November 30, 2024

FERC Rejects Mabee’s 2021 Supply Chain Complaint

FERC on Oct. 1 rejected a three-year-old complaint by security gadfly Michael Mabee requesting the commission order an audit of the electric grid looking for potentially harmful equipment manufactured in China and reliability standards requiring any new Chinese equipment to be tested for harmful capabilities (EL21-99). 

Mabee filed his complaint in August 2021, citing contemporary reports from media outlets and government officials that China had conducted “a campaign of cyberattacks” against critical U.S. infrastructure, including the energy sector. Specifically, he warned that U.S. electric utilities bought equipment made in China and installed it on the grid. 

This “could facilitate a cyberattack” by the Chinese government, Mabee asserted, particularly because — as he said — there were no requirements by the U.S. government or in NERC’s standards that entities inspect Chinese equipment for cyber risks and vulnerabilities either before or after installation. 

To address these supposed risks, Mabee requested the commission direct NERC to: 

    • survey all registered entities in the electric grid to find out “what Chinese equipment or systems” are in use; 
    • submit a proposed reliability standard for “testing and security of Chinese equipment or systems” that are in use on the bulk power system or purchased in the future; and 
    • work with state regulators to encourage adoption of the proposed standard or a state equivalent on the parts of the grid under state jurisdiction. 

NERC responded to Mabee’s complaint in 2021, arguing that FERC should deny his request on the grounds that several existing Critical Infrastructure Protection (CIP) standards already required entities to assess risks to the grid when acquiring applicable electronic systems. The ERO said that if the CIP standards identified a specific foreign nation by name, as Mabee requested, it might be harder to apply them to “other nation-states that may pose a threat.” (See “NERC Argues to Dismiss Supply Chain Complaint,” NERC Seeks FERC Approval to Fund Office Move.) 

Other commenters were more sympathetic to Mabee, FERC noted in its order. The Secure the Grid Coalition — a security-focused think tank to whose website Mabee has contributed several articles — suggested FERC conduct a technical conference, possibly in conjunction with a special task force, to “determine the potential threat posed [to the grid] by Chinese transformers and other grid control and monitoring systems.” 

The Foundation for Resilient Societies — a nonprofit aimed at “boosting critical infrastructure resilience and recoverability” — also requested that FERC, NERC and other agencies conduct an investigation into the threat posed by Chinese equipment. In addition, several individuals filed comments expressing support for Mabee’s position and urging the commission to take the threat of Chinese infiltration into the power grid seriously. 

Mabee himself has followed up his original complaint with multiple subsequent filings prodding FERC to take action. His most recent filing was this February, when he submitted data from the Census Bureau purportedly showing the U.S. imported 449 transformers of more than 10,000 kVA from China between 2006 and 2023. 

FERC Sides with NERC

FERC agreed with NERC that “the relief sought [by Mabee] is duplicative of existing reliability standards, as well as past and ongoing efforts by the commission and other federal agencies.” 

In addressing Mabee’s request for an audit of electric utilities for Chinese equipment, FERC observed that NERC can “assess the risks associated with foreign owned suppliers” through existing means such as NERC Alerts. It cited two such alerts, issued in 2019 and 2020, requesting information from registered entities on exposure to cyber risks from equipment manufactured in China, Russia and other foreign adversaries. 

FERC also sided with NERC in its defense of the CIP standards, and noted its own activities, along with other federal agencies, to address the risks posed by equipment manufactured overseas. Since Mabee’s complaint, FERC has held two technical conferences in 2021 and 2022 covering cyber risk management in the power sector and supply chain security challenges in the power grid. 

Concerns over China’s cyber prowess in recent years have focused more on its capabilities in software than in hardware. Last year Volt Typhoon, a cyber actor connected to China by the Cybersecurity and Infrastructure Security Agency and other security organizations, was accused of infiltrating U.S. critical infrastructure organizations disguised as legitimate users. 

In a congressional hearing this year, FBI Director Christopher Wray called China’s cyber posture “the defining threat of our generation” and warned that the country’s hackers were preparing “to wreak havoc and cause real-world harm to American citizens and communities.” (See China Preparing to ‘Wreak Havoc’ on US, Cyber Officials Warn.) 

OSW Industry, Advocates See Hope in NE Multistate Procurement

Even as the offshore wind industry continues to struggle, stakeholders’ hopes have been buoyed by the recent multistate procurement in New England, they said during a webinar held by the Northeast Energy and Commerce Association on Oct. 1. 

Massachusetts selected up to 2,678 MW of offshore wind capacity in early September, while Rhode Island selected 200 MW. (See Multistate Offshore Wind Solicitation Lands 2,878 MW for Mass., RI.) 

“I think Massachusetts was pretty bold in doing procurements of this size, and I think that’s going to help get offshore wind back on track,” said Ken Kimmell, chief development officer at Avangrid Renewables. 

Kimmell said he is “starting to see the ship righting itself” in the wake of the price shocks that caused a wave of project cancellations in 2023. 

Massachusetts and Connecticut are in talks for Connecticut to purchase the remaining 400 MW of the Vineyard Wind 2 project in exchange for Massachusetts purchasing some power from the Millstone nuclear plant, which currently is propped up by a contract with Connecticut. 

The rapidly increasing costs of offshore wind have caused some trepidation from New England lawmakers; the 2,678 MW selected in the multistate procurement fell significantly short of the 6,000 MW initially sought by the three states. 

While the prices for the procurement will not be announced until the contracts are filed with state utility regulators, the cost of offshore wind per megawatt-hour has roughly doubled in just a few years. 

“The last couple years have been hard for the offshore wind industry … but I think the future is bright,” said Moira Cyphers, director of Atlantic offshore and eastern state affairs at the American Clean Power Association. “This is a resource that we absolutely have to have. The climate goals and the reliability goals don’t happen without offshore wind.” 

