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November 14, 2024

Reports Detail Causes, Impact of Local Opposition to Renewables

Two new reports quantify the local opposition renewable energy developers are facing with many of their U.S. projects and offer insight on how to address it.

The first-of-its-kind Berkeley National Laboratory’s report, “Survey of Utility-Scale Wind and Solar Developers,” finds that a third of siting applications submitted by developers in the past five years have been canceled and about half have been delayed by at least six months, in many cases because of local pushback.

Four out of five developers were at least moderately concerned that community opposition will get in the way of decarbonization goals.

Good Fences Make Good Neighbors,” a collaboration by researchers at Berkeley Lab and Michigan universities, focuses strictly on large-scale solar systems. It is based on 54 interviews with a broad range of stakeholders examining the concerns about these facilities.

Pattern of Delays

The wind and solar survey by three Berkeley Lab researchers drew responses from 123 people at 62 companies that collectively are responsible for about half of U.S. wind and solar development from 2016 to 2023.

Among the findings:

    • Most projects take four to six years from initial public announcement to commercial operation date; about 20% take longer.
    • Local ordinances or zoning regulations, grid interconnection and community opposition are the leading causes of project delays and cancellations in the past five years.
    • Project delays and cancellations are slightly more common for solar than for wind and most often occur during the permitting process.
    • Project cancellations result in average non-recoverable costs of more than $2 million each for solar projects and $7.5 million each for wind.
    • Community opposition to wind and solar is cropping up more frequently and becoming more expensive to address; it delays solar projects 11 months on average and wind projects 14 months; developers expect it to become even more prevalent in the next five years.
    • About 95% of respondents say opposition often is caused by a vocal minority; about half find opposition is driven by outsiders; middle- to high-income communities are more likely to push back on proposals than low-income areas.
    • Less than a third of developers say it is easy to predict opposition, but most agree that larger proposals are more likely to be contentious.
    • Visual impact is the most likely root of community opposition for both solar and wind, followed by impact on community character and property values; additionally, noise is a frequent concern with wind proposals and loss of agricultural land with solar plans.
    • Developers typically begin community engagement after securing site control; most developers find it effective in addressing concerns and reducing opposition and say it results in fewer cancellations; in-person meetings with stakeholders are ranked the most effective means of engagement.
    • Many respondents said earlier engagement might have been a good idea with their most recently canceled project, but a few said earlier engagement allowed more effective opposition to form.
    • The most common design changes in response to community feedback on solar projects are changes to vegetation screening, exclusion of properties and increased setbacks; for wind projects, it is revised turbine placement, increased neighbor compensation and exclusion of properties; for both technologies, increase of community subscription or ownership was the least common change.
    • Community engagement boosted costs approximately $1,100 per megawatt on successful wind projects and $700 on solar.

Building Trust

The report “Good Fences Make Good Neighbors: Stakeholder Perspectives on the Local Benefits and Burdens of Large-Scale Solar Energy Development in the United States” was prepared by the same three researchers from Berkeley Lab and two each from the University of Michigan and Michigan State University.

They note that a rapid increase of solar and wind generation is needed to meet national decarbonization goals and that the Energy Information Administration predicts 63 GW of solar capacity to be installed in 2024 alone.

This effort often relies on residents willing to host these systems, the authors write, and depends heavily on permitting approval by local and state officials and policymakers.

These officials and local residents offer far less support for large-scale solar (LSS) projects than national surveys suggest, the authors say. They interviewed nine developers, 32 people who live near solar facilities, seven government officials and six utility representatives to try to understand why.

They identified eight typical concerns and a set of recommendations to address them:

    • Public meetings have little positive effect on residents’ perceptions of LSS; many people are unaware of the processes and feel left out. Policies should be considered to require developers to engage in one-on-one conversations to identify and address concerns.
    • Residents use the term “developers” as a catchall for builders, owners and operators, leading to confusion and distrust; also, residents should have more opportunity to provide feedback when construction is complete and the facility is online. Officials should better delineate and communicate organizational responsibility over the life of the project.
    • Rural communities may be overwhelmed by a sudden influx of LSS construction workers and their needs. Developers should contract with local businesses to meet the needs of their project and of the community before starting construction.
    • Residents living near LSS projects often are ignored in subscription efforts. Developers should, at a minimum, advertise such opportunities via direct mail and at public meetings.
    • Residents often are unaware of the LSS impact on tax revenues or have a negative impression of it. Officials should tie specific services to the tax benefits or replace tax revenue with predictable, scheduled payments.
    • The visual impact of interconnection infrastructure often is ignored during pre-construction community engagement. Developers should provide detailed renderings of substations and other infrastructure, not just the solar arrays; they should provide tours of nearby LSS sites.
    • Previously developed land in rural areas may not be perceived as more suitable than greenfields for LSS developments. Developers should not assume LSS will be seen as a beneficial use of disturbed land.
    • The costs of not developing solar rarely are a conversation point. Developers and officials should discuss the more permanent infrastructure that could occupy the same land with potentially greater impact on neighbors, such as subdivisions and trailer parks.

NERC Board to Vote on Rule Changes for IBRs

A set of proposed changes to NERC’s Rules of Procedure (ROP) that would create a process for registering owners and operators of inverter-based resources (IBRs) will go before the ERO’s Board of Trustees for a vote in February, the organization announced this week. 

NERC developed the proposed ROP changes last year as stage 1 of its three-stage registration process, which FERC approved in May (RD22-4). (See FERC Approves NERC’s IBR Work Plan.) The process specified that NERC would submit the first stage to the commission within a year after approval; the second stage, identifying candidates for registration, is to be completed within two years, with registration to be finished within three years. 

