Ontario’s advanced nuclear technology firm Terrestrial Energy yesterday announced the signing of a letter of intent (LOI) with TerraPraxis, a U.K.-based nonprofit devoted to climate solutions, to cooperate on the latter’s Repowering Coal initiative—a program aimed at integrating clean heat sources with existing infrastructure at coal-fired power plants in North America and elsewhere.

The United States and Japan have announced Winning an Edge Through Cooperation in Advanced Nuclear (WECAN)—a new agreement aimed at supporting the deployment of small modular reactors and other advanced reactor technologies in partner countries.

Magwood

As part of the Purdue University–Duke Energy Understanding Tomorrow’s Nuclear Energy lecture series, William D. Magwood IV, director general of the OECD Nuclear Energy Agency (NEA), delivered a lecture on October 24 at the Purdue Memorial Union Ballrooms. “The 21st Century Nuclear Resurgence: Opportunities and Challenges” was the third lecture in the series, which focuses on small modular reactors.

Magwood reviewed the factors that have led to the current increased interest in nuclear energy around the world, the serious challenges that must be quickly and adequately addressed, and the structural barriers that require new thinking by regulators and policymakers. He also commented on the ongoing Purdue-Duke study of the feasibility of using SMRs to meet the West Lafayette campus’s long-term energy needs.

Nuclear technology firm TerraPower and utility partner PacifiCorp have launched a study to evaluate the feasibility of deploying up to five additional Natrium reactor and integrated energy storage systems in the utility’s service territory by 2035, the companies announced yesterday. (PacifiCorp’s business units—Pacific Power and Rocky Mountain Power—serve customers in California, Oregon, and Washington, and in Idaho, Utah, and Wyoming, respectively.)

Some two weeks after unveiling his state’s 2022 Energy Plan, Virginia Gov. Glenn Youngkin has announced his intention to include $10 million in the state’s next budget proposal—due in December—to create the Virginia Power Innovation Fund for research and development of nuclear, hydrogen, carbon capture and utilization, and battery storage technologies.

Donalds

Rep. Byron Donalds (R., Fla.) has introduced legislation in the House to help U.S. small businesses engaged or seeking to engage in the research, development, and deployment of advanced nuclear reactors.

Dubbed the Nuclear Assistance for America’s Small Businesses Act, the bill debuted September 29 with 10 of Donalds’s fellow House Republicans as cosponsors: Arizona’s Andy Biggs, Florida’s Maria Elvira Salazar, Georgia’s Buddy Carter, North Carolina’s Dan Bishop and Ted Budd, Ohio’s Bob Latta, South Carolina’s Nancy Mace, Tennessee’s Chuck Fleischmann and John Rose, and Texas’s Chip Roy.

Bill basics: The measure would amend the Nuclear Energy Innovation and Modernization Act (NEIMA) to allow small businesses to delay 50 percent of their preapplication fees to the Nuclear Regulatory Commission, as well as 35 percent of their postapplication fees over a period of 10 years.

Results of the American Climate Perspectives Survey 2022 conducted by the climate-focused organization ecoAmerica suggest that the overall national support for research into advanced nuclear energy and for nuclear energy in general are continuing five-year upward trends. However, according to the survey, fewer than half of women responding to the survey support nuclear power. In addition, public concerns about nuclear-related waste disposal, health and safety, and weaponization remain high.

Released this week in the lead-up to November’s COP27 event in Egypt is a report from the United Nations Economic Commission for Europe, Carbon Neutrality in the UNECE Region: Technology Interplay under the Carbon Neutrality Concept, which calls for maximizing the use of all low- and zero-carbon technologies—including nuclear technology—to achieve net-zero carbon emissions by 2050.

Termed by the UNECE a “roadmap to carbon neutrality for Europe, North America, and Central Asia,” the 60-page report finds that to attain the net-zero goal, investment in energy as a percentage of gross domestic product needs to grow from 1.24 percent in 2020 to 2.05 percent every year from 2025 until 2050—translating to between $44.8 trillion and $47.3 trillion by 2050, with any additional delay in taking action adding to that price tag.

In the ongoing quest to mitigate the effects of climate change, new technology can create new solutions. Even today, however, coal is still a main source of power around the globe, often out of necessity. Many coal-burning plants have already been converted for gas or biomass, but these measures alone are not nearly enough to meet net-zero carbon goals. There is a better solution, however: repowering coal plants with nuclear technology—specifically, Generation IV reactors.

U.S. nuclear technology company TerraPower announced yesterday the close of a $750 million equity raise—one of the largest advanced-nuclear investment drives to date, according to the announcement—with $250 million of that contributed by South Korean firms SK Inc. and SK Innovation.