Despite the current cost pressures, Cyphers said procuring projects at scale “is really what’s going to bring down costs over time.” 

Cyphers added that the first line of projects will shoulder costs associated with building up the domestic supply infrastructure, ports and shipping capabilities, which “future projects will then build on.” 

Kimmell echoed the need to improve the domestic supply chain and added that increasing global demand for offshore wind has exacerbated the recent cost increases. 

“Supply and demand are out of whack,” Kimmell said. “We are at a real disadvantage relying so much on European suppliers.” 

Kimmell also voiced his support for longer contracts for offshore wind resources. 

“It [would] reduce prices to ratepayers if Massachusetts were to extend the length of contracts,” Kimmell said, noting that the current generation of turbines will last “quite a bit longer than 20 years.” 

Cyphers said more flexibility regarding economic adjustment mechanisms could help improve future solicitations. 

“I think flexibility is going to become a lot more important at this stage in development,” Cyphers said, noting that Connecticut, Massachusetts and Rhode Island each took slightly different approaches to the inflation indexation options they gave to developers. Ultimately, no indexed project bids were selected. 

“I think to the extent that we can work to identify other ways to introduce flexibility, and make sure these procurements become more standardized, we’ll see more success in the future,” Cyphers said. 

Ben D’Antonio, manager of transmission strategy and economic analysis for Eversource Energy, stressed the need to develop transmission solutions to add “certainty and clarity” to the process of interconnecting offshore wind projects. 

He expressed hope that state-level efforts to reform permitting and siting procedures, coupled with FERC’s new interconnection requirements, eventually will help to speed up development timelines, which currently take about a decade for offshore wind projects. 

While developers have limited insight on where the best places to interconnect are, D’Antonio advocated for a more proactive transmission development approach. He floated the idea of charging a fixed fee for projects to interconnect so developers could “know ahead of time what it’s going to cost to interconnect.” 

“We want to try out this ‘build it and they will come’ approach,” D’Antonio added. “There’s no transition without transmission.” 

This year, FERC approved a proposal from ISO-NE and the New England states that would enable the states to make transmission investments to meet long-term needs, including needs associated with new offshore wind generation. (See FERC Approves New Pathway for New England Transmission Projects.) The six New England states also recently won a $389 million Department of Energy grant that largely will be dedicated to building substations to connect offshore wind to the grid. (See DOE Announces $2.2B in Grid Resilience, Innovation Awards.) 

Kimmell echoed D’Antonio’s comments about the need for proactive transmission planning, saying a line-by-line approach to transmission solutions makes sense for the initial projects coming online, but not for the next wave. 

“We certainly embrace the idea of shared transmission and planned transmission,” Kimmell said, advocating for the socialization of some of the costs associated with building transmission for offshore wind. 

Re-ballot Underway for IBR Ride-through Standard

[Editor’s note: A previous version of this article incorrectly stated that PRC-029-1, addressing IBR frequency and voltage ride-through requirements, passed a ballot round that concluded earlier this week. The standard that passed that ballot round was actually PRC-024-4 (Frequency and voltage protection settings for synchronous generators, type 1 and type 2 wind resources, and synchronous condensers). PRC-029-1 is undergoing a re-ballot that will end Oct. 4 at 8 p.m. ET. The text below has been updated to reflect this.]

NERC’s proposed reliability standard addressing ride-through protection for inverter-based resources (IBRs) is undergoing a re-ballot in hopes of gaining enough industry support for passage, as the ERO’s Board of Trustees prepares to meet next week to formally adopt the five proposed IBR standards needed to meet a FERC deadline.

The ballot for PRC-029-1 (Frequency and voltage ride-through requirements for IBRs) was originally scheduled to end on Sept. 30 but was extended to Oct. 4 to allow industry more time to review revisions, summarized in a memo on the project’s NERC webpage.

A ballot for the standard’s implementation plan will also close Oct. 4. The implementation plan also covers PRC-024-4 (Frequency and voltage protection settings for synchronous generators, Type 1 and Type 2 wind resources, and synchronous condensers), which was developed by the same drafting team as the ride-through standard.

PRC-024-4 did close its final ballot round Sept. 30, with industry stakeholders, voting by segment, casting 184 votes in favor of the standard, compared with 34 negative votes with comments, while 53 members of the ballot body either abstained or didn’t cast a vote. NERC weights its standards voting by segment participation so that industry segments with fewer voters will count less in the final tally. Therefore, the final segment-weighted value is 86.41% in favor, well over both the two-thirds majority needed for approval.

At its August meeting, NERC’s board exercised for the first time its authority to streamline the ERO’s regular stakeholder approval process, after PRC-029-1 did not receive industry approval after multiple ballot rounds. Board Chair Kenneth DeFontes warned this put the ERO in danger of failing to meet FERC’s deadline, imposed last year, to submit reliability standards addressing IBR performance requirements, disturbance monitoring data sharing and post-event performance validation by Nov. 4, 2024. (See NERC Board of Trustees/MRC Briefs: Aug. 15, 2024.)

The board ordered NERC’s Standards Committee to convene a technical conference to receive input from industry and other ERO stakeholders on the ride-through standard in order to shape a version palatable to enough ballot body members to get across the finish line. At the conference, which was held Sept. 4-5 in D.C., representatives from a range of industry segments — including NERC, original equipment manufacturers and utilities — discussed their issues with the proposed standard. (See NERC, Industry Discuss IBR Issues in Technical Conference.)

After the conference, NERC revised the standard to address attendees’ concerns, including the clarity of the definition of “ride-through,” criteria for frequency ride-through performance and exemptions to ride-through criteria for equipment with hardware limits.