The rule changes will affect Appendices 2, 5A and 5B of the ROP; respectively, these concern definitions of terms used in the ROP, NERC’s Organization Registration and Certification Manual, and the compliance registry criteria. 

In Appendix 2, NERC intends to update the definitions of generator owner (GO) and operator (GOP) to include “entities that own and maintain or operate [grid]-connected … IBR.” The proposed changes would also update the definition of “reserve sharing group” (RSG) to be consistent with what was proposed in Project 2022-01 (Reporting ACE definition and associated terms), which passed its final ballot in December. 

The RSG changes are part of NERC’s planned changes to Appendix 5B as well. In addition, the ERO proposed to add a new category to the GO and GOP registry criteria for entities that own and maintain or operate IBRs with aggregate nameplate capacity of at least 20 MVA, working through a common point of connection with a voltage of at least 60 kV. Further changes will clarify which entities are candidates for registration and have access to NERC’s review panel process. 

Finally, Appendix 5A will be updated to “reflect NERC’s scope of authority to register entities that own, operate or use [grid] assets consistent with the revisions in Appendix 5B,” and to clarify the type of review to be applied to registration appeals. 

NERC posted the proposed changes for industry comment from Sept. 13 to Oct. 30. The final ROP changes before the board next month will reflect the feedback the ERO received through this process. 

In response to a comment from Advanced Energy United expressing concern about a supposed lack of specificity regarding which facilities are to be registered, NERC said it would update the definition in Appendix 2 with more detail about whether IBRs outside the Bulk Electric System (BES) — and therefore not subject to NERC’s reliability standards — would be required to register. 

The Edison Electric Institute and Evergy also expressed concern about the “unintended consequences” that could arise from the use in the proposal of the term “bulk power system” (BPS), which refers to the entire electric grid, including facilities not subject to the ERO’s standards. The respondents explained that while BES is “well understood [and] used in the context of the applicability of reliability standards,” BPS is less well defined and consequently could “lead to ambiguity and confusion.” 

NERC replied that the ERO “is not modifying its approach to ensure that reliability standards … support an adequate level of reliability,” and that the ROP updates will not impact its standards development or compliance enforcement efforts. 

In addition, NERC incorporated clarifications to Appendix 5B in response to a concern from AEU that the proposal lacked a means to appeal registration decisions for non-BES facilities. The final proposal will reflect that the “registration review panel process is available to owners, operators and users of the BPS, not only BES.” 

NextEra: Disruption Only Strengthens the Company

Noting “disruption often presents opportunity at NextEra Energy,” CEO John Ketchum said Jan. 25 the company relied on 25 years of experience with renewable energy to navigate “clear headwinds for renewables” over the past two years.

Ketchum told financial analysts during NextEra’s quarterly earnings call that its competitive, clean energy business, NextEra Resources, had its best year yet by adding about 9 GW of new renewable and storage origination to a backlog that now exceeds 20 GW. About 5.6 GW of renewables and storage were commissioned during the year, NextEra said.

“We successfully managed through the disruption,” Ketchum said. “We believe that the disruption over the last two years has made NextEra Energy an even stronger company. Our business model is more resilient. Our development platform is even more advanced, and our supply chain is more diversified than it has ever been.”

Ketchum noted inflation and inflation rates have declined from their peaks, solar suppliers have been provided with more certainty around rules for imports and new solar supply chains have led to lower panel costs that have declined by about 25% from their peak over the past 24 months.

“Ultimately, all these tailwinds are great for customers, and we believe that should drive greater renewables demand in 2024 and beyond,” he said.

NextEra reported year-end earnings of $7.31 billion ($3.60/share), up from $4.15 billion ($2.10/share) the year before. Fourth-quarter earnings were $1.21 billion ($0.59/share), compared to $1.52 billion ($0.76/share) for the same quarter in 2022.

Ketchum expressed frustration with NextEra’s stock performance this year. The company’s share price closed at $57.98 Jan. 25, down $4.94 from a Jan. 8 peak of $62.92.

“We recognize and are disappointed by the underperformance in the share price, and as we start 2024, we remain steadfast in our continued focus on execution and creating long term value,” Ketchum said. “Bottom line, we believe NextEra Energy is well positioned headed in the 2024.”

Xcel: Coal Closures to Continue

Xcel Energy also reported year-end and fourth-quarter earnings Jan. 25. Annual earnings were $1.77 billion ($3.21/share), compared with $1.74 billion ($3.17/share) for the same period a year ago.

For the quarter, earnings were $409 million ($0.74/share), compared with $379 million ($0.69/share) during the same quarter in 2022. Xcel reaffirmed its 2024 EPS guidance of $3.50-$3.60.

Xcel CEO Bob Frenzel | © RTO Insider LLC

CEO Bob Franzel told financial analysts that the retirement in December of the first of three coal-fired units at the Sherburne County Generating Station (Sherco) sets the stage to retire all of its coal plants by 2030. Sherco’s other two units are targeted for closure in 2026 and 2030. (See Xcel Says Coal Retirements on Track Despite South Dakota PUC’s Plea for Extensions.)

“This is a milestone as we work to exit coal by 2030 and another sign that we’re leading the nation’s clean energy transition,” Franzel told financial analysts.

Xcel plans to replace the units with 2.1 GW of wind and 2.5 GW of solar with what it says will be the largest solar facility in the Midwest.

The company’s share price closed at $58.89, up 67 cents on the day. Xcel opened the year at $63.47.

MISO to Re-examine Schedule for Reviewing Expedited Tx Projects

CARMEL, Ind. — MISO’s Planning Subcommittee this year will tackle possible modifications to the RTO’s expedited project review process, which allows transmission developers to begin construction earlier than MISO’s annual approval process usually allows.  

