October 31, 2024

CAISO’s Revised DERA Plan Complies with Order 2222, FERC Finds

FERC on Thursday approved CAISO’s second attempt at complying with Order 2222, which requires RTOs and ISOs to foster participation of distributed energy resource aggregations (DERAs) in organized markets.

Thursday’s ruling found that CAISO fully addressed the directives the commission laid out last June in its order on the ISO’s first compliance filing (ER21-2455). In that order, FERC said the ISO — as the first RTO/ISO to implement a DERA model — had already complied with “the vast majority” of Order 2222 mandates, but the commission determined its proposal came up short in a number of areas. (See CAISO Order 2222 Filing Needs Some Work, FERC Says.) 

Chief among the commission’s concerns last June was CAISO’s partial compliance with Order 2222 provisions around the role of distribution utilities in DERA market participation. 

Order 2222 requires RTO/ISO markets to accept bids from a DERA if the aggregation includes resources that are customers of utilities that distributed more than 4 million MWh in the previous fiscal year. But it prohibits grid operators from accepting bids from an aggregation that includes resources that are customers of smaller utilities without the approval of the relevant electric retail regulatory authority.

Thursday’s ruling found that the ISO’s revised proposal had complied with FERC’s directives to:

  • specify the criteria utilities must use to determine whether each DER is capable of participating in an aggregation;
  • develop a process in which utilities will determine that a specific DER’s participation in an aggregation “will not pose significant risks to the reliable and safe operation of the distribution system;” and
  • share with utilities any “necessary information” and data collected about the individual DERs participating in an aggregation.

The commission further found that CAISO’s revised proposal met a requirement that the ISO share with a DER provider any information about a DER that a utility provides to CAISO as part of the utility review process. In approving CAISO’s related tariff revision, the commission also ruled that Pacific Gas and Electric’s protest that the rule could conflict with non-disclosure obligations between the ISO and utilities represented an “untimely request for rehearing” of FERC Order 2222-A, since PG&E “did not seek rehearing or clarification of the commission’s determination during the rehearing period of that order.” But the commission added that it acknowledged PG&E’s concern about “the appropriate protection of confidential information,” saying Order 2222-A does not preclude the use of NDAs.

“We believe that in a case where a utility distribution company declines to provide information because of confidentiality concerns, one avenue CAISO could use to facilitate participation of distributed energy resources is to encourage the distributed energy resource provider to sign a non-disclosure agreement in order to obtain the information needed to participate in the CAISO market via an aggregation,” the commission wrote.

The commission also found that CAISO’s revised proposal satisfied Order 2222’s requirement to revise its tariff to include a dispute resolution provision as part of the utility review process. Responding to a concern by PG&E, the commission clarified that the DERA dispute resolution process is not intended to supersede the existing process outlined in the ISO wholesale distribution tariff for resolving disputes related to interconnection issues — including the interconnection of DERs.

Lastly, the commission approved CAISO’s request to set the effective date for the DERA rules to no later than Nov. 1, 2024.

“As CAISO explains, ‘software enhancements required for this compliance will be highly complex, incorporating both energy injection and load curtailment into a single model that allows aggregations over a wider footprint than the majority of ISOs and RTOs have proposed,’” the commission wrote.

CAISO Regionalization Bill Put on Hold

The author of a California bill that could eventually turn CAISO into an RTO said he will hold it in the legislative committee that he chairs while he tries to overcome opposition from labor unions, ratepayer advocates and his fellow lawmakers.

State Assemblymember Chris Holden (D), chair of the Assembly Appropriations Committee, said at the start of a committee hearing Tuesday that he still intends to move forward with AB 538.

“Interactions with my colleagues and stakeholders throughout the West persuade me that there is strong and widespread interest in working together on the details of governance and operations of a Western regional transmission organization,” Holden said. “I’m putting AB 538 on hold for now to allow that to happen. I’m hopeful of rapid progress, opening the way for legislative action at the earliest possible date.”

The move was not a surprise. In a hearing of the Assembly Utilities and Energy Committee in April, committee members allowed the bill to move forward only on the condition that Holden hold the bill in the Appropriations Committee while he addresses concerns with several key provisions. (See Committee Gives CAISO RTO Bill a Cool Reception.)

The bill would allow CAISO to develop a plan for independent governance, free from legislative oversight and with board members who are not appointed by California’s governor. (See Lawmaker Introduces Bill to Turn CAISO into RTO.)

CAISO is a public benefit corporation created by the legislature in 1998. The governor appoints the ISO’s Board of Governors, and the State Senate confirms them.

Having independent governance is essential for CAISO to become an RTO because other states will not join one dominated by California. But Golden State lawmakers have refused to cede control.

Holden’s prior efforts to expand CAISO governance to include other states in 2017/18, which were supported by former Gov. Jerry Brown, failed because of opposition from fellow Democrats in the legislature.

Until this week, Gov. Gavin Newsom has been silent on Holden’s latest effort, but he issued a statement after Tuesday’s announcement indicating support.

“I’d like to thank Assemblymember Holden for his leadership in the discussions around a Western regional transmission organization,” Newsom said. “I Iook forward to our continued work with the legislature, California stakeholders and our partners in other states to advance this important effort on enhanced regional collaboration that will benefit all the West.”

Circumstances have changed since Holden’s prior effort to expand CAISO governance. Notably, SPP is planning to establish a Western version of its Eastern Interconnection RTO, called RTO West, and is planning Markets+, a program with a day-ahead market.

Proponents of Holden’s bill have warned lawmakers that Western entities will abandon CAISO’s successful interstate Western Energy Imbalance Market and join SPP unless the ISO can offer an RTO with independent governance.

