Reliability, Resiliency, Safety and Affordability Flows from Small Modular Reactor Technology

November 28, 2022

by Peter Maloney
APPA News
November 28, 2022

New nuclear technologies, such as small modular reactors (SMR), have reached a point where they are able to help utilities address growing concerns about fulfilling their core mission: delivering safe, affordable, and reliable electric power.

Several industry trends are challenging utility executives’ abilities to balance those three key objectives.

A July report from the North American Electric Reliability Corp. (NERC) highlighted the growing threats to reliability, including extreme weather events, the growing proliferation of “inverter based resources” such as photovoltaic solar power and energy storage, and increasing reliance on natural gas-fired generation.

The growth of renewable resources aimed at meeting state and federal goals aimed at addressing greenhouse gas emissions has been impressive. In the first half of the year, 24 percent of utility-scale generation in the United States came from renewable sources, according to the Energy Information Administration. However, as NERC pointed out this summer, as renewable resources have proliferated, gas-fired generators are becoming “necessary balancing resources” for reliability, leading to an interdependence that poses “a major new reliability risk.”

In this environment, if utilities are going to stay on track to meet their clean energy targets while providing secure, safe and reliable electric power to meet growing demand, they are going to need a new solution.

“NuScale Power’s SMR technology offers a carbon-free energy solution with features, capability, and performance not found in current nuclear power facilities,” Karin Feldman, Vice President of NuScale’s Program Management Office, said in an interview.

Several utilities have already begun exploring the potential of a new generation of nuclear technology to help them meet both their clean energy and reliability needs as they work toward meeting growing demand.

NuScale’s project portfolio includes a six module, 462-MW VOYGR™ SMR power plant. Utah Associated Municipal Power Systems (UAMPS) plans to develop at the Department of Energy’s (DOE) Idaho National Laboratory in Idaho Falls for their Carbon Free Power Project (CFPP).

NuScale also has memorandums of understanding to evaluate the deployment of its SMR technology with Associated Electric Cooperative in Missouri and Dairyland Power Cooperative in Wisconsin.

“What we bring to the table is a technology that is smaller and simpler; that lowers total costs while providing high reliability and resilience, and greater safety,” said Feldman, who develops and manages NuScale’s portfolio of projects and establishes and maintains project controls, cost estimating, and risk management standards. She is also NuScale’s primary interface with the DOE.

Cost Comparisons

The smaller scale of NuScale’s reactors – 77 MW versus 700 MW or even 1,600 MW or more for conventional reactors – brings several cost advantages, Feldman said. Smaller reactors can be fabricated in a factory, which is cheaper than field fabrication, because it involves repetitive procedures that foster iterative improvement and economies of scale, she said. Smaller reactors also take less time to build, which lowers construction costs.

Because they are modular, an SMR does not force a utility to commit to participation in a nuclear project in the 1,000-MW to 2,000-MW size range. An SMR project can be scaled to meet demand, and modules can be added as demand requires, Feldman said. That helps reduce financial risk for a utility, she said.

Another, related consideration, highlighted by the supply chain disruptions in the wake of the COVID-19 pandemic, is that much of NuScale’s technology can be locally sourced. “We are taking advantage of the U.S. supply chain to the greatest extent possible,” Feldman said. “We have some overseas manufacturers, but we are also engaged to develop additional U.S. capabilities in areas such as large-scale forgings.”

Reliability and Resiliency

Nuclear power plants generally have high reliability, over 92 percent, nearly twice the reliability of coal and natural gas plants, but the smaller, compact design of SMR technology can offer additional reliability advantages, Feldman said. Because NuScale plants are designed to scaled up in incremental steps, if any one of the individual reactors has an issue, the other reactors can continue to generate power, she explained.

NuScale’s SMR technology also enhances resiliency, Feldman said. The design calls for the reactors to be housed in a building below grade, hardening their vulnerability to airplane strikes and very large seismic events, she said.

An SMR plant also is designed with black start capability so that it can restart after a disruption without using the surrounding electric grid. “So, in the event of an emergency, it could be a first responder to the grid, one of the first generators to start up,” Feldman said.

