November 16, 2024

MISO: New Interconnection Queue Cycle to Wait on MW Cap Filing

MISO said new queue entries must wait while it takes another swing at imposing an annual megawatt cap on its interconnection queue.  

MISO Manager of Generation Interconnection Ryan Westphal said the RTO will file by the end of the year for a cap to create a leaner and less backlogged waiting room for new generation. He said it won’t accept applications for new generation projects until it hears from FERC on the filing. That likely will leave MISO a year behind on its queue processing.  

“Our plan right now would be to get this through before we open another queue,” Westphal told stakeholders during an Interconnection Process Working Group teleconference June 4.  

Months ago, MISO staff hoped the RTO could begin processing both the 2023 and 2024 cycles of queue applications before the end of the year. That no longer appears to be the case. When asked by stakeholders, Westphal wouldn’t venture an estimate as to how long before MISO would begin study work on the 2024 cycle of interconnection requests.  

MISO’s 2023 class of queue applications was delayed into early 2024 while it tried for new rules to discourage speculative projects from entering the queue. Those rules included its unsuccessful first attempt at a megawatt cap. (See MISO Reports 123-GW Roster for 2023 Interconnection Queue Cycle.) In April, MISO reported a 2023 queue intake of 123 GW spread across about 600 interconnection requests, substantially lower than 2022’s 171 GW of proposed generation projects across 956 interconnect requests. 

FERC late last year denied MISO’s proposal to cap generation projects entering its interconnection queue on concerns over too many cap exemptions, the formula to establish the cap and potential resource adequacy deficits from limiting new generation onto the grid. However, FERC said a “cap in some form could be beneficial.” (See FERC Rejects MW Cap, Approves MISO’s Other Stricter Interconnection Queue Rules.) 

MISO maintains that some limit on projects remains necessary. It said too many applications result in an overwhelming study process and make it nearly impossible to resolve models for a hypothetical system loaded with new generation.  

“We did get a 30% reduction in the 2023 cycle versus 2022, but we still think we need to cap annual cycles. … We think this is necessary for the future to maintain an orderly queue going forward,” Westphal said. “Ultimately, we want to have a queue that’s fast and efficient where [we’re] giving you good information so you can make better decisions. That’s the hope, and we think that’s achievable with less volume.” 

Westphal said that, had MISO this year encountered the volumes it experienced in 2022, the queue could be as high as 350 GW by now. He emphasized that MISO’s peak load expectation is 127 GW.  

Westphal said MISO is leaning toward simplifying the calculation, which could be as “simple as a percentage of load.” He said MISO staff are at the same time contemplating ways to “limit the use of exemptions” to the cap to better the chances of it passing FERC’s judgment.  

Finally, Westphal reassured stakeholders that MISO is thinking about its future resource adequacy needs alongside its second attempt at a cap design. He said MISO envisions that a cap would put it in position to administer less onerous studies more quickly and deliver more interconnection approvals sooner. 

Curb ‘Queue Crashing,’ Savion Advises

However, Derek Sunderman, of Shell subsidiary Savion, said that instead of a hard megawatt cap, MISO should pursue a “gating mechanism” to deter disproportionate applications from a handful of interconnection customers.  

He said some interconnection customers will “queue crash,” or submit large volumes of interconnection requests into a study application window to secure grid hookups.  

Sunderman said MISO should consider administering a volumetric price escalation in the queue, where interconnection customers’ fees and penalties rise as they submit more projects for study. He said higher milestone fees for 4 GW worth of applications versus 1 GW of submittals would allow smaller interconnection customers to meaningfully participate in the queue while still allowing larger interconnection customers to submit as many projects as they believe feasible. He also said escalating prices would cause large corporations to rethink their projects’ viability.  

Sunderman said if MISO pursues a hard cap at a hypothetical 80 GW, it might encourage a mad dash among developers to snap up queue positions. Volumetric price escalation, on the other hand, would allow all kinds of developers access, he said.  

“It’s not a fight of the fittest of who can consume the most megawatts first,” Sunderman explained. “We’re concerned that the higher-equipped companies could control a percentage of the queue” under a hard cap.  

Westphal said MISO would consider Savion’s proposal and hold more discussion on a cap design at the Interconnection Process Working Group’s meeting July 23.  

Maryland Governor Creates Climate Subcabinet

Maryland Gov. Wes Moore (D) signed a sweeping executive order June 4 calling for the state to establish a zero-emission heating equipment standard and a new clean heat standard to be added to the state’s Renewable Portfolio Standard. 

The order also calls for formation of a Governor’s Subcabinet on Climate, which will oversee the efforts of other state agencies to implement the state’s Climate Pollution Reduction Plan, released in December 2023, which is the state plan for implementing the Climate Solutions Now Act of 2022.  