Jan Smutny-Jones, CEO of the Independent Energy Producers Association, told energy committee members in April that SPP “will be a different RTO than the one that would be built by [CAISO]” and asked whether they wanted a Western RTO to be run from California or Arkansas, where SPP is based.

Opponents of the measure say expanding CAISO to other states will siphon clean-energy construction jobs to states such as Arizona and Nevada, where it is cheaper to build and operate generation and storage resources.

They also contend that California lawmakers should not relinquish control of CAISO.

“The creation of a multistate RTO divests the legislature from having any ongoing role, and, in fact, you’re being asked to make yourselves and state agencies and the governor completely irrelevant,” Matthew Freedman, staff attorney for ratepayer advocacy group The Utility Reform Network, said in April’s hearing.

FERC Approves NERC’s IBR Work Plan

FERC on Thursday approved NERC’s proposed plan for registering owners and operators of inverter-based resources (IBRs) (RD22-4).

While the commission declined to incorporate any of industry stakeholders’ suggested changes to the plan, it reminded them there is still considerable work left to shape the final registration framework and encouraged them to raise their concerns during the ERO’s stakeholder process.

NERC’s registration proposal originated from a FERC order in November requiring the ERO to develop a work plan for identifying and registering owners and operators of IBRs that are connected to the grid and “in the aggregate have a material impact” on reliable operation but are not currently required to register with NERC. (See FERC Addresses IBRs in Multiple Orders.)

The commission was motivated by concerns over the ongoing transition from conventional generation resources to IBRs like wind and solar facilities. Specifically, current rules defining which resources qualify as part of the Bulk Electric System — and thus must register with NERC, follow its reliability standards and respond to its alerts — do not apply to many smaller IBRs.

NERC submitted its registration strategy in February, proposing a three-stage process: revise its Rules of Procedure (ROP) to create a new registered entity function, generator owner-IBR (GO-IBR), within 12 months of FERC’s approval of the plan; identify candidates for GO-IBR registration with 24 months of approval; and register GO-IBRs within 36 months of approval.

The GO-IBR category would include IBRs that have an aggregate nameplate capacity of 20 to 75 MVA interconnected at a voltage of at least 100 kV, or an aggregate nameplate capacity of at least 20 MVA interconnected at less than 100 kV. IBRs connected to the local distribution system would not be included; neither would IBRs that are distributed energy resources. NERC said it would also consider developing reliability standards to apply to GO-IBRs.

The ERO’s original submission neglected to mention registration of generator operators; at FERC’s prodding, NERC said in March that it intended GO-IBR to refer to both owners and operators of IBRs, but it acknowledged that this practice would differ from its use of separate terms for existing registered generators and could create confusion. NERC pledged to consider “other potential designations” when revising the ROP.

Stakeholders were generally supportive of NERC’s proposal, but some asked the commission to modify the ERO’s plans. For example, the American Clean Power Association (ACP) and the Solar Energy Industries Association (SEIA) objected to the idea of only registering IBRs with an aggregate material impact on reliability, suggesting that this measure could result in the registration of IBRs that “use equipment and settings that ensure that they ride through grid disturbances and avoid reliability concerns that were observed in past events.”

Solar energy developer Pine Gate Renewables urged the commission to ensure that NERC’s work plan does not place IBRs at a competitive disadvantage compared to conventional generation, noting that the commission has previously ordered that reliability standards not create undue advantages for one competitor over another. Pine Gate, along with SEIA and ACP, also argued that older IBRs may be unable to meet the standards’ performance requirements and asked for a registration exemption for IBRs with older equipment that cannot be easily updated.

In response to these objections, FERC determined that issuing specific restrictions on NERC’s ROP or standards development processes would be outside its authority. Instead, it urged stakeholders to participate in the normal feedback process to influence the ERO’s actions.

During FERC’s monthly open meeting Thursday, acting Chair Willie Phillips said reliability is “job No. 1 for the commission” and described the IBR order as an important step in dealing with the “projected addition over the next decade of an unprecedented proportion” of IBRs.

Commissioner Allison Clements said she looks forward to “engaging” with the ERO as work continues on the registration framework.

“I hope that NERC’s substantive filing on its registration approach, which is still to come, ensures an effective registration framework but does not compromise IBRs’ ability to provide the reliability services they are capable of providing, including … reactive power, black start and fast frequency response,” Clements said.

Biden Veto Upholds 2-year Moratorium on Solar Tariffs

President Joe Biden on Tuesday made good on his pledge to veto a proposed resolution that would have rolled back a two-year moratorium on solar tariffs imposed on cells and panels produced in Cambodia, Malaysia, Thailand and Vietnam.

Passed with bipartisan support in the House of Representatives and the Senate, the bill, H.J. Res. 39, “disapproved” the moratorium and declared it “shall have no force or effect.”

The House passed the resolution on April 28, by a vote of 221-202, with 12 Democrats joining the GOP majority and eight Republicans opposing the measure.

Nine Democratic senators supported the measure in the Senate, where it passed on a 56-41 vote on May 3. The Democrats voting for the resolution were senators Joe Manchin, (W.Va.), Sherrod Brown (Ohio), Ron Wyden (Ore.), Bob Casey (Pa.), Jon Tester (Mont.), Debbie Stabenow (Mich.), Gary Peters (Mich.), John Fetterman (Pa.) and Tammy Baldwin (Wis.).

Because neither house is likely to muster the two-thirds majority needed to override the veto, the House and Senate votes and the resolution itself were mostly political posturing, giving Democrats and Republicans cover to appear tough on China and the solar industry’s ongoing reliance on overseas suppliers. About 80% of solar panels used in the U.S. come from the four Asian countries in question, according to the Commerce Department.