If it passes this ballot round, PRC-029-1 will not be posted for the customary final ballot, another result of the streamlined process approved at the August board meeting. At their meeting Oct. 8, trustees will vote on PRC-029-1 and PRC-024-4, along with the other IBR standards that are subject to FERC’s November deadline and were approved in previous ballot rounds:

    • PRC-028-1 — Disturbance monitoring and reporting requirements for inverter-based resources.
    • PRC-002-5 — Disturbance monitoring and reporting requirements.
    • PRC-030-1 — Unexpected inverter-based resource event mitigation.

If PRC-029-1 does not receive a two-thirds segment-weighted vote in favor, the board may still consider it approved if it receives at least 60% of the vote. In that case, the board must solicit written public comment on the proposed standard and may convene an additional technical conference. If the board is satisfied that the standard is just, reasonable, not unduly discriminatory or preferential, and in the public interest, it may then file the standard with FERC for approval.

In the event that the standard does not receive at least a 60% segment-weighted majority, the board has other options available, including directing the Standards Committee or NERC management to prepare another draft standard, convening another technical conference, and approving the standard after a 45-day public comment period but without a formal ballot.

Also on the board’s agenda next week are revisions to the charter of NERC’s Reliability and Security Technical Committee (RSTC) that are intended to improve the balance of industry representation at meetings. The new rules will allow a sector to seek a special election to fill an open seat representing it, rather than have that seat convert to an at-large member as the current charter provides.

In addition, they will remove the numerical cap on the number of representatives from a sector that can serve as at-large members and will direct the RSTC Nominating Subcommittee to prioritize balanced sector representation.

Exelon Asks FERC to Weigh in on Co-location Dispute with Constellation

Exelon on Sept. 30 filed a petition for a declaratory order from FERC on its dispute with Constellation Energy over the latter’s effort to co-locate major loads at two of its nuclear plants (EL24-149).

The two firms, which used to be one before Exelon spun off its generation and competitive retail businesses into Constellation, have been on opposite sides of the debate on co-location from a purely policy level. (See Talen Energy Deal with Data Center Leads to Cost Shifting Debate at FERC.)

But Exelon’s petition lays out the actual business dispute. Constellation is seeking to co-locate new loads at its Calvert Cliffs Nuclear Power Plant in Maryland and Limerick Nuclear Power Plant in Pennsylvania. Those plants are connected to the grid owned by Exelon’s Baltimore Gas & Electric (BGE) and PECO Energy utilities, respectively.

Neither the petition, nor the legal correspondence filed alongside it, mention data centers specifically with the modifications. But Exelon argued that Constellation’s moves could harm new and existing customers, including data centers. The economics of co-locating data centers at nuclear plants are lucrative, as a deal with Microsoft was enough to get Constellation to reopen the recently retired unit at Three Mile Island, Exelon said.

“Constellation has wrongly claimed that the existing interconnection agreements between the petitioning utilities and predecessors of Constellation (and, in the case of Calvert, PJM) entitle it to connect new end-use load without regard to the purpose and terms of the existing interconnection agreements or to the retail nature of the interconnection and requested services involved,” Exelon said in its petition.

Exelon wants FERC to find that PJM’s generator interconnection procedures under Order 2003 only apply to end-use generation, not load. FERC also should declare that interconnection of end-use load is a matter of state, not federal jurisdiction, the company argued.

Under the Federal Power Act, FERC is required to respect states’ role to regulate retail rates, Exelon said. Order 2003 itself was aimed at ensuring fair competition for generation, and FERC should make clear that it does not apply to end-use customers, it argued.

Exelon also asked FERC to find that a request to reconfigure existing generator interconnections to accommodate the co-located large, new loads would require modification of the relevant interconnection agreements to reflect the new interconnection facilities and the changed nature and purpose of the interconnection. That requires the consent of all the parties to such deals, the company argued, urging FERC to declare that as well.

The company said it supports the efforts of retail customers who chose to co-locate at generators when that can be accomplished safely and reliably and when load pays for its fair share of the costs of the electric grid, as defined by the applicable state and federal rates.

“Fortunately, the standard process of adding end-use load to the system is well understood and can be accomplished quickly while protecting system reliability and other customers,” Exelon said. “That process requires only that the load becomes a retail customer of the relevant distribution utility or cooperative, pay rates under existing tariffs, and that the interconnection be studied for safety and reliably.”

Changing the interconnection agreements to include large new loads transforms such deals into three-legged arrangements connecting end-use load, generation and the grid, which is significantly different from plugging a generator on its own to the grid, Exelon said.

Both BGE and PECO received requests for such co-locations, and they asked questions that would reflect the standard process for load additions, in which the customer itself or its agent asks the local distribution utility for service and describes the nature of the load and other factors.

Constellation took exception to those requests, saying the two utilities were not allowed to “condition performance of [interconnection agreement] obligations,” Exelon said. Constellation argued it was not required to arrange for retail service for the co-located load deals it is pursuing, according to Exelon.

“By its plain terms, PJM’s tariff does not and could not contemplate interconnection of end-use load through the generation interconnection process,” Exelon said. “Moreover, in its letter concerning Calvert Cliffs, Constellation has also declared that it may resort to litigation or referrals, including supposed antitrust claims, if BGE does not immediately take steps to provide the service Constellation requests.”

The controversy reflects a fundamental disagreement on the law, which includes foundational principles of jurisdiction, in the context of matters of serious import, Exelon argued.

It “respectfully request[ed] that the commission issue declarations that will settle this controversy, which threatens to cloud and undermine the jurisdictional and regulatory division between the states and the federal government embodied in the FPA, and which promises widespread, protracted litigation because requests to modify generator interconnections to accommodate co-located end-use load are becoming increasingly common,” Exelon told FERC. “By eliminating any confusion created by Constellation’s attempts to shift costs of co-located load at its generator interconnections, the commission can speed the energy transition, ensure reliability and protect all customers.”

