December 26, 2024

CEC Delays Vote on California OSW Plan

Adoption of a long-awaited strategic plan for offshore wind development off the California coast was postponed by state regulators June 26. 

The California Energy Commission was scheduled to vote on the plan, which was released as a final version less than 24 hours before the meeting. After many members of the public asked for more time to review the hefty document, commissioners agreed to wait. 

“We really appreciate that 24 hours — less than 24 hours — is not enough for folks to dive into this long report given the complexity of the issues at play,” Commissioner Patty Monahan said. 

CEC Chair David Hochschild acknowledged the plan already is a year late. Assembly Bill 525 of 2021 directed the CEC to develop the strategic plan and submit it to the legislature by June 30, 2023. 

“[It’s] not a result of our team not working incredibly hard,” Hochschild said of the delay. “The nature of this effort is incredibly complex and multidimensional.” 

Hochschild didn’t say when the strategic plan would come back for a vote. The commission’s next two business meetings are scheduled for July 10 and Aug. 14. 

The CEC released a draft version of the strategic plan in January. (See Draft Plan Outlines California Vision for Offshore Wind.) 

That document followed an interim report laying out an offshore wind permitting “road map” and another that assessed the potential economic benefits of offshore wind. 

In August 2022, the CEC set planning goals for offshore wind: 2 GW to 5 GW by 2030 and 25 GW by 2045. Offshore wind development is seen as a way for California to meet a mandate from 2018’s Senate Bill 100 to provide retail customers with 100% clean energy by 2045. 

In December 2022, the U.S. Bureau of Ocean Energy Management (BOEM) auctioned leases for five offshore wind areas: three in the Morro Bay Wind Energy Area (WEA) off the Central Coast and two in the Humboldt WEA off the coast of Northern California. 

 The CEC’s offshore wind strategic plan focuses on several areas: 

    • identifying suitable sea space to accommodate the 25-GW-by-2045 goal. 
    • planning for port infrastructure and workforce development. 
    • assessing transmission infrastructure needs. 
    • establishing an efficient permitting process. 
    • identifying potential offshore wind impacts and ways to address them. 

The final strategic plan incorporates summaries of comments received on the draft plan. In addition, some sections were expanded, such as the impacts on marine biological resources and fisheries and the need for port enhancements. 

In a statement following release of the final plan, Adam Stern, executive director of trade group Offshore Wind California, said he was looking forward to the CEC’s approval of the plan and moving on to next steps in offshore wind development. 

“Offshore wind promises to deliver a host of benefits for California workers, residents and electricity ratepayers,” Stern said. 

NERC Submits INSM Standard for FERC Approval

NERC has submitted to FERC its proposed cybersecurity reliability standard requiring utilities to implement internal network security monitoring (INSM) software on select grid cyber systems (RM24-7). 

The commission in 2023 ordered the ERO to develop requirements for INSM, calling the proposal a necessary response to events like the SolarWinds hack of 2020. (See FERC Orders Internal Cyber Monitoring in Response to SolarWinds Hack.) In that attack — now attributed to Russia’s Foreign Intelligence Service by the U.S. — malicious hackers infiltrated the update channel for SolarWinds’ Orion network management software and used their access to push code to customers that the attackers could use to gain access to their systems. 

When the attack first was discovered, nearly 18,000 SolarWinds customers were thought to have been compromised, including the U.S. Department of Energy and FERC, although SolarWinds since has claimed fewer than 100 customers were affected. 

NERC’s Critical Infrastructure Protection (CIP) standards require a utility to monitor communications from the inside of its electronic security perimeter (ESP) — the electronic border around its internal network — to the outside. FERC staff said last year the SolarWinds compromise “demonstrated how an attacker can bypass all perimeter-based security controls traditionally used to identify malicious activity” and that implementing INSM could reduce the time needed to discover and respond to a security compromise. 

FERC’s order called on NERC to submit standards requiring INSM at all high-impact grid-connected cyber systems, as well as medium-impact systems with external routable connectivity (ERC), by July 9, 2024. The commission limited its order to high- and medium-impact systems because those systems are defined in the CIP standards. 

FERC previously sought input from ERO stakeholders on whether low-impact systems should be included as well (RM22-3). However, industry commenters warned this measure would impose a large compliance burden on utilities for relatively little return. Even the ERO Enterprise said adding low-impact systems would require “extensive revisions” to the CIP standards in order to define the term. (See ERO Backs FERC’s Cyber Monitoring Proposal.) 

