Native bees swarm near a hive at the former K Reactor Area on the Hanford Site. Bees swarm and begin looking for a new place to nest when a colony becomes overcrowded. (Photo: DOE)
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.
An artistic rendering of the Versatile Test Reactor. (Image: DOE)
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 Doel nuclear power plant in Belgium along with the De Molen windmill in foreground. (Photo: Trougnouf)
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.
An artist rendering of the Science and Engineering Research Center under construction at Abilene Christian University. The SERC will house the NEXT Lab's new advanced university research reactor sponsored by Natura Resources.
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.
Indian Point nuclear power plant. (Photo: Daniel Case)
“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?”
Romania’s Cernavoda Units 1 and 2. (Photo: Nuclearelectrica)
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.
A rendering of the Clinch River breeder reactor project.
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.
The reactor hall at the Halden research reactor. (Photo: Westinghouse)
Westinghouse Electric Company was awarded an engineering contract with Norsk Nukleær Dekommisjonering (NND) to plan the decommissioning of the country’s two nuclear research reactors, located in Halden and Kjeller. The three-year agreement includes options up to six years and is valued at up to $100 million (NOK 1 billion).
Holtec’s Advanced Manufacturing Division, in Camden, N.J. (Photo: Holtec)
The Department of Energy earlier this year approved part one of a loan application from Holtec International for small modular reactor construction and invited the firm to apply for a loan to help build four of its SMR-160 units and grow its manufacturing capacity to produce the first wave of SMRs.
A view of the entrance to tower #22, showing the dismantled part of an inclined column.
While the construction of two additional reactors at Slovakia’s Mochovce nuclear plant (Units 3 and 4) may get most of the attention, it isn’t the only major project underway there. In October of last year, plant owner Slovenské Elektrárne commenced the first phase of an effort to revitalize two of the four 125-meter-tall, Iterson-type cooling towers that serve the facility’s two operating reactors—both of which began generating electricity in the late 1990s. Towers #11 and #21 had been refurbished in 2011 and 2012, respectively. The other two, however, towers #12 and #22, had never undergone refurbishment.
Savannah River National Laboratory (Photo: DOE)
When the Department of Energy announced Innovation Network for Fusion Energy (INFUSE) awards earlier this month, Savannah River National Laboratory was named a recipient of two of the 18 awards. SRNL released a statement on July 19 explaining how a national lab with a long history of supporting environmental management and national security missions can lend a hand in the development of future commercial fusion power.
A computer-generated rendering of the Sizewell site on the Suffolk coast. Sizewell A and B are to the left and center (respectively) in this image; the section to the right is the Sizewell C area. (Image: EDF Energy)
The U.K. government has granted a development consent order (DCO) for EDF Energy’s proposed Sizewell C plant near Leiston in Suffolk, moving the new nuclear build project closer to a reality.
Nuclear New Build (NBB) Generation Company, an EDF Energy subsidiary, submitted the DCO application to the government’s Planning Inspectorate in May 2020, setting out the range of measures the project would implement to mitigate construction effects and maximize community benefits. The Planning Inspectorate accepted the application in June 2020 and completed its examination in October 2021. Recommendations were made to the secretary of state for business, energy, and industrial strategy this February.
Copernicus, TAE’s sixth-generation fusion reactor. (Image: TAE)
California-based TAE Technologies has announced that its accomplishments with its fifth-generation fusion research reactor, Norman, have allowed it to secure sufficient strategic and institutional investments to fund the construction of its sixth-generation research reactor, Copernicus.