the October 2017 wildfires. PG&E further admits that its transmission

7

lines typically run through managed rights-of-way cleared of trees. As PG&E has described at length

8

in this and other filings, PG&E significantly enhanced its wildfire mitigation efforts, including with

9

respect to transmission facilities, following the Camp Fire.

10
11
12
13
14
15

PARAGRAPH 28 OF WALL STREET JOURNAL ARTICLE:
Documents show that PG&E is unaware of the exact age of many of its transmission
towers and wires. In 2010, PG&E commissioned consulting firm Quanta Technology,
a subsidiary of Quanta Services Inc., to assess the age and condition of transmission
structures throughout its 70,000-square-mile service area.
RESPONSE TO PARAGRAPH 28:
PG&E admits that it is not always able to determine the exact age of towers and wires on its

16

transmission lines, including lines that it has acquired from other companies over the course of more

17

than 100 years, and that PG&E commissioned Quanta Technology to assess the age and condition of

18

transmission structures (as well as other transmission components and assets) throughout its service

19

territory.

20

PARAGRAPH 29 OF WALL STREET JOURNAL ARTICLE:

21
22
23
24
25

The firm was unable to determine the age of about 6,900 towers in the 115-kilovolt
system. It found that nearly 30% of the remaining towers in that system, more than
3,500, were installed in the 1900s and 1910s. About 60% of the structures in the 230kilovolt system were built between 1920 and 1950.
RESPONSE TO PARAGRAPH 29:
PG&E admits Paragraph 29 and refers to its response to Paragraph 28. PG&E further notes

26

Quanta Technology’s observation that “[l]attice steel structures installed in the 1920s in the US utility

27

industry remain in service in many locations” and that transmission tower age data from six utilities,

28
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including PG&E, “demonstrate[d] that structures remain in service in the utility industry well into

2

seven or eight decades, even longer in some cases.” (Ex. F, Quanta Study, “Structures” Chapter,

3

at 20-21.)

4

PARAGRAPH 30 OF WALL STREET JOURNAL ARTICLE:

5
6
7
8
9

It is common practice for utilities to use laser imaging equipment to inspect towers
instead of having workers climb them. Because PG&E had so many old towers,
Quanta concluded that the company should consider climbing at least a sample of them
every three to five years.
RESPONSE TO PARAGRAPH 30:
PG&E admits that Light Detection and Ranging (“LiDAR”) laser imaging technology is

10

commonly used by utilities, including PG&E, to inspect transmission towers and detect vegetation

11

encroachment on transmission rights-of-way. PG&E has not used LiDAR technology as a substitute

12

for climbing inspections. Even before the Camp Fire, PG&E performed routine ground inspections

13

with binoculars and aerial patrols of its transmission lines at regular intervals. As discussed in its

14

response to Paragraph 10, PG&E’s policies called for routine climbing inspections of towers on

15

500 kV transmission lines and non-routine climbing inspections of towers on all transmission lines in

16

in response to specific triggering events.

17

PG&E admits that the 2010 Quanta Study states that “[a]n effective strategy for structure and

18

foundation management would include elements such as . . . [c]omprehensive climbing inspection at

19

3-5 year intervals.” (Ex. F, Quanta Study, “Structures” Chapter, at 48.) The same sentence in that

20

study recommends several other “elements” that were and continue to be a part of PG&E’s asset

21

management and maintenance programs, including “[r]outine visual inspections by ground and aerial

22

patrol as part of general line inspection process,” “[r]ecoating or painting at intervals determined by

23

the degradation of the coating thickness,” and “[l]aboratory testing of components removed from

24

service as part of repair or replacement work to determine overall condition and remaining strength of

25

material,” among others. (Id. at 48-49.)