NERC assigned the INSM standard development to Project 2023-03, which initially conceived its work as a modification of CIP-007-6 (Cybersecurity — systems security management). But the initial ballot for the proposed CIP-007-X was rejected overwhelmingly by industry with a segment-weighted vote in its favor of just 15.42%. A two-thirds majority is needed for passage. 

Following the rejection, the team changed its approach to create a new standard, CIP-015-1 (INSM). This standard underwent another unsuccessful round of voting in March before receiving industry approval in a shortened ballot period the following month. (See Industry Approves NERC’s Cyber Monitoring Standards.) NERC’s Board of Trustees voted to accept the standard and submit it to FERC for approval at its meeting in May. 

CIP-015-1 would require registered entities to “implement one or more documented process(es) for [INSM] of networks … of high-impact [grid] cyber systems and medium-impact … systems with” ERC. Documented processes under the standard must include: 

    • network data feeds to monitor network activity, including connections, devices and network communications; 
    • at least one method to detect anomalous network activity using the network data feeds; and 
    • at least one method to evaluate anomalous activity to determine what additional action is needed. 

Entities also would have to implement documented processes to retain INSM data associated with anomalous network activity and to protect all data gathered or retained to prevent unauthorized deletion or modification. 

NYISO Reveals Bids in NYC Offshore Transmission Solicitation

NYISO this month received four bids in response to its Public Policy Transmission Need solicitation to deliver up to 8 GW of offshore wind power to New York City. 

Each developer proposed multiple options, differing by size, number of offshore platforms and HVDC cables, or interconnection points. They are: 

    • energyRE Giga-Projects USA, with three options for its Clean Borough Power Link; 
    • Viridon New York, with three options for its Liberty Link; 
    • New York Transco, with 10 options for its Energy Link New York; and 
    • the New York Power Authority and LS Power, with 12 options for its Five Boro Energy Connect. 

Most project options propose to connect to Consolidated Edison’s Brooklyn Clean Energy Hub, expected to be completed in 2028. But many others propose to interconnect via DC-to-AC converter stations that have not yet been approved. 

NYISO issued its solicitation in response to an order by the New York Public Service Commission in June 2023. The PSC mandated that projects accommodate at least 4,770 MW of offshore wind, with options to expand up to 8 GW. (See New York PSC Calls for More Transmission for Long Island OSW.) 

Viridon and energyRE proposed in-service dates of December 2032 for all of their proposals, while NY Transco proposed January 2033. NYPA and LS Power’s proposed dates vary by option, with the earliest being September 2032 and latest December 2033. 

New York’s Climate Leadership and Community Protection Act calls for 9 GW of offshore wind by 2035. The state’s — as well as the U.S.’ — first utility-scale project, the 130-MW South Fork Wind Farm, began operating in March. The 924-MW Sunrise Wind project received federal approval last week. (See Sunrise Wind Cleared to Begin Construction.) 

“The investment in transmission is needed so that we are prepared for the future state,” said Susan Craig, spokesperson for NYPA. “The expectation is that generation sources will be there to connect.” 

NYISO will conduct a viability and sufficiency analysis on all the proposals that is expected be conclude in the fourth quarter. The Board of Directors will select a proposal in the second quarter of 2025.  

Craig compared the Five Boro project to Propel New York Energy, which included the construction of new underground transmission lines and substations. Developed by NYPA and NY Transco, Propel was selected by NYISO’s solicitation in June 2023 to meet the PSC’s order for projects to connect up to 3 GW to Long Island. (See NYISO Selects Propel Project for Long Island Transmission.) 

“New transmission is essential for the reliable deployment of offshore wind, and energyRe is ready to modernize New York’s electric grid in support of the state’s clean energy goals,” company COO Ryan Brown said in a statement. 

“As New York develops more renewables, we will need the necessary transmission to carry that clean energy to homes. Energy Link NY is the best project for the job,” said Will Hazelip, vice chair of NY Transco’s board and president of National Grid Ventures. 

“LS Power’s joint proposals with NYPA will deliver state-of-the-art transmission solutions that provide New York City with more renewable generation to integrate into the electric grid and increased reliability to meet power demand, while also minimizing environmental impacts,” LS Power CEO Paul Segal said. 

Calif. Agencies Outline ‘High Road’ to Developing EV Workforce

California officials on June 25 outlined how their agencies plan to address the shortage of skilled workers needed to support the state’s transition to zero-emission vehicles (ZEVs). 

The state’s Workforce Development Board (CWDB), Employment Training Panel (ETP) and Air Resources Board (CARB) were among the several agencies that presented their approaches to workforce development during a Clean Transportation Program workshop hosted by the California Energy Commission. The program receives up to $100 million annually to fund ZEV infrastructure and development. (See Calif. Clean Transportation Program Needs Equity Emphasis.) 