The RTO’s Planning Advisory Committee on Wednesday voted to allow the subcommittee to begin deliberations in March on a new schedule for the study process to better manage the increasing number of requests.  

At a Jan. 24 PAC meeting, expansion planning engineer Amanda Schiro said expedited requests until recently have been few enough not to burden MISO resources.  

“However, in the past three years, we have seen large load additions that increase the volume and complexity of expedited requests,” Schiro said, adding that requests often are driven by “spot load growth,” such as data centers.  

MISO late last year said it’s become inundated with expedited review requests and that it likely needs to overhaul how it handles transmission projects that can’t wait until the usual December board approval to begin construction. (See MISO Board Approves $9B MTEP 23; Members Deliberate on New Expedited Review Rules.)  

Schiro said the expedited requests and their “isolated processes” are causing a “strain” on MISO’s planning staff to study all expedited requests alongside the RTO’s annual Transmission Expansion Plan (MTEP).  

Schiro said MISO held 17 meetings over 2023 to review individual projects and the RTO needs to reduce the frequency of meetings. She said MISO might contain project submission times and introduce a timeline to accomplish a more streamlined process.  

“We’d like to reduce that number both for us and our stakeholders,” she said.  

Schiro said when conducting outreach on the issue, stakeholders urged MISO to keep the “valuable” expedited process. She said MISO has no plans to discontinue expedited reviews.  

However, the Union of Concerned Scientists’ Sam Gomberg said he thought MISO’s plan to focus only on the expedited review timeline “misses an opportunity” for the RTO to plan for load additions more proactively.  

Under the existing process, MISO conducts individual studies on expedited requests to confirm the projects won’t result in reliability violations before allowing them to proceed ahead of the usual MTEP cycle.  

Stakeholders have suggested MISO enact voltage or cost thresholds so small projects don’t have to go through an expedited project review.  

Generally, projects must rate at least 100 kV or cost at least $1 million to be considered candidates under MTEP and compelled to apply for expedited treatment when necessary.  

This month, MISO analyzed an expedited need from Jonesboro City Water and Light, which proposed an $874,000 rebuild of a 69-kV line in northeastern Arkansas due to state Department of Transportation work. Some stakeholders at a Jan. 16 South Technical Study Task Force questioned whether MISO should have devoted time to examining such a small project.  

CPower Event Charts the Future of Virtual Power Plants

NATIONAL HARBOR, Md. — The demand response business has changed so much in recent years that the term has fallen out of favor for “virtual power plants” (VPPs), and the trend is only going to continue as residential customers adopt more distributed energy resources. 

The only thing aggregators like LS Power subsidiary CPower used to deal with was actual customer demand, CEO Michael Smith said in an interview on the sidelines of an event his company hosted on Jan. 23. 

“Now we have on-site solar and storage,” Smith said. “Now we have a lot of backup generation fuel cells. We have interruptible computing loads, so we talked about data centers, or Bitcoin mining, that can change their load profile and actually change their operations. So, all of these things give us more tools in the toolbox. At the same time, the needs of the grid have become more complex.” 

With residential customers getting more involved in the electric grid with the adoption of electric cars, distributed solar and batteries, and smart appliances, that shift is only going to accelerate. 

“I think that the overall residential market just in terms of gigawatt-hours is going to be larger than the C&I [commercial and industrial] market, if you think about water, heaters, AC, that kind of thing,” Smith said. “But getting to it is a challenge; it’s a data challenge. But it’s also a controls challenge that has to be highly, highly automated.” 

Many of the large C&I customers that CPower serves trim their demand at least in part by having an employee flip a switch, but residential customers need to have that process, Smith said. 

That looming change has caught the attention of the U.S. Department of Energy, which is increasingly focused on helping VPPs roll out across the country, said Loan Programs Office Senior Adviser Jennifer Downing (no relation to reporter), who wrote the department’s “Pathways to Commercial Liftoff” report for the technology. (See DOE Report Lays out Commercialization Path for VPPs.) 

“Well, a big reason why now is that we are about to experience a tsunami of DER adoption,” Downing said in public remarks. “And that’s true across three categories of DERs.” 

Generation DERs like solar; flexible loads like smart thermostats and water heaters; and distributed batteries are all rolling out over the next decade with almost 25 GWh of capacity by 2030, she said, which pales in comparison to the amount of new load from electric vehicles over the same time period that will add hundreds of megawatts of batteries to be served by the grid. Not all the EVs will be plugged in at once, and often they will be unable to shift when they charge. 

“But if even a fraction of this capacity is available to virtual power plants to help balance supply and demand of the grid, that’s an enormous potential,” Downing said. 

The ability to orchestrate when some of those cars are charged will be key to supplying them with power reliably and affordably, and VPPs can make that happen, Smith said. 

All the changes going on now are transforming the grid, which has generally operated the same way it has since the days of Thomas Edison and Nikola Tesla, she said. 

“But now with increased distributed generation, we’re finally changing the physicality [of] the grid, which is what we’re experiencing right now,” she added. “So, it’s a balance: We’re always going to have central station generation, [but] we’re going to have less of it relative to the overall kind of load demand needs of the grid. More of that demand will be satisfied via on-site generation.” 

Solar is the main agent of change, but storage and fuel cells and other technologies will also play a part. That change is going to impact how much transmission and distribution grids are operated, Smith said. 

FERC Order 2222

FERC Order 2222 was meant to set the stage for that transition, and while it does represent a major step forward, Smith and other CPower executives at a media briefing said that its implementation has fallen short of what the VPP industry would have liked. The implementation was dogged by questions about cost and jurisdiction, said Kenneth Schisler, CPower senior vice president of regulatory and government affairs. 