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PARAGRAPH 31 OF WALL STREET JOURNAL ARTICLE:
PG&E didn’t implement that recommendation, said Placido J. Martinez, a former
PG&E head of strategic asset management. “We felt we were doing enough,” he said.
RESPONSE TO PARAGRAPH 31:
PG&E understands that Mr. Martinez told the Wall Street Journal that he could not recall the

6

2010 Quanta Study or its recommendations, but that he felt PG&E was doing enough with regard to its

7

transmission inspection practices.

8
9

PG&E admits that its policies prior to the Camp Fire did not require routine climbing
inspections of transmission lines below 500 kV. PG&E’s policies did require, for all transmission

10

lines, climbing inspections in response to specific triggering events.

11

PARAGRAPH 32 OF WALL STREET JOURNAL ARTICLE:

12
13
14
15

Regulators have little say over such transmission-maintenance planning. Although
PG&E files transmission-spending plans with the Federal Energy Regulatory
Commission, the agency’s jurisdiction is over rates and terms of service. If state
officials or electric companies that rely on PG&E’s wires want to challenge the utility’s
spending, it is up to them to parse the annual federal filings, which often exceed 1,500
pages. Projects that involve routine maintenance, such as replacing aging towers,
hardware and conductors, don’t require state or federal approval.

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17
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RESPONSE TO PARAGRAPH 32:
PG&E denies that “[r]egulators have little say over . . . transmission-maintenance planning”

19

and the implication that FERC’s jurisdiction is limited to “rates and terms of service.” FERC is

20

responsible for approving and enforcing reliability standards for the bulk-power system, which

21

includes components of PG&E’s transmission system. See 16 U.S.C. § 824o. These reliability

22

standards include standards governing vegetation management and transmission maintenance

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planning, see FAC003-4; FAC-501-WECC2, and are enforceable by civil penalties of up to $1 million

24

per day per violation. 16 U.S.C. § 825o-1. Additionally, the Federal Power Act requires that the rates

25

electric utilities charge for the transmission or sale of electric energy be “just and reasonable,” and

26

confers authority on FERC to make such determinations. 16 U.S.C. § 824d. FERC has substantial

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influence over PG&E’s transmission maintenance planning because the rates it authorizes will

2

ultimately determine the extent to which PG&E can recover the costs of planned capital and

3

maintenance work on its transmission lines and, thus, the proportion of that work that is economically

4

sustainable for PG&E to perform.

5

Under that regulatory framework for cost recovery, PG&E is required to provide detailed

6

information on proposed spending in its transmission revenue requirement filings. PG&E provides

7

that information because that is what FERC and federal law require. See 18 C.F.R. § 35.1 (requiring

8

utilities to file “full and complete rate schedules and tariffs . . . clearly and specifically setting forth all

9

rates and charges for any transmission or sale of electric energy subject to the jurisdiction of this

10

Commission,” as well as “the classifications, practices, rules and regulations affecting such rates”).

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Federal regulations further require that PG&E provide significant data in support of requested rate

12

increases, including comparative information about past rates, detailed cost of service information,

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“work papers” that provide “a comprehensive explanation of the bases for the adjustments or

14

estimates,” and supporting testimony and exhibits. See 18 C.F.R. § 35.13.

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PG&E also disagrees with the overbroad statement that “[p]rojects that involve routine

16

maintenance, such as replacing aging towers, hardware and conductors, don’t require state or federal

17

approval.” While specific types of routine maintenance such as component replacement may not

18

require such approval, projects that involve replacement of entire transmission towers, taking lines out

19

of service, or performing work on federal land may require coordination with and, in certain

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circumstances, approval by state and federal regulators, including the CPUC, CAISO and USFS.

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PARAGRAPH 33 OF WALL STREET JOURNAL ARTICLE:

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California regulators have hundreds of pages of rules for many aspects of utility
operations. Their rules for transmission are three sentences long. They simply say that
each utility must come up with its own procedures and follow them.
RESPONSE TO PARAGRAPH 33:
PG&E denies Paragraph 33. PG&E understands the statement that “California regulators’ . . .