In his veto message to the House, Biden characterized the moratorium, which the Commerce Department issued in June 2022, as a “24-month bridge” to allow the buildout of a domestic solar supply chain that will break the industry’s dependence on Southeast Asian countries and China.

Since the passage of the Inflation Reduction Act, Biden said, “private companies have announced commitments to build enough solar panel manufacturing capacity to power nearly six million homes.

“America is now on track to increase domestic solar panel manufacturing capacity eight-fold by the end of my first term. But that production will not come online overnight,” he said. “The Department of Commerce’s rule supports American businesses and workers in the solar industry and helps provide sufficient, clean and reliable electricity to American families, while continuing to hold our trading partners accountable.”

The veto message also repeated Biden’s commitment that he will not extend the moratorium when it expires in June 2024.

The president ordered the waiver on tariffs on solar panels and cells imported from Cambodia, Malaysia, Thailand and Vietnam last year, after the Commerce Department announced an investigation into whether panels and cells from those countries contain components from China that would be subject to tariffs. (See Biden Waives Tariffs on Key Solar Imports for 2 Years.)

Reactions

Industry trade groups and individual installers were quick to back the president’s action.

“President Biden’s veto has helped preserve our nation’s clean energy progress and prevented a bill from becoming law that would have eliminated 30,000 American jobs, including 4,000 solar manufacturing jobs,” said Abigail Ross Hopper, CEO of the Solar Energy Industries Association (SEIA). “This action is a reaffirmation of the administration’s commitment to business certainty in the clean energy sector and a signal to companies to continue creating jobs, building domestic manufacturing capacity and investing in American communities.”

Gregory Wetstone, CEO of the American Council on Renewable Energy, agreed. “President Biden’s veto today is a welcome step to avoid a disastrous impact on the U.S. economy and ensure continuing progress toward the clean energy transition and our climate goals,” he said. “The [resolution] passed by Congress would have changed the rules renewable developers and manufacturers rely upon, resulting in many dozens of canceled solar projects, tens of thousands of lost jobs, and a dangerous increase in carbon emissions.”

George Hershman, CEO of SOLV Energy, a utility-scale solar contractor, said the veto would “provide clarity to domestic solar manufacturers and allow the industry to move forward on important projects that boost solar deployment.”

On the other side, Rep. Dan Kildee (D-Mich.), one of the Democrats who voted for the resolution in the House, expressed disappointment with the veto and called for an override vote.

“Failing to stand up to those who engage in unfair trade practices hurts American workers and manufacturers,” Kildee said in a statement Tuesday. “Our workers and businesses will never be able to compete globally unless we hold those who violate U.S. trade laws accountable. The Biden administration found, in its own investigation, that Chinese companies are violating the law. Yet the president’s position, and today’s veto, fails to hold China accountable and hurts American workers.”

Robbie Diamond, CEO of SAFE, a group focused on reducing U.S. dependence on foreign oil, appeared to favor a tariff rollback, as reported in The New York Times.

“We must back up the message of wanting to build a U.S. supply chain with action — even if it is difficult and complicates some deployments,” Diamond said. “If we’re going to talk the talk, we must walk the walk.”

The Supply Chain Buildout

Prior to the passage of the Infrastructure Investment and Jobs Act and Inflation Reduction Act, tariffs on Chinese solar panels and cells were not particularly effective in kickstarting a domestic supply chain. Even after former President Donald Trump approved the tariffs on Chinese solar panels and cells in 2018, the solar industry continued its dependence on Southeast Asian and Chinese manufacturers.

Despite heavy lobbying by the solar industry, Biden extended the tariffs in February 2022, with an exemption for bifacial panels. (See Biden to Veto Bipartisan Rollback of Solar Tariff Moratorium.)

But the announcement of the Commerce Department investigation the following month threw the industry into an uproar, with more than 300 projects delayed or canceled, according to SEIA. Biden’s moratorium, and the IIJA’s and IRA’s tax credits, finally provided the impetus for companies to start investing in new facilities in the U.S.

The American Clean Power Association recently reported that more than $150 billion in domestic utility-scale clean energy investments have been announced in the last eight months. “This amount is equivalent to five years’ worth of American clean energy investments, surpassing total investment into U.S. clean power projects commissioned between 2017 and 2021,” ACP said.

Even so, there’s no guarantee that an adequate domestic supply chain will be up and running by June 2024, when the moratorium runs out.

The Commerce Department issued a preliminary finding in the investigation in December, stating that “certain Chinese solar panel manufacturers were indeed attempting to bypass the [tariffs] via transport through these investigated Southeast Asian partners.” A final decision has been pushed back from May to August.

Big Offshore Wind Plans Face Multiple Major Obstacles

Two recent reports quantify the rapid growth of the U.S. offshore wind sector, while a third flags technical and reliability challenges posed by the ever-larger scale of turbines being installed.

There are just seven turbines spinning in U.S. waters, but thousands more are being planned. The American Clean Power Association’s (ACP) May 2023 Offshore Wind Market Report puts the U.S. development pipeline at nearly 51,400 MW, while the Business Network for Offshore Wind’s (BNOW) first-quarter report puts the combined goals of oceanfront states at 83,900 MW.

OSW Equipment Comparison (GCube Insurance) Content.jpg A comparison shows the growth of offshore wind equipment through the years. | GCube Insurance

Meanwhile, GCube Insurance in its second-quarter report this month warned that the latest-model high-capacity wind turbines favored by many developers are showing an unprecedented number of component failures, mechanical breakdowns and serial defects.

And the National Offshore Wind Research and Development Consortium in an April update of its road map points out a shortage of operational experience and data that could guide development of the large turbines planned for U.S. waters.

