A commercially irradiated, refabricated test rod in an INL hot cell. (Photo: INL)
An article in the OECD Nuclear Energy Agency’s July news bulletin noted that a first test has been completed for the High Burnup Experiments in Reactivity Initiated Accident (HERA) project. The project aim is to understand the performance of light water reactor fuel at high burnup under reactivity-initiated accidents (RIA).
Plaque honoring Frisch and Peierls at the University of Birmingham in England. (Photo: Anthony Cox)
The Manhattan Project is usually considered to have been initiated with Albert Einstein’s letter to President Franklin Roosevelt in October 1939. However, a lesser-known document that was just as impactful on wartime nuclear history was the so-called Frisch-Peierls memorandum. Prepared by two refugee physicists at the University of Birmingham in Britain in early 1940, this manuscript was the first technical description of nuclear weapons and their military, strategic, and ethical implications to reach high-level government officials on either side of the Atlantic. The memorandum triggered the initiation of the British wartime nuclear program, which later merged with the Manhattan Engineer District.
Concept art of the central cross-section of the Helix Katana stellarator. (Image: Helical Fusion)
Helical Fusion, a private fusion start-up based in Japan, announced it has closed its first round of venture capital financing, securing ¥2.3 billion ($15.6 million) in funding. According to Helical Fusion, this brings the company’s total capital investment—including grants and loans—to ¥5.2 billion ($35.3 million).
Ronald E. Evans, the command module pilot for Apollo 17, performed a deep-space extravehicular activity (EVA) to retrieve a film canister during the mission’s return to Earth. At about 160,000 miles from Earth, it was the most distant spacewalk ever conducted in deep space under full-spectrum GCR. (Photo: NASA)
In commercial nuclear power, there has always been a deliberate tension between the regulator and the utility owner. The regulator fundamentally exists to protect the worker, and the utility, to make a profit. It is a win-win balance.
From the U.S. nuclear industry has emerged a brilliantly successful occupational nuclear safety record—largely the result of an ALARA (as low as reasonably achievable) process that has driven exposure rates down to what only a decade ago would have been considered unthinkable. In the U.S. nuclear industry, the system has accomplished an excellent, nearly seamless process that succeeds to the benefit of both employee and utility owner.
The Arkansas Nuclear One nuclear power plant in Russellville, Ark. (Photo: Entergy)
The Nuclear Regulatory Commission is considering allowing Entergy to use a portion of the decommissioning trust fund (DTF) for the Arkansas Nuclear One nuclear power plant to dispose of several major radioactive components (MRC) that have been taken out of service at the two-unit pressurized water reactor.
A 3D rendering of Sizewell C (second from left) with the existing Sizewell B toward the top right. (Image: U.K. govt.)
As the U.K. government looks to finalize investment decisions for the construction of the Sizewell C nuclear power plant this summer, France’s state-owned EDF has announced plans to take a 12.5 percent stake in the project and commit up to £1.1 billion ($1.5 billion) in funding.
The Clinton nuclear power plant. (Photo: Constellation)
A recent article in the Chicago Tribune explores the benefits and potential drawbacks of the 20-year power purchase agreement (PPA) signed by Constellation Energy and Meta last month.
The compact, transportable Holos-Quad microreactor, developed by HolosGen, is shown housed within a standard 40-foot ISO container. (Image: HolosGen)
The University of Michigan’s Department of Nuclear Engineering and Radiological Sciences (NERS) has published a summary of a study on nuclear microreactors and machine learning (ML) that was conducted by researchers from NERS and Idaho National Laboratory. The full paper, “Nuclear Microreactor Transient and Load-Following Control with Deep Reinforcement Learning,” was featured in the July issue of Energy Conversion and Management: X.
The high-burnup research cask (center) stands with other spent nuclear fuel dry storage casks at the North Anna ISFSI in Virginia. (Photo: Dominion Energy)
The Department of Energy said it anticipated delivering a research cask of high-burnup spent nuclear fuel from Dominion Energy’s North Anna nuclear power plant in Virginia to Idaho National Laboratory by fall 2027. The planned shipment is part of the High Burnup Dry Storage Research Project being conducted by the DOE with the Electric Power Research Institute.
As preparations continue, the DOE said it is working closely with federal agencies as well as tribal and state governments along potential transportation routes to ensure safety, transparency, and readiness every step of the way.
Watch the DOE’s latest video outlining the project here.
A drone-borne GRS system assesses soil properties in an agricultural field. (Photo: M. Casling/IAEA)
The International Atomic Energy Agency has initiated a coordinated research project that will combine an “innovative, non-invasive, and scalable nuclear technique”—gamma-ray spectrometry (GRS)—with drones and satellite imagery to gather and analyze data that can reveal the quality of soil on agricultural lands around the world.