Also participating was the Governor’s Office of Business and Economic Development (GO-Biz), which leads the state’s ZEV Market Development Strategy, designed to be a “north star” for meeting the state’s goals, according to Gia Vacin, deputy director of ZEV Market Development at GO-Biz. The strategy outlines four pillars supporting the development of a successful ZEV market: vehicles, infrastructure, users and workforce. 

Agency officials emphasized the need to develop “high-road” — or living-wage and skills-based — careers and opportunities for disadvantaged communities in the ZEV industry.  

“We can’t succeed in these other pillars without the support of a robust and thriving workforce that can help lift these others up,” Vacin said. “As we assess our current and future workforce needs, we are really thinking about this ecosystem and standing up and maintaining the entire market.”  

In 2020, the CEC and CWDB partnered in a joint memorandum of understanding to coordinate economic and workforce development planning related to the state’s clean transportation goals, with an emphasis on increasing job opportunities for disadvantaged populations. 

“The Workforce Board has spent the last several years really advocating to do better in the state of California and the Energy Commission has become a really good partner, especially given the [number] of investments that are being made through the department,” said Derek Kirk, assistant deputy secretary of climate at the state’s Labor and Workforce Development Agency. “The reality is, not a whole lot of that money is flowing directly through the workforce agencies or any of our workforce development partners, and so it’s incumbent on us to build relationships across the board to leverage our expertise and to start identifying those programs that can be leveraged to support the creation of this new workforce.”  

As part of the partnership, the CWDB assigned liaisons to the CEC to provide the latter with workforce expertise in labor development strategies and policy and technical assistance and to help identify resources and opportunities. Kirk highlighted the CWDB’s High Road Training Partnership Resilient Workforce Program, designed to increase access to high road jobs for underserved populations, which developed opportunities such as the Jewish Vocational Services 18-week Automative Pre-Apprenticeship Program in partnership with the City College of San Francisco.  

Robert Meyer, director of economic development at the ETP, which uses a pay-for-performance contract to reimburse costs for customized job skills training, said his agency will fund nearly $95 million in training for fiscal 2024/25. The CEC and ETP are currently formalizing an interagency agreement to increase the number of Electric Vehicle Infrastructure Training Program (EVITP) certified electricians needed to support widespread transportation electrification. Both agencies established a goal of allocating the ETP $3 million in CTP funds to offset training and EVITP certification costs.  

CEC staff also highlighted the Inclusive, Diverse, Equitable Accessible and Local (IDEAL) ZEV workforce pilots, one of which awarded $6.5 million to 14 projects for high school and college students, veterans and disadvantaged communities, as well as the ZEV Sustainable Equitable Employment Destination (ZEV SEED) project, which targets training workers in disadvantaged communities in Sacramento County. 

Equity Considerations

While investing in workforce training programs is important, the state should do more to consider equity gaps and the barriers some communities face in accessing these programs, said Eileen Tutt, executive director of the Electric Transportation Community Development Corp.  

“We offer all these opportunities equally to various communities, and we are not recognizing the different needs in especially low-income, disadvantaged communities,” Tutt said. 

Tutt identified the “gaps” some residents face in participating in training programs, such as a lack of a driver’s license, and reliable transportation, and encouraged state officials to use a portion of the funding to pay participants for taking time off from jobs or obtaining mobility.    

“There’s just costs associated with this training that are not manageable for some communities,” she said.  

Representatives from the International Brotherhood of Electrical Workers (IBEW) were frustrated the union wasn’t included in the workshop and said investing in ZEV infrastructure trainings and apprenticeships is a “waste” because the union already provides enough to support the industry.  

“I am astounded that IBEW wasn’t included as an industry partner or expert or highlighted in today’s workshop,” said Gretchen Newsom, the union’s international representative for government affairs. “We’ve been training our members on EVITP many, many years ahead of the EV revolution. Why not layer this EV operations and maintenance training and knowledge onto the existing high road career as electrician?”  

Echoing Newsom’s comments was Alex Lantsberg, research and advocacy director at San Francisco Electrical Construction Industry, the Labor-Management Cooperation Committee of IBEW Local 6 and the San Francisco Electrical Contractors Association.  

“Rather than just simply a lack of IBEW … what it appears to me is that the state is trying to approach this training question in a very decentralized, uncoordinated way, throwing a bunch of money at a bunch of different programs and hoping they work,” Lantsberg said.  

