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November 1, 2024

ISO-NE Network Briefly Knocked Down by Hardware Malfunction

A hardware malfunction took down a number of ISO-NE systems for six hours on Wednesday, the grid operator said.

Starting at around 2 p.m. the malfunction hampered systems including email, internet, ISO-NE’s public website and market software applications, the RTO said.

The grid operator’s IT staff were able to bring networks back online by about 8 p.m., and the reliability of New England’s power system was not affected, ISO-NE said in a statement. 

“The ISO will be conducting a thorough review of the outage to determine its cause, and taking necessary steps to prevent similar disruptions in the future,” the statement said.

ISO-NE spokesperson Matt Kakley declined to provide any additional details to RTO Insider.

“Sound cybersecurity policy precludes us from discussing the details of our networks and systems in a public forum,” Kakley said.

NERC Cold Weather Standards Set for Shortened Comment Period

NERC’s Standards Committee on Wednesday agreed to shorten the time frame for industry review of the proposed new standards dealing with extreme cold weather, potentially cutting more than a month from the process in hopes of finalizing the standards before the Sept. 30 deadline set by the Board of Trustees.

At their monthly teleconference, committee members approved the posting of EOP-011-3 and EOP-012-1, the two standards proposed by the standard development team (SDT) for Project 2021-07 (Extreme cold weather grid operations, preparedness and coordination) for an initial formal comment and ballot period. They also agreed to waive the standard provisions of NERC’s Standard Processes Manual to allow the following modifications to the development process:

  • reduce the initial formal comment and ballot period from 45 days to “as little as 30 days,” with voting to take place during the last 10 days;
  • reduce any additional formal comment and ballot periods to as little as 25 days from the standard 45; and
  • shorten the final ballot period from 10 calendar days to five.

The idea to shorten the ballot periods was not a surprise for committee members: Howard Gugel, NERC’s vice president of engineering and standards, previewed the suggestion to the board at its meeting last week. (See “Standards Actions,” NERC Board of Trustees/MRC Briefs: May 11-12, 2022.) However, while the measure passed unanimously, some attendees did raise concerns about the consequences of reducing the opportunity for stakeholders to give their feedback.

“This is going to be a lot of work to be done in a very short period of time, so [focusing] on giving stakeholders as much time to work on this [as possible] would be appreciated,” said Kent Feliks, manager of NERC reliability assurance at American Electric Power. “I think we need to be really careful that we’re not missing out on voters, for whatever reason; they might just be off sick. But that’s not a lot of time to get that ballot out.”

In response, Gugel pointed out that the decision to shorten the comment period was “not unprecedented,” having been done for other projects considered pressing, including the previous cold weather standards project. (See NERC Cold Weather Team to Seek Faster Finish.) Latrice Harkness, NERC’s manager of standards development, added that staff will focus on ensuring that industry is given plenty of notification about the reduced time.

Other Standards Actions

The committee also agreed to post two other proposed standards for 45-day comment periods at Wednesday’s meeting:

  • MOD-026-2, developed by Project 2020-06 (Verifications of models and data for generators); and
  • PRC-002-4, developed by Project 2021-04 (Modifications to PRC-002).

In addition, members approved the generator ride-through standard authorization request (SAR), formally starting a new standard development process aimed at replacing PRC-024-3 (Frequency and voltage protection settings for generating resources). The SAR “proposes to replace PRC-024-3 with a performance-based ride-through standard that ensures generators remain connected to the [bulk power system] during system disturbances,” as recommended by NERC and the regional entities in response to several BPS disturbances involving widespread loss of solar, wind, battery and traditional generation resources.

Amy Casuscelli (NERC) Content.jpgAmy Casuscelli, Xcel Energy | NERC

One note of objection to the generator ride-through SAR was raised by independent member Philip Winston, who said he would have preferred that NERC’s Reliability and Security Technical Committee and its other technical committees had been given a chance to review the SAR before its approval. However, Winston chose to abstain rather than enter a formal negative vote. All other members voted in favor of the SAR.

Chair Amy Casuscelli of Xcel Energy also confirmed that the committee still plans to hold its July meeting in person at Xcel’s offices in Denver. Members will be joined by the Compliance and Certification Committee, which held regular joint meetings with the Standards Committee before the transition to remote work during the COVID-19 pandemic.

“For those of you who haven’t been involved in these joint meetings before, it’s a good opportunity to cross-pollinate between our two committees and touch base on what [we’re] working on and how we can support each other,” Casuscelli said.