And because the design calls for multiple reactors, a problem with one reactor does not require the entire plant to shut down. An SMR plant can also operate in island mode, serving as a self-sufficient energy source during an emergency, Feldman said.

In some ways, a NuScale SMR power plant resembles a microgrid. In fact, NuScale’s technology team has done a lot of analysis on microgrid capacity, Feldman said, noting that the analysis found that a 154-MW SMR plant could run for 12 years without refueling. “The technology is very good for mission critical functions and activities,” she said.

Safety First

Cost and resiliency are important considerations, but if a power plant, especially a nuclear power plant, is not safe, other considerations pale in comparison.

Safety is built into NuScale’s SMR design, Feldman said. “The SMR has a dual walled vessel design that gives it an unlimited coping period,” she said. “If an incident does occur, the plant can shut down without operator intervention or action and be safe and secure,” she said.

NuScale’s integrated design encompasses the reactor, steam generators and pressurizer and uses the natural action of circulation, eliminating the need for large primary piping and reactor coolant pumps.

If needed, the reactor shuts down and self cools indefinitely without the need for either alternating current or direct current power or additional water. The containment vessel is submerged in a heat sink for core cooling in a below grade reactor pool housed in a Seismic Category 1 reactor building as defined by the U.S. Nuclear Regulatory Commission (NRC). In essence, the unit continues to cool until the decay heat dissipates at which point the reactor is air cooled, Feldman said.

In 2018, the NRC found that NuScale’s SMR safety design eliminates the need for class 1E power, that is, power needed to maintain reactor coolant integrity and remain in a safe shutdown condition.

In August 2020, the NRC approved the overall design of NuScale’s SMR. In a next step, the NRC in July directed staff to issue a final rule certifying NuScale’s SMR design.

If approved, the certification would be published in the Federal Register and have the effect of law, providing even greater comfort to any entities exploring SMR technology to provide clean, emission free, reliable and affordable power, Feldman said.

The rulemaking is on NRC’s docket for a decision in November.

Finally, after a rigorous years long review by the NRC, the Final Safety Evaluation Report (FSER) regarding NuScale’s Emergency Planning Zone (EPZ) methodology was issued. This is another tremendous “first” for NuScale’s technology. With the report’s approval of our methodology, an EPZ that is limited to the site boundary of the power plant is now achievable for a wide range of potential plant sites where a NuScale VOYGR™ SMR power plant could be located.

N.Y. Governor Signs Bill Placing Two-Year Moratorium on Certain Types of Cryptocurrency Mining

November 28, 2022

by Paul Ciampoli
APPA News Director
November 28, 2022

New York Gov. Kathy Hochul on Nov. 22 signed a bill into law that places a two-year moratorium for certain types of cryptocurrency mining operations.

In a memorandum related to her signing the bill, Hochul said that the law will prohibit Environmental Conservation Law permits from being issued for two years to proof-of-work cryptocurrency mining operations that are operated through electric generating facilities that use a carbon-based fuel.

New York is the first state to take such action, Hochul said.

The law also requires the state’s Department of Environmental Conservation (DEC) to prepare a generic environmental impact statement on cryptocurrency mining operations that use proof-of-work-authentication methods to validate blockchain transactions.

The law still allows for the issuance of permits for generating facilities that “use alternatives to carbon-based fuel, such as hydropower, which would permit growth and business development in this industry,” the memorandum said.

Cryptocurrency and other trade groups expressed disappointment in Hochul’s action.

The Chamber of Digital Commerce, a blockchain trade association, said that to date, “no other industry in the state has been sidelined like this for its energy usage. This is a dangerous precedent to set in determining who may or may not use power.”

“The Business Council does not believe the legislature should seek to categorically limit the growth and expansion of any business or sector in New York,” said Heather Briccetti Mulligan, President & CEO of the New York Business Council. “We plan to further engage and help educate them regarding this industry and the benefits it provides to the local, regional, and state economy.”

Click here for additional details on the bill that Hochul signed into law.

New York DEC Denies Air Permit Renewal To Cryptocurrency Mining Power Plant

In July, the DEC denied renewal of an air permit to a 107-megawatt (MW) power plant in Yates County that is used to power computer operations for proof-of-work cryptocurrency mining.