The law committed the state to cutting its greenhouse gas emissions by 60% by 2031, and Moore also has set a 2035 target for the state to power itself with 100% clean energy. Under the order, the Maryland Energy Administration will develop a framework for a clean energy standard to achieve the 2035 goal and “determine if all or part of the proposed clean energy standards can be implemented through existing authority.” 

The executive order notes Maryland has seven years to reach its 2031 goal for emissions reduction and that both short- and long-term investments will be needed to address climate change. 

Speaking at the signing ceremony, at Henderson-Hopkins School in Baltimore, Moore called the executive order “one of the most comprehensive executive orders on climate of any governor in Maryland’s history. … It is bold; it is ambitious; and Maryland, we’re going to get it done because that’s what we do. … 

“We cannot just talk about climate action in the realm of what are we doing to avoid catastrophe,” Moore said. “It’s always about what are we doing to unleash opportunities.”  

The order calls for a “whole-of-government” approach to climate action, including:  

    • Maryland will work with the other states in the Regional Greenhouse Gas Initiative (RGGI) to set a new regional cap for carbon dioxide emissions from power plants that “is aligned with Maryland’s and partner states’ clean energy goals.” RGGI is a regional cap-and-trade program that sets carbon dioxide emission caps and holds quarterly auctions for emission allowances covering 11 New England and mid-Atlantic states, including Maryland.  
    • By Nov. 1, individual state agencies will be required to submit Climate Implementation Plans on the actions, time and resources they will need to meet the goals of the Climate Pollution Reduction Plan. The subcabinet will submit a progress report on implementation of the plan by Dec. 1 of this year and every following year.  
    • The state Department of Transportation will upgrade its plans for deploying electric vehicle chargers funded by the federal National Electric Vehicle Infrastructure (NEVI) program and develop a new “multiagency strategy to build out Maryland’s vehicle charging infrastructure.” 

Immediate reactions from clean energy and environmental justice advocates were uniformly positive. 

“Burning fossil fuels in our buildings is a major source of greenhouse gas emissions in Maryland,” said Josh Tulkin, director of the Maryland chapter of the Sierra Club. “By developing zero-emission heating equipment standards this year, Maryland can make a measurable dent in climate pollution while delivering cleaner, healthier air for residents.”  

“Today’s announcement from Gov. Moore not only cements Maryland’s legacy as a climate leader but will create more equitable access to climate and health resources, paying dividends for generations to come,” said Ruth Ann Norton, CEO of the Green & Healthy Homes Initiative. “Phasing in zero-emission heating equipment standards, coupled with policies that build healthier, more affordable homes, will provide urgent relief in the form of cleaner, healthier air for low-income families and a future where all Marylanders can thrive.”  

SPP: Enough Generation to Meet Summer Demand

SPP said June 3 it expects to have enough generation to meet energy demand despite higher regional temperatures this summer, sharing the same message it did earlier with stakeholders.

Staff speaking at the RTO’s biannual Emergency Communications User Forum on May 21 said SPP’s biannual seasonal assessment showed the grid operator has a 90% probability of being equipped to serve all loads during summer peak usage hours. The assessment indicates summer operations should be normal with no extreme operational situations.

Meteorological models predict a 33 to 50% chance of above-normal temperatures this summer at varying levels in the 14-state SPP footprint. Similar percentages exist for below-normal rainfall in its region, the RTO said.

“While we anticipate no major concerns this summer, we are prepared for any circumstance,” SPP’s Bruce Rew, senior vice president of operations, said in a press release. He added the RTO is confident “in our ability to keep the lights” on despite a forecast of higher-than-normal temperatures.

SPP says it has the systems, tools and procedures in place to mitigate risks and maintain reliability should extreme weather, unexpected outages or other events affect the region. It can call on generating units to commit to run earlier or more often than usual, delay planned outages, import energy from neighboring systems or tap into available reserves.

NERC’s 2024 Summer Reliability Assessment found SPP will have sufficient operating reserves this summer. It projects peak demand could hit 56.32 GW and estimates an anticipated reserve margin of 27.8%. The RTO set an all-time coincident peak of 56.84 GW last August.

SPP has over 101 GW of nameplate capacity. It had 62.16 GW of accredited capacity last year.

FERC OKs MISO Settlement Rules for Widespread Tx Outages

FERC on May 31 ruled MISO can apply new settlement practices to generators physically disconnected from the grid during extensive transmission outages triggered by extreme events.   

The commission’s order allows MISO to adjust settlements when extreme events cause significant forced transmission outages that sever generation from the grid. Under the change, the RTO now can reflect in settlements the involuntary nature of a disconnection through a “forced-off asset” designation and block generators from excessive penalties or payments (ER24-1191).  