The potential consequences of this concurrent push for size and speed are that standardized, modular construction and the resulting economies of scale become hard to achieve and that quality control suffers.

This has been flagged many times by stakeholders, analysts and manufacturers. But taken together, the spate of recent reports provides a new look at the issue with fresh data.

Big Plans

The U.S. is very late to the offshore wind sector.

Thirty-two years after the first offshore wind farm went online in Denmark with a 5-MW capacity rating, worldwide installed capacity is 63,200 MW, with just 42 MW of it in U.S. waters. But the country is trying to make up for lost time to reduce greenhouse gas emissions and limit harm to the environment. President Joe Biden has set a national goal of 30 GW of offshore wind capacity installed by 2030 and 15 GW of floating offshore wind by 2035.

Major logistical hurdles stand in the way of the first goal: Domestic infrastructure and capacity to fabricate and install 2,000 fixed-bottom wind turbines are virtually nonexistent, and today’s grid cannot carry all those electrons.

But U.S. developers and regulators can at least draw on the body of knowledge gained from the 63 GW of fixed-bottom wind power in foreign waters. There is no such operational history with floating wind.

ACP’s report notes there are now 32 offshore wind leases in active development nationwide, with 18 projects in early development and 18 in advanced development. They total 51,377 MW of nameplate capacity, 938 MW of which is now under construction.

Most of this is on the East Coast: New York and New Jersey lead the nation with 4,362 MW and 3,758 MW in their pipelines, respectively.

In its report, BNOW notes that numerous infrastructure upgrades and manufacturing expansions are being undertaken to help make all the megawatts envisioned a reality. It also notes that the federal government this year moved to streamline the yearslong review process for development.

So far, the only records of decision issued by the U.S. Bureau of Ocean Energy Management have been for the two projects totaling 938 MW now under construction: Vineyard Wind 1 and South Fork Wind off the New York/New England coast, which are both expected to come online this year.

Big Turbines

In this environment, and with costs spiraling, developers and manufacturers are trying to squeeze as many watts as possible out of each turbine to maximize return on investment.

One notable example: Avangrid in September said it was pushing the completion dates of its Park City Wind and Commonwealth Wind projects back one year to 2027 and 2028, respectively, in hopes that next-generation 17- to 20-MW turbines would be available in time. It said the cutting-edge turbines it would be installing in Vineyard Wind 1 in 2023 can produce only 13 MW.

Some observers warn that this continual upscaling creates the risk that nothing ever really moves beyond the prototype stage; designs would be continuously being tweaked, upgraded and replaced.

GCube in its report said the largest turbines in production five years ago were rated at 8 MW.

SG 14-222 DD Turbine (Siemens Gamesa) Content.jpgThe Siemens Gamesa SG 14-222 DD offshore wind turbine has a capacity of up to 15 MW. | Siemens Gamesa

Now, the major Western manufacturers — General Electric, Siemens Gamesa and Vestas — are all sniffing around 15 MW with their largest prototypes. In China, China Three Gorges and Goldwind have produced a 16-MW unit, and CSSC Haizhuang laid claim to the world record with an 18-MW monster whose rotor sweep spans 13 acres.

Fresh off December certification of its Haliade-X turbine for 14.7-MW operation, a GE executive told investors in March the company is preparing a variant that will produce 17 to 18 MW.

The GCube report — titled “Vertical Limit: When is Bigger not Better in Offshore Wind’s Race to Scale?” — asserts that while this relentless upsizing has sharply reduced the cost of wind power and sharply increased the amount of power produced, there are negative consequences:

  • manufacturers competing for market share sign contracts for next-generation equipment years before it goes into production, sometimes without fully understanding the necessary processes and pricing;
  • with ever-evolving technology, every project can have its own unique learning curve;
  • turbines are becoming obsolete only a few years into a projected 25- to 30-year lifespan, and replacement parts are sometimes unavailable;
  • maintenance and repairs are incrementally more difficult, costly and time consuming as machines get larger;
  • support infrastructure has trouble keeping up — only three vessels in the world can install the newest 15-MW turbines; they cost up to $2 million a day to charter; and they are booked for years to come; and
  • insurance claims are escalating, but insurers, eager to burnish their environmental, social and corporate governance credentials (ESG), continue to enter the offshore wind market.

GCube, which insures 100 GW of renewable energy projects in 40 countries, analyzed a decade of proprietary data and determined that offshore wind claims increased significantly in frequency and severity over the decade from 2012 to 2021, with turbine component failures increasing sharply after 2017.

It also found that as a proportion of total claims, larger turbines are generating more claims during construction than their smaller, older cousins did. Then, once installed, turbines larger than 8 MW are sustaining component failures much sooner than smaller units.

In a May 2 announcement, GCube CEO Fraser McLachlan presented the study and its data as a cautionary tale.

“The push to rapidly develop more powerful machines is piling pressure on manufacturers, the supply chain and the insurance market,” he said. “Scaling up is an essential part of driving forward the energy transition, but it is now creating growing financial risks that pose a fundamental threat to the sector. We advise manufacturers to focus on improving the quality and reliability of a reduced number of products to put themselves back on a sustainable path of development.

“At the same time, developers must support manufacturers by sharing the risk of larger machines more equitably and open their lending books to supply chain companies.”

Recurring Message

The GCube report’s warning of too much, too fast is a message expressed in different ways for different reasons by both opponents and proponents of offshore wind.

In an email to NetZero Insider, BNOW wrote of the climate and economic benefits of this rapid technological evolution but also flagged some concerns.

“The scale and speed of the technological advancement, however, is challenging for the supply chain to keep pace, let alone expand to meet rising demand,” the organization wrote. “Standardization and optimization are keys to creating more supply chain capacity, ensuring deployment goals are met and even further driving down costs, but those benefits must be weighed against fostering innovation in this still evolving industry.”