In denying a Title V air permit renewal for Greenidge Generation in the town of Torrey, the DEC cited the dramatic increase in greenhouse gas emissions from the facility since the passage of the state’s Climate Leadership and Community Protection Act driven by “the change in the primary purpose of its operations.”

California Regulators Adopt $1 Billion Transportation Electrification Program

November 27, 2022

by Paul Ciampoli
APPA News Director
November 27, 2022

The California Public Utilities Commission (CPUC) on Nov. 17 adopted a five-year, statewide, $1 billion transportation electrification program.

Under the program, 70 percent of the funds will go towards charging for medium-and heavy-duty vehicles and 30 percent will go towards light-duty charging at or near multi-unit dwellings.

The program offers rebates for customer side EV infrastructure investments at commercial, industrial, and residential sites beginning in 2025 and provides higher rebates for projects in underserved, disadvantaged, and tribal communities to ensure charging infrastructure reaches these hard-to-reach communities.

The CPUC decision directs the state’s investor-owned utilities to host annual roundtables and workshops to discuss potential program modifications with stakeholders and CPUC staff.

The action resolves the transportation policy framework that has been in development since 2020. The decision also furthers the integration of EVs as an energy resource that can help meet the needs of the grid by developing a strategy for promoting vehicle-grid integration.

The CPUC is undertaking multiple efforts to promote EV adoption and infrastructure, including adopting rules to ensure that customers installing EV chargers do not have to wait unreasonable times to interconnect to the grid.

In the proceeding to modernize the electric grid for a high distributed energy resources future, the CPUC is overseeing the investor-owned utilities’ plans to upgrade the distribution grid to meet the new load EV charging will create. Additionally, the CPUC’s Integrated Resource Planning (IRP) proceeding, which ensures sufficient electric generation and transmission capacity to meet reliability and GHG reduction goals, is planning for increasingly high penetrations of electric vehicles to guide procurement and infrastructure decisions.

FERC Moves to Address Reliability Issues Tied to Growth of Inverter-Based Resources

November 27, 2022

by Paul Ciampoli
APPA News Director
November 27, 2022

The Federal Energy Regulatory Commission (FERC) on Nov. 17 took a number of actions addressing reliability issues tied to the growth of inverter-based resources (IBRs).

IBRs are solar photovoltaic, wind, fuel cell and battery storage resources that use power electronic devices to change direct current power, produced by generators, to alternating current power, to be transmitted on the bulk-power system. “As use of this technology grows, it is important to ensure that IBRs do not adversely impact the technical reliability of the grid,” FERC noted.

At the meeting, FERC Commissioners approved an order and a notice of proposed rulemaking (NOPR) containing directives and proposed directives to the North American Electric Reliability Corporation (NERC), to account for the increasing number of IBRs in the nation’s resource mix.

FERC Order

In the order, FERC directed NERC to submit within 90 days a work plan for Commission approval describing, in detail, how NERC plans to identify and register owners and operators of Bulk-Power System-connected IBRs that are not currently required to register with NERC under the bulk electric system definition but that in the aggregate have a material impact on the reliable operation of the Bulk-Power System.

Many IBRs connecting to the Bulk-Power System do not individually meet the current bulk electric system definition and, thus, are not registered with NERC, FERC staff said in a presentation. NERC’s Commission-approved bulk electric system definition defines the scope of NERC’s reliability standards and the entities subject to NERC compliance. This means that those IBRs are not required to comply with mandatory reliability standards or respond to NERC Alerts.

The order directs NERC to do three things. First, to complete modifications to its registration processes no later than 12 months after Commission approval of the work plan. Second, to identify all owners and operators of Bulk-Power System-connected IBRs that in the aggregate affect the reliable operation of the Bulk-Power System no later than 24 months of Commission approval of the work plan. And third, to register owners and operators of Bulk-Power System-connected IBRs that in the aggregate have a material impact on the reliable operation of the Bulk-Power System no later than 36 months after Commission approval of the work plan.