Asthana Celebrates Stakeholder Process at PJM Annual Meeting

Manu Asthana 2022-05-17 (RTO Insider LLC) FI.jpgManu Asthana, PJM CEO | © RTO Insider LLC

VALLEY FORGE, Pa. — PJM and its stakeholder body were not perfect in solving complex issues in 2021, but the difficult debates led a long list of accomplishments CEO Manu Asthana said Tuesday at the keynote address of the Annual Meeting of Members.

The event at the PJM campus marked the first time in more than two years that stakeholders joined for an in-person discussion after the COVID-19 pandemic forced the RTO into remote meetings. It also was the first in-person Annual Meeting since 2019 in Cambridge, Md.

Asthana said the accomplishments of PJM and its members in a remote setting over the last year showed that they are committed to the three-prong strategic pillars laid out in December in the RTO’s paper, “Energy Transition in PJM: Frameworks for Analysis”: the facilitation of decarbonization policies in a cost-effective way through competitive markets while still maintaining reliability; doing the necessary work to “herald” the grid of the future; and creating an environment of innovation. (See PJM Energy Transition Study Released.)

“I think the stakeholder body works together well when we can show up with respect to each other’s expertise; when we can show up and assume positive intent from each other and from PJM,” Asthana said. “I think we have the power to solve really complex problems.”

2021 in Review

Asthana called 2021 a “busy year” for the RTO, stakeholders and the energy industry in general.

“Reliability is our No. 1 priority, and I feel great about how collectively we have performed against that priority over the last year,” Asthana said.

PJM Annual Meeting Panel 2022-05-17 (RTO Insider LLC) Alt FI.jpgPJM staff and stakeholders at the Annual Meeting of Members: (from left) Chris O’Hara, PJM; Dave Anders, PJM; Erik Heinle, D.C. OPC; Becky Robinson, Vistra; Manu Asthana, PJM.

 

He harkened back to the February 2021 winter storm and its impacts on his home state of Texas.

“It was a sobering reminder of the importance of what we do, the importance of keeping the lights on for the 65 million people who we serve, which is our No. 1 purpose,” Asthana said. “I felt the weight since I took this job of that responsibility; after [Winter Storm] Uri, I have felt it even more.”

PJM and its members have seen an “immense amount of work” over the last year, Asthana said, with the workload continuing to “accelerate” because of the energy transition to renewable resources and the growing number of them in the interconnection queue.

Asthana highlighted changes to the minimum offer price rule, updated effective load-carrying capability rules, and the work started at the Resource Adequacy Senior Task Force to attempt to design a clean energy or state policy procurement market.

The first-ever use of the State Agreement Approach (SAA) with New Jersey on developing offshore wind plans and becoming the first RTO to publish marginal emissions data on a nodal basis were also highlights. Asthana said the SAA is serving as a model for RTOs and ISOs around the country.

For 2022, Asthana said, PJM and stakeholders need to continue the successes of the last year by making sure the work of the RASTF is done correctly.

“I think it’s really important to get the word of the RASTF right because we’re asking things of our market that we didn’t used to ask,” Asthana said. “And we’re asking them to facilitate the policies of 13 different states and D.C. And those policies are starting to diverge.”

Asthana finished his remarks by acknowledging PJM’s two major anniversaries for 2022: 95 years as an organization, and 25 years since it FERC designated it an ISO. (It became an RTO in 2002.)

Mark Takahashi 2022-05-17 (RTO Insider LLC) FI.jpgMark Takahashi, PJM Board of Managers | © RTO Insider LLC

“This 95 years, this 25 years, belongs as much to all of you as it belongs to the people that work at PJM. I want to say thank you for supporting the RTO and for supporting our important mission and helping us get better over the last 95 years.”

PJM also announced that three of its Board of Managers were re-elected to their positions.

Terry Blackwell, O.H. Dean Oskvig and Mark Takahashi will serve additional three-year terms. Takahashi joined the board in 2016 and currently serves as chair. Blackwell joined in 2015, and Oskvig joined in 2016.

Home Solar: ‘Gateway Drug’ to Grid Technologies?

ATLANTA — Financing programs are making rooftop solar more affordable and increasing the number of consumers who may be willing to take proactive steps to contribute to decarbonization. But it will take careful utility rate design to ensure electrification comes with carbon reductions, speakers told the RE+ Southeast conference last week.

“We really look at our customers, and consumers generally, as being a big part of the solution,” said Thad Culley, senior manager of public policy for Sunrun (NASDAQ:RUN), which provides residential solar panels and batteries. “They’re both users of energy and potentially producers of energy.