Newsom Signs Bundle of Grid-related Bills from 2024 Session

California Gov. Gavin Newsom has signed a bill to streamline approval of transmission projects by removing a requirement for regulators to evaluate non-transmission alternatives such as demand-side management. 

Assembly Bill 2292, by Assemblymember Cottie Petrie-Norris (D), is just one in a bevy of bills the governor signed into law in the days leading up to a Sept. 30 bill-signing deadline. Other new laws relate to bi-directional EV charging, industrial energy use and hydrogen fueling stations. 

Proponents of AB 2292 said the bill makes a modest but important change to the California Public Utilities Commission approval process for transmission projects.  

The bill removes a requirement for the CPUC to consider cost-effective alternatives to transmission facilities “that meet the need for an efficient, reliable and affordable supply of electricity.” Those alternatives may include demand-side options such as targeted energy efficiency or ultraclean distributed generation. 

Requiring the CPUC to review alternatives duplicates work done by CAISO in identifying the need for the project as part of its transmission planning process, supporters said. 

The new law comes as the CPUC is updating its General Order 131-D to make the permitting process for transmission projects more efficient and consistent. (See CPUC Works to Revamp Tx Permitting Rules.) 

Bi-directional Charging Bill

Another bill signed by Newsom could lead to a requirement for electric vehicles to be equipped for bi-directional charging. 

Senate Bill 59, by Sen. Nancy Skinner (D), authorizes the California Energy Commission (CEC) to require any size class of battery EV to be capable of bi-directional charging — if there is a “compelling beneficial” use case for both the EV operator and the electrical grid. 

“Bi-directional capabilities in BEVs have the potential to improve customer energy reliability, resiliency and demand management during electric grid stress events while supporting our state’s transition to zero-emission transportation,” Newsom said in a bill-signing message. 

The governor’s message noted the complexities of aligning BEVs with the bi-directional charging equipment, while factoring in electric rates and potential grid effects. 

Another Petrie-Norris bill signed by the governor is AB 2779, which promotes the use of grid-enhancing technologies. The bill requires CAISO to report any new use of GETs that it deems reasonable, along with the cost savings and efficiency of that technology, when it approves a transmission plan.  

GETs are a way to expand the capacity of the grid much more quickly than building new transmission, which can take years. They include advanced reconductoring and other technologies. 

The governor previously signed SB 1006, by Sen. Steve Padilla (D), which requires utilities to study the feasibility of using GETs. (See California GETs Bill Gets Newsom’s Signature.) 

RA Requirements

Another bill signed into law is Petrie-Norris’ AB 2368, which addresses electric system reliability. 

The bill, sponsored by the Clean Energy Buyers Association, requires the CPUC to adopt a 1-in-10 loss of load expectation (LOLE), or a “similarly robust reliability metric,” when setting resource adequacy requirements. (See Clean Energy Buyers Push Passage of New Calif. Reliability Law.) 

The bill also requires the CPUC to determine whether measures are needed to reduce the costs to ratepayers of a resource adequacy program. 

A bill sponsored by the California Nevada Cement Association also received Newsom’s signature. AB 2109, by Assemblymember Juan Carrillo (D), will exempt large industrial customers from paying their utility a departing load charge if they use waste heat to generate their own power. 

The bill will make industrial process heat recovery cost effective and advance the state’s efforts to decarbonize manufacturing, CNCA Executive Director Tom Tietz said in an opinion column. 

Hydrogen Fueling Stations

SB 1418 by Sen. Bob Archuleta (D), which the governor signed, is intended to speed up local government permitting of public hydrogen-fueling stations. 

Cities and counties are already required to streamline the permitting process for EV charging stations. SB 1418 will extend that streamlining by requiring cities and counties to adopt an ordinance and checklist for permitting hydrogen-fueling stations.  

Archuleta noted in a release that the Department of Energy has awarded up to $1.2 billion to California’s hydrogen hub, the Alliance for Renewable Clean Hydrogen Energy Systems (ARCHES). 

“Success hinges on rapidly scaling up hydrogen-fueling infrastructure and vehicle development,” the release said. “California cannot achieve its zero emission goals without success at the local level.” 

FERC Approves CAISO Plan to Streamline Interconnection Process

FERC has approved CAISO’s proposal to streamline its generator interconnection process to deal with the “unprecedented volume” of interconnection requests it received in 2023, in part stemming from the aggressive push to decarbonize California’s economy.

The product of more than a year of stakeholder engagement, the Interconnection Process Enhancements (IPE) proposal was designed to speed up CAISO’s interconnection queue by reducing the number of projects the ISO must review in its queue cluster study process through use of a new screening procedure that prioritizes projects based on transmission availability and commercial viability. (See CAISO Board Approves Interconnection Enhancements Proposal.)

The IPE proposal approved Sept. 30 by FERC is intended to complement — and not replace — CAISO’s FERC Order 2023 compliance filing. The commission said the approval is subject to its action on the ISO’s Order 2023 compliance filing.

The IPE tariff revisions will apply to the ISO’s outsized interconnection Cluster 15 — from 2023 — and subsequent cluster periods.

“CAISO has demonstrated that applying the proposed revisions to Cluster 15 will enable CAISO to effectively process the largest queue cluster it has ever received,” the commission wrote in its 103-page order (ER24-2671).

A central aspect of the IPE proposal is adoption of a zonal approach that prioritizes interconnection of resources that use existing available transmission capacity in areas where capacity additions have been approved in the ISO’s transmission plan, as set out in state and local regulatory authority resource planning portfolios.

The zones are defined by available capacity based on transmission constraints and the California Public Utilities Commission’s resource planning portfolio. A zone containing at least 50 MW of available transmission capacity is defined as a transmission plan deliverability (TPD) zone. Generation projects seeking to interconnect outside TPD zones “may proceed as merchant projects and will self-fund their associated network upgrades” in those so-called “merchant zones,” according to the proposal.