“IBEW contractors have extensive institutional memory and institutional capacity to train thousands of workers,” he said. “We’ve demonstrated in a variety of different contexts that there are plenty of EVITP certified electricians to be performing this work. What’s absolutely needed and what hasn’t been discussed is an affirmative pathway developed by the state to put those apprentices and to put those skilled and trained contractors on these jobs.”

LNG Won’t Replace Coal in Generating China’s Power, Report Says

While natural gas has taken a huge bite out of coal’s share of the electric generation market in the U.S., LNG will not have the same impact globally, according to a new report from the Institute for Energy Economics and Financial Analysis (IEEFA). 

That is because China, the world’s largest coal consumer, will not be replacing that domestic resource with imported natural gas, IEEFA said in its report, “LNG is not displacing coal in China’s power mix.” 

“Policymakers in both LNG exporting and importing countries should approach claims about the necessity of LNG as a ‘bridge fuel’ with a high degree of skepticism,” report co-author Sam Reynolds said in a statement. “The case of China clearly shows that LNG has played a minimal role in displacing coal in the country’s largest coal-consuming sectors.” 

China is the world’s largest energy consumer, with coal accounting for 55% of its primary energy demand, while natural gas, hydropower and renewables each provided 8% of primary energy consumption in 2022.  

Over the past decade, natural gas’ share of generation has stayed around 3%, while renewables have grown to 16% and contributed more to coal’s falling share of generation from 70% to 61%. 

“Although China is the world’s largest LNG importer, the country’s coal demand has increased more than LNG imports every year since 2017,” the report said. “Claims about the role of LNG in displacing coal usage appear to be based on hypothetical arguments that coal generation would be even higher without gas-fired power.” 

While coal’s share of total generation has fallen over the last decade, its generation output has grown by 1,700 TWh, which suggests coal is not being displaced in absolute terms, while wind and solar have contributed to its decline in share of overall generation. 

Recently, China even passed policies to “strictly control” coal-to-gas switching and promote domestic production of coal and natural gas. 

“As a result, coal capacity additions have far outpaced additions of gas-fired power plants, and both are dwarfed by wind and solar installations,” the report said. “National energy sector development plans have called for coal plants to provide flexible operations to integrate variable renewables sources.” 

LNG also costs three times as much as coal in China, so even if prices for imported gas drop as new supply comes online in the near future, those declines likely will not be enough to close the gap. China has replaced coal heating with gas heaters in urban areas, but the paper suggested that would be hard to replicate in the countryside. 

China is the fourth-largest producer of natural gas, which has been growing in recent years, but it is the largest coal producer, last year hitting record production of 4.7 billion tons, 14% above 2021 levels. 

China is also the largest importer of coal, with imports accounting for about 10% of supply needs.  

“The country’s coal, natural gas and LNG demand have all increased since 2016,” the report said. “China consumes nearly seven times more coal than natural gas, though consumption of both fuels increased by roughly the same amount (8 exajoules) between 2012 and 2022.” 

Electricity generation has grown 6.3% a year since 2013, with coal, natural gas, wind, solar and nuclear increasing every year over that time frame.  

“Looking ahead, generation from coal and renewables will continue to exceed gas-fired generation, and capacity investments suggest that LNG and gas will continue to play a limited role in coal displacement,” the paper said. “In recent years, gas plant capacity additions have paled in comparison to coal and renewables additions.” 

China had 1,051 GW of installed wind and solar at the end of 2023 and could hit 1,300 GW this year, beating its target of installing 1,200 GW of wind and solar by 2030. That trend has the International Energy Agency predicting the country could get 50% of its generation from renewables by 2028, while IEA’s projections for gas power are flat through 2030. 

DOE Dives into US Offshore Wind’s Growing Pains

U.S. Department of Energy officials say they’re optimistic the costs of offshore wind energy development will begin to ease by the end of the decade. 

They struck an optimistic tone during a June 25 webinar, acknowledging the growing pains the industry has had as it establishes itself in the United States but saying the problems of the past 20 months can be overcome. 

Jigar Shah, director of the DOE Loan Programs Office, said while the complicating factors were not unique to U.S. offshore wind development, U.S. offshore wind was particularly vulnerable to them. 

“With all that said, global cost headwinds have begun to stabilize and new offtake solicitations from states are de-risking development moving forward,” Shah said. “Government and industry are drawing on lessons learned with ongoing efforts to refine project and supplier procurement, foster regional collaboration for supply chain and transmission planning and make investments to support necessary enabling infrastructure.” 

Jocelyn Brown-Saracino, DOE’s offshore wind lead, said wind energy area leases held by developers total more than 50 GW of potential generation capacity. Offshore wind is a headline priority for the Biden administration, which plans to auction more leases this year. 