“Anything we could do to influence consumer behavior to make it more compatible with operating a grid in a low carbon way, I think is important. … As we look at load growth coming with electrification — with more customers using heat pumps [and] EVs — we’re going to see that load change and potentially become more carbon-intensive, if we’re not taking measures to shape it,” he said during the opening general session of the conference, sponsored by the Solar Energy Industries Association (SEIA) and Smart Electric Power Alliance (SEPA).

Abby Hopper 2022-05-11 (RTO Insider LLC) FI.jpgSEIA CEO Abigail Ross Hopper | © RTO Insider LLC

“Solar can be an entry point for this consumer to get more engaged with the grid. When you start adding storage to the mix, not only are you shaping the customers’ load, you can do some really sophisticated things with storage [to] make the home itself a grid interactive resource,” he added. “I’m really bullish on the ability of consumers to play a large role in this.”

“What I heard you say,” joked SEIA CEO Abigail Ross Hopper, “was that solar is the gateway drug to all of these other technologies.”

Lon Huber, vice president of rate design and strategic solutions for Duke Energy (NYSE:DUK), said the utility is pursuing a similar strategy.

“We want to encourage the customer to pair their solar with a variety of different grid-beneficial technologies. That could be battery storage in the near term. We started with smart thermostats. And so if a solar customers pairs their smart thermostat with their solar, they get a 31-cent [per kWh] upfront incentive [to] help defray the costs of that investment. And they’re on [a time-of-use] rate, so if they respond to that they get additional savings.”

A study released by Lawrence Berkeley Lab in March found that although the incomes of solar adopters tend to be higher than those of the general population, 41% of adopters in 2020 had incomes below 120% of their respective area median income (AMI) — a threshold used to define low and moderate income (LMI) households.

“So solar is not just for the wealthy anymore,” said Jim Purekal, manager of market development and policy for SunPower. “There’s better access to financing for solar, specifically now through third-party ownership.”

Need for ‘Dynamic’ Time-of-Use Rates

Huber said Duke included “dynamic” time-of-use rates as part of its recent proposal to change net energy metering rules in North Carolina.

“As we all know, climate change is causing more intense storms; it’s changing the jet stream. So it can lead to polar vortex events, [a] type of event that really drives our peak,” he said. “And once something drives the peak, that drives the capital investment. A lot of dollars are [spent to prepare] for these infrequent storms.

Lon Huber 2022-05-11 (RTO Insider LLC) FI.jpgLon Huber, Duke Energy | © RTO Insider LLC

“The way we solve that is to make sure that all the resources — whether that’s a large-scale power plant all the way down to something behind the customer’s meter — have the right price signals and are geared towards solving that issue. Because solving that issue lowers the system costs, saves us carbon and enhances reliability.

“And we said, how can we tackle this problem together in a way that makes sense, and that is long term, so that we don’t have a policy battle every few years and have to worry about, ‘Oh, are we hitting a cap?’ Or do we have to do some type of study and pause things. We said let’s build software for the long term that solves a system challenge.”

The resulting proposal includes time-of-use netting, which Huber said is a “hybrid” that makes it easier to calculate savings versus instantaneous, or 15-minute, netting.

“Those polar vortex events, those are very hard to predict,” he said. “I can’t create a TOU rate ahead of time and say, ‘Oh, it will [happen on] January 20.’ So we need these dynamic price signals once there is that type of event to say, ‘Hey, customer, if you can reduce your load you’re gonna save a lot of money.’ And this can get up to 35 cents a kilowatt hour.”

PacifiCorp Wins Preliminary Permits for Oregon Pumped Storage

FERC on Thursday issued PacifiCorp preliminary permits to study the feasibility of developing two pumped hydro storage projects in Southern Oregon, strategically located near a major intertie with California.

The preliminary permits (P-15239, P-15246) are for the proposed Winter Ridge and Crooked Creek pumped storage projects. Both would be built in Lake County, Ore., within the Fremont-Winema National Forest. Each of the closed-loop systems would generate an estimated 1,460 GWh per year.

The purpose of a preliminary permit is to allow study of a project’s potential impacts before a license application is submitted. The permit gives the permit holder first priority in applying for a license for the project.

But the preliminary permit doesn’t allow its holder to access or disturb lands. Additional authorizations would be needed for those activities, FERC said in its orders issuing the permits.

PacifiCorp applied for the preliminary permits in October.

The proposed Crooked Creek project would include a 4,200-foot long, 100-foot-high embankment dam and a 4,300-foot-long, 130-foot-high dam to create upper and lower reservoirs of 52 and 50 acres, respectively.

