Energy Northwest, owner and operator of Columbia Generating Station in Richland, Wash., recently signed a memorandum of understanding with nuclear technology firm Curio Solutions regarding Curio’s NuCycle nuclear waste recycling process.

Columbia is the Northwest’s only operating nuclear power plant, consisting of one 1,207-MWe boiling water reactor. There are currently 54 concrete and steel casks on site, holding the spent fuel produced by the reactor since it began commercial operation in 1984.

Ontario Power Generation (OPG) and X-energy will look for opportunities to deploy the Xe-100 high-temperature, gas-cooled reactor at industrial sites in Ontario and identify further potential end users and sites throughout Canada under an agreement announced today.

With the proper investment and policy support, advanced nuclear energy has the potential to become a key component of a future U.S. clean energy system, a new report from Berkeley, Calif.’s, Breakthrough Institute finds.

Released this morning, the 155-page Advancing Nuclear Energy: Evaluating Deployment, Investment, and Impact in America’s Clean Energy employs “a high-resolution nationwide model of the United States electricity sector to demonstrate how advanced nuclear reactors might play a major role in a least-cost plan to transition the power grid entirely to clean energy sources by 2050, assuming that the first advanced reactors are available for deployment by 2030,” according to the executive summary.

The House Appropriations Committee has delivered to the full House the fiscal year 2023 Energy and Water Development bill in a 32–24 vote, along with a notable amendment concerning, among other things, Diablo Canyon, high-assay low-enriched uranium (HALEU), and thorium molten salt reactors. The amendment received a thumbs-up at the committee’s June 28 markup session via voice vote.

ANS and the Breakthrough Institute yesterday submitted a letter to the Nuclear Regulatory Commission regarding the agency’s ongoing efforts to create a regulatory infrastructure for the development and commercialization of advanced reactors, a mandate of the Nuclear Energy Innovation and Modernization Act, signed into law in January 2019.

Westinghouse Electric Company and South Korea’s Hyundai Engineering & Construction have signed an agreement to “jointly participate in global AP1000 plant opportunities,” the Pennsylvania-based nuclear technology firm announced on May 24.

Penn State University has announced plans to explore siting a Westinghouse Electric Company eVinci microreactor on its State College campus in central Pennsylvania. Under a memorandum of understanding to perform research and development work that could advance the future commercial deployment of eVinci, a team of researchers in Penn State’s Ken and Mary Alice Lindquist Department of Nuclear Engineering also plans to explore how eVinci could displace some fossil-fueled energy sources on campus.

The Versatile Test Reactor, a custom-designed sodium-cooled fast neutron spectrum test reactor, is one step closer to its goal of providing data to accelerate research, development, and demonstration of diverse advanced reactor designs. The Department of Energy released the Final Versatile Test Reactor Environmental Impact Statement (Final VTR EIS) on May 13, and 30 days after its anticipated May 20 publication in the Federal Register, the DOE will issue a Record of Decision on the project.

The Department of Energy is putting together a national uranium supply strategy, energy secretary Jennifer Granholm told lawmakers last week at a Senate Energy and Natural Resources Committee hearing.

Granholm was appearing before the committee to discuss the Biden administration’s fiscal year 2023 budget proposal for the DOE.

Huff

The Senate has confirmed ANS member Kathryn Huff as the next assistant secretary for the Office of Nuclear Energy (NE) in the Department of Energy. The bipartisan vote, held earlier this afternoon, was 80–11.

President Biden selected Huff in January to fill the top spot at NE—a post that has been vacant since Rita Baranwal (also an ANS member) announced she was leaving the position on January 8, 2021.

Huff came to the DOE in May of last year to serve as principal deputy assistant secretary for nuclear energy, going on unpaid leave from her position as an associate professor in the Department of Nuclear, Plasma, and Radiological Engineering at the University of Illinois–Urbana-Champaign, where she led the Advanced Reactors and Fuel Cycles Research Group.

NuScale Power has signed a collaboration agreement with the U.S. Reactor Forging Consortium (RFC) to leverage the nation’s forging supply chain to prepare for the deployment of NuScale’s small modular reactor technology and to support, maintain, and expand U.S. manufacturing jobs.