26

rules for transmission are three sentences long” to be a reference to Part IV of CPUC General Order

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165 (“GO 165”). That Part, titled “Transmission Facilities”, provides as follows:

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“Each utility shall prepare and follow procedures for conducting inspections and
maintenance activities for transmission lines. Each utility shall maintain records of
inspection and maintenance activities. Commission staff shall be permitted to inspect
records and procedures consistent with Public Utilities Code Section 314 (a).”

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While that specific provision in GO 165 is brief, there exist other, more detailed CPUC

5

General Orders that regulate California utilities’ transmission operations. Among those other General

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Orders is GO 95 on Rules for Overhead Electric Line Construction, which contains detailed

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requirements regarding the construction and maintenance of both transmission and distribution lines

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(Section I, Rules 12.1, 12.2); minimum safety factors and loading requirements for transmission lines

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(Section IV, Rules 43 & 44.1); material and strength requirements for towers, conductors, insulators,

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guys and anchors (Section IV, Rules 48 & 49; Section VI, Rules 61.3 & 65); vegetation management

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around transmission lines (Section III, Rule 35); and ground-to-conductor, conductor-to-conductor and

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other clearance requirements for transmission lines (Section III, Rules 37-39; Section VI, Rule 64.4).

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Other General Orders that apply to transmission lines include General Order 131-D on Planning and

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Construction of Facilities for the Generation of Electricity and Certain Electric Transmission Facilities

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and General Order 128 on Construction of Underground Electric Supply and Communication

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Systems.

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PARAGRAPH 34 OF WALL STREET JOURNAL ARTICLE:
With no regulator keeping a close eye, the timetable for completing important upgrades
slipped. PG&E told federal regulators it planned to overhaul the Caribou- Palermo line
in 2013, yet it still hadn’t made improvements when a piece of hardware holding a
high-voltage line failed last November, sending sparks into the grass and igniting the
Camp Fire.

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RESPONSE TO PARAGRAPH 34:

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19

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PG&E denies that “no regulator keep[s] a close eye” on PG&E’s transmission operations for

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the reasons described above. PG&E regularly submits filings with FERC that contain detailed

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information on planned upgrades to PG&E’s transmission lines, including expected timeframes for

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completion of work. PG&E is also accountable to other regulators, including the CPUC, which has

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intervener status in PG&E’s transmission rate cases; CAISO, which has operational control over

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PG&E’s transmission facilities; and NERC and WECC, to which PG&E submits regular reports

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regarding its progress toward bringing the vertical clearance of its transmission lines into compliance

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with GO 95 and NERC requirements.

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PG&E acknowledges that it informed FERC in 2013 of a plan to relocate certain towers on the

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Caribou-Palermo 115 kV Transmission Line. PG&E denies that such work constituted an “overhaul”

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of the line. Rather, the project called for replacing and relocating 10 towers along the line, comprising

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the approximately one-mile span from Tower :7/55 to Tower :8/64, across the river to a more easily

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accessible area near the Caribou-Table Mountain 230 kV Transmission Line. Tower :27/222, the

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tower identified as the ignition point of the Camp Fire, is many miles away from those towers and no

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work was contemplated on it as part of this tower relocation project. PG&E later determined that

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relocation of the towers was unnecessary because it could reasonably access the towers through some

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additional roadwork, and the condition of the towers could be addressed through maintenance.

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PARAGRAPH 35 OF WALL STREET JOURNAL ARTICLE:

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After the Journal reported earlier this year that the planned upgrades to that line had
been delayed, PG&E released a statement saying the work was “not maintenancerelated (i.e., work relating to identifying and fixing broken or worn parts).”
RESPONSE TO PARAGRAPH 35:
PG&E admits that the Wall Street Journal released an article dated February 27, 2019, titled

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“PG&E Delayed Safety Work on Power Line That is Prime Suspect in California Wildfire”, that

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claimed that PG&E had delayed NERC Alert work on the Caribou-Palermo 115 kV Transmission

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Line and that PG&E issued a February 27, 2019 statement responding to the allegations in the article

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and explaining that the work slated for the Caribou-Palermo line was “not maintenance-related (i.e.,

22

work relating to identifying and fixing broken or worn parts).”