The proposed Winter Ridge project would include a 4,700-foot-long, 120-foot-high embankment dam, and a 5,320-foot-long, 80-foot-high dam, creating upper and lower reservoirs with a surface area of 85 and 44 acres, respectively.

PacifiCorp is also looking at an alternative for Winter Ridge in which a 4,100-foot-long, 170-foot-high dam would create a 50-acre lower reservoir.

The Winter Ridge and Crooked Creek projects would both divert water from the Chewaucan River via an underground pipeline for initial and maintenance fills.

Each project would use a concrete powerhouse/pump station with three 167-MW generating/pumping units and a 500-kV transmission line to connect to substations that provide access to the Pacific AC Intertie, a major link between the Pacific Northwest and California. Fast-ramping hydroelectric resources are becoming especially valuable for firming up the variable renewable resources that are coming to dominate the grid in California and elsewhere in the West.

WaterWatch, a conservation group focused on Oregon’s rivers and streams, filed comments opposing the projects. The group said the projects aren’t feasible because of the arid environment, severe water shortages and critical ecological resources associated with the Chewaucan River and Lake Abert, a nearby salt lake that receives much of its water from the river. The lake is a major stopover for migratory shore birds.

“WaterWatch asserts that prior efforts to site a pumped storage project in this area failed and that the Commission should reject the permit rather than cause the utility, regulatory agencies and interested parties to expend time and resources on this proposal,” FERC said in both orders.

However, FERC doesn’t make public interest findings until a license application is submitted for a project, and so WaterWatch’s arguments are “premature,” the commission said.

Other groups expressing concerns about the proposed projects include the Desert Association, Oregon Wild and the Great Old Broads for Wilderness.

Some commenters who are worried about the projects’ impacts on the Chewaucan River noted that the river is being considered for a federal Wild and Scenic River designation. FERC said the Wild and Scenic Rivers Act doesn’t prohibit issuing a preliminary permit for a project, and the Chewaucan River is not yet a designated river.

The Oregon Water Resources Department said PacifiCorp should be required to monitor water flow near the point of diversion for each project for a minimum of three years before applying for a license.

FERC said it would consider impacts on water use during licensing proceedings.

“Accordingly, it might be prudent for the permittee to consider and study during the term of the permit whether there is enough water physically available to make the proposed project feasible,” the commission said.

Big Renewable Projects Take Shape in Central Wash.

A new solar farm has been proposed for Benton County, Wash., while another massive renewable project in the county has passed one state hurdle.

On Tuesday, Innergex Renewable Energy briefed the Washington State Energy Facility Site Evaluation Council (EFSEC) on its proposal to build a 470-MW solar farm in northwestern Benton County, just west of the environmentally sensitive Rattlesnake Mountain. Meanwhile, the council unanimously voted that a proposed wind-and-solar complex in the middle of Benton County meets the county’s land-use plan.

Benton County, in southwestern Washington, is home to the highly contaminated Hanford nuclear reservation, which is surrounded by an environmentally pristine buffer zone that includes Rattlesnake Mountain.

The county is already home to 63 wind turbines operated by Richland-based Energy Northwest, which owns and operates the Columbia Generating Station nuclear plant in southern Hanford. The company’s Nine Canyon Wind Project covers about 8 square miles and has a nameplate capacity of 96 MW.

Innergex wants to build its solar farm on 3,000 acres of flat farmland just west of Hanford’s buffer zone. The project would include batteries capable of storing power for four hours. The site is next to a major transmission line and is 30 to 40 miles from the nearest towns and cities. Laura O’Neill, Innergex senior environmental coordinator, said farm owners in the area are interested in the project and that the proposed site avoids environmentally sensitive lands.

The site’s fence would include openings for large animals to pass through. Western Hanford and the area west of the reservation are home to hundreds of elk.

O’Neill said Innergex plans to hold meetings with community members in July. Construction is tentatively scheduled to begin in early 2024 and is supposed to be finished by the fall of 2025.

Founded 1990 in Longueuil, Québec, Innergex develops hydropower, wind and solar projects, and has interests in roughly 80 facilities generating about 3,800 MW.

Scout Project Advances

Meanwhile, EFSEC decided Tuesday that a proposed wind-and-solar project south of Kennewick meets the land-use and zoning regulations for its site.   

Scout Clean Energy of Boulder, Colo., has proposed building up to 224 wind turbines — about 500 feet tall — on 112 square miles of mostly private land in the Horse Heaven Hills. About 294 acres of that land would also hold solar panels. The entire project is expected to be capable of producing 1,150 MW at peak output, roughly the same capacity as Columbia Generating Station.