Universities are places where professionals, experts, and students come together to teach and learn, to conduct and disseminate research, and to dream and explore. Universities have a long history of technological innovation and development. It should therefore come as no surprise that institutes of higher education have been an integral part of the recent explosion of innovation within the advanced nuclear reactor community. Universities have not only powered workforce and technology development, but in a number of cases, they have served as the actual birthplaces of today’s advanced reactor designs.

Now is such an exciting time to be a nuclear engineering student. We are seeing decades of work culminate in technology that can soon be deployed. The nuclear energy sector is experiencing growing support as more people recognize and accept the role that nuclear power has in decarbonizing our electric grid.

TRISO-X submitted a license application for a high-assay low-enriched uranium (HALEU) fuel fabrication facility to the Nuclear Regulatory Commission on April 6, the day after parent company X-energy announced that TRISO-X had secured a 110-acre site in Oak Ridge, Tenn., for the construction of the facility, which it is aiming to have operating in 2025.

On April 7, U.S. Sen. John Barrasso (R., Wyo.), ranking member of the Senate Committee on Energy and Natural Resources, introduced the Fueling Our Nuclear Future Act of 2022. The bill would ensure a domestic supply of high-assay low-enriched uranium (HALEU) for advanced nuclear reactors by directing the Department of Energy to prioritize establishing a domestic HALEU enrichment capability and to use enriched uranium held by the DOE and the National Nuclear Security Administration to fuel advanced reactor demonstrations until U.S. commercial enrichment is available. The bill explicitly excludes uranium sourced or processed by any entity owned or controlled by the governments of Russia and China.

The United States must ramp up the domestic production of high-assay low-enriched uranium (HALEU), the panelists agreed during a March 11 members-only webinar held amid heightened concerns about energy security following Russia’s invasion of Ukraine, and the day after Congress approved $45 million for the HALEU Availability Program for fiscal year 2022.

John Starkey, ANS director of public policy, moderated the webinar, which featured panelists Scott Kopple, senior director of government relations at BWX Technologies; Everett Redmond, senior technical advisor at the Nuclear Energy Institute; Benjamin Reinke, senior director of corporate strategy and advisor to the CEO at X-energy; Patrick White, project manager at the Nuclear Innovation Alliance (NIA); and Brad Williams, a member of the Senate Energy and Natural Resources Committee staff.

A recording of the webinar is available to ANS members.

The Department of Energy's Advanced Research Projects Agency–Energy (ARPA-E) has awarded a total of $36 million for 11 projects to develop technologies that will limit the amount of waste produced from advanced reactors and will support sustainable domestic fuel stocks. The projects include research into the facilities and systems required to reprocess, recycle, and dispose of spent fuel generated through diverse advanced reactor fuel cycles.

Three factors will drive nuclear exports: energy security, decarbonization, and geopolitics. Recent power prices in Europe, coupled with the situation in Ukraine, demonstrate the interplay of all three factors. Nuclear exports have to be viewed in the context of the current geopolitical climate, particularly relative to Russian and Chinese competitive offerings. Finally, the critical importance of nuclear energy in meeting global decarbonization efforts can be a driving force for exports, further enhanced by the inclusion of nuclear energy in clean/green taxonomies and the accompanying support from the ESG (environmental, social, and governance) investor community.

The American Nuclear Society is urging the Department of Energy to accelerate the development of an availability program for high-assay low-enriched uranium (HALEU).

In a letter sent to the DOE earlier this week, ANS President Steven Nesbit and Executive Director and Chief Executive Officer Craig Piercy state that HALEU availability is critical to the continued development of advanced nuclear technologies.

Last week’s announcement from the Tennessee Valley Authority about its “New Nuclear Program,” which outlines the potential development of the Clinch River site near Oak Ridge National Laboratory in Eastern Tennessee, is the catalyst for this week’s #ThrowbackThursday post. The Clinch River site was originally planned to be the location for the Clinch River Breeder Reactor, a project that, at the time, was meant to be the future of the nuclear industry in the United States.