Another calendar year has passed. Before heading too far into 2023, let’s look back at what happened in 2022 for the American Nuclear Society and the nuclear community. In posts that will follow here this week, we have compiled from Nuclear News and Nuclear Newswire what we feel are the top nuclear news stories of the year past.

But first, here are some of ANS’s activities for 2022.

Steven Arndt
president@ans.org

It has always amazed me how broad and diverse the nuclear science and technology field is. It is one of the things that drew me to the nuclear business in the first place. The American Nuclear Society, with its eighteen technical divisions, embraces this diversity from accelerator applications and space nuclear to isotopes and robotics. We are truly a disparate group of engineers and scientists. Based on this, I guess I should not be surprised by the renewed interest we are seeing in uses of nuclear energy beyond the generation of electricity. In recent years, engineers and scientists from all around the world have focused on reducing the impact of electric energy generation on the environment and on finding ways to also reduce the impact of other industrial processes. What I have been seeing—including at COP27—is a renewed interest in nuclear power not only for electric generation but also for its unique capabilities in a diverse set of applications. To name only a few, I have seen strong interest in desalinization, hydrogen generation, process heat, and district heat.

Scientists are searching for new materials to advance the next generation of nuclear power plants. In a recent study, researchers at the Department of Energy’s Argonne National Laboratory showed how artificial intelligence could help pinpoint the right types of molten salts, a key component for advanced nuclear reactors.

Best wishes to our readers for a joyous holiday season and a peaceful new year. We look forward to continuing to provide the news for all things nuclear in the new year.

’Twas the night before Christmas, when all through the house
No electrons were flowing through even my mouse.
All devices were plugged by the chimney with care,
With the hope that St. Nikola Tesla would share.

In the 1960s, nuclear energy established itself as a mainstay of the electrical grid for its ability to produce carbon-­free, safe, and reliable power. Indeed, nuclear energy currently provides about 50 percent of carbon-­free electricity in the United States, but a major challenge is its cost.

In a 68–29 vote on Thursday, the Senate approved the fiscal year 2023 omnibus bill—a $1.7 trillion spending package intended to fund the federal government through next September. The bill is now with the House, where it is expected to pass, averting the unhappy prospect of a partial government shutdown over the holidays.

Labeled H.R. 2617, the 4,155-page measure includes $858 billion for defense, a 10 percent jump from the FY2022 enacted level, and $772.5 billion for non-defense discretionary programs, an increase of 5.5 percent.

The U.K. government has announced £77 million (about $93 million) in new funding to support the development of the next generation of advanced nuclear reactors in Britain and to boost the nation’s nuclear fuel production.

On December 16 the Department of Energy reversed a decision made nearly 70 years ago by leaders of its predecessor agency, the Atomic Energy Commission, to revoke the security clearance of J. Robert Oppenheimer, the scientist who led the first group of scientists and engineers at what would eventually become Los Alamos National Laboratory as they built the first atomic bomb. While it comes far too late for Oppenheimer, his family, and his colleagues to appreciate, the McCarthy-era campaign to discredit Oppenheimer is now itself officially discredited as “a flawed process that violated the Commission’s own regulations,” in the words of the DOE’s recent announcement.

Oppenheimer’s story has been told many times by biographers and chroniclers of the Manhattan Project; a new feature film is expected in July 2023. Today, we offer a #ThrowbackThursday post that examines the scant coverage of Oppenheimer’s life and work in the pages of Nuclear News to date and draws on other historical content—and the DOE’s recent move to correct the record—to fill a few of the gaps.

President Biden has appointed six new members to the Nuclear Waste Technical Review Board, an independent executive federal agency created by Congress to evaluate the technical and scientific validity of Department of Energy activities related to implementing the Nuclear Waste Policy Act of 1982.

Holtec International is apparently not ready to give up on the Palisades nuclear power plant just yet. Despite having been denied federal funds last month for a possible reopening of the Covert, Mich., facility, the company this week announced its intention to reapply.

For the first time ever, the Department of Energy’s Nuclear Energy University Program (NEUP) is funding research that looks at sociotechnical issues regarding the siting of nuclear power plants and spent nuclear fuel storage facilities. A number of questions at the intersection of social and nuclear concerns are being examined. How does the siting of nuclear power plants affect traditionally disadvantaged communities? How can communities have a greater voice in nuclear facility siting and development decisions? What are the livability needs for small communities experiencing an influx of engineers during the development process? At what points throughout the design and development process should decision makers incorporate social and environmental justice considerations?

Russia has begun construction of protected covering at Ukraine’s Zaporizhzhia nuclear power plant, according to a December 17 report from Russian news outlet RT. The story has been picked up in the West by some news agencies but has not been widely circulated.