The order recognizes that smaller Bulk-Power System-connected IBRs may not present the same reliability impact in all circumstances as generation that has historically been registered. Accordingly, the order acknowledges that NERC may determine that the full set of reliability standard requirements otherwise applicable to generator owners and operators need not apply to all newly registered Bulk-Power System-connected IBR generator owners or operators.

NOPR

In the NOPR, FERC preliminarily finds that the reliability standards do not fully address the impacts of IBRs on the reliable operation of the Bulk-Power System.

The NOPR proposes to direct NERC to develop new or modified reliability standards that address four reliability gaps related to IBRs:

Data sharing: Currently, IBR owners and operators do not consistently share IBR planning and operational data, and the information that is shared is often inaccurate or incomplete;
Model validation: Once planners have IBR data, they must ensure the accuracy of such data to create valid system models;
Planning and operational studies: Once planners and operators validate system models, they must include those models in planning and operational studies to assess the reliability impacts—both of individual and collective IBRs—on Bulk-Power System performance;
Performance requirements: For example, IBRs’ ability to ride through system disturbances.

The NOPR proposes to direct NERC to submit a compliance filing within 90 days of the effective date of the final rule detailing a comprehensive standards development and implementation plan explaining how NERC will prioritize the development and implementation of new or modified reliability standards to address the reliability gaps.

The NOPR explains that NERC’s plan should take into account the risks posed to the reliable operation of the Bulk-Power System, standard development projects already underway, resource constraints, and other factors as necessary.

Comments in response to the NOPR are due 60 days after the date of publication in the Federal Register, with reply comments due 30 days later.

FERC also issued an order that approved reliability standards that are related to IBRs, which NERC proposed earlier this year.

California Air Resources Board Releases Plan for Carbon Neutrality by 2045

November 23, 2022

by Peter Maloney
APPA News
November 23, 2022

The California Air Resources Board (CARB) recently released an updated proposal to reach carbon dioxide (CO2) neutrality by 2045.

CARB released the proposal, 2022 Scoping Plan For Achieving Carbon Neutrality, in response to Gov. Gavin Newsom’s July call for California to move faster to reach its climate goals by setting new targets for renewable energy, clean buildings, CO2 removal, and clean transportation fuels.

If adopted, CARB said the plan would build out a 100 percent clean energy grid, achieve carbon neutrality by 2045, ramp up CO2 removal and sequestration, build in protections against oil drilling, and invest $54 billion to create an oil-free future.

The plan would rapidly move the state to zero-emission transportation by electrifying the cars, buses, trains, and trucks that now constitute California’s single largest source of planet-warming pollution, CARB said. It would also phase out the use of fossil gas used for heating homes and buildings and clamp down on chemicals and refrigerants that trap much more heat than CO2.

The proposal calls for:

the installation of at least 20 gigawatts (GW) of offshore wind capacity by 2045;
the building of 3 million climate friendly homes by 2030 and 7 million by 2035;
the deployment of 6 million heat pumps by 2030;
the setting of CO2 removal or capture targets of 20 million metric tons CO2 equivalent (MMTCO2e) by 2030 and 100 MMTCO2e by 2045;
the achievement of 20 percent non-combustion in the aviation sector by 2045, with the remaining demand met with sustainable aviation fuel;
setting a target for light-duty vehicle miles traveled (VMT) of 25 percent per capita below 1990 levels by 2030 and 30percent per capita below 1990 levels by 2045.

To address remaining emissions, the plan re-envisions “our natural and working lands—forests, shrublands/chaparral, croplands, wetlands, and other lands—to ensure they play as robust a role as possible in incorporating and storing more carbon in the trees, plants, soil, and wetlands that cover 90 percent of the state’s 105 million acres while also thriving as a healthy ecosystem,” CARB said.

However, modeling indicates that natural and working lands will not provide enough sequestration and storage to address the residual emissions, so it will be necessary to research, develop, and deploy additional methods of capturing CO2 that include removing it from smokestack emissions or drawing it out of the atmosphere and permanently storing it, CARB said.

Fitch Revises Rating Outlook for Heartland Energy to Positive

November 23, 2022

by Paul Ciampoli
APPA News Director
November 23, 2022

Fitch Ratings has affirmed ratings of Heartland Energy at ‘A-‘ and revised the rating outlook to Positive from Stable.