The National Renewable Energy Lab told NetZero Insider there would be greater value in industrializing at the current scale than in upscaling beyond 15 MW. NREL in its January offshore wind supply chain road map said it expected some modularity to evolve in design and construction of turbine nacelles. But it also saw the potential upscaling of nacelles from 600 tons to nearly 1,000 tons.

The R&D Consortium in Version 4.0 of its road map last month said operations and maintenance costs constitute more than 30% of the cost of offshore wind, and it is imperative to control those costs at the design stage.

However, it noted, there are few test facilities that can accommodate components on the 15-MW scale and no record of operations data from which to draw insight, as 15-MW turbines are so new.

“The offshore wind industry has been focused on turbine megawatt upscaling, but optimization of the current generation of 15-MW turbines for performance and load reduction has been compromised as a result,” the report noted. “The consortium does not envision direct support of new turbine development. Rather, acceleration of turbine optimization solutions in harmony with the needed industrialization and standardization of the supply chain would better serve U.S. development.”

It is likely, the consortium added, that maintenance systems and protocols for 15-MW turbines will be developed and proved in U.S. waters.

Quality Control

One after another in the past year, the major turbine manufacturers have acknowledged sharply escalating quality-control problems and warranty claims in their wind power products. To judge by their statements to investors and analysts, they have already embraced some of the points in the GCube report.

Haliade-X 14.7MW-220 Turbine (General Electric) Alt FI.jpgThe GE Haliade-X 14.7MW-220 offshore wind turbine prototype is shown in Rotterdam, Netherlands. | General Electric

In an October 2022 earnings call, GE CEO H. Lawrence Culp Jr. spoke of the warranty costs that were a drag on the financials of GE Renewables and blamed some of that on rapid product development over the preceding five years.

“Such rapid innovation strains manufacturing and the broader supply chain,” he said. “It takes time to stabilize production and quality on these new products, which in turn pressures fleet availability. We need to industrialize faster to counteract these dynamics, and we are.

“We’re drastically simplifying and standardizing too many variants into what we call workhorse products, so we and our suppliers can implement more repeatable manufacturing processes. This enhances product quality and reduces cost. In our existing fleet, we’re deploying corrective measures, enhancements and monitor-and-repair programs.”

Vestas reported in February that lost production factor — the measure of energy production not captured by the 56,400 wind turbines under its service — has been rising steadily for several years, surpassing 3% by the end of 2022. Warranty costs equaled 6.3% of Vestas’ 2022 revenue.

“Lost production factor continues at high level as a consequence of the extraordinary repair and upgrade level,” it said in a quarterly report May 10, but the numbers were better: Warranty costs equaled only 4% of first-quarter revenue, compared with 7.8% in the first quarter of 2022.

“Optimizing the complete value chain calls for increased focus on improving our existing platforms,” Vestas said in its annual report. “We believe strongly in this approach, because introducing new platforms too fast obstructs supply chain industrialization. As turbine components become larger and more efficient, they also create logistical challenges to the expansion of wind power around the world. For this reason, we are paving the way for scale through modularization and optimizing how our products are designed and produced.”

And in a quarterly report to investors in February, Siemens Gamesa wrote, “Service performance during Q1 [2023] was severely affected by the outcome of the periodic monitoring and technical failure assessment of the installed fleet, which revealed a negative trend in the failure rate of certain components. As a result, the estimated cost of fleet maintenance and warranty provisions is higher than initially estimated.”

Hydro, New Resources Boost CAISO’s Summer Outlook

CAISO’s summer forecast looks better than last year’s thanks to the addition of thousands of megawatts of new resources and California’s record snowpack, which is expected to increase hydroelectric generation by 72% compared with drought conditions a year ago.

In its annual Summer Loads and Resources Assessment, published Tuesday, the ISO says it has made “sound progress towards meeting the conventional ‘one day every 10 years’ loss-of-load expectation planning target.”  

“Under current high hydro conditions, the resource fleet scheduled to be online by June 1, 2023, exceeds the one-in-10 planning target with a margin of approximately 200 MW … [and with] the resource fleet scheduled to be online by Sept. 1, 2023, exceeds the one-in-10 planning target with a margin of approximately 2,300 MW,” the assessment says.

That compares with a 1,700-MW shortfall in meeting the planning target last year, CAISO management says in a slide presentation on the assessment.

“These results do not take into account more extreme events such as those demonstrated in the last several years, e.g., extreme drought, wildfires and the continued potential for widespread regional heating events and other disruptions that continue to pose a high risk of outages to the ISO grid,” it says.

California experienced energy emergencies caused by extreme heat and wildfires in the past three summers, when the state and much of the West endured worsening drought and decreased hydropower.

The ISO was forced to call for rolling outages in August 2020 during a Western heat wave that dried up imports. It declared an energy emergency in July 2021 when an out-of-control wildfire in Southern Oregon nearly shut down a major transmission pathway between California and the Pacific Northwest.

And it came within minutes of ordering blackouts during a record-setting heat wave in September 2022, when demand outpaced supply. (See CAISO Reports on Summer Heat Wave Performance.)

Since last summer, CAISO has been connecting thousands of megawatts of new battery and solar resources.   

By June 1, the ISO expects to have connected 2,500 MW of solar and 2,300 MW of batteries since Sept. 1, 2022. By September of this year, it expects to add another 1,300 MW of solar and 2,000 MW of batteries, bringing the totals to 3,800 MW of solar and 4,300 MW of batteries and (8,100 MW total) added since September 2022, CAISO says in its slide presentation.