“But it was a very positive step in the right direction,” Schisler said. “So, let’s recognize that regulation gets to where it needs to be over a period of time. I think we have to acknowledge that even in the markets where we’re not as happy with the result of the implementation of Order 2222, it’s a positive step in the next direction.” 

FERC left a lot of discretion on the details up to the ISO/RTOs and their utilities, which has led to uneven implementation and will likely require a follow-up “Order 2223,” he added. 

No regulator or politician is going to be able to stop the tidal wave of DERs that Downing spoke of, and that transition would be better served by having them play well with the wholesale markets, Schisler said. 

“The question is, do you want these resources operating in the underbrush?” Schisler said. “Or do you want them aggregated where you have visibility and a level of control, and you can begin to model and plan around their expected behaviors? And that’s, I think, where we have a very positive contribution to make.” 

NYISO is the only organized market that has changed its participation model, with all the others using the old DR participation model that does not reflect the major changes the industry has seen in recent years, he added. 

One common issue with ISO/RTOs is they still tend to plan around large, central-station power plants, said CPower Senior Director Aaron Breidenbaugh. 

“If the only tool you have is a hammer, every problem looks like a nail, and to them every problem looks like a 500-MW power plant,” he added. “So, of course, you have to have six-second telemetry. So, of course, it has to be nodally located, or it’s going to completely screw up the price. Of course, it has to be individually metered.” 

While FERC has some work left to do on VPPs and DER integration, the bulk of the activity is going to happen at the state level, where regulators have primary jurisdiction over the distribution system, Schisler said. State laws are helping to drive increased adoption of DERs, and even once skeptical states have started to embrace the role aggregators like CPower can play in coordinating those new resources. 

FERC Order 719 required ISO/RTOs to remove barriers to DR, but it also let states opt out of letting their customers participate in wholesale markets as DR. That was included in the 2008 order because some states felt that DR could be a backdoor way into federally mandated retail competition, Schisler said. 

The commission could end that opt-out now after some recent court findings; it has a pending complaint before it asking it to do so (EL21-12), while U.S. Rep Sean Casten (D-Ill.) has introduced legislation requiring that step. But Schisler argued that the issue should not be forced onto states. 

“I think the opt-out is not constructive, and I would prefer it not be there; taking it away is a different proposition,” he added. “And our approach has been to work with states in the Midwest, and we’ve enjoyed a fair amount of success in the last year. We’re seeing great progress and in states like Michigan, Missouri and Indiana.” 

Missouri especially was a landmark case in part because it never even considered endorsing retail competition, but now it has opened to third-party aggregators like CPower. It is also split between multiple wholesale markets. 

“If a state like Missouri that has figured out a model to make it work, you know, I think other states will follow suit,” Schisler said. 

Report: Biden Admin to Evaluate LNG Terminal’s Impact on Climate

The Biden administration is planning to delay its decision on approval of a major LNG export terminal in order to evaluate the project’s climate impacts, The New York Times reported.

The delay could extend through the elections in November and could affect 16 other proposed export terminals, the Times reported, citing three unnamed sources. [Editor’s Note: The Department of Energy announced the delay on Jan. 26.]

The decision comes on the heels of an extended pressure campaign from climate activists to stop the projects, with focused opposition on the Calcasieu Pass 2 (CP2) project in Louisiana. If approved, CP2 would be the largest LNG export terminal in the country, with a capacity of about 20 million tons of natural gas per year.

CP2 needs to be first approved by FERC, which evaluates projects’ direct environmental impacts, before it moves to the Department of Energy, which decides whether the export of the fuel is in the public interest, which includes the consideration of upstream and downstream GHG emissions.

But those evaluations do not include any estimate of those emissions’ cumulative impact on climate change. The Times reported that the White House has asked DOE to analyze that, as well as the project’s impact on the economy and national security.

CP2 would essentially be an expansion of an existing export terminal in Cameron Parish, La. FERC approved the first terminal in May 2019, though not without debate among the commissioners over the climate issue. Former Commissioner Richard Glick (D) insisted that FERC had been directed by the D.C. Circuit Court of Appeals to evaluate proposed gas projects’ impacts on climate change, and he dissented on the approval. (See Glick Disputes FERC ‘Breakthrough’ on LNG Projects.) The commission had reached a compromise in which it quantified the upstream and downstream emissions but made no determination as to their impact on climate change.

FERC has continued to insist it cannot “determine credibly whether the reasonably foreseeable GHG emissions associated with a project are significant or not significant in terms of their impact on global climate change”; Commissioner Allison Clements (D) has continued to disagree. (See related story, FERC Approves Pipeline to Supply New TVA Cumberland Gas Plant.)

Climate activist and author Bill McKibben, one of the project’s leading opponents, called the delay “the biggest thing a U.S. president has ever done to stand up to the fossil fuel industry.”

A December letter to the Biden administration signed by 170 scientists said the current queue of LNG export terminals “could lead to 3.9 billion tons of greenhouse gas emissions annually, which is larger than the entire annual emissions of the European Union.”

The letter cited preliminary research from climate scientist Robert Howarth of Cornell University that found lifecycle carbon emissions of LNG are between 24 and 274% higher than coal.

While scientists and climate activists have applauded the decision, it has been met with outcry from the fossil fuel industry. The American Petroleum Institute reposted an opinion from The Wall Street Journal Editorial Board arguing that the delay “won’t reduce global emissions” but “would be a gift to America’s adversaries and show Europe that the U.S. isn’t a reliable ally.”

Senate Minority Leader Mitch McConnell (R-Ky.) called the delay “a functional ban on new LNG export permits,” adding that the administration’s “deference to climate extremists continues to sell out American consumers and U.S. allies.”