Specifically, Fitch affirmed the following ratings at ‘A-‘: $6.6 million taxable electric system revenue bonds, series 2018 and Long-Term Issuer Default Rating.

Fitch noted its rating on Heartland’s implied second lien revenue obligations has been withdrawn as no debt is outstanding under the lien and the rating is no longer considered to be relevant to the agency’s coverage.

Heartland Energy’s ‘A-‘ ratings “reflect the strong wholesale take-and-pay power sales contracts (PSCs) with purchasers exhibiting midrange purchaser credit quality, as well as an independent ability to adjust rates. The utility’s low operating risk is driven by a low operating cost burden derived from a portfolio of high availability and low-cost generation,” Fitch said.

The revised Positive Outlook reflects the increased stability in Heartland’s operating profile, as well as Fitch’s view that lower, sustained financial leverage could support positive rating action.

Heartland Energy provides wholesale power to public power communities across South Dakota, Minnesota, Iowa and Nebraska.

Based in Madison, SD, Heartland Energy also provides a suite of customer service programs including economic development, energy efficiency, cybersecurity and more.

SMUD and NREL Partner on Software to Speed Rooftop Solar Applications

November 22, 2022

by Peter Maloney
APPA News
November 22, 2022

Researchers at the Sacramento Municipal Utility District (SMUD) and the National Renewable Energy Laboratory (NREL) have developed a tool to make it easier for utilities to interconnect residential solar panels to the grid.

The software – named PRECISE for PREconfiguring and Controlling Inverter SEt-points – aims to help utilities identify optimal inverter modes and settings for distributed solar.

The standalone system allows utility engineers to seamlessly interconnect photovoltaic (PV) solar generation, cutting the waiting times and costs for customers, NREL said.

Utilities can receive hundreds of requests a day to connect customers’ rooftop solar systems to their grid. Each application for interconnection requires a technical evaluation to assess the potential grid impacts of the solar installation. Currently utilities are evaluating interconnection applications manually, which puts increasing demands on distribution engineers.

To manage solar interconnection requests, utilities often use hosting capacity analysis to provide public visibility into the capacity of their networks to accommodate solar installations. The resulting maps provide a snapshot that lets customers know if their local grid can accommodate new solar generation. But the maps, although useful for high-level planning, do not answer the question of whether individual solar applications can interconnect to the grid, as every interconnection can trigger unique local distribution system constraints, NREL said.

PRECISE automates the modeling of all of SMUD’s 40,000-plus low-voltage distribution lines connected to houses and rooftop solar and pulls in advanced metering infrastructure (AMI) data as required.

The software also uses local irradiance measurements across SMUD’s service area and creates mathematical models of each incoming solar system, including every component of the solar panels and their orientations, as well as the inverters and smart inverter capabilities. Data is pulled in as soon as a customer’s interconnection application is created and updates utility planning, metering and design teams, creating a streamlined solar interconnection process tailored to SMUD’s local needs.

“PV interconnection evaluation is becoming a time-consuming process as each proposed solar power system must be individually reviewed in detail to make sure it works safely with our grid,” Sheikh Hassan, a principal distribution engineer at SMUD, said in a statement. “PRECISE significantly reduces this evaluation time by instantly determining optimal inverter settings for a given location.”

A common scenario for SMUD customers involves requests to interconnect solar power systems larger than the grid could accommodate in a specific location. “The task to determine optimal smart inverter settings in order to maximize our PV hosting capacity will become more complex and time intensive as the number of PV interconnection applications increase,” Hassan said.

Smart inverter functions can be the deciding factor on whether an interconnection must be downsized or not, and PRECISE enables that evaluation, leveraging inverter functions as needed, to help accommodate more solar onto the grid, he said.

PRECISE went live at SMUD on in February and has processed over 1,700 applications in the first six months of operation, an average of 13 applications each business day and as many as nearly 30 applications in one day. Using automation, data integration, and fast computing techniques, PRECISE could handle hundreds of applications daily, NREL said.