While the Energy Northwest and Scout projects are both in the Horse Heaven Hills area, the former’s wind turbines are deep inside the hills and not visible from the Tri-Cities area that includes Richland, Kennewick and Pasco. The Scout project would be visible from Kennewick, prompting significant public outcry against the turbines cluttering up residents’ views of the landscape. 

The Benton County government, which opposes the Scout project, had found the wind-and-solar farm incompatible with the agriculturally zoned area. However, EFESC concluded differently. 

The conflict complicates matters for Scout. In Washington, a renewable energy developer can choose to go through EFSEC or the county government for land-use and zoning approval. Because Benton County’s government opposes the project, Scout is going through EFSEC. Going through the county government would require receiving a conditional use permit from county commissioners.

EFSEC’s decision Tuesday does not translate into approval for Scout’s project, EFSEC Chair Kathleen Drew said. Under state law, as EFSEC continues its deliberations, the agency is required to get input from Benton County on the project, specifically on what the county would include in a conditional use permit.

Competitive Green Hydrogen Could be Available by 2025

The goal in Europe and the U.S. to begin a significant, historic switch from carbon-intensive fossil-based fuels to green hydrogen made from water and renewable energy will happen sooner than most believe, said three experts working to make it happen: as early as 2025.

That is when they believe green hydrogen producers equipped with the right technology should be able to offer the carbon-free gas at prices as low as $1.50/kg, five years before the Biden administration’s slightly lower goal of $1/kg by the end of this decade.

The right technology would be state-of-the art polymer electrolyte membrane (PEM) electrolyzers, using dedicated renewable power produced at $20/MWh and operating only when the sun or wind is available — not relying on costly battery storage to back up the system, nor interacting with a local grid system. In most cases, battery backup would add more costs than could be recouped, at least at this point.

“It’s going to enable green hydrogen to compete effectively in the marketplace by taking advantage of low-cost solar and wind” and declining costs of PEM electrolyzers, Stephen Szymanski, U.S. marketing representative for Nel Hydrogen of Norway, explained during a webinar Tuesday.

Nel is a major global producer of hydrogen and manufactures both PEM electrolyzers and solid oxide electrolyzers. Szymanski said PEM electrolyzers are more tolerant of variable power, which is why they would work better in the scenarios under consideration.

Szymanski has been working with Mahesh Morjaria, an engineer with California-headquartered Terabase Energy, a maker of sophisticated software and other control systems for solar plants; and Parikhit Sinha, a scientist with Arizona-based First Solar, which makes ultra-efficient PV panels.

The three appeared in a webinar produced by pv magazine to explain the sophisticated modeling they developed to take into account the amount and cost of solar-produced electricity available at any particular location; the cost of PEM electrolyzers; the cost of grid power and whether it is green enough to consider using; and the cost of in-house battery storage for locations where grid power is too carbon-intensive or where there is no grid power available.

Utility-scale solar projects are already offering extremely competitive power prices, Szymanski said, low enough to make hydrogen in electrolyzers that is competitive with hydrogen made through steam reforming, which today produces 99% of the 70 million tons of hydrogen used every year by U.S. industry. Steam reforming also produces carbon dioxide when the methane (CH4) molecule is cracked, and currently that CO2 is usually allowed to escape into the atmosphere.

“When you look at some of the commitments that have been already made for developing electrolysis plants around the world, even if only about 50% of the market share went to electrolyzers, each of these sectors could contribute more than 2,000 GW of potential” power for electrolyzers, Szymanski said.

“The thing that is really driving the commercial viability of green hydrogen is the cost of wind and solar dropping significantly. Roughly 70 to 80% of the production costs of hydrogen through electrolysis is the cost of the electricity feedstock,” he explained.

Sinha said the modeling looked at a number of scenarios in an effort to figure out whether combining battery storage, stored hydrogen or relying on net-metered grid power to create a hybrid around-the-clock production plant would be more cost effective than operating an electrolyzer system with only intermittent solar and wind power.

“You need the technical components that you’re combining to be flexible in order to integrate them, and fortunately, in the case of solar, you have a great deal of scalability; whether you want a very small to very large system, you can just add more components, and similarly with PEM electrolysis, you can add more stacks and get the size you want. You can pretty much determine whatever scale of hydrogen production you want,” he said.

The ultimate objective of the modeling system is to figure out the “levelized cost” of the hydrogen production system under consideration, explained Morjaria.

