Donalds

Duncan

Two Republican congressmen have penned an op-ed for The Hill in which they criticize the Biden administration for offering Americans “a false and misleading choice” between a clean environment or a strong economy, such as with administration policies prioritizing renewable energy sources. Representatives Jeff Duncan (S.C.) and Byron Donalds (Fla.) argue that a greater emphasis on nuclear innovation is needed “to ensure a reliable electricity supply and reduce global greenhouse gas emissions, while fostering our national, economic, and energy security interests.”

The Government Accountability Office is recommending that Congress clarify the Department of Energy’s legal authority to sell depleted uranium hexafluoride (DUF6) left over from uranium enrichment operations at the department’s Portsmouth Site in Ohio and the Paducah Site in Kentucky.

In recent years, the rate of building new nuclear power plants has slowed internationally except in some rapidly developing countries. In Western countries that have considerable experience with nuclear power, completion of new projects on time and on budget has become more difficult. Shipyard-fabricated plants may offer a new direction for meeting international needs and responding to requirements for better cost control and safety. In this article we offer an overview of the floating nuclear power plant concept, including experience with it to date and its key engineering and strategic features, along with related uncertainties and needed conditions for future projects to be successful.

Savannah River Mission Completion (SRMC), the radioactive liquid waste contractor at the Department of Energy’s Savannah River Site, is optimizing some equipment maintenance at the Salt Waste Processing Facility (SWPF). The facility traditionally uses centrifugal contactors in the solvent extraction process, and its laboratory uses manipulators to handle process samples and equipment within its radioactive cell. The equipment requires periodic maintenance and rebuilding.

In a 243–187 vote, the House of Representatives yesterday passed the CHIPS and Science Act of 2022, a $280 billion economic competitiveness package aimed at bolstering U.S. semiconductor manufacturing, as well as scientific research and development, including nuclear energy R&D.

Nuclear energy offers a pairing of high capacity factors and low carbon emissions unrivaled by other power sources, and advanced reactors and small modular reactors (SMRs) hold promise to deliver that power with even more efficiency and versatility. Researchers in the public and private sectors, backed by government funding through programs like the Department of Energy’s Advanced Reactor Demonstration Program and Advanced Research Projects Agency–Energy (ARPA-E), are bringing that promise closer to fulfillment by engineering solutions to open questions about advanced reactor materials and fuel cycles.

At every national meeting, the ANS Honors and Awards Program recognizes outstanding achievements and meritorious service in the various fields served by our Society. The deadline for submission of nominations for the upcoming Winter Meeting awards is Monday, August 1.

The recipients of this year’s national awards will be honored on November 13 during the opening plenary of the ANS Winter Meeting. Honorees will be notified of their selection by October.

All members are encouraged to review the nomination requirements for these awards and consider nominating a qualified colleague. This is the key step in ensuring that the ANS Honors and Awards program is aware of highly qualified individuals’ achievements so the Society may recognize their contributions. Many ANS awards are open to non-ANS members, and nominating people who are not members is one way to foster new ANS relationships.

The DIII-D National Fusion Facility now boasts a unique automated system that allows for a quick reversal of the direction of its magnetic field, expanding the range of possible fusion experiments while reducing downtime. General Atomics, which operates the DIII-D for the Department of Energy’s Office of Science, announced the new Toroidal Field Reversing Switch (TFRS) on July 26.

The Nuclear Regulatory Commission recently approved, in a 2–1 vote, a recommendation from its staff that could potentially lead to the siting of advanced reactors in more densely populated areas than is permitted for traditional light water units.

NRC chairman Christopher Hanson and David Wright voted in favor of the recommendation, with Jeffery Baran casting the lone “nay” vote. (There are currently two open seats on the five-member commission.)

The Nuclear Hydrogen Initiative (NHI), an international coalition of more than 40 participants, has launched with the mission of advancing the development of commercial hydrogen fuel generated by nuclear power “as a critical climate solution within a shared vision of a decarbonized global energy system.” The coalition plans to raise awareness among policymakers, businesses, investors, and other stakeholders regarding the promising role of nuclear hydrogen in delivering carbon-free, secure, and affordable energy.

The area near the Hanford Site’s former K reactors is buzzing with activity as several of the Department of Energy’s environmental cleanup projects continue near the Columbia River in Washington state.

That’s not the only thing that’s buzzing, however. While preparing some old equipment for removal earlier this spring, workers with Central Plateau Cleanup Company (CPCCo), a contractor of the DOE Office of Environmental Management Richland Operations Office, discovered a large colony of native bees.