The proposal also introduces scoring criteria that rank projects based on factors such as project readiness, load-serving entity interest and commercial — or non-LSE — interest.

Under that part of the process, LSEs will award points to projects based on a 1-to-100 scale, with the points representing the percentage of transmission capacity the LSEs would assign to the projects. Non-LSEs can award a maximum of 25 points, which CAISO attributed to the fact that LSEs must meet specific resource adequacy and procurement requirements while non-LSEs have no such obligations, although they might be serving a commercial interest.

“Notably, in evaluating commercial interest, the ISO will incorporate preliminary, non-binding feedback on specific projects from load-serving entities,” the proposal says. “In addition, the ISO provides an opportunity for non-LSE offtakers (e.g. commercial entities) to express an interest in specific projects. These commercial selections will improve the scores of certain projects, increasing the likelihood of those projects advancing to the study process and ultimately competing for transmission plan deliverability (TPD) and offtake agreements.”

The highest-ranking projects then advance to the study phase in descending order of project scores, until the available and planned transmission capacity within a zone (and behind constraints) is filled to 150% of that capacity. CAISO will resolve ties by selecting projects with the lowest distribution factors (DFAX). If a tie persists, the ISO “will conduct a market-clearing sealed-bid auction to advance to the study process that will align with the process required under FERC Order No. 2023,” according to the proposal.

‘Monitor the Efficacy’

In approving the IPE tariff rules, the commission said it found the revisions fulfill the purposes of FERC’s Order 2003 and Order 2023 rules on generator interconnection “by helping to ensure that interconnection customers are able to interconnect to the transmission system in a reliable, efficient, transparent and timely manner.”

FERC found the zonal aspect of the plan, which subgroups projects based on transmission deliverability, “links the CAISO interconnection process with the transmission planning process and resource planning process, ensuring that interconnection requests in zones with sufficient deliverability to serve them are prioritized, which will improve certainty for developers while addressing queue backlogs.”

The commission also rejected the arguments of protestors who called the proposal’s distinction between “merchant” and TPD zones discriminatory, determining the proposal’s process requiring interconnection customers outside TPD zones to self-fund network upgrades is consistent with FERC’s interconnect pricing policy.

“The commission has previously allowed RTOs or ISOs with locational pricing to require interconnection customers to bear the cost of all facilities and upgrades not needed but for the interconnection, stating that providing reimbursements or service credits for network upgrades that would not be needed but for the interconnection mutes the incentive for a customer to make an efficient siting decision that accounts for transmission costs,” it wrote.

FERC also dismissed the concerns of Shell and Vistra regarding the transparency of the zonal approach, finding CAISO’s plans to publish supplemental information on its website describing conditions and constraints in each transmission zone, along with the ISO’s “commitments to provide information about its zonal determinations, provides sufficient transparency to inform the preparation of interconnection requests under the proposed cluster study criteria.”

The commission further rejected the arguments of multiple protestors in accepting the proposal’s scoring criteria.

“Specifically, prioritizing those interconnection requests that are more advanced in their technical planning and design can help CAISO eliminate speculative interconnection requests and identify potential interconnection customers that have completed more of their project development in advance of the cluster request window, and are therefore more likely to reach commercial operation,” the commission wrote.

The commission said it still will evaluate CAISO’s compliance with each requirement in Order 2023 and that “nothing in this order prejudges the outcome of that evaluation.” It also noted CAISO’s commitment to “monitor the efficacy” of the IPE revisions and said it expects the ISO to continue to engage with stakeholders on “further enhancements to improve the interconnection process as needed.”

“Our tariff filing for a reformed interconnection process was complex and we fully acknowledge that stakeholders had a variety of opinions on some of the details,” CAISO CEO Elliot Mainzer said in a statement.

“We appreciate the ruling by FERC and what it will mean for more efficient planning and onboarding of resources, and we are committed to moving forward in partnership with our many stakeholders to effectively and transparently implement the reforms. As the order requires, we will also closely monitor how well they are working,” Mainzer said.

The new rules became effective Oct. 1.

Eversource Takes Another Financial Hit with OSW Exit

Eversource Energy has formally ended its costly foray into offshore wind development, finalizing the sale of its last two offshore assets and predicting a half-billion-dollar loss as a result. 

The utility announced Sept. 30 that Global Infrastructure Partners (GIP) had closed on its purchase of Eversource’s share of South Fork Wind and Revolution Wind, which respectively completed and started construction this year off the Rhode Island/Massachusetts coast. 

When the deal was announced in February, Eversource said it expected to receive $1.1 billion as a result. It said Sept. 30 that adjusted gross proceeds instead will be $745 million because of higher-than-expected costs associated with South Fork and Revolution. 

Eversource said it anticipates other factors to cause it to record a net loss of approximately $520 million on the divestiture. 

The company previously recorded a $1.95 billion after-tax impairment for 2023, also because of the struggles of its offshore wind venture. (See Eversource Finds OSW Buyer, Takes $1.95B Hit for 2023.) 

Eversource had been looking for an exit at least as far back as 2022, when the offshore wind industry began to slide into a financial crisis in the U.S. It will remain involved with offshore wind, but only in the onshore transmission that interconnects the projects. 

CEO Joe Nolan hailed the company’s success in refocusing as a “pure-play regulated pipes and wires utility.” 

“We are proud of the role we have played to advance offshore wind projects,” he said, “and we will continue to be a leader in employing our transmission expertise to conduct onshore work that supports the clean energy transition and enables the continued development of renewable resources for our region.” 

Eversource, New England’s largest distribution utility, and Ørsted, the world’s leading offshore wind developer, teamed up in December 2016 in a 50-50 venture to enter the nascent U.S. offshore wind market. 