“That said, the last year was a tumultuous one for offshore wind. The industry was hit by a perfect storm of global macroeconomic challenges,” she said. “The sector is adapting, however, and improved risk mitigation is being built into industry planning.” 

The webinar was centered on the DOE’s “Pathways to Commercial Liftoff” report for offshore wind, released in April during the 2024 International Partnering Forum. (See Interior Announces Updated OSW Regs, Auction Schedule at IPF24.) 

Lead authors Brett Anders and Jonah Uri summarized three key takeaways from that report: 

    • Offshore wind will play a critical role in coastal decarbonization and would be hard to replace with other sources of emissions-free power. 
    • Roughly 6 GW of projects are under construction but there needs to be 10 GW to 15 GW this decade to ensure development of a domestic supply chain and reduce some of the long-term risks of building supporting infrastructure. 
    • State policy drives the offshore wind market more than it drives other technologies; federal policy mechanisms such as the Inflation Reduction Act offer support but have not been enough on their own to overcome the challenges created by macroeconomic conditions. 

Globally, offshore wind is a mature technology that has grown tenfold in the past decade and is projected to grow fivefold in the next decade, they said. 

The United States is late to the table, however, home to less than 0.5% of the world’s operational capacity and struggling to add more. 

More than half of the projects contracted off the Northeast coast have been canceled or have canceled their offtake contracts in the past year, victims of soaring costs and supply chain or infrastructure constraints that made it impractical to proceed to construction under the financial terms negotiated. 

The projects being contracted now are much more expensive. The levelized cost of electricity (LCOE) has risen from $85/MWh for fixed-bottom offshore wind projects that reached final investment decision (FID) in 2021 to a projected $140/MWh for projects reaching FID in 2023-2026.  

That is mainly due to the rising cost of capital, cost of construction and cost of operation. Offshore wind is highly sensitive to the cost of capital, said Anders, a member of the market analysis team at the DOE’s Office of Technology Transitions. A 2% increase in the cost of debt alone would lead to a roughly 20% increase in LCOE. 

The report estimates that FIDs reached in 2030 will be back down to $84/MWh through a combination of decreasing interest rates, commodity prices and inflation, and because of tax credits and policy support. 

“Given the inherent uncertainties in the market, particularly with respect to macroeconomic challenges, these estimates should not be interpreted as a cost forecast but rather a framework for understanding the cost of offshore wind today and into the future,” said Uri, a transaction specialist at the Loan Programs Office. 

The economics seen in the era after the Great Recession and before COVID or the war in Ukraine offer some basis for optimism, the report notes: As worldwide installed offshore wind capacity surged from 3 GW in 2011 to 33 GW in 2021, the LCOE of new wind farms gradually decreased 60% through factors including supply chain efficiencies, de-risked construction, technology innovations, institutional knowledge and turbine upsizing. 

Some of the complicating factors in the United States today, such as lack of domestic manufacturing capacity, ports and specialized installation vessels, are particularly sticky, Uri said: They must be put in place at a cost of hundreds of millions of dollars each before the projects that will pay for them can be built. 

“So, the early movers are a primary engine to fund the long-term ecosystem buildout for offshore wind here in the U.S., whether that’s ports, vessels, supply chain, etc.,” he said. “It’s a key area of risk that we focus on and part of the reason why building out the initial wave of projects and getting over this hump, of this chicken and egg, is a key force to help lock in the future of the industry.” 

The tone of the webinar and the report on which it is based is optimism in the face of setbacks. 

A central feature of the DOE “Liftoff” series of reports on new energy technologies is the projection of the liftoff — the point at which an industry sector begins actively contributing to decarbonization goals and has a sustained pipeline of projects regularly reaching completion.  

“We found that offshore wind liftoff can be achieved in less than 10 years driven by deployment of projects in the 2020s, several of which are under construction today,” Anders said. “Liftoff for offshore wind will require steady deployment enabled by continued refinements to project sequencing and funding.” 

NJ Senate Energy Committee Backs PJM Interconnection ‘Skip’ for Solar

New Jersey’s Senate Environment and Energy Committee on June 20 passed a bill (S3308) supporters said would allow grid-scale solar projects of up to 20 MW to bypass PJM’s interconnection queue and connect to the grid through their local utility. 

The committee voted 5-0 to advance the bill, which would require electric utilities to “accept, process and approve” solar projects of 2 MW to 20 MW to the transmission and distribution system, unless the application is incomplete or the utility believes the interconnection would be “unsafe or a risk to the stability of the utility’s electric distribution or transmission system.” In those cases, the utility would have to provide the developer with recommendations on how to modify the proposal to make it complete or “reconfigure, downsize or otherwise modify” it to remove the risk. 