“How do you configure an [electrolyzer] plant in a manner that you can get the most optimal levelized cost of hydrogen? The size of the PV plant [and] the size of the [electrolyzer] plant have to be determined based upon the electricity that will be generated from the solar PV plant, as well as whether this is an off-grid system or a grid-connected system,” he said.

“If it’s off-grid, then essentially the solar PV is going to provide most of the energy that is being utilized by the electrolyzers, whereas if it’s grid-connected, then there is a [different] potential” and the potential to make the hydrogen less green.

“But the bottom line is that when you model, you can actually figure out an optimal point. Because there are tradeoffs between the capacity of the electrolyzers versus the capacity of the PV plant and the cost associated with individual components. Typically, the electrolyzer has a fixed cost, which is as we add capacity of the electrolyzers, it increases. [But] it also results in decreasing energy costs because now we are basically using the PV plant more effectively, and you will see some examples of that as well. So, we developed this real-time simulator.

“The important point that I want to emphasize is that to make it competitive, green hydrogen does not necessarily mean that you must run the electrolyzers 100% of the time. In fact, if the electricity costs and especially with PEM electrolyzers, which are flexible, it may even pencil in even when they are not completely 100% utilized.”

As if that were not complicated enough, the trio are also developing scenarios that take into account the shifting amount of solar energy at different locations where PV solar and PEM electrolyzers might be paired to produce green hydrogen.

OSW Advocates Urge California to Think Bigger

California’s proposed offshore wind targets are too conservative and need to be increased to help the state meet its 100% clean energy goal by 2045, wind developers and academics told a panel of state energy officials Wednesday.

“You have to be bold at the outset to get the momentum to move forward and to achieve the economies and the synergies that we’re going to need,” Kelly Boyd, business development lead with wind developer Equinor USA, said. The state’s proposed goal of 3 GW of offshore wind by 2030 “is a modest initial goal, especially if we want to get to 20 GW or higher at some point.”

Boyd and others commented at a workshop hosted by the California Energy Commission to consider the recommendations of a draft report on the “maximum feasible capacity and megawatt planning goals” for wind off the California coast through 2045. CEC commissioners shared the dais with members of the California Public Utilities Commission, the State Lands Commission, the state Ocean Protection Council and the governor’s Office of Planning and Research.

The draft report recommends that the CEC adopt goals of building 3 GW of offshore wind by 2030 and 10 to 15 GW by 2045. Commissioners are scheduled to vote on targets May 24. (See Calif. Sees OSW Target of 10-15 GW by 2045.)

The report stems from last year’s Assembly Bill 525, which required the CEC, by June 1, to “evaluate and quantify the maximum feasible capacity of offshore wind … [and to] establish megawatt offshore wind planning goals for 2030 and 2045.” The effort contributes to the state’s goal under Senate Bill 100 to supply all retail customers with 100% clean energy by 2045.

CEC project manager Rhetta deMesa, one of the report’s four authors, said its recommendations were based on the commission’s prior definition of feasible as “capable of being accomplished in a successful manner within a reasonable period of time, taking into account economic, environmental, legal, social and technological factors,” all of which are expected to provide significant challenges.

‘Significantly Higher’ Potential

Advocates, however, said a goal of 10-15 GW is short-sighted.

In written comments to the CEC, University of California, Berkeley, scientists recommended the state set a goal of 50 GW by 2045, based on the National Renewable Energy Laboratory’s (NREL) estimate that California coastal waters have a “technical potential” for 200 GW or more of offshore wind.

Technical potential is the amount of offshore wind capacity that could be developed “while taking into account exclusion factors related to water depth, mean wind speed, industry uses, and environmental conflicts,” NREL said in an October 2020 report. “By contrast, gross potential is the capacity without these exclusions.” NREL estimated the state’s gross potential at nearly 1,700 GW.

“Our view is that the maximum OSW capacity is significantly higher than the reference potential [of 21.8 GW] considered by the CEC, and that CEC should consider higher 2045 planning goals that reflect the updated technical-potential finding of 200 GW,” the scientists wrote. “We suggest a 50 GW planning goal for 2045 … [because it] would reflect full consideration of the immense benefits to the grid of offshore wind.”

One of the researchers, Nikit Abhyankar, a senior scientist at the UC Berkeley’s Goldman School of Public Policy, spoke at Wednesday’s workshop.

The CEC’s wind estimates were limited to five study areas but should have been broader, Abhyankar said.