The Department of Energy today issued a Record of Decision (ROD) for the Final Versatile Test Reactor Environmental Impact Statement (final VTR EIS; DOE/EIS-0542). The VTR will be a sodium-cooled, fast-neutron-spectrum test reactor that will enhance and accelerate research, development, and demonstration of innovative nuclear energy technologies critical to tackling the climate crisis, according to the DOE.

The VTR ROD and final VTR EIS are available for viewing or download here.

The Belgian government has signed a nonbinding letter of intent with Electrabel, a subsidiary of the French utility Engie, to keep nuclear a part of Belgium’s energy mix for an additional 10 years.

Electrabel operates Belgium’s two nuclear power plants, the four-unit Doel and three-unit Tihange.

The first university-based molten salt research reactor (MSRR) is one step closer to reality with Abilene Christian University’s Nuclear Energy eXperimental Testing (NEXT) Laboratory recently signing a contract with Teledyne Brown Engineering. After considering more than a dozen engineering firms, the NEXT Lab selected Teledyne Brown to perform the front-end engineering and design work to produce the reactor on the Abilene campus. The contract was described by NEXT Lab director Rusty Towell as “a significant step into the detailed design and construction phase of this project.” The hope is that the 1-MWt MSRR will go critical in 2025.

“If we’re serious about dealing with climate change, then we’re going to need all the tools in the toolbox, which includes nuclear, not just now but in the future,” Keith Schue, an electrical engineer affiliated with Nuclear New York is quoted as saying in an article on the (Lower Hudson Valley) Journal News website, lohud. Schue adds, “We do believe that closing Indian Point was a mistake. But are we going to continue making mistakes or can we learn from them?”

Source: GAO | GAO-22-103441

The Nuclear Regulatory Commission needs to “add security features to its licenses to make it harder for people to use a fraudulent license to purchase radioactive material,” which could then be used to make a “dirty bomb,” according to a Government Accountability Office report exclusively obtained by NBC News. The recent report was publicly released on the GAO website.

A dirty bomb, also known as a radiological dispersal device, is a bomb made with conventional explosives to spread illicitly obtained radioactive materials, such as materials intended for generating nuclear power, conducting research, treating cancer, or sterilizing medical instruments. Such a weapon in the hands of a terrorist group or other “bad actor” could cause “hundreds of deaths from evacuations and billions of dollars of socioeconomic effects,” according Preventing a Dirty Bomb (GAO-22-103441).

The Nuclear Waste Technical Review Board has issued a report to the U.S. Congress and the secretary of energy examining the programs for managing spent nuclear fuel and high-level radioactive waste in more than a dozen countries.

The report, Survey of National Programs for Managing High-Level Radioactive Waste and Spent Nuclear Fuel: 2022 Update, is an update of a survey report issued by the NWTRB in 2009, in which the board described 30 institutional and technical attributes of nuclear waste management programs in 13 countries. Those countries, which include the United States, France, China, and the United Kingdom, account for 80 percent of worldwide nuclear power–generating capacity.

Romania’s Nuclearelectrica, the state-owned operator of the two-unit Cernavoda nuclear power plant, has awarded Candu Energy a contract to conduct design and engineering services for the facility’s Unit 1 refurbishment project, according to an announcement last week from SNC-Lavalin, Candu Energy’s parent company.

The June 2017 special report on the ANS Nuclear Grand Challenges (available online at ans.org/challenges/) identified low-dose radiation as a crucial focus area for ANS. Specifically, the challenge is to “Establish the scientific basis for modern low-dose radiation regulation.” This is particularly difficult given the long review cycles associated with International Commission on Radiological Protection (ICRP) and National Council on Radiation Protection and Measurements (NCRP) recommendations. Additionally, while the Environmental Protection Agency is tasked with issuing guidance on radiation exposure standards in the United States, responsibility for implementing and enforcing radiation protection regulations is distributed throughout the federal government. Finally, while it is accepted that tissue reactions (previously called deterministic or nonstochastic effects) exhibit a dose threshold, there is still substantial scientific debate over the shape of the dose response at low doses for stochastic effects, such as cancer. Despite these hurdles, substantial progress has been made over the past five years on the low-dose radiation grand challenge.

DISCLAIMER: The views expressed in this article are those of the author and do not necessarily reflect the views of the American Nuclear Society.

To provide a place for constructive conversation and exchange of ideas, I have built the website lmfbr.com. There, interested persons will find a description of the liquid metal fast breeder reactor technology and an outline of its history. The site is intended for an audience already generally familiar with light water reactors—but most particularly, it is meant to encourage comments so that the community can identify a pathway for deployment of LMFBRs through a conceptual design and institutional approach that draws upon collective experience, recent innovation, and re-visitation of approaches previously considered that have been long lying dormant. The website is also intended to suggest areas where further creative thought could be directed to improve the economic and operational performance of the LMFBR concept to make it highly competitive with LWRs.