The revisions went into effect June 3. MISO sought FERC’s approval for the rules before the RTO’s South region enters the Atlantic hurricane season.  

MISO’s scarcity pricing setup assumes lines are intact and operational, with market participants having physical capability to respond to price signals by reducing demand or ratcheting up supply.  

However, MISO said the “always connected” assumption doesn’t reflect the reality of cases like Hurricane Laura, when parts of the transmission system were destroyed. In those cases, MISO said it’s “inappropriate and inequitable” to levy performance penalties on disconnected generators unable to meet their day-ahead commitments by forcing them to “buy back their day-ahead committed energy at dramatically higher real-time prices.”  

On the other hand, MISO said it’s equally unfair to “compensate involuntarily disconnected load as if it responded to real-time scarcity pricing and then pass off the cost of such windfall compensation to other market participants through uplift.”  

MISO plans to use its day-ahead LMPs prior to the event to retroactively settle excessive penalties or excessive windfalls for knocked-off assets.  

FERC agreed MISO’s plan will mitigate “substantial financial impacts without any corresponding operational benefits” in circumstances when multiple transmission outages prevent market participants from responding to price signals.  

“We find that the proposed revisions would provide MISO with reasonable discretion to mitigate the unintended consequences of scarcity pricing during extreme events by evaluating individual facts and circumstances,” the commission added.  

MISO said the revisions won’t apply during emergencies when the transmission system remains intact. It will require at least 10 transmission outages and a 10% increase in dead or disconnected pricing nodes before conditions are met to use the forced-off designation. It also pledged to declare forced-off asset events no more than two weeks after they occur.  

If necessary, MISO will adjust settlements for resources in the path of the event that were cleared in the day-ahead market but couldn’t inject for at least six dispatch intervals. It also will make adjustments for load zones in the area with fully or partly forced-off loads and to virtual transactions associated with pricing nodes in the area that cleared in the day-ahead market.  

MISO adviser Chuck Hansen has said events need to be “widescale” to activate the knocked-off designation, such as a weather disaster, geomagnetic event or cyberattack. The RTO expects such events will be rare. The status would not apply to assets that respond to MISO-directed load shedding.  

The settlement rule change is part of MISO’s ongoing effort to improve its scarcity pricing.  

Offshore Wind Projected to Save New Englanders $630M per Year

A new analysis prepared for the Sierra Club concludes offshore wind energy would be a money-saver for New Englanders, despite the high cost of construction. 

The six-state region relies heavily on natural gas for power generation, the report explains, and the cost of gas can be quite high, particularly in winter. 

Charting the Wind” projects that bringing 9 GW of offshore wind online would save $2.79 or $4.61 per month per average residential customer, depending on whether a midrange or high-price gas scenario is used. The total would be $630 million in an average year in the midrange model, the authors write. 

Synapse Energy Economics, which prepared the report, notes there are additional benefits to be gained by shifting from natural gas generation, beyond the savings on utility bills. 

These include the climate and public health improvements yielded by reducing the power sector’s emissions of carbon dioxide, nitrogen oxides, sulfur dioxide and fine particulate matter.  

Also, the average $3 billion spent per year to buy natural gas for power generation in New England goes out of the region. Slashing gas use could keep a significant percentage of that money in the regional economy. 

The Sierra Club, a proponent of offshore wind energy, commissioned the report to counter some of the criticism being leveled at the offshore wind industry as it gains a foothold in U.S. waters — particularly after multiple projects from Massachusetts to Maryland were sidelined or canceled in the past year because of soaring costs. 

“Opponents of offshore wind argue that building out offshore wind infrastructure is too expensive, often without any empirical support for that contention,” Sierra Club staff attorney Sarah Krame said during a news conference June 4. “Recent increases in the cost of offshore wind and the cancellation of contracts for development of offshore wind have further raised questions about the costs and benefits of this renewable resource.” 

Synapse Vice President Melissa Whited said the authors specifically chose the highest recent construction cost as their baseline for calculating the savings for New England offshore wind, even though they hope the current financial pressures will moderate as the industry matures in the United States. 

(That would be $150.15/MWh, the weighted all-in cost of the two most recent contracts agreed upon in New York — Ørsted’s Sunrise Wind and Equinor’s Empire Wind. See related story, Empire, Sunrise Wind Back Under Contract in NY.) 

To calculate a savings of $2.79 or $4.61 per month for each New England family, Synapse modeled 9 GW of wind power feeding into the grid and performed a regression analysis of its impact on supply and demand curves.  

Wind through turbine blades is free, but natural gas prices fluctuate sharply, particularly in New England, where as much as 35% of the supply is imported LNG on peak days. 