A report from ClearView Energy Partners noted that the climate review requirement seems likely to extend to all 17 proposed LNG export projects, although this has yet to be announced. ClearView added that the delay is unlikely to be well received by the U.S.’ European allies, who have relied on LNG exports amid Russia’s invasion of Ukraine.

“If a pause is in the offing, the issue would seem more a political matter than an economic or diplomatic one — that is, mobilizing young, climate-focused voters who could make a difference in closely contested ‘swing’ states,” ClearView said.

According to the Times’ report, the White House is unconcerned about CP2’s contribution specifically, as the U.S. is already exporting so much gas.

A new report from Friends of the Earth, Public Citizen and BailoutWatch pushed back on the narrative that increased LNG exports are needed to support European allies.

“Contracts with European customers represent the smallest share (18%) from pending LNG facilities,” the report found. “Contracts with Asia Pacific customers account for 30% of total volume, with the remaining 52% going to commodity firms and other portfolio buyers.”

The report also said Europe is on track to reduce gas consumption in half by 2030 compared to 2019 levels and concluded that “long-term infrastructure is a poor solution to short-term supply needs.”

Ultimately, the outcome of the pending projects may hinge on the results of the 2024 election. The two remaining Republican contenders, former President Donald Trump and former Ambassador to the U.N. Nikki Haley, have both expressed strong support for increasing domestic fossil fuel production.

“We will export as much liquefied natural gas as we can,” Haley told a New Hampshire crowd in the days leading up to the state’s primary Jan. 23. Shortly after, she was interrupted by several climate activists who criticized her for taking money from the fossil fuel industry.

Industry Approves New Cold Weather Standard in Final Vote

The impasse over the ERO’s latest cold weather standard has ended, with EOP-012-2 (Extreme cold weather preparedness and operations) finally receiving enough votes from industry stakeholders this week to pass its third formal comment and ballot period. 

The standard went before industry Jan. 16, with voting wrapping up Jan. 22. It received 205 votes in favor and 30 against, for a segment-weighted value of 81% for passage. Fifty-six respondents either abstained or cast no vote. 

NERC’s Standards Committee approved the shortened ballot period at its meeting last month, in hopes of passing the standard before a February deadline imposed by FERC. (See Standards Committee Authorizes Shortened Ballots.)  

The commission ordered NERC to file the standard within a year when it approved the predecessor, EOP-012-1,last February, citing shortcomings in the standard including “undefined terms, broad limitations, exceptions and exemptions, and prolonged compliance periods.” 

NERC’s Board of Trustees will now consider the standard for approval and submission to FERC. A spokesperson for NERC confirmed that the standard will be on the agenda for next month’s board meeting in Houston.  

The positive result means the board will not have to exercise its authority under section 321 of NERC’s Rules of Procedure to approve a standard without a successful ballot. Board Chair Ken DeFontes warned at the board’s last meeting in December that such action might be necessary to meet FERC’s deadline. (See NERC Board May Force Action on Cold Weather Standard.) 

Voters Focus on Clarity

The margin for EOP-012-2 marks a significant turnaround from the standard’s last ballot round, which closed Nov. 30 with a 58% weighted vote in favor of passage. An earlier vote fared even worse, with only a 44% segment-weighted vote for approval. 

Comments from participants in the most recent ballot round indicated that most stakeholders had come around on the standard. Martin Sidor with NRG Energy said the standard drafting team’s most recent changes would “generally address the issues raised by industry” in previous rounds. Edison Electric Institute said the standard “provides sufficient clarity to allow EOP-012-2 to be auditable.” 

However, ACES Power disagreed, casting one of the few votes against the standard. The energy management company’s comment, which was endorsed by several other participants, expressed “grave concerns” with the proposed standard’s definition of “generator cold weather constraint.”  

The standard defined the term as “a limitation that would prohibit a generator owner from implementing freeze protection measures” in at least one generator component. ACES took issue with the standard’s use of the word “reasonable,” warning that such a vague word could “lead to inconsistent application throughout the … regions.” Other unclear words and phrases cited by ACES included “broadly implemented” and “areas that experience similar winter climate conditions.”  

Donald Lock of Talen Generation cast another “no” vote, similarly fearing that the wording of the standard was not sufficiently clear. As an example, he noted that the expression “reasonable cost consistent with good business practices” could be interpreted to deem “all existing plants to be acceptable since they were winterized per the … business practices of the owner.” 

Lock suggested that “rather than continue to adjust semantics,” NERC should make winterization criteria for new facilities “explicit” — with a list that is actively updated as technology progresses — while urging FERC to allow owners of existing plants to be reimbursed for upgrades. He said the ERO should limit mandatory actions for existing facilities, to include identifying conditions under which forced outages and derates may occur. 

“Above all else, good business practices require that winterization capabilities … must be done right the first time, nor should the goalposts move about over the years,” Lock said. 

NJ Awards Contracts for 3.7 GW of OSW Projects

The New Jersey Board of Public Utilities awarded contracts to a new set of offshore wind proposals Jan. 24 (Docket No. Q022080481). 

The Leading Light Wind and Attentive Energy Two projects would total 3,742 MW of capacity. The contract awards are a shot in the arm for the Garden State’s highest-in-the-nation offshore wind goals after Ørsted canceled the Ocean Wind projects in late 2023. 

However, the bounceback will not be immediate. 

The new projects are not expected to come online until 2031 and 2032. Ocean Wind 1 had already begun onshore construction, planned to start offshore construction this year and had projected completion in 2025. 

Also, Ocean Wind 1 was a mature project, with a stack of approvals in hand including the all-important green light from the U.S. Bureau of Ocean Energy Management. 

Attentive Energy Two (1,342 MW) and Leading Light (two phases of 1,200 MW each) must now navigate extensive local, state and federal review processes before beginning construction.  