Vladimir Rogov, a Russian-appointed official in Zaporizhzhia Oblast, said, “Russia is constructing a protective dome over spent radioactive fuel stores at the [Zaporizhzhia] nuclear power plant as Ukrainian forces continue to target the facility.”

The Nuclear Regulatory Commission has accepted an application from X-energy's fuel subsidiary, TRISO-X LLC, for a proposed TRISO-X Fuel Fabrication Facility (TF3) in Oak Ridge, Tenn., X-energy announced last week. A 30-month review schedule has been developed by the NRC that would be completed by June 2025, assuming TRISO-X provides sufficient responses to expected requests for additional information (RAIs) within 30 to 60 days of their issuance. On December 16, the NRC announced that it would seek public input on the scope of its environmental review and environmental impact statement for the application and published a notice in the Federal Register.

Sarah Camba Lynn

How to characterize a tight-knit, high--functioning workplace is an open question. Some consider it a family, due to close working relationships and long hours spent together. Personally, I prefer to focus on the parallels between a group of coworkers and a professional sports team.

Being a good Texan, football is my go-to for sports analogies. A football team, while cohesive, is really made up of several smaller teams. Not everyone is on the field at once, nor are the positions interchangeable. They share a goal—to win—but each smaller team has a different focus and specific tasks to achieve the goal. At a nuclear power plant, there are several departments, each also with a distinct focus but overall contributing together to the goal of reliable, safe, carbon-free energy.

From left: David Durham, president of energy systems at Westinghouse, and Tomasz Stępień, president of Polskie Elektrownie Jądrowe’s management board, at the signing ceremony in Poland. (Photo: Westinghouse)

Westinghouse Electric Company and Polish utility Polskie Elektrownie Jądrowe have signed an agreement defining the main principles and path forward for Poland’s first nuclear power reactors, the companies jointly announced last week.

The agreement, signed December 15, outlines next steps for the project, including site layout, licensing and permitting support, and site development services and procurement, and establishes the framework for future project delivery contracts. Another agreement is expected to be signed by mid-2023 for the design of the facility.

Context: In October, Poland chose Westinghouse to supply the reactors for its first nuclear power plant, as the Central European nation seeks to lessen its dependence on domestic coal and Russian imports for its energy supply. Competing with Westinghouse for the job were Électricité de France and Korea Hydro & Nuclear Power.

On December 5, researchers at the National Ignition Facility (NIF) at Lawrence Livermore National Laboratory achieved fusion energy breakeven. It was a gain for stockpile stewardship that also—as headlines gushed prior to the Department of Energy’s December 13 announcement—boosted the prospects of inertial fusion energy (IFE). The timing of the landmark achievement may have been especially welcome to private fusion companies with inertial or hybrid magneto-inertial confinement concepts, because it occurred as the DOE was getting ready to consider applications for $50 million in funding for fusion pilot plant design work.

The Post-Industrial Midwest and Appalachia (PIMA) Nuclear Alliance hosted its third workshop December 8—9 at Pennsylvania State University’s Digital Foundry at New Kensington. The alliance, which consists of Penn State and several academic, industrial, and national lab partners, was formed in May 2022 to harness carbon-free energy while educating and training the future energy workforce. Previous workshops were held in June and October this year.

Microreactor technology: The major focus of the alliance is innovation in microreactor technology and other advanced nuclear reactor technologies in the Midwest and Appalachia regions, with the overall goal of furthering the decarbonization of industries.

The Breakthrough Institute’s analysis of the Nuclear Regulatory Commission’s draft proposal to modernize licensing regulations for advanced reactors has concluded that the latest proposed 10 CFR Part 53 rule language ”largely replicates the failed licensing rules that have hobbled the legacy nuclear industry for decades.”

A summary of the analysis, written by Ted Nordhaus, the Breakthrough Institute’s founder and executive director, and Adam Stein, the institute’s director for nuclear energy innovation, observes that the “draft framework is twice as long as either of the legacy, prescriptive licensing frameworks, Part 50 and 52, that it is intended to supplant. That is because the staff largely cut and pasted the old rules into the new framework, then added further burdensome regulations, including qualitative health objectives that cannot be complied with and expanded requirements for the notorious ‘as low as reasonably achievable’ radiation standard, a further invitation to endlessly ratchet regulatory requirements.”

TerraPower, the advanced nuclear company backed by Bill Gates, announced last week that the start date for its Natrium reactor has been pushed back. As Russia is currently the only commercial source of the high-assay low- enriched uranium (HALEU) the plant requires, the company faces a lack of fuel availability. TerraPower originally planned to use Russian fuel to get its demonstration reactor up and running by 2028, but Russia’s invasion of Ukraine has dashed those plans.