Three teams have been picked to design a fission surface power system that NASA could deploy on the moon by the end of the decade, NASA and Idaho National Laboratory announced today. A fission surface power project sponsored by NASA in collaboration with the Department of Energy and INL is targeting the demonstration of a 40-kWe reactor built to operate for at least 10 years on the moon, enabling lunar exploration under NASA’s Artemis program. Twelve-month contracts valued at $5 million each are going to Lockheed Martin (partnered with BWX Technologies and Creare), Westinghouse (partnered with Aerojet Rocketdyne), and IX (a joint venture of Intuitive Machines and X-energy, partnered with Maxar and Boeing).

The United Arab Emirates’ Federal Authority for Nuclear Regulation (FANR) has issued the operating license for the Barakah nuclear plant’s Unit 3 reactor, the Emirates Nuclear Energy Corporation announced yesterday. In addition, following receipt of the license, ENEC subsidiary Nawah Energy Company began the process of loading fuel assemblies into the unit, according to the announcement.

General Atomics’ Magnet Technologies Center in Poway, Calif., played host last week to French ambassador Philippe Étienne, the company announced June 16. During the visit, which was hosted by Vivek Lall, chief executive of the General Atomics Global Corporation, Étienne viewed ITER central solenoid modules—all destined for shipment to France—in several stages of the fabrication process.

“General Atomics and French organizations have a strong relationship in both the defense and energy sectors, as well as in the unmanned field, that meet both France’s and the United States’ important interests,” Étienne remarked during his visit.

The Maryland Energy Administration (MEA) has awarded grants to Rockville, Md.–based X-energy—developer of the Xe-100 small modular reactor—and Frostburg State University for a collaborative study to determine the potential for siting an SMR at a state coal site. A joint analysis of the study’s findings is to be delivered to MEA later this year.

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.

A “bold decadal plan” to accelerate fusion research, development, and demonstration in partnership with the private sector emerged from a March 2022 White House Fusion Summit and inspired the June 14 ANS Annual Meeting executive session titled “The New Fusion Outlook.” Moderator Scott Hsu, who is leaving a role as a program director for the Department of Energy’s Advanced Research Projects Agency–Energy (ARPA-E) to become a senior adviser to the DOE’s undersecretary for science and innovation as well as lead fusion coordinator for the DOE, ably led a panel of fusion stakeholders representing universities, national laboratories, private fusion companies, and public policy and communication. The discussion intended to bring attendees with fission experience up to speed on the rapidly accelerating area of fusion energy and explore how the fusion energy community can work toward a unique path for fusion energy regulation and public engagement.

Two leading committees of the European Parliament have objected to adding nuclear and natural gas to the list of “green” technologies covered by the EU taxonomy—the classification system used by the European Union to guide private investment toward environmentally sustainable economic projects.

The President’s Special Session of the 2022 American Nuclear Society Annual Meeting in Anaheim, Calif., offered members a chance to revisit the Society’s Grand Nuclear Challenges. Introduced in 2017 and put forth by the members and the ANS professional divisions, the nine challenges identify cross-cutting technical issues to be resolved by 2030 to help address the economic, sociological, or political concerns facing nuclear energy.

Engineering, construction, and project management firm Bechtel Corporation last week announced the signing of a memorandum of understanding with Toshiba America Energy Systems and Toshiba Energy Systems & Solutions to pursue a civil nuclear power plant project in Poland.

If nuclear innovators are in a race to decarbonize, it is a race with one finish line—affordable, clean, and reliable power—and many ways to get there. Over 40 fission developers and 20 fusion developers are in the running, and while attendees of the June 13 ANS Annual Meeting executive session on Breaking Through: Assessing the Current State and Prospects of Nuclear Innovation in the Race to Decarbonize heard from representatives of just three of those companies, they presented very different designs and deployment approaches, aptly reflecting the broader diversity of nuclear power innovation.

Session chair Adam Stein, director of nuclear energy innovation at the Breakthrough Institute, welcomed representatives from an advanced non–light water reactor developer (Mike Laufer, Kairos Power), a small modular light water reactor developer (Jon Ball, GE Hitachi Nuclear Energy), and a fusion power developer (Michl Binderbauer, TAE Technologies). Together they explored the challenge of engineering a significant commercial scale-up of advanced nuclear technology by the end of the decade, tackling questions of cost, schedule, supply chain, regulation, and more.

