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The Clinch River Breeder Reactor Project was a nuclear reactor project that aimed to build the USA's first large-scale demonstration breeder reactor plant. [2] It was led by the U.S. Atomic Energy Commission (and a successor agency, the U.S. Energy Research and Development Administration (ERDA), and subsequently the U.S. Department of Energy).
It was originally the site of the Clinch River Breeder Reactor Project. In February 2022, the site was announced as the first location of a small modular reactor as part of the TVA's New Nuclear Program, which was approved the same year. [1] [2]
Burnup is an important factor in determining the types and abundances of isotopes produced by a fission reactor. Breeder reactors by design have high burnup compared to a conventional reactor, as breeder reactors produce more of their waste in the form of fission products, while most or all of the actinides are meant to be fissioned and destroyed.
TVA's Bob Deacy, left, gives U.S. Secretary of Energy Jennifer Granholm, right, a tour of the Clinch River Nuclear Site on Tuesday, Dec. 5, 2023.
research reactor, in operation since 1958 (demonstrated at the Expo 58 in Brussels), since 1959 at the University of Basel. Decommissioned in 2020. [55] SAPHIR Würenlingen: Pool Decommissioned 10,000 1957-04-30 1993 Paul Scherrer Institut: Lucens: Lucens, Vaud: heavy-water moderated, carbon dioxide gas-cooled. pilot nuclear power plant ...
The Biden administration is working on plans to bring additional decommissioned nuclear power reactors back online to help meet soaring demand for emissions-free electricity, White House climate ...
The plutonium created could be used to fuel the breeder core, with enough left over to run other reactors. A breeder potentially generates not only electricity, but also income through fuel sales. The first power-producing reactor was a breeder, the Experimental Breeder Reactor I (EBR-I) at what became the Idaho National Laboratory. On December ...
Being a breeder reactor, it had the ability to transmute relatively inexpensive thorium to uranium-233 as part of its fuel cycle. [9] The breeding ratio attained by Shippingport's third core was 1.01. [8] Over its 25-year life, the Shippingport power plant operated for about 80,324 hours, producing about 7.4 billion kilowatt-hours of ...