The process of making fuel for our light-water nuclear plants is meticulously developed and executed. And as anyone who has gone through the receipt process once it arrives at the plant can attest, the initial quality examination is likewise a thorough and rigorous activity. We do a great job of making sure that high quality fuel is ready to go into the core.

The Department of Energy released draft guidance for the second award cycle of the $6 billion Civil Nuclear Credit (CNC) Program on September 30, ahead of a decision on which reactors could receive four years of economic aid from the program’s first award cycle.

The DOE’s draft guidance for the second award cycle describes CNC program timelines and all supporting information required for owners or operators of nuclear power plants to apply for certification of eligibility and submit sealed bids. Feedback is requested by 5:00 p.m. EDT on November 4. While no date has been set for the second-round application process to open, the DOE plans to initiate the award cycle before the end of the year.

Vistra Corporation announced yesterday that it is seeking 20-year life extensions for its Comanche Peak reactors and has submitted an application for license renewals to the Nuclear Regulatory Commission.

Operated by Vistra subsidiary Luminant and located in Glen Rose, Texas, Comanche Peak is home to two Westinghouse-supplied pressurized water reactors. The 1,218-MWe Unit 1 began commercial operation in August 1990, with the 1,207-MWe Unit 2 joining in August 1993. The original 40-year licenses for Units 1 and 2 expire in February 2030 and February 2033, respectively.

The Department of Energy has extended Savannah River Nuclear Solutions’ (SRNS) management and operating contract at the Savannah River Site (SRS) in South Carolina for up to an additional five years. The announcement was made recently 29 by engineering company Fluor, which leads the SRNS joint venture, along with Newport News Nuclear and Honeywell.

The Nuclear Regulatory Commission issued a draft environmental impact statement (EIS) recently on Kairos Power’s application for a permit to construct Hermes, a 35-MW nonpower version of the company’s fluoride salt–cooled reactor design (KP-FHR), at the East Tennessee Technology Park in Oak Ridge, Tenn.

The Department of Energy’s management of its commercial-scale reactor demonstration projects has “generally been consistent with requirements to address risk,” according to a Government Accountability Office (GAO) report published recently. The GAO found that the DOE has met existing project management requirements, and that the two offices managing the awards—the Office of Nuclear Energy (NE) and the Office of Clean Energy Demonstrations (OCED)—plan to introduce additional project management tools, such as external independent reviews. The GAO recommended that the DOE adopt those plans as institutional best practices for other large energy projects, and the DOE concurred.

Atomic Energy of Canada Limited (AECL) has published a request for expressions of interest to manage and operate Canadian Nuclear Laboratories (CNL). The request is available on the MERX website.

According to AECL, the objective of the procurement and the resulting contract is to contain or reduce costs and risks for Canadian taxpayers while leveraging CNL’s capabilities and resources for Canadians.

Expressions of interest must be submitted via MERX on or before October 26, 2022.

The Department of Energy’s National Nuclear Security Administration (NNSA) has announced a $14 million grant to Case Western Reserve University in Cleveland, Ohio, to be used to establish a new center on lifetime extension research and materials science. The funds will be allotted over a five-year period.

Based on a review of U.S. Atomic Energy Commission (AEC) records and available data from numerous agencies, there are an estimated 4,225 mines across the country that provided uranium ore to the U.S. government for defense-related purposes between 1947 and 1970. To aid in the cleanup of these legacy uranium mines and establish a record of their locations and current conditions, the Defense-Related Uranium Mines (DRUM) program was established within the Department of Energy’s Office of Legacy Management (LM).

With a reluctant bow to the reality of the energy crisis gripping Europe, the German government this week took a slight step back from its antinuclear power stance, forging an agreement with the operators of the Isar and Neckarwestheim plants to keep those facilities in “operational reserve” this winter should they be needed to ensure the country’s energy security.

Energy firms Nuclearelectrica and Nova Power & Gas have launched a joint venture, RoPower Nuclear, for the development of small modular reactors in Romania, with SMR technology provided by NuScale Power, of Portland, Ore.

Largely state-owned, Nuclearelectrica operates Romania’s sole nuclear power facility, the two-unit Cernavoda plant, while Nova Power & Gas, a subsidiary of the privately held E-Infra Group, is a supplier and distributor of electricity and natural gas in Romania. The two firms own equal shares of RoPower.