Both firms are subsidiaries of the Seoul-based conglomerate SK Group, South Korea’s second-largest conglomerate, after Samsung Group.

After hours of debate alternating between Democratic praise for the Inflation Reduction Act (IRA) and Republican denunciation of it, the House of Representatives late Friday passed the sweeping energy, tax, and health care package in a straight party-line vote, 220–207. Its passage represents a significant win for President Biden, who is expected to sign the bill into law this week.

The boldly named $430 billion measure includes $369 billion in energy security and climate spending, with nuclear energy included among the beneficiaries.

ANS’s August 4 online event “The New Space Race is Going Nuclear” featured several expert panelists who discussed the growing importance of nuclear technologies in space commercialization and exploration. Although nuclear energy has long played a role in space missions, participants discussed the latest exciting developments in the space nuclear field and presented their views on how increased application of nuclear technologies could fundamentally transform the ways in which both crewed and uncrewed space missions are carried out.

The Tennessee Valley Authority and GE Hitachi Nuclear Energy (GEH) have signed an agreement to support planning and preliminary licensing for the potential deployment of a BWRX-300 small modular reactor at the Clinch River site near Oak Ridge, Tenn., the utility’s president and chief executive officer, Jeff Lyash, announced last week.

An evolution of GEH’s 1,520-MWe Generation III+ ESBWR design, the BWRX-300 is a 300-MWe water-cooled, natural-circulation SMR with passive safety systems.

Rockville, Md.–based X-energy announced yesterday that it has selected Zachry Group and a combined team from Burns & McDonnell and Day & Zimmermann to work with the company on the next phases of design and deployment for its Xe-100 small modular reactor fleet.

A Stanford University–led research article on small modular reactors published Tuesday in Proceedings of the National Academy of Sciences (PNAS) is not sitting well with SMR developers or, for that matter, with much of the largely pro-SMR nuclear community.

Battelle Energy Alliance (BEA), the management and operating contractor for Idaho National Laboratory, has signed a five-year memorandum of understanding with the State of Wyoming to collaborate on the research, development, demonstration, and deployment of advanced energy technologies and approaches, with a special focus on advanced nuclear.

China’s State Council recently approved the construction of four Westinghouse AP1000 reactors—two at China’s Sanmen plant in Zhejiang Province and two at the Haiyang plant in Shandong Province.

The plants currently house two AP1000 units each. Sanmen’s reactors are rated at 1,157 MWe and Haiyang’s at 1,170 MWe. Sanmen-1 and -2 began commercial operation in 2018. Haiyang-1 started commercial operation in 2018, and Haiyang-2 in 2019.

Upton

McMorris Rodgers

Rep. Cathy McMorris Rodgers (R., Wash.), ranking member of the House Energy and Commerce Committee, and Fred Upton (R., Mich.), ranking member of the Subcommittee on Energy, sent a letter to energy secretary Jennifer Granholm on April 27 urging that more be done to secure America’s nuclear energy sector.

Excerpt: “Russia’s invasion of Ukraine exposes the risks of weakening American energy security,” McMorris Rodgers and Upton write. “These risks extend beyond our oil and gas assets to include supply vulnerabilities in our civilian nuclear sector. This sector is essential for national and energy security and for strengthening the geostrategic relationships necessary to compete with Russia, China, and other adversaries.

Nuclear News reached out to the Nuclear Engineering Department Heads Organization (NEDHO) to ask for assistance in connecting with nuclear engineering programs at U.S. universities. Our request to the universities was to provide us with updates on their programs and to detail their areas of special interest.

The Nuclear Innovation Alliance (NIA), a nonprofit advocating for advanced nuclear, has announced the publication of a new report, Fission Vision: Doubling Nuclear Energy Production to Meet Clean Energy Needs. According to the April 13 announcement, the United States needs a “focused national effort” to develop and deploy advanced nuclear technologies to help meet midcentury climate goals.

Current U.S. climate targets (set by the Biden administration) include a 50–52 percent reduction from 2005 levels in net greenhouse gas pollution by 2030 and a net-zero–emissions economy by 2050.

“Fission Vision answers the question: What is the role advanced nuclear energy could play at a scale and at a pace to help provide safe, reliable, and affordable clean energy?” said Judi Greenwald, NIA’s executive director. “Fission Vision has three objectives: catalyzing a robust U.S. innovation and commercialization ecosystem, ensuring ‘social license’ to operate advanced nuclear energy, and reimagining and integrating advanced nuclear energy with other clean energy sources. If we can achieve these objectives—and we think we can—advanced reactors will play a major role in meeting our climate and energy goals by at least doubling U.S. nuclear energy production by 2050.”