“So, once we conducted this regression analysis, we found that adding all that offshore wind and shifting the supply curve would drop the price between 45 and 60% depending on the year,” Whited said. “And we use 23 historical weather years to account for that variation.” 

Josh Berman, a senior attorney with Sierra Club’s environmental law program, pointed out an important confluence of factors: Offshore winds blow strongest in winter, when gas constraints are highest in New England. 

“In addition, on a daily basis, offshore wind is highly complementary to solar power, having its lowest output in the middle of the day when solar generation is high and having higher operation at times when solar power is less available,” he said. 

NetZero Insider asked about the savings calculation. New York state projects Sunrise and Empire would cost utility customers an extra $2.09 a month on average, while the New England report projects monthly savings of $2.79 or $4.61 per customer using the same $150.15/MWh construction cost estimate. 

The answer is volatility, or lack of it. 

“You have different markets and different structures of those markets,” Whited explained. “We also are more gas-constrained in New England. And so what we see is during the winter when the pipelines are operating at capacity, we have very expensive generators and oil-fired generators coming online, and the wholesale electricity market prices just skyrocketing in New England.” 

She added: “You get a slightly different effect, a slightly more muted effect in NYISO because they have a different supply curve.” 

Recent history holds an example in New England that might challenge the savings model projected. 

Rhode Island Energy managed an offshore wind solicitation for Rhode Island in mid-2023, when the cost and supply chain crises were worsening. Only one proposal was submitted, and it was rejected as too costly for ratepayers. (See Rhode Island Energy Rejects Revolution Wind 2 Proposal.) 

Whited said she did not know what the proposed cost of that project would have been. 

In response to multiple contract cancellations along the southern New England coast and the offshore wind industry’s struggles, Connecticut, Massachusetts and Rhode Island joined in October 2023 for the first-ever multistate solicitation, seeking proposals for 6,000 MW of capacity. 

Projects totaling 5,454 MW were submitted by the March 27 deadline for bids. No decision has been announced on the proposals, and no indication has been offered regarding whether the construction costs would be more or less than $150/MWh. (See New England States’’ OSW Procurement receives 5,454 MW in Bids.) 

Empire, Sunrise Wind Back Under Contract in NY

Two offshore wind projects have rebounded from the financial turmoil of 2023, finalizing replacement contracts with New York for 1,734 MW of capacity. 

Empire Wind 1 and Sunrise Wind were among a flurry of contract cancellations from Massachusetts to Maryland in the past year as costs soared to the point that construction became untenable. The two New York contracts announced June 4 are informed by the setbacks of the past year, in which developers recorded billions of dollars in impairments and government managers saw development pipelines built over the course of years shrivel in a matter of weeks. 

Importantly for the state, Empire and Sunrise are mature proposals, with key approvals in hand and onshore construction already underway. If built as planned, they will be the largest power generation projects in New York in more than a third of a century and an important piece of the state’s decarbonization and economic development strategies. 

“New York is leading the nation to build the clean energy industry, create good-paying jobs and advance our climate goals,” Gov. Kathy Hochul (D) said in a statement. “Offshore wind is a critical piece of our clean energy blueprint to address the climate crisis, and our investments are building a healthy, sustainable New York so that future generations can thrive.” 

New York has a 2035 goal of 9 GW of installed offshore wind. 

South Fork Wind gave the state its first offshore electricity. What it lacks in size — 132 MW — it makes up in bragging rights as first utility-scale project completed in U.S. waters. 

Lengthy History

Equinor/bp and Ørsted/Eversource Energy were awarded contracts for Empire and Sunrise, respectively, in New York’s 2018 solicitation.  

Inflation and interest rates soared in 2022. The two sought increased compensation from the state in June 2023, had their request rejected in October, were invited to rebid in November and were awarded tentative contracts in February. Those contracts are now finalized. 

Empire Wind 1 has a contracted nameplate capacity of 810 MW and is expected to generate first power in 2026. It received the green light from the U.S. Bureau of Ocean Energy Management in November. Equinor has begun rebuilding the South Brooklyn Marine Terminal as a hub for its own projects and for the industry. 

Equinor and bp have severed their partnership, giving Equinor sole ownership of Empire. It is looking for a new partner and expects to make a final investment decision on the project later this year. 

“Empire Wind 1 is a defining project for Equinor, and the [purchase and sale agreement] is an important milestone in de-risking and ensuring a robust path forward as we work toward delivering first power,” Molly Morris, president of Equinor Renewables Americas, said in a statement. 

Sunrise has a contracted nameplate capacity of 924 MW and also is expected to generate first power in 2026. Ørsted and Eversource announced their final investment decision in the project in late March, on the same day BOEM gave Sunrise the green light. Onshore transmission infrastructure work already has begun. 