Their efforts progressed steadily, but not quickly enough to beat the combination of rising costs and supply chain constraints that led to the 2023-2024 cancellation of most of the first wave of offtake contracts signed for wind farms proposed off the Northeast coast. 

The companies did complete South Fork, the first operational utility-scale wind farm in U.S. waters, but it is only 12 turbines rated at a combined 132 MW — just 0.44% of President Joe Biden’s goal of 30 GW by 2030. And it cost more than expected. 

Eversource has been chipping away steadily at its ownership share in the joint venture, selling Ørsted its share of an undeveloped wind lease area and the Sunrise Wind project. The latter netted Eversource approximately $370 million, lowering the anticipated loss associated with its offshore wind divestiture from nearly $900 million to a bit more than $500 million. 

Ørsted said in a news release that it was excited to team up again with GIP, “a trusted and longstanding” partner worldwide. GIP is now a component company of BlackRock, which announced Oct. 1 that it had completed the acquisition. Skyborn Renewables, a GIP portfolio company, will manage ownership of the 50% stake in South Fork and Revolution. 

“Partnering on the Revolution Wind and South Fork Wind projects marks a significant step in expanding Skyborn’s presence in the U.S. offshore wind market,” Skyborn CEO Patrick Lammers said in a news release. “Moreover, this joint venture with Ørsted perfectly exemplifies our successful partnership model. This transaction offers strong value potential for our shareholders and partners through a well-structured approach that carefully mitigates key risks.” 

Eversource indicated in a Feb. 13 filing with the Securities and Exchange Commission that it had guaranteed GIP a 13% pre-tax, equity internal rate of return as part of the sale agreement. It also agreed to cover increases in construction costs for Revolution. 

The company’s Sept. 30 SEC filing detailed $890 million in costs it has incurred under terms of its agreement with GIP: approximately $225 million in non-construction costs for South Fork and Revolution, $315 million in post-closing adjustments for Revolution and South Fork, and $350 million in higher construction costs for Revolution because of the previously announced pushback of its expected commercial operations date. (See Revolution, Sunrise OSW Projects Face New Delays.)

That is separate from the factors that reduced Eversource’s adjusted gross proceeds from the sale of Revolution and South Fork from $1.12 billion to $745 million: approximately $150 million in capital spending that did not take place as expected and approximately $225 million because of the delays with Revolution. 

Eversource said other factors still could decrease — or increase — its net proceeds from the sale: Revolution’s eligibility for 40% tax credits, the ultimate cost of construction for Revolution, further delays in construction of Revolution, and lower operation costs or higher availability of Revolution and South Fork. 

Helene Repair Efforts Could Last Weeks for Hardest Hit, Remote Areas

The utility industry continues to repair downed power lines and other infrastructure affected by Hurricane Helene. Much of the remaining work is on co-ops’ systems, according to the National Rural Electric Cooperative Association.

“Electric cooperatives serve the most remote, hardest to serve areas in the country, and so while this disaster affected all utilities and customers in many different utility locations, the consumers of electric cooperatives are in areas that are more remote, more rugged, more difficult to restore,” NRECA CEO Jim Matheson said Oct. 1.

The storm knocked out power to about 6 million customers across 10 states, of whom cooperatives serve 1.25 million, he added. As of Tuesday afternoon, cooperatives still had about 500,000 customers without power. Most of those should get their lights back by the end of the week.

“This could have a long tail to it, in terms of when you reach everyone getting power back on,” Matheson said. “This could take days. This could take weeks, in some cases, because of the location and the amount of damage and what it’s going to take to essentially not just hook something up that happened to break apart, but really rebuild from the ground up, some of these components of the electric system.”

Tri-County Electric Co-op of Florida serves some of the area first affected by the storm. At its peak, 99% of its meters were offline on a system that averages six meters per mile of wire, largely residential and agricultural customers, said CEO Julius Hackett.

“We’re dealing with 700-plus broken poles,” he added. “We still have 12,300 meters out. But we have 2,000 line-workers and vegetation management professionals on the scene.”

The restoration has been progressing well, but it is slower than the co-op would prefer due to the Category 4 hurricane winds that significantly damaged its system, said Hackett.

The storm knocked out an additional 350,000 customers at co-ops in Georgia, said Dennis Chastain, CEO of the Georgia Electric Membership Corp., which represents all the co-ops in the state.

“I’ve been in this business for 38 years, and I’ve never seen anything like it,” Chastain said. “I’ve got one of my vice presidents who’s been here 50 years, and he’s an ex-lineman, and he’s never seen anything like it either.”

Electric Cooperatives of South Carolina CEO Mike Couick agreed Helene’s impact on the system was unlike any storm his members have dealt with in decades.

“It’s not a restoration, it’s a rebuild,” he added. “Every one of my co-ops in this state were affected. It affected all 46 counties.”

Particularly hard hit was the Blue Ridge Electric Co-op, named for the mountain range that runs through its territory, where line workers must repair 7,300 miles of wires, including lines that run straight up mountainsides.

“When we talk about putting a new power pole in because one’s broken, we generally say it takes four men up to four hours to put in one pole,” Couick said. “I’m not sure that’s the right number at Blue Ridge. Think about going up the side of a mountain, putting in a new pole, and you’re going to drill through a rock and sink it. You may not have access to roads to get the pole there, and then you gotta carry it there.”

Blue Ridge thinks it has about 600 broken poles to fix, but it cannot be sure this early in the process as accessing some of the more remote parts of its system is difficult, he added.

Western North Carolina was among the hardest hit regions by Helene where the issue is not just fixing the grid but washed-out roads and homes that were swept away by the storm and related flooding, said EnergyUnited CEO Thomas Golden.

“Mudslides, flooding and downed trees have made entire communities inaccessible,” he added. “Crews can’t even reach some members because roads have been washed away or blocked by debris. And when they do get through, they’re not finding a few downed lines, they’re finding entire spans of wire pulled down by trees, poles snapped in half and infrastructure washed away by floodwaters.”