In addition, the commission’s SB 100 analysis “doesn’t really consider full economy-wide net-zero emissions by 2045,” Abhyankar said. “If you consider that, then the electricity demand would be about 100 to 120 terawatt-hours higher than what has been observed in the current SB 100 analysis.”

Meeting that demand would involve 80 to 100 GW of additional solar energy, increasing the risk of relying too much one source of renewable energy, he said.

“That’s why the role of offshore wind becomes even more critical in an economy-wide net-zero emission world,” he said.

Molly Croll, with wind developer Avangrid Renewables, said her company agrees with the CEC’s proposed 3 GW goal by 2030 but recommended setting the 2045 goal higher at 18-20 GW.

Doing that would send an important market signal to “developers and others across the supply chain, who are looking to what you’re doing today in determining how and how much they’re going to invest in the state,” Croll said. It would also help the state meet its renewable energy goals, she said.

Future technical advancements could lower the cost and increase the speed at which offshore wind farms could be built, she said.

“This is a big state,” Croll said. “We have huge demand. We have a huge coastline. The potential for offshore wind is huge, and 2045 is a long way out.”

With the CEC scheduled to vote on the draft report in less than a week, commissioners did not indicate whether they might want staff to reevaluate the wind goals for 2030 or 2045.

Meantime, the federal Bureau of Ocean Energy Management is planning to hold the first West Coast lease auctions this fall for two areas off the California coast: the Morro Bay Wind Energy Area off central California and the Humboldt Bay Wind Energy Area off Northern California. Together, the two call areas are expected to support about 4.6 GW of wind.

PNNL Breaks Ground on Energy Storage Lab

A new federal lab designed to speed up research into grid storage technologies should be up and running by the fall of 2023 — as long as supply chain problems don’t crop up.

In April, the Pacific Northwest National Laboratory (PNNL) began construction of its Grid Storage Launchpad in Richland, Wash. The project is being funded by $75 million in U.S. Department of Energy money and $35 million from non-federal sources, including the state of Washington and nonprofit science research organization Battelle.

“The Launchpad will help us make America’s grid more reliable and resilient, lead the world in inventing and exporting clean energy products, and accelerate the transition to a cleaner energy system,” Sen. Maria Cantwell (D-Wash.) said at the April groundbreaking. “PNNL has my continued support as it strives to make the Launchpad the world’s premier energy storage research center.”

The two-story building will contain 86,000 square feet of lab space with 35 lab stations to host roughly 100 researchers. Many of those researchers are currently scattered around PNNL’s campus.

As grids across the country integrate more renewable resources such as wind and solar, demands on the nation’s power grids go up and down, which makes storing electricity more difficult, Vince Sprenkle, PNNL’s senior technical adviser for energy storage, told RTO Insider.

Sprenkle said a weakness related to wind and solar is the limited amount of time that their surplus generation can be stored in batteries for future deployment, unlike the fuel for gas-fired plants, which can be kept in tanks, or the water for hydropower, which can be stored in reservoirs. The Grid Storage Launchpad will seek ways to improve batteries to hold energy longer, he said.

Overall, the PNNL lab will develop and test new grid storage technologies, ranging from researching basic materials, improving components and testing prototypes. The lab’s testing equipment will be able handle storage projects of up to 100 kW.

A significant problem in developing power storage technology is that it usually takes at least 10 years to develop a concept from an idea to a working real-world piece of equipment. “We can’t afford that kind of development timeline,” Sprenkle said.

The Launchpad is supposed to accelerate the timeline by looking at final uses as soon as an initial idea is proposed, as opposed traditional path of looking for final uses partly through the development process. Sprenkle speculated the laboratory could possibly trim development times to five years.

PNNL expects to receive high-level grid storage goals from the federal government, with the national laboratory designing a plan of attack for DOE feedback. “Our job is to de-risk it for the United States,” Sprenkle said.

The Launchpad will “probably be ready in the fall of 2023, barring any supply chain problems,” he said.

ERCOT, PUC Say Texas Ready for Summer

Texas grid leaders met with reporters in Austin Tuesday to once again allay concerns about ERCOT’s management of the state’s electric supply.

“We’re ready [for the summer]. Our reforms are working. Our transition from a crisis-based business model to a reliability-based business model is showing results,” said Public Utility Commission Chair Peter Lake, referring to ERCOT’s conservative operations practice that has the ISO bringing on more reserves and doing so sooner.

“I want Texas to know that we will continue to operate with a margin of safety …. that will bring more generators online sooner rather than later,” he said.

Echoing Texas Gov. Greg Abbott, Lake said, “This grid is more reliable than it has ever been before.”