Award of a final contract is one of the milestones that would trigger Ørsted’s buyout of Eversource’s half of the Sunrise project. Others — FERC and BOEM approvals — are yet to come. 

The new contracts carry a sharply higher upfront cost for ratepayers along with the promise of an unquantifiable societal benefit from decarbonizing the grid and billions of dollars in economic activity. 

The original contracts had an all-in average development cost of $83.36/MWh in 2018 dollars, with an average residential monthly bill impact of 73 cents. New York said the new contracts carry a weighted average all-in lifetime development cost of $150.15/MWh, with an average monthly bill impact of $2.09. 

This story was updated with additional information about the Ørsted-Eversource partnership.

Stakeholders Support ISO-NE Long-term Tx Planning Filing, with Caveats

Stakeholder groups submitted comments to FERC last week in support of ISO-NE’s proposal to create a new longer-term transmission planning (LTTP) process to facilitate more forward-looking transmission investments to meet looming needs (ER24-1978). 

The new process was developed with the New England States Committee on Electricity (NESCOE) and features a default cost allocation method in which costs can be regionalized if the project is expected to bring net benefits. 

LTTP requests for proposals would be issued by ISO-NE at the request of NESCOE, and the RTO would evaluate and select a preferred solution. States then could submit an alternative cost allocation method or decide to terminate the process. (See NEPOOL TC Approves Process for States’ Transmission Needs.) 

The proposal also includes a supplemental process for projects that do not pass the cost-benefit threshold; individual states could agree to cover the costs in excess, while the remaining costs would be regionalized. 

ISO-NE filed the proposal with FERC prior to the commission’s Order 1920, which requires transmission providers to plan at least 20 years into the future, evaluate solutions with a set list of criteria and establish a default cost allocation method to apply if states are unable to reach an agreement on cost. (See FERC Issues Transmission Rule Without ROFR Changes, Christie’s Vote.) The commission issued the order May 13; it goes into effect 60 days after its publication in the Federal Register; and compliance filings are due 10 months after that. 

Advanced Energy United, NESCOE, RENEW Northeast, a coalition of climate nonprofits and the Connecticut Municipal Electric Energy Cooperative (CMEEC) all submitted comments in support of ISO-NE’s proposal, applauding the agreement as an important step in proactive transmission planning. 

United wrote that the proposal is “urgently needed,” noting that “the first Order No. 1920-compliant planning cycle will not start for at least two years, with selection of transmission facilities slated to occur three years after that.” 

However, the clean energy trade association expressed concern the proposal “fails to fully leverage the benefits of transmission competition” by tilting the playing field in favor of incumbent utilities. 

“The proposal makes it very difficult for nonincumbents to offer any solutions that require new equipment on a PTO’s [participating transmission owner’s] existing transmission system,” United wrote. 

Nonincumbent transmission owners “are prohibited from identifying or installing new equipment needed for upgrades on existing lines without partnering with the incumbent PTO,” the organization added. 

These concerns were echoed in comments by RENEW and a joint filing by New Hampshire Transmission and LS Power. The latter two argued the proposal makes the same mistakes as an RFP issued by ISO-NE in 2019 to address reliability concerns associated with the retirement of the Mystic Generating Station. Most of the submissions were disqualified for relying on the land of incumbent transmission owners, which ultimately led to tariff changes intended to fix the issue, the companies said (ER22-733). 

“Under the limitations included in the proposal, only an incumbent transmission owner will be permitted to submit comprehensive solutions to identified needs,” the companies wrote, adding that the proposal contains a “a de facto [right of first refusal] for incumbent PTOs.” 

RENEW urged FERC to accept the filing as is but called on ISO-NE to initiate an additional phase of revisions to address the concerns about incumbents. 

In testimony submitted with its filing, ISO-NE said requiring complete solutions would increase “the likelihood of the process successfully leading to development of transmission solutions, rather than having the process terminate because the submitted longer-term proposals cannot be combined in a manner that addresses the identified needs.” 

CMEEC supported the proposal, calling it “a meaningful step towards the more comprehensive planning approach envisioned by the commission.” 

“The selection of projects through competitive solicitation should allow for consideration of transmission solution proposals that feature joint ownership arrangements with consumer-owned utilities,” which could provide “myriad benefits” including financial benefits for ratepayers, tax exemptions, lower cost of debt and reduced siting risk, CMEEC wrote. 

NIA: Cost, Risk Sharing Needed to Grow Advanced Nuclear Pipeline

Speaking in Waynesboro, Ga., on May 31, Energy Secretary Jennifer Granholm celebrated the completion of Units 3 and 4 at the Vogtle nuclear power plant with a call for the United States to “draw up some more battle plans for more reactors” and triple its nuclear capacity by 2050. 