NREL and SMUD said they are exploring future collaborations based on PRECISE’s ability to link the diverse utility data sets needed for automated evaluation of new distributed energy resources. PRECISE could be applied to large commercial solar sites, to assess battery energy storage, or to evaluate the impact of electric vehicles as they connect to the grid, the partners said.

Small Modular Reactor Technology Delivers Reliability, Resiliency, Safety and Affordability

November 22, 2022

by Peter Maloney
APPA News
November 22, 2022

Several industry trends are challenging utility executives’ abilities to balance those three key objectives.

NuScale also has memorandums of understanding to evaluate the deployment of its SMR technology with Associated Electric Cooperative in Missouri and Dairyland Power Cooperative in Wisconsin.

Cost Comparisons

Reliability and Resiliency

Safety First

Cost and resiliency are important considerations, but if a power plant, especially a nuclear power plant, is not safe, other considerations pale in comparison.

In 2018, the NRC found that NuScale’s SMR safety design eliminates the need for class 1E power, that is, power needed to maintain reactor coolant integrity and remain in a safe shutdown condition.

In August 2020, the NRC approved the overall design of NuScale’s SMR. In a next step, the NRC in July directed staff to issue a final rule certifying NuScale’s SMR design.

The rulemaking is on NRC’s docket for a decision in November.

Delays Slow Clean Energy Installations by 55 Percent in Second Quarter

November 22, 2022

by Peter Maloney
APPA News
November 22, 2022

Clean energy installations dropped 55 percent in the second quarter compared with the same period in 2021, slowed in part by widespread delays, according to a new report from the trade group American Clean Power.

There were 3,188 megawatts (MW) of utility-scale clean energy capacity installed in the quarter, making it the lowest quarter for clean energy capacity additions since third quarter 2019, according to the Clean Power Quarterly Market Report.

The only technology that saw an increase was energy storage, which rose 13 percent. Solar installations were down 53 percent compared with first-quarter 2021. And onshore wind installations were 78 percent lower in the second quarter compared with the same time period last year, the report said.

“Many projects continue to face supply chain-related challenges,” the report’s authors said. “Availability of solar modules has significantly delayed schedules for projects following the Department of Commerce’s decision to investigate duty circumventions claims,” They added.

In March, the Department of Commerce launched an investigation into whether certain photovoltaic solar cells and modules imported from Southeast Asia are circumventing U.S. tariffs.

Solar power projects comprised 64 percent of delayed projects with land-based wind projects accounting for 23 percent of delayed capacity and storage 13 percent, the report found. And project delays continue to mount, the report said, noting that developers reported 19,286 MW of projects that experienced delays in the second quarter, including 8,116 MW that is now expected online this quarter. Multiple projects, totaling 827 MW, have had more than one delay in their expected online dates, according to the report.

The delays reported in the second quarter were compounded by previous slowdowns, the report found, noting that at the end of 2021, 10,993 MW of clean power capacity experienced delays, of which only 3,850 MW has since come online.

Additionally, in the first quarter of 2022, 7,370 MW of capacity was delayed, of which 551 MW has since come online. In all, since the end of 2021 more than 32,400 MW of capacity has been delayed and has not yet achieved commercial operation, the report found.

Of the 8,166 MW of clean energy capacity expected online in the second quarter but was delayed, 5,782 MW are now expected online by year end with the remaining 2,400 MW of capacity now expected online between 2023 and 2026 or to be delayed indefinitely, the report said.

Looking forward, the capacity of solar power in the clean energy pipeline slowed compared with the first half of 2021, but showed a 5 percent increase over the first quarter, the report found. Solar power projects now account for 57 percent of the pipeline of clean energy capacity in the pipeline, including 22,765 MW under construction and 50,938 MW in advanced development.

Development of land-based wind power, the largest source of operational clean power, has also slowed down, the report found. Between third-quarter 2021 and fourth-quarter 2021 wind capacity in the development pipeline decreased by 7 percent, and between the end of 2021 and first-quarter 2022 the land-based wind pipeline decreased 2 percent, and in the second quarter the wind project pipeline decreased by 1 percent.

Land based wind projects now account for 18 percent, or 23,185 MW, of the clean energy project pipeline with offshore wind projects accounting for an additional 14 percent, or 17,502 MW, of the pipeline.