Brad Jones (Admin Monitor) Content.jpgERCOT’s Brad Jones details the grid operator’s response during tight conditions this week. | Admin Monitor

“We feel very confident about the summer,” ERCOT interim CEO Brad Jones said, pointing to a capacity planning reserve margin that has steadily increased from less than 10% in 2019 to 22.8% this year. That figure accounts for forecasted customer demand, emergency demand-reduction programs and “typical” unplanned outages and renewable energy production.

“As always, we have to be careful about those times where it’s both dark and still,” Jones said. “We have to make sure that we have the dispatchable generation to balance our fleet when wind and solar are not available, but we’re very happy to have that wind and solar development we’ve had over the past two years. It’s making our grid stronger.”

As Jones and Lake spoke, 12.6 GW of thermal generation was offline, an improvement over Monday’s 20% outage number. Wind and solar helped pick up the slack, as they have during recent days, by combining for about 29 GW of energy.

Demand peaked at just a bit more than 70 GW shortly before 4 p.m. CT Tuesday, the second straight day it has cracked the 70 GW mark.

‘Exactly as Intended’

But while May’s heat has set records, the state’s weather will only get hotter. ERCOT is expecting a record peak demand of 77.3 GW, according to its summer seasonal assessment of resource adequacy (SARA) released Monday. That would shatter the current all-time mark of 74.8 GW set in August 2019.

ERCOT expects to have 91.4 GW of resource capacity available to meet that demand during the summer, which extends into September. The SARA report includes seven risk scenarios that reflect different assumptions for peak demand, unplanned thermal outages and renewable generation output.

The ISO included the installed capacity ratings of individual generating units in the SARA for the first time as well as reporting the aggregate installed capacities of resource categories. Installed capacity ratings are based on the maximum power a generating unit can produce during normal sustained operating conditions.

Jones and Lake addressed ERCOT’s call for conservation last Friday when six gas-fired generators went offline for various reasons. Jones termed the call a “request” and noted ERCOT saw 300-400 MW of capacity freed up after the ISO issued an advisory. (See ERCOT Continues to Feel the Heat.)

“We were very surprised when several generators failed right before the peak,” Jones said. “Absent that, there would not have been a conservation appeal. It would have been a normal Friday. It wasn’t a conservation appeal. It was just a request to Texas to help us out over this weekend. It wasn’t that we’re in a dangerous situation at all; it was to make sure that we’re doing everything possible to keep the grid reliable.”

Lake was asked how he was so confident the lights would stay on given the heat yet to come and the possibility of further thermal outages.

“I know the lights are going to stay on because of all the reforms we put in place and because when we do encounter challenges like we saw last weekend, the multiple reforms are complementary and build off of each other to create even greater reliability,” he responded. “That’s how we know we can keep the lights on.”

The doubters remain. KUT Radio’s Mose Buchele was quick to paraphrase the press conference.

“Calling for statewide energy conservation out of the blue on Friday means the system is working well and exactly as intended,” he tweeted.

The grid operator on Monday also released its twice-yearly capacity, demand and reserves (CDR) report, a 10-year forecast of planning reserve margins (PRM) for the summer and winter peak load seasons through 2032. ERCOT defines the PRM as the percentage of resource capacity greater than firm electricity demand — which accounts for potential load reductions available through interruptible load programs — available to cover uncertainty in future demand, generator availability and new resources.

The CDR projects peak demand of 79.6 GW next summer that would erase this year’s expected peak. It forecasts a 36.2% PRM in 2023, 3.2 percentage points lower than the previous 39.4% margin reported in December’s CDR report. The decrease is due mainly to delays of planned projects that were previously expected to be in service by July 1, 2023.

ERCOT expects to add 13.1 GW of generation for the summer peak, with solar resources accounting for 11.7 GW available on an average basis during peak demand hours. Battery storage developers are expected to add 4.8 GW of capacity for summer 2023. The ISO currently assumes storage will provide ancillary services rather than support customer demand.

The reserve margin peaks at 46.2% for summer 2024.

The CDR expects summer peak demand to crack 90 GW in 2028, but projects energy efficiency programs to reduce that by 5.3 GW. Summer demand would peak at 95.7 GW in 2032, with energy efficiency reducing that by 7 GW, according to the report.

Winter demand would 74.7 GW during 2032-33, with the same assumed energy efficiency reduction. The CDR assumes only minimal increases in gas capacity by then, with no new contributions from coal or nuclear. Solar is projected to provide more than 31 GW, with an 81% capacity factor.