But according to a new report from the Nuclear Innovation Alliance (NIA), significant barriers remain for moving beyond first-of-a-kind (FOAK) projects like Vogtle to the nearly 200 GW of nth-of-a-kind (NOAK) advanced nuclear projects the U.S. will need to reach that 2050 goal. 

The first new reactors built in the U.S. since 2016, Vogtle’s two units have come online seven years late and $17 billion over budget, leaving subsequent projects surrounded by perceptions of risk, whether real or not, and under pressure to show they can execute on budget and on time. While the Department of Energy is funding a handful of advanced nuclear demonstration projects, “material financial commitments (i.e., signed contracts and spending on project development) to additional projects have been slow in coming,” the report says. 

These projects are generally smaller and use different, more advanced and efficient technologies than the existing 94 reactors at the 54 power plants that make up the U.S. nuclear fleet, which provides nearly 20% of the nation’s power. For example, X-energy, one of the developers receiving federal funds from DOE, is working with Dow to install four 80-MW small modular reactors (SMRs) at the company’s Seadrift, Texas, plant, where it manufactures a range of plastics and other products.  

What’s needed for a healthy pipeline of NOAKs will be a clear set of best practices, accelerated permitting, supply chain buildout and innovative approaches to cost- and risk-sharing for project developers and offtakers, the report says. 

“Faster growth and clean, firm energy is key to the growth objectives of large offtakers” and may make them more willing to accept more development risk, said Stephen Greene, a senior fellow at NIA and author of the report. 

“To accelerate commitments to advanced nuclear, energy offtakers may need to accept a greater portion of the project risks than they do through traditional offtake agreements, such as providing part of the capital commitment to address anticipated costs,” Greene said, speaking at a launch webinar for the report June 3. 

Offtakers sharing costs and risks could receive “compensation later, such as an adjustment to offtake costs or participation in project returns,” the report says. “The most impactful private-sector action would be for offtakers to make capital commitments to provide a backstop of project completion costs,” and the Department of Energy also might chip in to cover at least part of any cost overruns, the report says.  

Kreshka Young, Dow’s North America business director for energy and climate, said her company is financing the upfront development of the X-energy SMRs like any “project in our normal course of our capital planning, and it will go through our normal capital approval process.” 

Dow eventually could look for partners, as offtakers or owners, Young said, but she expects the company’s ownership and business models likely will evolve over time. “But again, at this stage, with the risk levels where they are, the perceptions of risk especially where they are, Dow is today the primary owner of the project.”  

“The real emphasis of the report is how to make projects more attractive to capital markets,” Greene said. “Additional financing either from private-sector participants or from new federal capabilities is a kind of assurance that I think capital markets are going to need, especially for initial projects to address … both the perceived and the real risk of cost overruns.” 

Other topline findings and recommendations in the report include: 

    • Due to the higher costs of FOAKs, the only way these projects pencil out is if they are developed as part of “an intended multi-project deployment plan (through which the cost of early projects can be shared among the projects).” Costs also can be shared via an “order book” of a number of projects of the same design. 
    • In the absence of ongoing, widespread nuclear construction, the U.S. must rebuild its supply chain for new plants, in particular, for the high-assay low-enriched uranium (HALEU) used in advanced and small modular reactors. 
    • Reforms are needed to streamline and speed permitting of new projects at the Nuclear Regulatory Commission (NRC). In a separate overview of potential NRC reforms, NIA noted licensing for advanced and small modular reactors “is challenging because the current licensing pathways have been tailored to conventional, large light water reactors.” 

So far, the NRC has certified the design for only one SMR, the NuScale reactor, and authorized construction of a test advanced reactor developed by Kairos Power, according to the report.  

From FOAKs to NOAKs

Throughout its construction, Vogtle’s repeated delays and cost overruns made the project a point of controversy, particularly for Georgia Power customers who will pick up $7.56 billion of the price tag for finishing the two units. A report in The Atlanta Journal-Constitution estimated that paying off that extra cost could increase utility bills by 10%.   

But with the two units completed and online, Granholm and others at DOE have hailed Vogtle as a major success.  

The expanded plant will be producing roughly 35 million MWh of power per year for the next 80 years, “so that is a multigenerational asset,” said Julie Kozeracki, director of strategy at DOE’s Loan Programs Office, which provided about $12 billion in loans for Vogtle.  

Kozeracki stressed that the lessons learned from the construction of Unit 3 resulted in lower costs and shorter timelines for Unit 4.  

“Many of the challenges faced at Vogtle were true first-of-a-kind issues,” she said. “So, for example, construction began without a complete design, without a mature supply chain, without a trained workforce. But in the course of building Vogtle, we’ve now solved these issues. … 

“Unit 4 was roughly 30% cheaper and more efficient than Unit 3,” she said, and the time needed for testing plant systems went from 94 days at Unit 3 to 42 days at Unit 4.  