The bill would require the utility to “timely process any complete interconnection applications received.” The owner or developer of an approved project would be required to pay all the interconnection costs that are “identified by the electric public utility” and would be compensated for the electricity supplied by the utility, according to the bill. 

Committee Chair Bob Smith (D) said the bill, “in a nutshell, in some ways allows interconnectors to skip the PJM process.” He added, however, that he is “not 100% sure of that.” 

Fred DeSanti, executive director of the New Jersey Solar Energy Coalition, said the bill would provide an alternative to the extensive delays experienced by projects in seeking interconnection through PJM’s process. 

“We’ve got projects that are viable, that are just sitting there waiting,” he said. “And so all this bill does is, it says, ‘Hey, if the public utility has jurisdiction over the line, and if we meet all the requirements of the public utility … why shouldn’t they be able to approve it?’ We don’t necessarily need PJM at that point.” 

Joseph Gurrentz, director of external affairs for the New Jersey Utilities Association (NJUA), said one question still to be resolved is whether the bill defines the “electric transmission and distribution system to apply only to the electrical systems within New Jersey,” and therefore under the jurisdiction of the Board of Public Utilities. If not, he said, the projects could “inadvertently butt up against the jurisdiction over regional transmission infrastructure” of FERC. 

Asked for comment about the bill, PJM spokesman Daniel Lockwood said the RTO “has requirements to interconnect into the transmission system that have been approved by [FERC].” 

“Whether a prospective resource is required to follow that process depends on the size of the resource and where it wants to interconnect,” he said. “All of our states have their own interconnection processes, as some resources interconnect into the grid that is overseen at the state level.” 

Like all grid operators across the U.S., PJM has an interconnection queue clogged with proposed renewable resource projects. FERC approved a PJM proposal to overhaul its interconnection queue process in late 2022; the commission then issued Order 2023 last July, which required grid operators to revise their processes to include a “first-ready, first-served” cluster methodology, among other changes.  

PJM in May told FERC the RTO’s new commission-approved process already complies with Order 2023, as it “parallels many reforms PJM has already implemented” (ER24-2045). It argued it was eligible for “independent entity variations” under the rule. (See PJM Reaches Milestone on Clearing Interconnection Queue Backlog.) 

But on June 20, several clean energy and environmental organizations filed joint protests against PJM’s compliance filing. 

“PJM stretches the meaning of the ‘independent entity variation’ beyond any reasonable interpretation or application,” argued one group that included the American Clean Power Association. “Should the commission accept the compliance filing, PJM would completely avoid compliance with significant portions of” Order 2023. 

“The queue is so badly backlogged that PJM is not reviewing any new applications — and will not do so until 2026 at the earliest,” said another group that included the Natural Resources Defense Club. “At the same time, PJM is sounding the alarm about a reliability crisis because new generation cannot come online quickly enough to replace retiring power plants.” 

But “PJM resists reform to its interconnection process. PJM proposes very few changes to comply with Order No. 2023, and the few changes it proposes do not meet the order’s rigorous standards.” 

The RTO has not stopped accepting applications, Lockwood said, but new interconnection requests “will be studied starting in 2026 as we move the previously existing projects through the process.” 

Other State Efforts

The New Jersey bill follows other efforts by the state to improve and speed up the interconnection process for renewables as it strives to meet its aggressive clean energy goals. 

The state is seeking to install 12.2 GW of solar energy by 2030; it had about 4.85 GW of installed solar capacity at the end of April, according to the latest figures publicized by the BPU. 

The BPU on April 30 approved a package of rules designed to streamline the utility interconnection application process. Part of it included enabling applicants to get an early indication of the project feasibility and costs. (See New Jersey Opens 4th Offshore Wind Solicitation.) 

At the senate committee hearing June 20, NJUA’s Gurrentz said the organization was “not taking a position on the bill today,” but it is concerned that [it] could detract from some of the progress that’s gone on at the BPU and ship the application backlog that existed at PJM to a similar problem at home at our utility companies.” Another concern is the requirement to handle “very large” solar projects, up to 20 MW. 

“Undertaking these studies to determine the impact of such large interconnections on power quality, reliability and the stability of the electrical grid will take time, and it may divert time and resources that could be spent elsewhere,” he said. 

Gurrentz was the only person to testify in person on the bill, but it drew written expressions of support from Environment New Jersey, the New Jersey Division of Rate Counsel, the Mid-Atlantic Solar Energy Industries Association and the New Jersey Sustainable Business Council. 

