Nuclear News

Researchers at Idaho National Laboratory have completed initial testing on a newly developed fuel test capsule that is expected to provide crucial performance data for sodium-cooled fast reactors. The Department of Energy announced on January 12 that the series of fuel testing experiments being carried out now at INL’s Transient Reactor Test Facility (TREAT) was developed through a joint project between the United States and Japan.

The Nuclear Regulatory Commission has proposed a $16,000 civil penalty to the Hawaii Agriculture Research Center for seven violations of NRC requirements associated with the center’s use of radioactive materials.

The Department of Energy has published a final rule in the January 12 Federal Register establishing procedures for the assessment and imposition of civil penalties for certain violations of the Atomic Energy Act of 1954, as amended. The rule strengthens the DOE’s ability to enforce regulations governing exports of unclassified civil nuclear technology.

The U.K. Atomic Energy Authority (UKAEA) announced on January 12 that the South Oxfordshire District Council Planning Committee approved a planned fusion energy demonstration project at UKAEA’s Culham Campus. UKAEA and General Fusion, the magnetized target fusion company that designed the demo plant, announced that same day that construction will begin this summer, with commissioning planned for 2026 and full operations by early 2027.

In a former farm field just outside the historic town of Janesville in south-central Wisconsin, a large concrete-and-steel building is taking shape. Dubbed the Chrysalis, the building will eventually house eight accelerator-based neutron generators, which start-up company SHINE Technologies will use to produce molybdenum-99. As the precursor to the medical radioisotope technetium-99m, Mo-99 is used in tens of millions of diagnostic procedures every year, primarily as a radioactive tracer.

At the heart of the Chrysalis will be the high-flux neutron generators, being supplied by SHINE’s sister company, Phoenix. The compact accelerators use a deuterium-tritium fusion process to produce neutrons, which in turn induce a subcritical fission reaction in an aqueous low-enriched uranium target (19.75 percent uranium-235) to produce Mo-99.

Southern Company subsidiary Georgia Power on January 11 announced yet another delay to the startup of the Unit 3 reactor at the Vogtle nuclear power plant. It’s the latest in a long series of delays to the two-unit construction project at the Waynesboro, Ga., site. (Vogtle-3 was initially supposed to enter service in 2016.)

It’s Thursday, meaning it’s time to dig through the Nuclear News archives for another #ThrowbackThursday post. Today’s story goes back 60 years to the January 1963 issue of NN and the cover story “Review of Rover: A nuclear rocket” (p. 9), which reviews the first phase of the nuclear rocket program from Los Alamos National Laboratory.

Some quick digging online uncovers a lot of information about Project Rover, most notably, a short 20-minute film on the LANL YouTube page that reviews the project (Historic 1960s Film Describes Project Rover). The description of the video notes that the project was active from 1955 to 1973 and led to the design of multiple reactors suitable for testing, including Pewee 1, and that NASA has a modern nuclear thermal propulsion project based on the Pewee design. So it seems fitting to revisit Project Rover, given that there is today a lot of renewed interest in nuclear propulsion for space exploration.

The opening line from the January 1963 article seems to ring true today— “Provided the U. S. continues her space efforts, nuclear-powered rockets are inevitable”—although that probably didn’t seem likely to the nuclear community after the country’s attention shifted from the Space Race to the Vietnam War in the early 1970s when Project Rover was canceled. The introduction to the article lays out the argument for a nuclear-powered rocket and provides a review of the program since its launch in 1955.

The full article as it appeared in 1963 is reprinted below, but don’t forget, all ANS members have full access to the Nuclear News archives that has decades of great content about all topics on nuclear science and technology. Happy reading!

Nuclear medicine company NorthStar Medical Radioisotopes announced that it has successfully produced molybdenum-99 at its recently completed accelerator production facility at its Beloit, Wis., campus. According to NorthStar, the event marks a major milestone in advancing the company’s proprietary electron accelerator technology for the non-uranium–based production of the critical medical radioisotope.

The Michigan Public Service Commission has requested proposals for a feasibility study on nuclear power generation in the state. Responses to the January 5 request are due January 19, with the proposals themselves due February 3. The selected firm is to deliver a report to Michigan’s governor and leaders of the state’s legislature by April 2024.

ITER’s machine assembly phase began about two and a half years ago. Now, staff are reversing some of that assembly work to make needed repairs. According to a news article published by the ITER Organization on January 9, ITER is “facing challenges common to every industrial venture involving first-of-a-kind components.” Over one year after problems were first detected and less than two months after they were made public in late November, tests and analysis are producing a clearer picture of necessary repairs to the tokamak’s thermal shield panels and vacuum vessel sectors.

“There is no scandal here,” said ITER director general Pietro Barabaschi. “Such things happen. I've seen many issues of the kind, and much worse.”

Are you an energy genius? It’s hard to tell whether or not Americans are really aware of the energy that controls our lives, so the following quiz should be revealing. Click through the multiple-choice options below to reveal the answers.