“So the worst thing we could do would be to stop after two units,” Kozeracki said. “Vogtle 3 and 4 are a downpayment for everyone to capitalize on.” 

Larger reactors, like the Westinghouse API 1000 reactors used at Vogtle, also can offer economies of scale, which may be particularly attractive to industrial and data center customers looking for large amounts of firm, clean power. 

Many existing nuclear sites have room for additional reactors, she said. Vogtle is the only site in the U.S. with four reactors. “Multi-unit nuclear sites are 30% cheaper to operate than single-unit sites, but we have currently 19 single-unit sites. We have 31 sites with two reactors, three with three reactors … so we have a lot of room to grow.” 

Still, going forward will require a rebalancing of risks, especially for utilities, Kozeracki and Greene said.  

Regulated utilities often cannot recover the high upfront costs of siting, permitting and construction of a new nuclear plant until it goes into operation and “the electricity rates they can charge to customers are not structured to incorporate that degree of risk,” the report notes. 

“Tech companies like Google, Microsoft and Amazon have so much to gain with [nuclear] assets coming online,” Kozeracki said. “And they are growth companies that are in a position to take risk, and they have the cash on hand to take some of that risk. So, I think in order to execute on an effective energy transition, utilities are going to have to learn to become more like growth companies.” 

“The objective is to get over the hump of concerns about risk and get to a point where we’re building these projects more in the regular course,” Greene said. “Then the companies that are building them will have the ability to take those risks.” 

Senate Energy Committee Advances Biden’s FERC Nominees

The Senate Energy and Natural Resources Committee advanced all three of President Joe Biden’s nominees to FERC with broad margins in a business meeting held June 3. 

“Two of the five seats on the commission are already vacant, and a third will expire at the end of the month,” committee Chair Joe Manchin (I-W.Va.) said, referring to Commissioner Allison Clements (D). “Confirmation of these three nominations will ensure that the commission has a full complement of five commissioners continuing important work. I believe all three are well qualified and intend to vote for all three.” 

Manchin, while still caucusing with the Democrats, recently left the Democratic Party to become an independent. 

Clements’ term expires June 30; if she leaves before a replacement is approved by a floor vote in the Senate and sworn in, FERC could lack a quorum. Commissioners can stay on past their term’s expiration if a replacement has not been confirmed until Congress adjourns at the end of the year, but Clements has not said exactly when she plans to leave. 

“By one estimate, the commission regulates activities that account for 7% of our nation’s economy,” committee Ranking Member John Barrasso (R-Wyo.) said. “And for that reason, we must fulfill our responsibility to maintain a quorum on the commission.” 

FERC was left without a quorum at the beginning of President Donald Trump’s term for seven months, meaning it could not vote out any orders, and Barrasso said he does not want that situation repeated. He also supported all three nominees. 

Several committee members voted against the nominees, but none were in doubt, with both David Rosner and Lindsay See advancing by a 16-3 vote and Judy Chang by 15-4. 

FERC must have at least two members who are not in the president’s party; the current makeup is 2-1, with Commissioner Mark Christie the lone Republican. 

Rosner is a FERC staffer who was detailed to the ENR Committee and generated opposition from the left, with Sen. Bernie Sanders (I-Vt.) voting against him, despite being backed by the Democrats. 

Chang, another Democratic pick, also faced some opposition from Republicans. She is a longtime industry expert who served as undersecretary of energy and climate solutions in former Massachusetts Gov. Charlie Baker’s (R) Executive Office of Energy and Environmental Affairs. 

The Republicans put forward See, who is the solicitor general of West Virginia, having argued that state’s and others’ cases against the Obama EPA’s Clean Power Plan, which led to the “major questions” doctrine. 

Sen. Josh Hawley (R-Mo.) voted against all three nominees as a protest against the Grain Belt Express transmission line being developed by Invenergy, which could be in a National Interest Electric Transmission Corridor designated by the Department of Energy — giving FERC backstop siting authority over its path through his state. (See On the Road to NIETCs, DOE Issues Preliminary List of 10 Tx Corridors.) 

“FERC has the ability to countermand state authorities, essentially to bypass the state regulatory process and designate the land — including potentially taking it,” Hawley said. 

At their confirmation hearing, Hawley had asked all three nominees to guarantee they would take into account the interests of local farmers and residents and not “rubber stamp” DOE’s corridors. 

“I was particularly disappointed to [hear] the answer of Ms. See, who would not answer my question,” Hawley said. “And I just want to say as a Republican, I’m not going to vote for other Republican nominees who will not stand up to the power grab that is happening all across the country, and of which my state in particular has been a victim.” 