Texas PUC Adds OPUC’s Hjaltman as 5th Commissioner

Texas’ Public Utility Commission is back to its full five-commissioner complement with the appointment of Courtney Hjaltman, CEO of the Office of Public Utility Counsel (OPUC) since 2022. 

Texas Gov. Greg Abbott named Hjaltman to the PUC on June 24 for a term that expires Sept. 1, 2025. She fills the seat left vacant by Will McAdams, who stepped down from the PUC in December to focus on his family and health. 

Abbott said Hjaltman’s service to the state and her legal expertise makes her the “ideal choice” to serve on the commission. “Courtney will ensure that Texans in every corner of our state have access to quality utility services for years to come,” he said in a statement. 

As OPUC’s CEO, Hjaltman advocated for Texas’ residential and small commercial customers. During the ERCOT Board of Directors’ meetings June 17-18, she voted against a protocol change revising an ERCOT ancillary service over concerns it would raise consumers’ rates. That likely means she will have to recuse herself when the PUC considers the protocol change. 

Hjaltman was Abbott’s deputy legislative director when she was appointed to OPUC and has more than 17 years of state service, much of it in the legislature. She holds bachelor’s degrees in in both corporate communications and government from the University of Texas and is a graduate of the governor’s Executive Development Program at UT’s Lyndon B. Johnson School of Public Affairs. 

State lawmakers increased the size of the PUC from three commissioners to five after the disastrous and deadly 2021 winter storm. The three incumbents at the time lost their jobs in the storm’s aftermath.  

Report: Industrial Electrification Should Focus on ‘Easy to Abate’ Sectors

The U.S. could ramp up the electrification of heavy industry by 50%, reduce the sector’s fossil fuel use by 25% and cut its greenhouse gas emissions by 100 million metric tons per year by 2030, according to a new report from Schneider Electric’s Sustainability Research Institute.

But hitting those ambitious targets will require a shift of focus, the report says. Instead of prioritizing long-term solutions for the hardest-to-abate industries, such as petrochemicals, oil and coal, a different approach could zero in on the lower-hanging fruit of individual processes that can be electrified with existing technologies and without major changes to production.

“Emissions are not all equal,” the report says. “Those that can be reduced more rapidly hold much greater value than those that could be reduced in the future (even if massive).”

Pushing toward President Joe Biden’s goal of reducing the nation’s GHG emissions by 50 to 52% from 2005 levels by 2030, the U.S. has focused on electrification of transportation and buildings via incentives in the Inflation Reduction Act. But industrial electrification varies from sector to sector, the report says.

Electric arc furnaces are widely used in steel production, but options for electrifying the high-temperature process heat needed for chemicals and oil and gas refining still are in the demonstration phase, according to the Department of Energy’s recent Pathways to Commercial Liftoff: Industrial Decarbonization report.

Industry accounts for about 23% of U.S. greenhouse gas emissions, according to EPA. The Schneider report notes that five sectors ― chemicals, petroleum and coal products, primary metals, nonmetallic minerals and paper ― make up close to 75% of that total.

Traditional approaches to industrial decarbonization require that certain hard-to-abate industries continue to rely on natural gas or other fossil fuels to produce the high heat they need, until alternative technologies such as green hydrogen, carbon capture and sequestration, and small modular reactors can be commercialized at scale.

The report cites 2020 research from the California Energy Commission suggesting that building electrification could drive a switch away from natural gas and a decrease in the customer base, driving up natural gas prices for buildings and industry. Natural gas prices for industry could double by 2030, the CEC report predicts.

“This is particularly relevant in the context of rapid relocalization of a number of industries in the country,” the Schneider report says. “Will these new facilities be built for a net-zero world, relying on alternative and sustainable energy resources, or will they be connected to the existing natural gas grid and perpetuate reliance on fossil fuels?”

To move toward electrification, the report breaks down industrial energy use and emissions into subprocesses ― direct and indirect, process and nonprocess ― and identifies which could be electrified quickly in the coming decade. For example, most nonprocess energy use ― that is, energy not used for manufacturing but for building operations such as lighting and space heating and cooling ― could be rapidly electrified with existing technologies.

A second phase of industrial electrification would include the technologies currently being demonstrated but not yet deployed at commercial scale, especially for targeted processes in sectors such as food and beverage, textiles and electrical equipment, the report says.

Of the 21 industrial sectors analyzed in the report, the combination of the first and second phases could push eight to 80% electrification and 16 to at least 60% within a decade.

The report notes that half the reductions in fossil fuel use and GHG emissions will come from “easy to abate” industrial sectors, rather than hard-to-abate processes.