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As explained in PG&E’s February 27, 2019 statement and in response to Paragraph 4 above,

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the project described in the February 27 article was part of a system-wide effort undertaken in

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response to the 2010 NERC Alert. The purpose of that project was to address ground-to-conductor

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and conductor-to-conductor clearances on transmission towers, not to identify and repair broken or

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worn parts. Tower :27/222, which initiated the Camp Fire, was not within the scope of the project

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because PG&E determined that the conductor clearance on that span was compliant with applicable

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regulations for vertical clearance.

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PARAGRAPH 36 OF WALL STREET JOURNAL ARTICLE:

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9
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Internally, however, that is how the company characterized it. In a 2017 email to
Forest Service officials, PG&E land planner Paul Marotto wrote that the company’s
“planned maintenance includes structure replacement, conductor replacement,
conductor re- tensioning, installation of new insulators and structure modifications.”
PG&E officials said the work was needed in part because the strength of the aging
towers and wires had deteriorated.
RESPONSE TO PARAGRAPH 36:
PG&E admits that in an October 18, 2017 email to USFS officials, PG&E Principal Land

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Planner Paul Marotto wrote that “PG&E’s planned maintenance includes structure replacement,

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conductor replacement, conductor re-tensioning, installation of new insulators and structure

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modifications.” (Ex. J, Email from P. Marotto (Oct. 17, 2017).) Mr. Marotto’s email further states

14

that the purpose of the work was “to mitigate NERC discrepancies (ground to wire clearances).” (Id.)

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As to the statement that “PG&E officials said the work was needed in part because the strength

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of the aging towers and wires had deteriorated”, PG&E refers to its response to Paragraph 24 above.

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PARAGRAPH 37 OF WALL STREET JOURNAL ARTICLE:

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Asked about the email, PG&E said it still disputes that the work was maintenance
related, saying it was needed to adhere to 2010 industry guidelines that called on
companies to ensure their transmission lines met design specifications.
RESPONSE TO PARAGRAPH 37:
PG&E admits that it told the Wall Street Journal that the NERC Alert work on its transmission

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lines was not for the purpose of identifying and fixing broken or worn parts, but rather to address

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issues relating to the clearance of conductors. That statement was accurate.

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PARAGRAPH 38 OF WALL STREET JOURNAL ARTICLE:
PG&E has told state regulators it has struggled to consolidate data on the condition of
its equipment. Kevin Dasso, PG&E’s vice president of electric asset management until
earlier this year, said the lack of comprehensive information made it difficult to
determine which transmission lines were approaching the point of failure.
RESPONSE TO PARAGRAPH 38:

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PG&E understands Paragraph 38 to be referring to the testimony of PG&E Vice President

7

Kevin Dasso in connection with PG&E’s eighteenth transmission rate case before FERC. PG&E

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denies that Mr. Dasso “told state regulators [PG&E] has struggled to consolidate data on the condition

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of its equipment” or that an alleged “lack of comprehensive information made it difficult to determine

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which transmission lines were approaching the point of failure.”
Instead, Mr. Dasso testified that, while data on asset condition may not be easily retrievable

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from a database for every type of asset, relevant information is nonetheless available to and accessible

13

by PG&E’s engineers, who are trained to compile that data from databases, electronic repositories and

14

hard copy documents. Relevant passages from Mr. Dasso’s testimony are set forth below:

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“Q. PG&E doesn't have all of the data on a class of assets in one place,
does it?
“A. No. That doesn't mean it’s not available and can’t be pulled
together.
“Q. How does a PG&E staff person know where to look for each piece
of data that they need in order to run the 1 to N analysis?
“A. It depends on the asset class, and each of those engineers are
familiar with the data that is available to them. They know where to
find it. They also know that not all of the data is exactly perfect.
“However, they know, as we’ve provided in responses to data requests,
the age of substation transformers, for example. That information is
available. It’s readily available. The engineers that work in that space
have that information available to them, and they use that regularly in
their criteria or in their implementation of the replacement criteria.