So far, cooperatives have found enough material to make the repairs, but NRECA’s Matheson said supply issues must be monitored due to the widespread damage across all kinds of utility ownership.

“We need to keep an eye on this, because we very well could have supply chain challenges emerge in the next few days that we haven’t seen,” Matheson said. “The good news is, so far, I haven’t heard of any significant supply chain challenge.”

Two of the hardest-hit investor-owned utilities provided updates Oct. 1 on their progress repairing Helene’s damage.

Georgia Power said it had restored service to 1 million customers, which is about 80% of those affected, but additional 278,000 remained without service. The utility said Helene damaged or destroyed 8,000 poles, 1,000 miles of wire, 1,500 transformers and led to 3,200 trees falling on lines.

Duke Energy Carolinas reported it had restored power to 566,000 customers in South Carolina and 1 million in North Carolina with 363,000 and 284,000 remaining without service, respectively. Power restoration may take longer in areas that are inaccessible due to hurricane damage to other infrastructure.

“We’ve never seen such widespread devastation and destruction as we’re seeing in this region,” Jason Hollifield, Duke Energy storm director for the Carolinas, said in a statement.

Waiting for 45V, US Green Hydrogen Projects Frozen

WASHINGTON — A panel on hydrogen at the National Clean Energy Week Policymakers Symposium provided a state-of-the-industry update, looking at cutting-edge projects underway and the reluctance of developers and investors to move ahead as they wait for the Treasury Department’s final rule on the Inflation Reduction Act’s 45V tax credit. 

The world’s smallest molecule is widely being promoted as a potentially clean alternative fuel that can be used in hard-to-abate sectors, such as long-haul trucking or maritime shipping, or for long-duration storage. Hydrogen traditionally has been produced using natural gas as a feedstock, called blue hydrogen. But green hydrogen is produced by electrolysis ― splitting water molecules into oxygen and hydrogen ― powered by renewable energy.  

Chevron has a long history of producing blue hydrogen but has become bullish on green as a sector where the company “can leverage our assets and capabilities and relationships to really drive forward the energy transition,” said Michael Hoban, vice president for policy and government engagement at Chevon New Energies. “Our focus is lowering the carbon intensity of our own operations, as well as creating low-carbon businesses … where we think Chevron can add value.” 

Speaking at the Sept. 26 panel, Hoban pointed to Chevron’s Advanced Clean Energy Storage (ACES) project in Utah, which will produce green hydrogen from “about 220 MW of electrolyzers, storing about 100 tons per day of hydrogen [in] massive underground salt caverns … as a long-term energy [storage] solution.” 

Beau Berthelot, vice president of business development and government affairs at Maritime Partners, a maritime leasing and financing firm, said his company is building a hydrogen-fueled vessel, which will extract hydrogen from methanol, also called methyl alcohol. 

The new ship “will load methanol, convert the methanol into hydrogen, then fuel the vessel with hydrogen fuel cells,” Berthelot said. 

But Treasury’s delay on the 45V production tax credit ― which could be worth up to $3 per kilogram of green hydrogen ― has frozen the market, said Paul Wilkins, vice president for policy and government engagement at Electric Hydrogen, which manufactures electrolyzers used to produce green hydrogen. 

Treasury issued a proposed rule for 45V in December but has yet to issue a final rule. The department announced Oct. 1 that it intends to complete the final rule by the end of the year. (See Biden Admin. Issues Proposed Rules for Hydrogen Tax Credits.) 

“Project developers can’t get to a final investment decision if they don’t know what their revenue streams look like,” Wilkins said. “And so what that means is that projects are just churning water and burning through cash … not moving forward.” 

The U.S. has only about 150 MW of operating electrolyzers, a capacity he described as “tiny.” To bring down costs, “we really need to start scaling the industry.” 

The Department of Energy’s seven regional hydrogen hubs, funded with $7 billion from the Infrastructure Investment and Jobs Act, also have had a slow rollout. The law requires the hubs to be geographically and technologically diverse, producing hydrogen from natural gas with carbon capture as well as electrolysis powered by renewables. 

But one year after the seven hubs were announced, only three have finalized contracts with DOE.  

Chevron is involved in two of the hubs, one on the Gulf Coast (still in contract negotiations) and one in California (contract finalized), Hoban said. With or without clarity on 45V, coordinating all the facets and stakeholders is difficult, he said. 

“Hydrogen is a really difficult market to initialize for a lot of reasons,” he said. “Everything really has to happen at once. You can’t just simply make a supply project, and when it goes to the liquid market, you can’t simply buy a hydrogen fuel-cell truck. … The entire value chain needs to be coordinated together.” 

Permitting reform also will be critical, Wilkins said, to ensure dedicated pipelines for hydrogen can be built. “That’s going to be the cheapest way to move those molecules,” he said.  

Wilkins expects some projects, like the hubs, will co-locate the production of green hydrogen with its end uses. But “if you look at the places where you just make green hydrogen because you’ve got really cheap electricity, you’re going to have to move it,” he said. “We have to be able to build pipelines.” 

PUC’s Gleeson at Texas Clean Energy Summit: Smooth Tenure Turns ‘Interesting’

SAN ANTONIO — Thomas Gleeson, chair of Texas’ Public Utility Commission, has seen it all during his tenure at the PUC.

Named the commission’s executive director in 2021 about a month before a winter storm nearly collapsed the ERCOT grid, Gleeson saw the commissioners whittled in numbers from three to two, then one and finally none as they each resigned under withering criticism in the storm’s aftermath. The commissioners’ numbers have grown to five since then due to legislation passed after storm, with Gleeson appointed as chair in January.