The report acknowledges the reduction in fossil fuel use will increase electricity demand ― by about 300 TWh per year ― but assumes that this new demand would be met with the wind, solar and storage sitting in interconnection queues across the country, providing additional efficiencies and emission reductions.

Getting the Finances Right

Beyond 2030, a third phase of industrial electrification would require innovative technologies still in development, such as electric “cracking” furnaces used in the production of petrochemicals and other electric furnaces, the report says.

Such innovations could drive industrial electrification to 64% across sectors, with 14 sectors hitting 80%, the report says.

“This major opportunity challenges the current hard-to-abate-centric approach to industrial decarbonization, which suggests little is achievable until new innovations deploy at scale.”

The obstacles ahead include a lack of information about the potential benefits of industrial electrification, getting the finances right and “grid reinforcements, which take several years to materialize.” The report provides general, mostly familiar recommendations.

To raise public and industry awareness, the report proposes the launch of dedicated state offices or clearinghouses to advance industrial electrification.

Getting the finances right will require making the cost of electrification competitive or at least comparable with natural gas, through tax incentives but also new approaches to electricity rate-setting, including time-of-use rates, to promote system flexibility.

Grid modernization and expansion will take time and will “come at the expense of natural gas grids and their associated revenues,” the report says. “This also requires a specific policy focus to ensure a smooth transition.”

FERC Preparing Multiple NERC Decisions

ERO Enterprise stakeholders will be closely watching FERC’s open meeting this week for updates on several items related to NERC and its reliability standards. 

NERC’s proposed cold weather standard EOP-012-2 (Extreme cold weather preparedness and operations) is among the topics the commission might be deciding at its meeting (RD24-5). The ERO submitted the standard for approval in February after NERC’s Board of Trustees approved it. 

FERC ordered NERC to develop the new standard last year to replace EOP-012-1, which the commission approved last year while noting numerous “undefined terms, broad limitations, exceptions and exemptions, and prolonged compliance periods” that must be addressed before EOP-012-1 takes effect this October. (See FERC Orders New Reliability Standards in Response to Uri.)  

The replacement standard has met some criticism from stakeholders: This year, the ISO/RTO Council (IRC) expressed “united opposition” to EOP-012-2 and called on FERC to remand the standard back to NERC for revision. In its comment, the IRC said NERC’s proposed requirements were “subjective [and] unclear,” for example by excusing generator owners from implementing freeze protection measures by claiming a “cold weather constraint,” or by granting overly generous exemptions for existing generating units.  

NERC dismissed IRC’s objections in an April filing, indicating that its drafting team had aimed to “provide a high bar for generators that operate in cold weather” while addressing concerns that overly stringent requirements could push generator operators to not use their facilities in cold weather at all.  

Assessment Proposal Still Under Consideration

Also on FERC’s agenda is the commission’s proposal to require NERC to submit performance assessments every three years, shortening the timeline from the five-year cycle currently in effect (RM21-12).  

FERC suggested the shortened time frame in 2021, saying a quicker turnaround would “provide better continuity” in the commission’s oversight of the ERO Enterprise and its ability to identify potential performance improvements more quickly. The Notice of Proposed Rulemaking was issued alongside an order for NERC to audit the compliance monitoring and enforcement programs of all regional entities. (See FERC Orders Audits of All REs by 2023.) 

NERC and the REs pushed back on the commission’s plan, claiming they would “place a burden on ERO Enterprise staff … that would outweigh any potential benefits.” Specifically, respondents warned of the time required to coordinate with REs, incorporate stakeholder feedback and gain approval from NERC’s board, and said adhering to a shorter time frame could prevent the ERO from reviewing the breadth of topics that it normally does in its assessments. 

In this year’s draft performance assessment posted for comment in April, NERC suggested that FERC terminate the proceeding. The most recent filing in the docket was from the Western Interconnection Regional Advisory Body in 2021, endorsing FERC’s proposed three-year timeline. 

FERC Considering IBR Rule Changes

The final ERO-related item in FERC’s agenda is NERC’s proposed updates for its Rules of Procedure relating to registration of inverter-based resources (RR24-2).  

NERC developed the ROP changes last year as stage 1 of its three-stage registration process approved by FERC in May 2023. They will revise the definitions of generator owner and operator to create a new category, GO-IBR, for entities that own or operate IBRs that either have or contribute to an aggregate nameplate capacity of at least 20 MVA and are connected to a common point of connection with a voltage of at least 60 kV. 

If FERC approves NERC’s ROP changes this week, the ERO’s next step will be to identify candidates for GO-IBR registration by May 2025, and then to register GO-IBRs by May 2026.