Extending the operational life of California’s Diablo Canyon nuclear power plant beyond 2025—its scheduled year of retirement—would help the state meet its climate goals more quickly, more reliably, and more cheaply than allowing the facility to close, a new study has found.

According to Retaining Diablo Canyon: Economic, Carbon, and Reliability Implications, keeping the plant on line could not only substantially reduce California’s emissions, natural gas use, and electric power costs, but also help avoid blackouts.

Speaking on June 13 at the opening plenary of the 2022 American Nuclear Society Annual Meeting in Anaheim, Calif., Ted Nordhaus, founder and executive director of The Breakthrough Institute, said that the nuclear community has a “generational opportunity to reset both public opinion and policy with regard to nuclear energy.”

Driving the change in the discussion, Nordhaus said, are three items: the growing concern over climate change, a broader recognition that renewable energy sources are insufficient, and a “post-pandemic price shock” over rising energy prices.

On June 2, Nuclear Newswire published a letter from Jose Reyes, chief technology officer at small modular reactor developer NuScale Power, to May R. Berenbaum, editor-in-chief of Proceedings of the National Academy of Sciences, regarding a research article published by PNAS two days previous. The article, “Nuclear waste from small modular reactors,” has grabbed more than a few headlines for its claim that SMRs will actually generate more nuclear waste than a standard large pressurized water reactor.

Ammonia is a carbon-free energy carrier that could be produced using thermal energy from nuclear power plants. Terrestrial Energy announced June 9 that it has signed an agreement with engineering firm KBR to explore the use of its Integral Molten Salt Reactor (IMSR) for both hydrogen and ammonia production.

The International Atomic Energy Agency convened a workshop last week to explore how nuclear techniques backed by the IAEA’s Zoonotic Disease Integrated Action (ZODIAC) initiative could be used to avoid outbreaks of monkeypox and Lassa fever. The meeting, held in Vienna, Austria, on the sidelines of the IAEA Board of Governors meeting, was organized to assist countries in using nuclear and related techniques to detect, mitigate, and understand the behavior of the viruses.

“It is important that we are reacting quickly, as things happen. I am happy that concrete work is being carried out on something before it becomes a very difficult problem,” said IAEA director general Rafael Mariano Grossi as he opened the one-day summit.

BWX Technologies, Inc., will deliver the first microreactor in the United States under a contract awarded by the U.S. Department of Defense Strategic Capabilities Office (SCO), the company announced today. BWXT will have two years to build a transportable microreactor prototype to the SCO’s Project Pele specifications and deliver it to Idaho National Laboratory for testing under a cost-type contract valued at about $300 million.

The Nuclear Regulatory Commission and Canadian Nuclear Safety Commission have completed a first joint technical review of Terrestrial Energy’s Integral Molten Salt Reactor, the company announced earlier this week.

The IMSR was selected in December 2019 to be the first advanced non–light water nuclear reactor technology to be studied under an August 2019 NRC/CNSC memorandum of cooperation aimed at enhancing regulatory effectiveness through collaborative work on technical reviews of advanced reactor and small modular reactor technologies.

In this week’s “EM Update,” the Department of Energy’s Office of Environmental Management (EM) reports that its contractor Savannah River Nuclear Solutions (SRNS) has successfully reduced degreasing solvents in the aquifer beneath the Savannah River Site in South Carolina using a technology that injects a form of iron and oil into groundwater.

“The oil attracts the Cold War[–era] cleaning solvents while the iron degrades and neutralizes the contamination,” said Shannan Lucero, SRNS manager for area closure projects.

Using nuclear power technology to produce clean hydrogen is getting a visibility boost as the Department of Energy hosts a virtual three-day (June 6–8) Annual Merit Review and Peer Evaluation Meeting on the agency’s efforts to accelerate clean hydrogen production. On June 6, the DOE announced a notice of intent (NOI) to fund the Bipartisan Infrastructure Law’s $8 billion program to develop regional clean hydrogen hubs (H2Hubs) and the launch of a new Hydrogen Shot Incubator Prize that seeks “disruptive technologies” to reduce the cost of clean hydrogen production. That same day, Westinghouse Electric Company and Bloom Energy Corp. (a maker of solid oxide electrolyzer technology) announced a letter of intent to develop electrolyzers for use in the commercial nuclear power market and said they are “well positioned to support the U.S. Department of Energy’s developing hydrogen hubs.”

A new poll out from the Institute of Public Affairs (IPA), a Melbourne, Australia–based free-market think tank, finds that a majority of Australians favor the construction of nuclear power plants in their country.