In the wake of inspections conducted about a year ago, the Nuclear Regulatory Commission has proposed a civil penalty of $96,000 against the U.S. Air Force for 14 apparent violations of NRC regulations on the use of radioactive materials.

The new standard ANSI/ANS-30.3-2022, Light Water Reactor Risk-Informed, Performance-Based Design, has just been issued by the American Nuclear Society. Approved by the American National Standards Institute (ANSI) on July 21, 2022, the standard provides requirements for the incorporation of risk-informed, performance-based (RIPB) principles and methods into the nuclear safety design of commercial light water reactors. The process described in this standard establishes a minimum set of process requirements the designer must follow in order to meet the intent of this standard and appropriately combine deterministic, probabilistic, and performance-based methods during design development.

Westinghouse's eVinci microreactor (Image: Westinghouse)

Westinghouse Electric Company has signed a service agreement with the Canadian Nuclear Safety Commission (CNSC) to bring the eVinci microreactor closer to commercialization, the company announced Tuesday. The agreement initiates a vendor design review (VDR)—a prelicensing technical assessment of a company’s reactor technology.

The objective of a VDR, according to the CNSC, is to verify the acceptability of a nuclear power plant design with respect to Canadian nuclear regulatory requirements and expectations, as well as Canadian codes and standards. The review also aims to identify fundamental barriers to licensing a new design in Canada and to assure that a resolution path exists for any design issues identified.

The Department of Energy’s National Nuclear Security Administration (NNSA) has signed a memorandum of understanding with Japan’s Ministry of Education, Culture, Sports, Science, and Technology (MEXT). The MOU describes their commitment to convert the Kindai University Teaching and Research Reactor (UTR-KINKI) from high-enriched uranium fuel to low-enriched uranium fuel. The nuclear nonproliferation–related agreement also calls for the secure transport of all the HEU to the United States for either downblending to LEU or disposition.

The International Atomic Energy Agency, for the second successive year, has revised upward its annual projections of nuclear power’s potential growth over the coming decades as an electricity provider.

In the just-released 42nd edition of Energy, Electricity and Nuclear Power Estimates for the Period up to 2050, the IAEA has increased its high-case scenario for nuclear by 10 percent over last year’s report. (In 2021, the agency revised upward its annual projections for the first time since the 2011 Fukushima Daiichi accident.)

According to the high-case scenario, world nuclear generating capacity more than doubles to 873 GWe by 2050, compared with current levels of about 390 GWe—an addition of 81 GWe to last year’s projection. In the low-case scenario, generating capacity remains essentially flat.

Ontario Power Generation and Microsoft Canada have formed a partnership aimed at combatting climate change and driving sustainable growth across the province of Ontario, the Canadian utility announced this week.

Under the partnership, Microsoft will procure clean energy credits (CECs) sourced from OPG’s nuclear and hydro assets in Ontario on an hourly basis. (OPG’s nuclear assets include the four-unit Darlington plant and six-unit Pickering facility.) According to the announcement, this will enable Microsoft to advance toward its 100/100/0 by 2030 goal, which commits the software firm to powering its data centers globally with zero-carbon energy, 24/7.

The Department of Energy’s Office of Environmental Management (EM) said it has met one of its cleanup priorities for 2022 by beginning demolition of the Main Plant Process Building (MPPB) at the West Valley Demonstration Project (WVDP) in New York. Located 35 miles south of Buffalo, the 150-acre WVDP site is home to the only commercial spent nuclear fuel reprocessing facility to operate in the United States.

The Department of Energy has opened the application process for its $7 billion program to create regional clean hydrogen hubs (H2Hubs) across the United States. The DOE announced its intention to fund this program in June, the same day that Westinghouse Electric and Bloom Energy announced plans to develop the electrolysis technology that nuclear power plants can use to produce clean hydrogen from water. The DOE H2Hubs program is funded by the recently enacted Bipartisan Infrastructure Law and supports the H2@Scale Initiative to create networks of hydrogen producers, consumers, and local infrastructure. According to the DOE, at least one of the planned hydrogen hubs will use nuclear power to generate the hydrogen.

ANS and ANSI have published the following new standard, which is available for purchase in the ANS Store:

ANSI/ANS-19.3.4-2022, The Determination of Thermal Energy Deposition Rates in Nuclear Reactors (revision of ANSI/ANS-19.3.4-2002 [R2017])