Nuclear News

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.

Artificial intelligence (AI) and machine learning (ML) are helping scientists, engineers, regulators, and plant decision makers in their research and development of clean energy production to achieve a net-zero carbon footprint. While this science is new in terms of actual applications, it is fostering innovation in a variety of domains, from material discovery and qualification to advanced reactor design to supporting efficiencies in current power plants and transforming the usability of nuclear power plant control rooms.

Steven P. Nesbit
president@ans.org

Years ago, my then boss was trying to convince me to accept an undesirable (to me) assignment, and he asked me, “Aren’t you a professional?” I wasn’t quite sure how to answer. By the textbook definition, a nuclear professional is someone who gets paid to do a job in the nuclear field. True as far as it goes, but the term means much more to me.

French utility giant EDF has announced that its NUWARD small modular reactor design will be the case study for a European early joint regulatory review led by the French Nuclear Safety Authority (ASN). Also participating in the review process will be the Czech Republic’s State Office for Nuclear Safety (SUJB) and Finland’s Radiation and Nuclear Safety Authority (STUK).

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.

The board of Boss Energy Limited has made a “final investment decision” to develop the Honeymoon in situ uranium project in Australia, the Perth-based company announced last week. Boss said it will now accelerate engineering, procurement, and construction to ensure that Honeymoon—located in South Australia, near the border with New South Wales—remains on track for first production by December 2023, ramping up to a steady-state rate of 2.45 million pounds of U₃O₈ per year.

The war in Ukraine notwithstanding, Westinghouse Electric Company has stepped up its partnership with Energoatom, Ukraine’s state-owned nuclear utility, signing agreements last week to supply all of the nuclear fuel for the country’s operating reactor fleet and to collaborate on the construction of nine AP1000 units for Ukraine, rather than the five earlier envisioned.

The world needs scientists, engineers, and technologists to ensure the safe, secure, and sustainable use of nuclear energy to meet global energy demands and environmental challenges. Yet, in many countries there are concerns about the potential loss of nuclear expertise and knowledge because of changes in workforce demographics. Much of the tacit knowledge in the sector was generated during the pioneering years of nuclear power. During this period, R&D projects and innovative construction projects were ramping up, and many nuclear power plants were being built. As a result, personnel in the industry were confronted with challenging and groundbreaking projects, as well as the risk of failure. It is this knowledge that is most difficult to harvest and is generally transferred via hands-on experience. In the current nuclear power landscape, where R&D spending is decreasing and innovation slows down as a general trend, this knowledge risks being lost if there are fewer opportunities to acquire hands-on experience work on challenging projects.

A new report from the National Academies of Sciences, Engineering, and Medicine (NASEM) estimates that $100 million annually will be required for the next 15 years to develop a coordinated research program led by the Department of Energy and the National Institutes of Health to study how low doses of radiation affect disease risk. The recommended research would investigate causal links to specific health conditions and better define the impacts of radiation doses, dose rates, types of radiation, and exposure duration.

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.

Accelerators and other new facilities are producing an increasing share of the radioisotopes that were once sourced solely from a handful of research reactors around the globe; demand for alpha-emitters is increasing; and the need for an ensured supply of both radioactive and stable isotopes is now heightened as many countries seek an alternative to Russian isotopes. Those are just a few of the key points that emerged from a recent webinar, “Demand and Supply of Isotopes Around the World: From Diverse Perspectives,” organized by the World Council of Isotopes, along with the Sylvia Fedoruk Canadian Centre for Nuclear Innovation and the University of Saskatchewan, the hosts of the upcoming 11th International Conference on Isotopes (11ICI).

Four national laboratories have been chosen by the Department of Energy to receive a combined $38 million to launch the Net Zero Labs Pilot Initiative: Idaho National Laboratory, National Energy Technology Laboratory, National Renewable Energy Laboratory, and Pacific Northwest National Laboratory. The pilot program is planned as “a foundation of net-zero solutions that can be replicated at facilities across DOE, the federal government, and state and local governments” in support of the administration’s goal of reaching net-zero greenhouse gas emissions no later than 2050, according to the DOE. Additional funding is expected to be available to all 17 national laboratories on a competitive basis next year.

Fusion energy is attracting significant interest from governments and private capital markets. The deployment of fusion energy on a timeline that will affect climate change and offer another tool for energy security will require support from stakeholders, regulators, and policymakers around the world. Without broad support, fusion may fail to reach its potential as a “game-­changing” technology to make a meaningful difference in addressing the twin challenges of climate change and geopolitical energy security.

The process of developing the necessary policy and regulatory support is already underway around the world. Leaders in the United States, the United Kingdom, the European Union, China, and elsewhere are engaging with the key issues and will lead the way in setting the foundation for a global fusion industry.

Ontario-based GEH SMR Technologies Canada Ltd. and the Saskatchewan Industrial and Mining Suppliers Association (SIMSA) announced yesterday the signing of a memorandum of understanding focused on the potential deployment of the BWRX-300 small modular reactor in Saskatchewan.

The MOU calls for engaging with local suppliers to maximize the role of the Saskatchewan supply chain in the nuclear energy industry.

This week’s Throwback Thursday post is again about Three Mile Island—this time looking at the coverage from the pages of the December 1979 issue Nuclear News about the Kemeny Commission. The twelve-person commission, announced by President Carter immediately after the accident in April 1979, was headed by John Kemeny—then president of Dartmouth College—with orders to investigate the causes and any consequences of the accident.