They must also avoid the financial and supply chain pressures that doomed the Ocean Wind projects — but many analysts expect those constraints to ease significantly for the U.S. offshore wind industry in the next few years. 

In fact, the Attentive and Leading Light projects themselves will help ease the supply chain crunch, as both development teams have committed to expand New Jersey’s new offshore wind manufacturing and operations facilities, including fabrication of towers and monopile foundations. 

In one example, EEW is expected to produce more and larger monopiles in-state because of this commitment. 

New Jersey officials said Jan. 24 that the projects will result in a guaranteed direct impact of 5,218 job-years and $2.5 billion in spending. Adding indirect and induced jobs and spending, the impact rises to an estimated 27,103 job-years and $6.8 billion. 

Ambitious Goals

New Jersey Gov. Phil Murphy (D) set a goal of 3,500 MW of offshore wind in 2018, then bumped it up to 7,500 MW in 2019 and 11,000 MW in 2022. 

The state’s first solicitation yielded Ocean Wind 1 (1,100 MW). The second yielded Atlantic Shores Offshore Wind (1,510 MW) and Ocean Wind 2 (1,148 MW). 

The third solicitation drew interest from four developers: Atlantic Shores, Attentive, Community Offshore Wind and Leading Light; Community subsequently withdrew its bid. 

An expedited fourth solicitation is underway, with contract awards expected to be announced in the first half of this year. 

Cancellation of Ocean Wind 1 and 2 was announced on Halloween 2023 — a nasty trick for those who had expended political capital on behalf of the projects and a delightful treat for the many opponents of offshore wind in New Jersey. 

Opposition to offshore wind has been particularly vocal along the Jersey Shore, due to cost, environmental impact and visibility from popular beaches. On this last point, Leading Light and Attentive would be more than 40 and 47 miles from land respectively at their nearest point, and all but impossible to see from shore. 

Those opposed to offshore wind due to its cost will have the following numbers to work with: 

Leading Light Wind offered a first-year price of $112.50/MWh for offshore renewable energy credits (OREC). That works out to a 20-year levelized OREC price of $139.53 and a 20-year levelized net cost of $70.05 once revenue credits and avoided costs are factored in. Average monthly cost to ratepayers (in 2023 dollars) is estimated at $3.71 residential, $31.86 commercial and $278.42 for industrial. 

Attentive offered a first-year price OREC price of $131, a 20-year levelized OREC price of $165.14 and a levelized net cost of $96.75. Average monthly cost to ratepayers is estimated at $3.13 for residential, $26.87 for commercial and $234.80 for industrial. 

For comparison, the Ocean Wind 1 contract award (Docket No. Q018121289) in 2019 specified a first-year OREC price of $98.10, a levelized 20-year price of $116.82 and a levelized net cost of $46.46. Estimated monthly ratepayer impacts (in 2019 dollars) were $1.46 residential, $13.05 commercial and $110.10 industrial.  

A reporter asked BPU senior scientist Kira Lawrence on Jan. 24 why Attentive Energy Two’s ORECs would be noticeably more expensive than Leading Light’s. 

“There is an economy of scale associated with the Leading Light Project,” she replied. “It’s a 2,400-MW project, so there are a number of economies of scale that can be achieved with a larger project size. Attentive is a 1,342-MW project.” 

The reporter did not ask about the contract that Attentive is now negotiating with New York for the proposed Attentive Energy One in another portion of the same lease area off the New Jersey coast. Its capacity would be 1,400 MW, presumably creating some economies of scale. 

Kate Klinger, a senior member of Murphy’s staff, added that bids were evaluated for not just cost but their holistic benefit to the community. “Some of what is included in that pricing is direct support for offshore wind supply chain facilities, for workforce development, benefits that will be felt directly in communities in New Jersey as well.” 

Leading Light is a joint venture of Invenergy and energyRE. It said Jan. 24 it was reviewing the BPU order and looking forward to working with New Jersey to advance its clean energy transition. 

Attentive Energy Two is a joint venture of TotalEnergies and Corio. 

Mixed Reaction

The abrupt cancellation of Ocean Wind 1 and 2 — even after a financial concession by the state and even amid preparatory work by the developer — was a bitter setback for state leaders and offshore wind proponents. (See Ørsted Cancels Ocean Wind, Suspends Skipjack.) 

New Jersey wind

New Jersey Board of Public Utilities President Christine Guhl-Sadovy | NJ BPU

BPU President Christine Guhl-Sadovy alluded to Jan. 24 before the board’s unanimous vote in favor of the two contracts. 

“In spite of some setbacks,” she said, “we’re on track. If anything, this solicitation award shows that we’re moving full steam ahead. These two projects will help cement New Jersey’s position as an offshore wind leader and bring the clean energy and economic benefits to our state that have been such a critical part of Gov. Murphy’s agenda.” 

Commissioner Zenon Christodoulou went a step further, warning the developers that the BPU would not let the state get skunked again, promising “fanatical, even tyrannical oversight” of progress, if necessary. 

“The contracts we are awarding are tight and hold the awardees accountable to our production schedules and pricing schemes,” he said. “We will enforce those guarantees with relentless oversight and unwavering defense of our ratepayers. There will be no hat-in-hand requests, no unforeseen expenses, no nickel-and-diming.” 

Clean energy groups greeted Jan 24’s’s action warmly. 

New Jersey wind

New Jersey Board of Public Utilities Commissioner Zenon Christodoulou | NJ BPU

Oceantic Network CEO Liz Burdock said: “New Jersey reasserts its leadership in the U.S. offshore wind sector with today’s 3.7-GW commitment and securing new supply chain investments in towers, foundations, and secondary steel manufacturing. The U.S. offshore wind market is entering a new phase of development; today’s action capitalizes the state’s early investments in a coordinated transmission system, the New Jersey Wind Port, and the EEW monopile facility to accelerate development and position the state at the center of the nation’s supply chain.” 