In response, Barrasso read off a written answer See had given to that question that will sound familiar to anyone who follows FERC, where its members take pains to avoid stating their opinions on specific cases that come before them to avoid having parties file recusal motions against them. 

Hawley “accurately asked” See to exercise caution when approving transmission lines, and she responded she would follow the law, Barrasso said. 

“She went on to say, ‘Sensitivity to how federal actions affect state and local communities is essential when making policy decisions,’” Barrasso said. “And she added, ‘I would consider a proposal’s consequences for local landowners important to the public interest analysis.’” 

ACEG Report Lays out the Case for Proactive Planning in PJM

PJM should adopt a more proactive transmission planning process to deal with the changing resource mix and growing demand on its system in the coming 15 years, according to a report released June 4 by Americans for a Clean Energy Grid (ACEG). 

“Transmission Planning for PJM’s Future Load and Generation” was written by Grid Strategies and David Gardiner and Associates. 

“This report takes a deep dive into some of the inputs that PJM needs to take a closer look at in conducting more holistic scenario planning,” ACEG Executive Director Christina Hayes said in an interview June 3. “PJM has been making progress in evolving its transmission planning in recent months, and we’re excited about those efforts. We know that more will be required in implementing Order No. 1920, and we believe this report provides a road map to doing so.” 

Skeptics of proactive planning argue that transmission plans are full of uncertainty and speculation, but ignoring the massive changes impacting the energy industry and continuing to plan reactively will not address those concerns, the report says. Uncertainty is best addressed by incorporating the best data on the future resource mix and running different scenarios to determine the optimum set of solutions, as Order 1920 requires. 

The report forecasts demand will be higher than the forecast PJM released early this year by about 8% in its “Expected” scenario and 18% for a high-growth scenario. Even those scenarios might be conservative given the continual announcements of new manufacturing facilities and data centers. 

“We find PJM will need an additional 623 TWh of annual energy generation by 2040 to meet this resource gap under our Expected scenario — equivalent to 76% of PJM’s 2023 generation,” the report says. “Under the High scenario, PJM faces a larger resource gap in 2040 and will need to nearly double current energy generation by adding 798 TWh. The increase is driven by higher electrification estimates leading to larger load growth and higher amounts of generation retirements due to shorter plant lifespan assumptions.” 

The biggest difference between PJM’s load forecast and the two scenarios in the report is the latter assume higher demand from electrification and higher generation retirements. The electrification estimates in the report are based on projections from the National Renewable Energy Laboratory, while the report says PJM’s Independent Market Monitor has estimated higher retirements than the RTO itself. 

“I think the one thing we can be certain of with every single demand forecast we have seen recently is that they will all be wrong. Right?” Hayes said. “Nobody is going to forecast the future with 100% certainty.” 

But one thing that is certain is that several factors are leading to higher demand, and it makes sense to ensure transmission is ready to meet that on time, she added. 

“We do need to be thoughtful and measured in how we plan for it,” Hayes said. “But in doing so, we need to take the long view because if we wait until it’s upon us, we’re either going to have outages, or resources that we want to keep in the United States are going to end up being located outside the United States, which is a national security problem. Or we’re going to develop the grid in a more expensive way.” 

The Regional Transmission Expansion Process in place now includes a short-term reliability process looking out five years and another reliability planning process that looks out 15 years, both using base cases based on power flow models that includes capacity cleared in the market and only announced retirements. Retirements require only 90 days’ advance notice. 

Better anticipating retirements can help significantly, as seen recently with the Brandon Shores coal plant in Baltimore. PJM found the grid would need $785 million in transmission upgrades for it to retire reliably; those will take until 2028 to complete, 3.5 years from the plant’s desired retirement, the report says. A reliability-must-run deal for the plant might cost consumers an additional $250 million a year, which could have been avoided or lowered with proactive planning. 

“In Order 1920, FERC did a good job of identifying the various factors, looking at fuel costs and market impacts and likely resource retirements, and doing a deep dive on what the generation resource mix is likely to be in five to 10 to 20 years, and rolling those factors into multivalue, holistic planning,” Hayes said. 

Another issue in PJM is a growing share of renewables as state and federal policies, lower costs and consumer demand push more and more onto the grid. While some states have policies driving that transition, others are not interested in it at all. Hayes argued that holistically planning the entire grid would even benefit the latter. 

“There’s a lot of flexibility in FERC’s rule to allow states with additional goals to assume part of the costs and ensure that states that also partake in the economic/reliability benefits contribute as well,” Hayes said. “It’s the idea of a region being seen as a region rather than a loose collection of states; it is just more cost effective for the region to plan transmission together and then allocate the costs.”