Everything went smoothly for Gleeson and the PUC until Hurricane Beryl caught CenterPoint Energy off-guard in July and then an apparently fraudulent generation project was temporarily included in a grant program for $5 billion in state funds. (See CenterPoint Energy Still in Eye of the Storm and Texas PUC Rejects Possible ‘Fraudulent’ Loan Application.)

Dealing with the fallout of those two events has been added to the commission’s full plate, which includes finishing a market redesign and working to approve enough transmission to meet Texas’ growing industrial demand and deciding whether to use 765-kV facilities in that effort.

“The timeline of my time at the PUC has been quite interesting,” Gleeson told attendees during Infocast’s Texas Clean Energy summit, held Sept. 24-26.

“Transmission in this state is something that we haven’t talked a lot about in recent history, because we’ve been focused on market design,” he said. “I tell the governor and the other elected officials, ‘If you want this state to continue to be the economic center for the country and for the globe, you have to invest in infrastructure, water infrastructure, health communication infrastructure, electric infrastructure.’ Those things have to be done congruently, because you cannot have one without the other.”

Gleeson said demand is increasing in Texas because data centers and crypto miners are being added to the industrial base. ERCOT said earlier this year it expects an additional 150 GW of load by 2030, although not all eventually will be interconnected.

“So, what does that mean? It means a lot of companies, a lot of businesses plan to move here,” Gleeson said, noting some of that is crypto mining that “may show up or may not show up.”

“The load growth is something no other ISO in this country is seeing,” he said. “You hear a lot about the size of our state … so people automatically assume load growth is happening because people are moving within ERCOT. That’s not the truth … load growth on the residential side actually remains really flat. The increase in load is because of commercial and industrial customers coming here.

“That causes its own set of challenges, right?” Gleeson added. “You have residential customers that are paying a lot of the transmission costs, and those transmission costs are caused by non-residential customers, so I think that’ll be another story.”

Until then, Gleeson argues, Texas needs an energy expansion, not an energy transition.

“In this state with our load growth, you need an energy expansion,” he said, nodding to a slide that included ERCOT’s current fuel mix. “These percentages are not nearly as important to me as the underlying data, the total megawatts. I want more of all this to last the summer. If you look and analyze ERCOT data, you’ll see that on multiple occasions, solar and batteries saved us. We also need more gas-fired generation because I have days that no one else sees where we are really thin.”

Market Participants Pan PCM

Several panelists panned the PUC’s proposed performance credit mechanism (PCM), which was selected from among five other potential market designs in 2023.

The PCM has been criticized as favorable to thermal generators. It would reward them with credits based on their performance during a determined number of scarcity hours. Those PCs must be bought by load-serving entities, based on their load during those same hours, or exchanged by LSEs and generators in a voluntary forward market. (See Texas PUC Submits Reliability Plan to Legislature.)

“There’s been a lot of discussion about who can participate in the PCM,” Black Mountain Energy Storage’s Kevin Hanson said. “I think it’s very important that it has to be technology neutral, that any resource that can deliver those obligations and needs should be able to participate.”

Gleeson

Emily Mullins, Lightsource | © RTO Insider LLC 

Bob Helton, Engie North America’s vice president of government and regulatory affairs, pointed out that an early analysis of the PCM included renewables.

“By taking the renewables out of there, it does increase the cost,” he said, agreeing the PCM needs to be technology neutral. He also urged patience because it could have a bearish effect on real-time energy pricing. “We don’t want to end up with a PCM market with a large percentage of revenue coming through there and overtaking the energy market as a revenue source. We’ve seen that in capacity markets and other markets,” he added.

“I think what’s been lost in a lot of the discussions about an energy-only market is that it functions via scarcity,” Lightsource’s Emily Mullins, on another panel, said. “Scarcity pricing is important because it signals to developers when, where and what type of resource they need to build. However, since Winter Storm Uri, what we’ve seen is there’s snipping at the edges of the energy only market. So, we’ve ended up in this interesting situation where, by name, we’re in an energy-only market, but we’re sort of riding the fence between an energy-only market and the capacity market.”

Gleeson, who was the PUC’s executive director when it approved the PCM, referred to the design as a “novel approach.” He said given that, the PCM should be placed on the back end of other market changes.

“My feeling is, and I think my colleagues share this feeling, is that we have a number of tools at our disposal,” he said. “We should try to see if we can meet our reliability goals with those tools before we look to implement something that’s new and novel and that we don’t really know how it interacts with the rest of our market.”

Texas Eyes More Nukes

Constellation Energy’s Casey Kelley, vice president of state government affairs in the South, appeared at the conference on the heels of his company’s announcement that it plans to re-open Three Mile Island’s Unit 1 — not the one involved in a 1979 partial nuclear meltdown — as part of a power purchase agreement with Microsoft. (See Constellation to Reopen, Rename Three Mile Island Unit 1.)

Shannon McGriff, executive director of The Energy Professionals Association and moderator of Kelley’s panel, said she was with the Constellation executive two days before the announcement.

“So, we know you can keep a secret,” she told Kelley.

“I think nuclear is going to be a big topic in Texas this time around, not because anybody’s going to build a new AP 1000 [plant] or even [small modular reactors] in the short term, but I do believe there will be conversation about how we set up the framework to make Texas a leader in that space,” Kelley said, looking ahead to 2025’s legislative session.

He has a supporter in Gleeson, who is waiting on a task force’s report on small modular reactors (SMRs) due at the end of the year. Texas leaders hope the work will position the state as a leader in nuclear energy. The state already hosts two nuclear plants and their four reactors; each plant has 5,000 MW of installed capacity.

“My feeling is if you care about net zero emissions and you care about reliability, you have to care about nuclear. I don’t think the math works for where people are trying to go [meeting future demand] without adding nuclear power,” Gleeson said. “I think increased nuclear has to be a part of our energy future to meet our demand.”