Anne Reynolds, vice president for offshore wind at American Clean Power, said: “Today is a key step towards achieving the state’s goal of a 100% clean energy economy by 2035. Offshore wind will bring huge economic benefits to the state and region, creating jobs and new investment opportunities for manufacturing companies and suppliers to support the necessary infrastructure needed for this new and growing industry. It is also a significant commitment to developing the New Jersey Wind Port which will generate up to $500 million in new economic activity annually for the Garden State.” 

Advanced Energy United Managing Director Nathan Willcox said: “Today’s awards set the stage for a vibrant offshore wind future in New Jersey. Offshore wind is critical to growing New Jersey’s economy, hitting our clean energy goals and improving grid reliability, and we are eager to see these projects move forward.” 

Support was far from universal, however. 

SaveLBI, a Jersey Shore activist group that sued the federal government in an attempt to block Ocean Wind, picked apart the BPU decision in a series of social media posts. 

“A bad day indeed,” it said. 

U.S. Rep. Jeff Van Drew (R-N.J.) said on X: “Today, NJBPU unanimously approved two new offshore wind projects despite overwhelming disapproval from New Jerseyans. The Murphy admin has once again ignored the will of the people in order to line the pockets of offshore wind companies at the cost of NJ ratepayers.” 

On the Facebook page of Protect Our Coast, commentary on the news ranged from snark to dismay to anger, and suggested strongly that placing the turbines out of sight beyond the horizon would not mollify most opponents. “WTF. THEY WANT WAR,” one said. 

Texas PUC Sends ESR Change back to ERCOT

Texas regulators have remanded back to ERCOT a controversial protocol change attempting to regulate energy storage resources, but not before stripping out language related to state of charge (SOC) and enforcement processes.

The unanimous decision during the Public Utility Commission’s Jan. 18 open meeting is a victory, albeit temporary, for the energy storage sector, which has been battling the proposed change since last summer. As written, nodal protocol revision request (NPRR1186) sets a one-hour SOC for energy storage resources participating in two ancillary services (ERCOT contingency reserve service and non-spinning reserve). It also includes penalties of up to $25,000 per violation. (See “PUC Delays Approval of Rule Change that Penalizes Storage Resources,” Texas Public Utility Commission Briefs: Nov. 30, 2023.)

Storage developers say the new rules hold energy storage resources (ESRs) to higher standards than conventional thermal resources and could result in fines if batteries fall below SOC thresholds and still deliver the power promised.

ERCOT staff filed a report before the meeting trying to address questions raised by the PUC in November. It said with ESR capacity projected to grow from 4.4 GW to more than 20 GW by 2026, the rules are necessary to preserve reliability. The data presented showed similar failure rates for ESRs and for thermal resources involved in the ancillary service markets (54445).

Commissioner Jimmy Glotfelty, who has declared the rule change to be “discriminatory” to energy storage, was not swayed.

“They all fail. Singling out ancillary services providers of battery storage is discriminatory. Gas plants fail. Nuclear plants fail. Coal plants fail,” he said. “That’s why we over-procure ancillary services. I just cannot pass something that puts a compliance penalty on a type of service when the data from ERCOT shows that dispatchable resources fail in the same types of services.”

“It really is a big deal from a liability perspective to make sure that those ancillary services can provide the products that we need for the duration that we need them to,” Dan Woodfin, ERCOT’s vice president of system operations, told the PUC.

Commissioner Lori Cobos said ERCOT should withdraw or table NPRR1209, a directive from the Board of Directors as NPRR1186 ran into trouble. ERCOT staff said Jan. 24 the rule change was tabled in November within the stakeholder process to allow the commission to work out its issues with 1186, which also was a board priority item.

Both measures are seen as stopgaps until ERCOT deploys real-time co-optimization, currently targeted for the latter half of 2026.

The ERCOT board now will take up 1186 and the PUC’s changes for approval before they get sent back to the commission for a final review and vote.

The open meeting took place the day before Thomas Gleeson was appointed as the PUC’s chair. Gleeson was formally sworn in Jan. 23. (See Abbott Names PUC Executive Director as Chair.)

VoLL Study to Begin

The Brattle Group will open a value-of-lost load (VoLL) survey of ERCOT retail customers in March. The results will be reported back to the PUC in August as part of the grid operator’s effort to quantify VoLL (55837).

ERCOT is analyzing the frequency of load shed, but also its magnitude and duration, with an expected unserved energy metric. According to a staff filing, every 1% improvement in a plant’s weatherization reduces the needed for 175 MW of capacity.

The commission also requested comment on DC ties, such as the Southern Spirit line. Glotfelty asked PUC and ERCOT staffs to model the effect of that line had it existed Sept. 6, the last time ERCOT was in emergency operations (55984). (See ERCOT Voltage Drop Leads to EEA Level 2.)

The PUC will discuss the issue in February.

DOE, BOEM Kick off West Coast Offshore Wind Tx Planning

The U.S. Department of Energy and Bureau of Ocean Energy Management on Jan. 17 kicked off a series of stakeholder workshops to address the specific challenges to siting transmission for the first generation of West Coast offshore wind projects.

Agency representatives said the meetings aren’t intended to produce siting or regulatory decisions, but to establish a set of recommendations and actions for publication as an addendum to the Atlantic Offshore Wind Transmission Action Plan, released in 2023. (See Feds Release Road Map for Offshore Transmission Grid.)