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“Q. A PG&E engineer, program manager who’s working on a specific
asset class will simply know where to find the data to run the 1 to N
analysis?

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“A. Yes.

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“Q. It’s not written down anywhere?

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“A. What do you mean not written down anywhere, the precise
directions to that engineer, exactly how to do that?

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“Q. A listing of where all the data is available for a particular asset
class. It’s not identified, so if that project manager gets hit by a bus,
somebody else can run the analysis? Are there no procedures in place at
PG&E to have this information shared and ensure that the analysis that
is run looks at all the data and not just selective data?
“A. In some cases, we have procedures that lay that out in some detail,
and in other cases we do not. We do not have in all cases the exact
cookbook instructions for how an engineer precisely does his job to
produce the information necessary to create the recommendations.
“However, that’s what we expect our engineers to do. They understand
the assets. They understand PG&E. They understand where the data is.
They understand how it's labeled, how it’s culled out. They also
understand where data may not be available for a particular class of
assets. PG&E is made up of many individual utilities that have been
acquired over the years.” (Ex. K, Hr’g Tr. (K. Dasso Test.), Pacific Gas
and Electric Co., Dkt. No. ER16-2320-002 (Jan. 9, 2018) at 236:6237:25.)
PARAGRAPH 39 OF WALL STREET JOURNAL ARTICLE:
In 2018, when PG&E proposed a spending plan to federal regulators for thousands of
transmission-line upgrades, it used a risk-based system to prioritize the projects.
Nearly 600 projects, with an estimated $2.7 billion cost, had a higher risk score than
Caribou-Palermo, indicating PG&E considered that work more urgent.
RESPONSE TO PARAGRAPH 39:

21

PG&E admits that it uses a risk-based methodology known as Risk-Informed Budget

22

Allocation, or RIBA, that weighs safety, reliability and environmental risks to prioritize asset

23

management projects on transmission lines.

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25

PG&E admits that in response to a March 2018 data request from the CPUC’s Legal Division,
PG&E provided data showing that 595 projects with an estimated total cost of approximately

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$2.7 billion were assigned higher RIBA scores than NERC Alert-related work on the Caribou-Big

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Bend section of the Caribou-Palermo line.

3

PARAGRAPH 40 OF WALL STREET JOURNAL ARTICLE:

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PG&E said it has improved its records in recent years by conducting inventories in the
field and has built databases to upgrade its analytical capabilities.
RESPONSE TO PARAGRAPH 40:
PG&E admits that it told the Wall Street Journal that it has taken a number of steps to improve

8

its records regarding the age and condition of its assets. That statement was accurate. PG&E

9

acknowledges it has more work to do to improve in these areas.

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PARAGRAPH 41 OF WALL STREET JOURNAL ARTICLE:
Other PG&E transmission lines at least as old as the Caribou-Palermo remain in
service. One leg of the Caribou-Valona network, known as the Ignacio-Mare Island
line, delivers power to an electric switchyard at the edge of a high-fire-risk area in
Marin County north of the Golden Gate Bridge and a now-closed naval shipyard. At
least 28 of the towers on the line have been in place since 1921, according to a
company inventory.
RESPONSE TO PARAGRAPH 41:
PG&E admits Paragraph 41 and notes that no structure on either of the two Ignacio-Mare

17

Island 115 kV Transmission Lines is situated in a Tier 2 or Tier 3 High Fire-Threat District. As

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discussed in its response to Paragraph 42, much of the circuit runs through wetlands.

