An enhanced CT scan process developed at ORNL can cut the time required to examine 3D-printed parts by one sixth. (Image: DOE)
A software algorithm developed at Oak Ridge National Laboratory has reduced the time needed to inspect 3D-printed parts for nuclear applications by 85 percent, the Department of Energy announced on November 1, and that algorithm is now being trained to analyze irradiated materials and nuclear fuel at Idaho National Laboratory.
The color-coded scatterplot shows the feasibility of coal-to-nuclear transitions at smaller coal plants (1,000 MWe or less) across the United States, plotted by latitude and longitude. Red and warm colors represent the high feasibility. (Image: Muhammad Rafiul Abdussami, Fastest Path to Zero, University of Michigan)
Comprehensive analysis of 245 operational coal power plants in the United States by a team of researchers at the University of Michigan has scored each site’s advanced reactor hosting feasibility using a broad array of attributes, including socioeconomic factors, safety considerations, proximity to populations, existing nuclear facilities, and transportation networks. The results could help policymakers and utilities make decisions about deploying nuclear reactors at sites with existing transmission lines and a ready workforce.
The Carolinas-Virginia Tube Reactor site, circa 1963. (Photo: Duke Energy)
The Carolinas-Virginia Tube Reactor (CVTR), also known as Parr due to its location in Parr, S.C., was a 65-MWt (17-MWe) pressurized tube reactor. Construction began in January 1960, and the reactor reached initial criticality in March 1963. Commercial operation commenced in December 1963, and the reactor was permanently shut down in January 1967 after the test program was complete.
U.S.-endorsed declaration commits to tripling the world’s nuclear energy capacity by 2050
DUBAI, UNITED ARAB EMIRATES — Statement from American Nuclear Society (ANS) Executive Director and CEO Craig Piercy on the launching of the “Declaration to Triple Nuclear Energy” by the United States and twenty-one other countries during the World Climate Action Summit of the 28th Conference of the Parties (COP28) to the United Nations Framework Convention on Climate Change (UNFCCC):
Experimental Breeder Reactor-II (Photo: ANL)
If you head west out of Idaho Falls on U.S. Highway 20 and make your way across the Snake River Plain, it won’t be long before you’ll notice a silver dome in the distance to the north. One of the most recognizable structures in the history of nuclear energy, Experimental Breeder Reactor-II stands out from the desert landscape. The 890-square-mile site on which EBR-II is located is the former National Reactor Testing Station, now known as Idaho National Laboratory.
A fuel rod is loaded into the core of PRR-1 SATER in this 2022 photo, in preparation for its operation. (Photo: PNRI)
The Philippines generates none of its electricity from nuclear energy. Until recently, it was even without a functioning research and training reactor. The lack of a nuclear facility has led to a dearth of scientific expertise in nuclear science and nuclear engineering in this nation of roughly 117 million people. Twenty-nine-year-old Ronald Daryll E. Gatchalian is on a mission to change that.
A ribbon cutting marked the opening of Bechtel’s Engineering Execution Center in Knoxville, Tenn. Pictured, from left, are Glenn Jacobs, Angela McAlpin, Sujal Lagowala, John Howanitz, Craig Albert, Wes Hines, and Mark Field. (Photo: Bechtel)
International engineering, construction, and project-management company Bechtel, which is headquartered in Reston, Va., opened its newest office, the Engineering Execution Center, in Knoxville, Tenn. The office—the second Bechtel has opened stateside in the last few months—will provide engineering support for the company’s numerous mission-based projects, and it is the second new U.S. office opened by Bechtel in the past few months—the other being in Chandler, Arizona.