Scoring: Zero to five correct answers out of the 23 questions means you may need to read up on energy so you’re not at the mercy of others. A score of 6 to 10 correct answers is a good passing grade. Answer 11 to 15 correctly, and you’re really energy literate. Getting 16 to 19 correct means you should be advising Congress. Twenty or more right answers suggests you’re Spock reincarnated.

Here is a recap of industry happenings over the past month:

ADVANCED REACTOR MARKETPLACE

X-energy enters into agreement to become publicly traded company

X-energy, a developer of small modular reactors and nuclear fuel technology, has entered into a definitive business combination agreement with Ares Acquisition Corporation, a publicly traded special-purpose acquisition company. As a result of the agreement, X-energy will become a publicly traded company, a status that is expected to give a boost to its growth strategy, investment opportunities, and financial flexibility. In addition, X-energy will receive differentiated sponsorship by Ares Management Corporation, which describes itself as a “leading global alternative investment manager.” The existing equity holders of X-energy are expected to hold more than 60 percent of the issued and outstanding shares of the common stock of the combined company. The transaction is expected to be finalized in the second quarter of 2023.

NuScale Power has announced its submission to the Nuclear Regulatory Commission of a standard design approval application for its updated small modular reactor design, which is based on a six-module VOYGR plant configuration powered by an uprated 77-MWe module.

Applications for grants from Britain’s nuclear fuel fund are now being accepted, the U.K. Department for Business, Energy and Industrial Strategy (BEIS) announced Monday. The application deadline is February 20.

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 today's post that follows, we have compiled from Nuclear News and Nuclear Newswire what we feel are the top nuclear news stories from September through December 2022.

But first:

• Click here for some of ANS’s activities for 2022
• Click here for the top nuclear news stories from January through March 2022
• Click here for the top nuclear news stories from April through June 2022
• Click here for the top nuclear news stories from July through September 2022

As a direct result of the war in Ukraine, several countries have changed their policies on nuclear energy—even those with long-standing nuclear phase-out plans. This February will mark one year since Russia began its invasion of Ukraine, leading to ongoing war and turning pandemic-era energy shortages into a global energy crisis. Spiking gas prices and concerns about electricity supply during the cold winter months have thrown many governments into a frenzy as they try to ease the impact on their citizens.

Countries in the process of phasing out their nuclear power had been prepared to increase their reliance on natural gas. But as Russia supplies 40 percent of the European Union’s natural gas, nations with no reliable alternative now face sky-high energy prices—even energy poverty. Across Europe and beyond, nuclear power plants slated for permanent closure have been given second chances to shore up energy supply. Nuclear power has also claimed a bigger spotlight in countries’ strategies for energy independence.

Portland, Ore.–based NuScale Power yesterday announced the signing of a contract with Romania’s RoPower Nuclear for front-end engineering and design (FEED) work that, according to the American company, marks “a significant step toward the deployment of a NuScale VOYGR small modular reactor power plant in Romania.” The contract was signed on December 28.

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 today's post that follows, we have compiled from Nuclear News and Nuclear Newswire what we feel are the top nuclear news stories from July through September 2022.

Stay tuned this week for the top stories from the rest of the past year.

But first:

• Click here for some of ANS’s activities for 2022
• Click here for the top nuclear news stories from January through March 2022
• Click here for the top nuclear news stories from April through June 2022

Small modular reactor developers Holtec International and GE Hitachi Nuclear Energy (GEH) are both looking to the United Kingdom as a prime location for deployment of their units—the SMR-160 and BWRX-300, respectively.

On December 19, Holtec Britain announced that it is poised to enter the United Kingdom’s generic design assessment (GDA) process for the SMR-160 early in 2023, enabling the start of construction of the first U.K. unit as soon as 2028. (The GDA, developed by the Office for Nuclear Regulation and the Environment Agency, gauges the safety, security, and environmental protection aspects of a nuclear plant design. Successfully completing the assessment culminates in a design acceptance confirmation from ONR and a statement of design acceptability from the Environment Agency.)

Westinghouse Electric and Framatome have signed agreements with Kozloduy NPP—the eponymous operator of Bulgaria’s only nuclear power facility—to fabricate and deliver fuel for the site’s two operating reactors. Westinghouse will provide the fuel for Unit 5 under a 10-year contract inked on December 22, while Framatome will supply Unit 6 under a December 30 preliminary deal. First deliveries of fuel from Westinghouse and Framatome are expected in 2024 and 2025, respectively.

The two agreements, according to the Bulgarian News Agency, “are part of an effort to diversify energy supplies to Bulgaria and do away with the country’s dependence on Russian energy resources.” In November, the Bulgarian National Assembly approved 156–47 a resolution tasking the country’s Council of Ministers with licensing non-Russian nuclear fuel for Kozloduy.