In addition, a series of atmospheric rivers this winter filled the state’s hydroelectric reservoirs and pushed the snow water content to approximately 240% of average on April 1, a key date for California’s measurement of snowpack in the Sierra Nevada. The snow melted slowly in April thanks to cloud cover and below-normal temperatures, the state Department of Water Resources said. (May, however, has been hotter than normal, including in the Sierra.)

“The year-to-date snow water content totals are significantly above average, which should result in above-average hydro energy generation in 2023,” the ISO’s summer assessment says.

The assessment does not include a projection of the amount of hydropower that could be generated, but it notes that the state has large and small hydroelectric facilities with more than 7,900 MW of installed capacity.

In the unusually wet winter of 2016/17, large and small hydro generated more than 43,000 GWh of hydroelectric power, compared with about 14,500 GWh in the drought of 2021, a 66% decrease, California Energy Commission records show.

On May 10, the U.S. Energy Information Administration forecast a 72% increase in hydropower generation in California this year compared to 2022.

“One source of uncertainty in our forecast is the possibility of warmer spring temperatures, which would melt the Sierra Nevada snowpack earlier than expected,” the EIA said. “In this case some of the melting snow may bypass power generating turbines for flood control purposes.

“Less snowpack also means less water available to supply hydropower plants during summer months, when electricity generation has historically been at its highest.”

CAISO management plan to present their findings to the Board of Governors at its meeting Thursday.

US, Canadian Officials Announce EV Corridor from Michigan to Quebec

Senior officials from the U.S. and Canada were in Detroit on Tuesday to announce the first Binational Electric Vehicle Corridor, which will stretch from Kalamazoo, Mich., to Quebec City, Quebec.

The corridor will feature fast-charging stations every 50 miles along the roughly 900-mile stretch between the two cities. The announcement featured U.S. Transportation Secretary Pete Buttigieg, Michigan Gov. Gretchen Whitmer (D) and Canadian Minister of Transport Omar Alghabra.

“The U.S. and Canada have long enjoyed a productive partnership on transportation issues, and in that spirit we are proud to announce the first ever U.S.-Canada EV corridor,” Buttigieg said. “With historic investments in EV infrastructure from the Biden-Harris administration and the Canadian government, we are creating a new generation of good-paying manufacturing jobs, making it possible for drivers everywhere to reap the benefits and savings of these vehicles while helping us fight climate change.”

The Biden administration has a goal to have 50% of all new cars be electric vehicles by 2030 with support from the Inflation Reduction Act, Infrastructure Investment and Jobs Act, and CHIPS and Science Act, which have helped spur hundreds of billions of dollars in private-sector investment in EVs. The IIJA includes $7.5 billion in federal funding to help build a national network of 500,000 public EV chargers.

In Canada, one in 10 cars purchased is an EV.

Officials said the new binational corridor will help move passengers and goods along a key economic route.

“There’s nothing more ‘Pure Michigan’ than accidentally driving into Canada, and now that journey will be electric on either side of the border,” Whitmer said. “I am proud that we are working together to build up electric vehicle charging infrastructure. With the resources headed our way from [the IIJA] and the bold investments Michigan automakers are making right here in Michigan, we will build and lead the future of mobility.”

Michigan this month issued a request for qualifications seeking teams to design, build, operate and maintain EV charging stations across the state, the first part of its efforts to tap into $110 million through the National Electric Vehicle Infrastructure (NEVI) program. The deadline to submit applications is June 6.

In announcing the launch of the request, Whitmer said the program will help move NEVI funds into state communities to get the chargers set up efficiently.

Detroit also announced a change in its plans to roll out EV charging stations at 60 sites downtown and in recreation centers, saying the municipal government will lead the effort instead of leaving it to the private sector. The city is “going full bore” on EV charging development, Tim Slusser, Detroit’s director of mobility innovation, told Axios Detroit.

NY State Reliability Council Executive Committee Briefs: May 12, 2023

Operating Reserves

ALBANY, N.Y. — The New York State Reliability Council (NYSRC) Executive Committee on Friday indicated that the council’s Installed Capacity Subcommittee may increase the amount of 10-minute reserve assumptions from 350 MW to 400 MW in the next installed reserve margin (IRM) determination.

The NYSRC annually re-evaluates the state’s IRM and operating reserves requirements. NYISO’s summer net load variability, which used a new loss-of-load expectation window based on recently approved capacity accreditation requirements, was higher in some zones.

Inverter-based Resources Standard

The NYSRC received several questions and comments on its proposed rule establishing minimum requirements for inverter-based resources (IBRs) over 20 MW.

According to the NYSRC, the feedback will be reviewed to determine what changes, if any, should be made to the draft rule; if changes are made, it is likely the draft will be reposted for additional comments. The length of the posting and comment period will depend on the changes proposed. The council will publicly note if the comment period is reopened.

PRR-151 would establish standards for IBRs, as NYISO presently has no specific interconnection criteria for these resources. (See “Inverter-based Resources Standard,” NYISO Operating Committee Briefs: April 20, 2023.)

Stakeholder comments range from general questions on language, to more procedural or technical concerns about implementation, cost and new requirements.

The range of comments “reinforces that this a serious issue that we need to work through,” committee Chair Chris Wentlent said. He said he thought that New York “appears a bit ahead of our neighboring jurisdictions on implementation,” referring to a panel at the Independent Power Producers of New York’s Spring Conference last week that he participated in with PJM and ISO-NE staff. (See IPPNY Panelists Urge Collaboration, Coordination in Transition.)

Cap and Invest

Wentlent told attendees that the New York Department of Environmental Conservation (DEC) confirmed it would be taking the lead in implementing the state’s cap-and-invest program and plans to have draft regulations completed by the end of this year. The New York State Energy Research and Development Authority will assist.