The Biden administration set a goal of deploying 30 GW of offshore wind in U.S. waters by 2030 and an additional 15 GW of floating offshore wind — the type needed in the deeper waters off the Pacific Coast — by 2035.

Speaking during the Jan. 17 virtual meeting, Jocelyn Brown-Saracino, offshore wind energy lead at DOE, highlighted that the U.S. now has a combined potential capacity of approximately 52 GW of offshore wind, up nearly 50% from three years ago. And in the last year, she noted, the global floating offshore wind pipeline grew from around 60 GW to about 103 GW.

Planners are looking to the West to accelerate that progress: California has established a goal of deploying 25 GW of offshore wind by 2045, and Oregon set a target of 3 GW by 2030.

But the West Coast currently lacks the transmission infrastructure to meet those goals. And while the Atlantic Offshore Wind action plan serves as a road map for planning in the Pacific, development along the West’s more remote coastlines comes with its own unique obstacles.

“We know that bringing this energy to shore poses a host of challenges,” said BOEM Director Liz Klein. “On the West Coast, the lack of off- and onshore transmission pathways to access offshore wind development and the harsh ocean energy environment [are challenges]. We need to work together to understand these challenges and to identify potential solutions.”

Another challenge lies in the complications of developing transmission that extends beyond a federal lease area. BOEM’s authority over transmission siting starts at the outer continental shelf, allowing the agency to grant easements and rights-of-way for the production, transmission and transportation of energy sources. But BOEM does not have jurisdiction over landfall sites, so a project developer must work with regional and state entities and utilities to determine the appropriate points of interconnection.

In convening the workshops, the agencies hope that engaging states, transmission operators, tribal nations, ocean users and others will foster collaboration for the development of offshore wind. The series is part of a broader effort, and DOE is finalizing the scoping phase and beginning technical analysis.

Scoping in early 2023 identified gaps in planning, including the need for more interregional coordination and collaboration with tribal governments. DOE is working with the National Renewable Energy Laboratory (NREL) to engage tribes through the Tribal Nation Offshore Wind Transmission Technical Assistance Program, which will offer educational resources, training, technical assistance and funding for participation.

Technical Progress

The effort will also get significant technical support from U.S. national laboratories. Last May, the Pacific Northwest National Laboratory (PNNL) and NREL launched the West Coast Offshore Wind Transmission Study, which over the span of 20 months will explore transmission options to support offshore wind development through 2050. The labs reviewed 13 technical studies on offshore wind development, identified key themes in the region and determined that coastal interconnection points lack existing capacity for integrating offshore wind.

Mark Severy, a PNNL adviser to DOE, also identified gaps in the body of work reviewed, finding that most studies were focused on a single region or state and lacked consensus on the optimal technology or topology for offshore grid infrastructure.

According to Travis Douville, wind systems integration portfolio manager at PNNL, the study is the first of its kind to assess the entire West Coast. It considers a variety of guiding questions, including how much offshore wind should be developed through 2050 and where, and lays out nine tasks designed to help answer those questions.

To determine where transmission is needed, task two identified a series of zonal capacity expansion targets that span the Western Interconnection and provide information on how much offshore wind could be brought online. The targets will then be used to build nodal representations to simulate information on the economic dispatch of individual generators and model various sensitivities such as weather.

Tasks three and four involve the consideration of various siting conflicts, such as ocean co-use and topology. Douville said Pacific coastline is particularly challenging due to the depth of the water and the contour of the sea floor and canyons.

The team is constructing four topology sets to help consider where projects should be built. With those in place, the researchers will conduct weather-synchronized simulations of historical and future load, wind and solar patterns to provide insights into the types and location of needed generation.

After the modeling is complete, the labs will quantify the changes to capital and production cost, emissions, resource adequacy and resilience characteristics to the system, as well as the socioeconomic impacts and benefits to coastal and ocean co-use communities.

Lessons Learned

Alissa Baker, senior technical adviser for offshore transmission with DOE’s Grid Deployment Office, discussed lessons learned from developing the Atlantic action plan.

“We’re not inventing the wheel from scratch here,” Baker said. “We’re starting with a plan and hopefully refining and learning from the things that went well and the things that could go even better here.”

Key among the insights, Baker emphasized the importance of partnerships, particularly among state and regional entities and with tribes. She also highlighted the need for greater interregional offshore topology planning that spans ISO, RTO and state boundaries.

Baker’s presentation noted that FERC Order 1000 “sets forth the current generic federal requirements for considering potential interregional transmission” but requires only “coordination” between regions. “Fully integrated interregional planning is allowed but not required and, to date, has not been successfully implemented for any large-scale infrastructure,” it said.

Baker also suggested updating NERC standards for offshore wind generation to ensure they’re applicable to ocean transmission infrastructure and offshore wind generation tie-lines.

Another key recommendation was the support of local communities through community benefit agreements between project developers and those impacted.

“We want to make sure that the communities that are impacted by infrastructure are benefiting from that infrastructure and that the benefit is something that is greater than the impact they’re perceiving,” she said.

The Jan. 17 meeting closed with a lighthearted prerecorded discussion between DOE Deputy Secretary David Turk and Laura Daniel-Davis, acting deputy secretary at the Department of the Interior, which oversees BOEM.

“The Biden-Harris administration has an ambitious goal of deploying 30 GW of offshore wind by 2030,” Daniel-Davis said. “When we get there, that’s enough to power 10 million homes and we’re going to cut 78 million metric tons of carbon pollution … all while we build a domestic supply chain, creating these good-paying union jobs, and we’re lowering consumers’ energy prices.”

Turk reflected on the Atlantic convening series workshops and their benefit to transmission planning in the West.

“It was an incredibly good forum, and I think the West Coast can do an even better job of these kinds of discussions going forward,” he said.