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PARAGRAPH 42 OF WALL STREET JOURNAL ARTICLE:

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PG&E has repeatedly delayed work on the line, which has segments sagging too close
to the ground, since first proposing it in 2014, federal regulatory filings show. The
$6.9 million project, which involves increasing the height of 44 towers, was initially
expected to be completed in 2015 but now is slated to start next year, the company said.
RESPONSE TO PARAGRAPH 42:
PG&E understands Paragraph 42 to be referring to NERC Alert work on the Ignacio-Mare

25

Island 115 kV Transmission Lines. The planned NERC mitigations for PG&E transmission lines will

26

address vertical conductor clearance issues on 185 towers through a combination of tower

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modifications and replacements and conductor replacements. PG&E admits that since work on the

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line was first proposed in 2014, it has been delayed due to engineering, operational and environmental

2

reasons, as well as the need to prioritize work on the hundreds of lines within the scope of PG&E’s

3

NERC Alert program. Among other issues, extensive permitting is required for this work because

4

many of the towers on the Ignacio-Mare Island 115 kV Transmission Lines run through the

5

Napa-Sonoma Marshes Wildlife Area and the San Pablo Bay National Wildlife Refuge, both sensitive

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wetland environments with endangered species. Geological studies in these environmentally sensitive

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areas that require permits are also required before engineering can continue. PG&E submitted its

8

application in June 2018 and received all approvals needed to proceed with those studies in May 2019.

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This work is currently forecasted to be completed in three phases from 2020 to 2023.

10

PG&E further notes that the $6.9 million referenced in Paragraph 42 refers to the projected

11

cost for only one of these phases as of the date of the relevant regulatory filing. The total cost for all

12

three phases combined is currently projected to be between $40 and 50 million.

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PARAGRAPH 43 OF WALL STREET JOURNAL ARTICLE:

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The company also has delayed upgrades to several 115-kilovolt lines passing through
national forests that have become California’s highest-risk fire areas, the filings
indicate. A line partly in the Plumas National Forest was slated for work this year, but
was delayed and now is on hold because of the Camp Fire investigation.
RESPONSE TO PARAGRAPH 43:

18

PG&E understands “upgrades” in this paragraph to be a reference to NERC Alert-related work

19

to raise the vertical clearance of conductors. PG&E further understands the “line partly in the Plumas

20

National Forest . . . slated for work this year” and “now . . . on hold because of the Camp Fire

21

investigation” to be the southern section of the Caribou-Palermo 115 kV Transmission Line running

22

from Big Bend Switching Station to Palermo Substation. Tower :27/222, which initiated the Camp

23

Fire, is not located on this section of the Caribou-Palermo 115 kV Transmission Line. NERC Alert-

24

related work on that section was originally scheduled to be completed in November 2018 but was

25

delayed. PG&E prioritizes projects for completion based on its Risk-Informed Budget Allocation

26

process, and provides forecasted dates in its FERC revenue requirement filings by which it expects

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each project to become operational. PG&E re-prioritizes projects for a variety of reasons, including

2

delays in obtaining necessary permits, unanticipated engineering challenges, and the need to obtain

3

clearances to perform the work, among other reasons. Shortly after the Camp Fire, PG&E suspended

4

the project in the interest of preserving potential evidence related to the Camp Fire. The entire

5

Caribou-Palermo 115 kV Transmission Line has been permanently de-energized since December

6

2018, making this work unnecessary.

7

PARAGRAPH 44 OF WALL STREET JOURNAL ARTICLE:

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A line built to carry hydroelectric power through the Eldorado and Stanislaus national
forests was scheduled for upgrades in 2016, but work isn’t expected to start until the
second half of next year. A line in the Los Padres National Forest near San Luis
Obispo was initially set for upgrades in 2015 that now are scheduled to start in 2021.
RESPONSE TO PARAGRAPH 44:
Based on the date and location information in Paragraph 44 and a prior request for comment

13

from the Wall Street Journal, PG&E understands this Paragraph to refer to work that includes

14

addressing NERC Alert-related vertical clearance issues on the 115 kV Salt Springs-Tiger Creek and

15

Temblor-San Luis Obispo transmission lines.