Most details of the program have not been determined or announced by the DEC, but based on details in the state’s approved budget, it would charge companies for their carbon emissions to pay for clean energy projects and low-income utility payment assistance via an auction of credits. (See NY Budget Plan Details Cap-and-invest Proposal.)

Wentlent said he learned about the DEC’s intentions during a recent meeting he attended with it, the Department of Public Service and several other relevant agencies. He said that “realistically, [we’re] probably looking at a 2025 time frame” for the program to be implemented.

Study: Limited Exposure to Supply Shortfall for ISO-NE During Extreme Weather

WESTBOROUGH, Mass. — The preliminary results of a joint study by ISO-NE and the Electric Power Research Institute (EPRI) found that the risks of a supply shortfall in ISO-NE during extreme winter weather events are “manageable” through 2027, even without the Everett Marine Terminal and the New England Clean Energy Connect (NECEC) transmission line in service.

But the results also showed that while shortfall risks were similar with or without Everett because of counterbalancing factors, scenarios with the NECEC in service consistently showed less energy adequacy risk, as well as decreased magnitude of the shortfall when it did occur.

ISO-NE presented the results, focused on the projected impacts of extreme weather on grid reliability in the winter of 2027, to the NEPOOL Reliability Committee on Tuesday. The study is part of a larger project with EPRI looking at historical and projected extreme weather events in New England and modeling the risks these events pose to energy infrastructure and grid reliability.

The modeling assessed reliability both with and without Everett and the NECEC, two major sources of uncertainty for the region’s 2027 energy mix.

“In the near term, the energy shortfall risk appears manageable,” said Stephen George, director of operational performance, training and integration for ISO-NE. “The risks are mitigated by incremental imports from New England Clean Energy Connect.”

The research team produced the results from a series of severe weather scenarios based on historical data going back to 1950, adjusted for 2027 based on five climate models and two emissions pathways. For each modeled event, the analysts looked at 21-day energy analysis results from 720 individual cases that differed based on variables including forced outages, LNG inventory, fuel oil inventory, imports and fuel prices.

Expected energy from stored fuels in cold weather (ISO-NE) Content.jpgExpected energy from stored fuels used in a long-duration severe cold-weather scenario, with and without NECEC and EMT | ISO-NE

In the weather scenario with the highest average system risk — modeled after an extreme cold stretch in the winter of 1961, the coldest 21-day period since 1950 — the probability of an energy shortfall ranged from 0.64% (with the NECEC and without Everett) to 7.6% (without the NECEC and with Everett).

ISO-NE noted that some scenarios with the Everett terminal in service are projected to have increased shortfall margins and risks because of faster depletion of LNG. Scenarios without the Everett terminal projected an increase in burning fuel oil and coal.

George highlighted how this model could be built upon and refined to look at future reliability scenarios.

“This energy adequacy study framework provides a much-needed foundation to study the system as it continues to evolve,” George said. “The ISO will continually monitor the energy adequacy risk, particularly as the changes in the regional supply and demand profiles ramp up.”

The RTO a year ago presented the findings of EPRI’s extreme weather modeling, which were used as an input to produce the study results.

This earlier portion of the study found that the frequency of extreme heat has increased over the past century, while extreme cold has decreased. The study defined extreme heat as daily maximum temperatures above the 95th percentile and extreme cold as daily minimum temperatures below the 5th percentile.

The study also noted that in general, winter temperatures have increased faster than summer temperatures, though cold extremes remain more common than heat extremes.

EPRI projected that these trends will continue in the coming decades, accompanied by a modest increase in precipitation. Wind speeds also are projected to increase in some locations. The study found that scenarios with higher emissions would amplify warming trends, with impacts differentiating for extreme cold around 2040 and for extreme heat around 2050.

George said the RTO will continue to assess the outputs of the 2027 winter study. The organization is also working on projections for the summer of 2027, as well as for the summer and winter of 2032. It hopes to present the results for summer 2027 prior to FERC’s New England Winter Gas-Electric Forum on June 20.

Renewable Natural Gas Seen as Pathway to Low-carbon Hydrogen

Using renewable natural gas (RNG) as a feedstock offers hydrogen producers a shortcut to claiming the full federal tax credit created by the Inflation Reduction Act (IRA) to incentivize hydrogen production.

That translates into a tax credit of $3/kg of clean hydrogen produced, or 2.6 cents/kWh of power generated using that clean hydrogen as fuel.

RNG is made from landfill gas or from biogas produced by anaerobic digesters that process municipal sewage or animal manure. Indistinguishable from fossil-based natural gas, RNG is also now more valuable as a fuel itself because the IRA expanded the federal production tax credit (PTC) to include biogas projects that begin construction before 2025. Previously, the PTC applied to only wind and solar projects.

Even before the IRA passed last year, interest in biogas had increased among companies looking for ways to increase their environmental commitments by purchasing electricity made by biogas-powered generators or by purchasing carbon credits associated with biogas.

The potential for producing hydrogen by steam reforming RNG has burnished the image of biogas as an important, if interim, fuel that could be critical to boosting hydrogen production as the industry works to build the massive numbers of electrolyzers needed to make clean hydrogen from water and determine where along the nation’s grid to locate them.

The idea has sparked the interest of biogas producers, as evidenced last week when the American Biogas Council (ABC) organized a webinar to announce it had retained Iowa-based engineering company EcoEngineers to create an accounting methodology as a tool to help biogas producers understand carbon accounting in fuels.

About 1,000 organizations registered for the webinar, the highest ever for an ABC event, said Patrick Serfass, the trade group’s executive director.