Energy storage projects also slowed, decreasing by 1 percent in terms of megawatt capacity since the first quarter and down from an 18 percent increase between fourth-quarter 2021 and first-quarter 2022, the report found. At the end of the second quarter there were 14,499 MW (36,200 megawatt hours) of storage capacity in development, according to the report.

In terms of megawatts, 31 percent of battery storage capacity in the pipeline are standalone projects with the remaining 69 percent of projects paired with wind or solar resources, according to the report.

California leads in battery storage development with 5,773 MW, accounting for 41 percent of the total storage pipeline, the report found. Texas ranks second with 2,415 MW, and Nevada third with 1,473 MW.

California also ranked first in terms of overall clean energy development, bringing 825 MW of clean energy online in the second quarter, the report found. Texas was second, installing 618 MW, followed by Florida with 277 MW, and Georgia with 236 MW.

In terms of technology, 1,575 MW of new solar capacity was brought online in the second quarter, bringing 2022 solar installations to 4,558 MW, the report said. Five land-based wind projects came online in the second quarter with a total capacity of 620 MW. Total 2022 wind installations are now 3,485 MW. And battery storage had a record second quarter with 992 MW coming online, bringing year-to-date total to 1,751 MW.

DOE Announces Conditional Selection of Calif. Nuclear Plant to Receive Funding

November 21, 2022

by Paul Ciampoli
APPA News Director
November 21, 2022

The U.S. Department of Energy (DOE) on Nov. 21 announced the conditional selection of the Diablo Canyon nuclear power plant in California to receive the first round of funding from the Civil Nuclear Credit (CNC) Program.

Units 1 and 2 at the Diablo Canyon Power Plant (DCPP) were scheduled to be decommissioned in 2024 and 2025, but the conditional award of credits, valued at up to $1.1 billion, creates a path forward for Diablo Canyon to remain open. Final terms are subject to negotiation and finalization by DOE.

Funded by President Biden’s Infrastructure Law, the $6 billion CNC program aims to help preserve the existing U.S. nuclear reactor fleet.

DOE noted that shifting energy markets and other economic factors have resulted in the early closures of 13 commercial reactors across the United States since 2013.

Owned and operated by Pacific Gas and Electric Company (PG&E), Diablo Canyon produces approximately 16 GWh of electricity annually.

PG&E filed its application for federal funding on September 2, 2022, the same day California Governor Gavin Newsom signed Senate Bill 846 into law, seeking to extend operations at DCPP in San Luis Obispo County for five years beyond its current license expiration in 2025.

Last month, the state authorized a loan of up to $1.4 billion from the Department of Water Resources to PG&E to support extending operations at the plant. SB 846 further directed PG&E to pursue funds from DOE, and any other potentially available federal funds, to pay back the loan and lower costs for customers should the plant’s operating license be extended.

DOE said that the first CNC award cycle prioritized reactors facing the most imminent threat of closure, limiting applications to reactors that had already announced intentions to cease operations due to economic factors.

The second CNC award cycle will prioritize reactors that are projected to shut down due to economic factors within the next four years.

DOE is expected to begin accepting applications for the second cycle of CNC funding in January 2023.

Click here for additional details about the CNC Program and the upcoming second award cycle.

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Reliability, Resiliency, Safety and Affordability Flows from Small Modular Reactor Technology

N.Y. Governor Signs Bill Placing Two-Year Moratorium on Certain Types of Cryptocurrency Mining

California Regulators Adopt $1 Billion Transportation Electrification Program

FERC Moves to Address Reliability Issues Tied to Growth of Inverter-Based Resources

California Air Resources Board Releases Plan for Carbon Neutrality by 2045

Fitch Revises Rating Outlook for Heartland Energy to Positive

SMUD and NREL Partner on Software to Speed Rooftop Solar Applications

Small Modular Reactor Technology Delivers Reliability, Resiliency, Safety and Affordability

Delays Slow Clean Energy Installations by 55 Percent in Second Quarter

DOE Announces Conditional Selection of Calif. Nuclear Plant to Receive Funding

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