16

PG&E acknowledges that work to address vertical clearance issues on the Salt Springs-Tiger

17

Creek and Temblor-San Luis Obispo transmission lines has not yet started and is now scheduled for

18

completion in 2020 and 2021, respectively.

19

In the case of the Salt Springs-Tiger Creek 115 kV Transmission Line, in 2016, PG&E

20

reassessed the most effective engineering approach for mitigating the conductor clearance issues

21

identified on the line. As a result of that reassessment, PG&E adopted a new method for mitigation

22

that increased the project’s scope and required additional soil studies, for which additional permits

23

were necessary. PG&E performed borings in connection with this project in 2018, and currently

24

expects to complete the project in 2020.

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26

With respect to NERC mitigation work on the Temblor San-Luis Obispo 115 kV Transmission
Line, the project required extensive engineering analysis to determine the most effective method for

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mitigating the identified conductor clearance issues. The current operational date of 2021 was chosen

2

based on the anticipated time required to acquire a permit from the USFS to proceed with the project.

3

PARAGRAPH 45 OF WALL STREET JOURNAL ARTICLE:

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5
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7
8

PG&E acknowledged in its 2017 internal presentation that it had poor age data on the
towers in its 60-kilovolt system. The company recently targeted one leg for extensive
work after discovering that 10 towers within the Golden Gate National Recreation Area
were at high risk of failure.
RESPONSE TO PARAGRAPH 45:
PG&E admits that the June 2017 internal presentation titled “Electric Transmission Overhead

9

Steel Structure Strategy Overview,” referenced in this Paragraph as well as Paragraph 5, states that

10

PG&E has “[p]oor age data on 60 and 70 kV structures.” (Ex. E, Electric Overhead Steel Structure

11

Strategy Overview (June 2017) at 7.) PG&E’s transmission system is composed of hundreds of lines

12

that PG&E acquired over the course of a century. Many of those lines were acquired from companies

13

that did not keep records of when their towers were installed.

14

PG&E acknowledges that, in May 2019, it identified nine towers on the Ignacio-Alto-Sausalito

15

60 kV Transmission Line located within the Golden Gate National Recreation Area (“GGNRA”) in

16

critical condition and requiring replacement. A tenth tower on the line within the GGNRA was found

17

to require lower-priority safety work and will also be replaced. Pending permanent replacements,

18

PG&E is installing temporary replacement structures for towers identified for replacement within the

19

GGNRA. While work is underway on disassembling the existing towers, PG&E is monitoring the

20

towers around the clock to protect public safety.

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PARAGRAPH 46 OF WALL STREET JOURNAL ARTICLE:
A June 5 letter from PG&E said the towers are in “critical condition with noticeable
material loss and ground erosion” and require round-the-clock monitoring. The
company estimated it will take more than a year to replace towers and make permanent
repairs.
RESPONSE TO PARAGRAPH 46:
PG&E admits Paragraph 46, which refers to a letter from PG&E to the GGNRA, except
clarifies that the letter is dated June 6, 2019.

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Respectfully Submitted,

2
3

Dated: July 31, 2019

JENNER & BLOCK LLP

4

By:

5

/s/ Reid J. Schar
Reid J. Schar (pro hac vice)

6
CRAVATH, SWAINE & MOORE LLP
7

By:

8

/s/ Kevin J. Orsini
Kevin J. Orsini (pro hac vice)

9
CLARENCE DYER & COHEN LLP
10
11

By:

12

/s/ Kate Dyer
Kate Dyer (Bar No. 171891)

13
14

Attorneys for Defendant PACIFIC GAS AND
ELECTRIC COMPANY

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