Getting the Right Score

A day after the webinar, an EcoEngineers representative participating in an unrelated online biogas event sponsored by Spain-based ATA Insights explained the importance of carbon accounting to companies trying to qualify for a tax credit under the IRA.

“I’m sure most of us are aware that the carbon intensity score [of hydrogen] is key,” said Tanya Peacock, a managing director at EcoEngineers.

“One way of making sure that you can maximize the available value from all of these [federal] credits and incentives is to make sure that you design your projects to achieve, from the outset, your desired target CI score,” she said.

To receive the full tax credit, $3/kg of hydrogen produced over 10 years, a hydrogen producer must prove the technology used to make that single kilogram of hydrogen generates no more than .45 kilograms of CO2, she explained.

Most hydrogen produced today from natural gas uses high heat and high-pressure steam to break the molecular bonds of methane (CH4), releasing the hydrogen and allowing the carbon to combine with oxygen in ambient air. It’s a process that fails the strict CI score but could work financially, say some analysts, if that CO2 is captured and sequestered — or if steam methane reforming could be made more efficient.

Hydrogen Panel (ATA Insights RENMAD Events) Content.jpgClockwise from top left: Andy Dvoracek, Amp Americas; Gabriel Olson, BayoTech Hydrogen; Alyse Bordelon, Constellation; Belen Gallego, ATA Insights; and Tanya Peacock, EcoEngineers | ATA Insights & RENMAD Events

Gabriel Olson, former innovation director at SoCalGas and now director of carbon strategy and head of hydrogen markets for Texas-based BayoTech Hydrogen, said his company produces hydrogen with steam methane reforming but uses 20% to 30% less energy, thanks to a modular steam methane reformer developed by Sandia National Laboratory.

More importantly, BayoTech also uses RNG rather than conventional fossil gas as a portion of its feedstock, making its hydrogen competitive, he said, adding that the process does not require 100% RNG.

Using 100% dairy-sourced RNG in the modular steam reformer produces hydrogen with a carbon intensity (CI) of -300, he said, well under the minimum CI required by the IRA.

“That might be amazing and impressive, but it’d be kind of expensive, because you’re using a lot of a deeply negative [CI] and a highly valuable feedstock,” Olson said. “What we do is more cost-effective,” by using a blend of 30% dairy RNG and 70% pipeline natural gas.

Value to Produce Hydrogen (The US Hydrogen Demand Action Plan EFI) Content.jpgThe value of federal tax credits to produce hydrogen will depend on the carbon emissions created to produce the hydrogen. | The U.S. Hydrogen Demand Action Plan, EFI

“We’re effectively able to [produce] a cost-effective hydrogen product that’s both valuable and eligible for the incentive credits that are available,” including the PTC, he said.

“We see RNG as kind of the linchpin for doing this cost-effectively,” Olson said. “There are other pathways — carbon capture and things like that. But RNG for us is the most cost-effective, and the most flexible in terms of deployment, for multiple facilities in multiple locations. We see it as a great way to offset the fossil natural gas that we typically use as a feedstock.”

‘Next Wave’

Another company with a similar strategy that should have little trouble meeting federal CI standards is Illinois-based Amp Americas, which began producing RNG in 2011 from cow manure as a fuel for an electricity producer but then turned to providing the gas to an Indiana dairy for use as a fuel in its delivery trucks. The company then began producing and selling dairy-based RNG as a motor fuel in California.

“In 2022, we produced 1.3 million BTUs of renewable natural gas from dairy manure. That’s about 11% of market share of total dairy gas produced in the United States. The gas has an ultra-low CI net … a -250 to -300 score,” said Andy Dvoracek, the company’s vice president of business development.

The calculation for that ultra-low CI rests on how much methane the company’s operation has prevented from entering the atmosphere had the manure not been converted to biogas in an anaerobic digester, Dvoracek said.

<img src=”https://rtowww.com/wp-content/uploads/2023/06/140620231686776292.jpeg” data-first-key=”caption” data-second-key=”credit” data-caption=”Renewable natural gas made in an anaerobic digester from cow manure has a negative carbon score since the methane produced in the digester is captured and hydrogen produced from that methane qualifies for a maximum federal tax credit.” data-caption-html=”Renewable natural gas made in an anaerobic digester from cow manure has a negative carbon score since the methane produced in the digester is captured and hydrogen produced from that methane qualifies for a maximum federal tax credit.” data-credit=”

BayoTech Hydrogen

” data-description=”Renewable natural gas made in an anaerobic digester from cow manure has a negative carbon score since the methane produced in the digester is captured and hydrogen produced from that methane qualifies for a maximum federal tax credit.” data-id=”5548″ style=”margin: auto;” alt=”Generating-Hydrogen-from-RNG-(BayoTech-Hydrogen)-Content.jpg” data-uuid=”YTAtOTMwOTc=”>Renewable natural gas made in an anaerobic digester from cow manure has a negative carbon score since the methane produced in the digester is captured and hydrogen produced from that methane qualifies for a maximum federal tax credit. |

BayoTech Hydrogen

 

The company has 14 projects operating across the country and others in development.

“We think we’ll produce somewhere around 2.5 million metric tons of carbon dioxide abatement by 2027. We are about a half a million at a run rate right now. Collectively, we’ve got about 200,000 cows across the country that are producing this gas,” he said.

Most of that RNG is injected into pipelines and sent to states such as California and Oregon that have emphasized using the gas as a motor fuel for several years, he said. Revenues from the sale of the gas are augmented by renewable energy credits in the markets that developed under EPA rules. Called renewable identification numbers, the credits travel with the gas.

The company is now looking seriously at hydrogen.

“Hydrogen is an area of particular interest because hydrogen is seen as a next wave of energy usage in the transportation space, as well as just global energy transfer as a whole,” Dvoracek said.