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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.
Plutonium production reactors Name Location Reactor type Purpose Status Capacity (MWth) Construction start date Operation date Closure Operator and owner B-Reactor: Hanford Site: Graphite Pile: Production of Plutonium-239 for weapons: Preserved as a museum: Manhattan Project: F-Reactor [58] Hanford Site: Graphite Pile: Production of Plutonium ...
Experimental Breeder Reactor I (EBR-I) is a decommissioned research reactor and U.S. National Historic Landmark located in the desert about 18 miles (29 km) southeast of Arco, Idaho. It was the world's first breeder reactor . [ 3 ]
List of nuclear power plants in Japan; List of Russian small nuclear reactors; List of cancelled nuclear reactors in Russia; List of United States naval reactors; List of cancelled nuclear reactors in the United States; List of the largest nuclear power stations in the United States; List of nuclear power systems in space
It carried out work on reactors for the British civil and military (submarine fleet) nuclear energy programmes, investigating metallurgy.In the first ten years, it carried out research on materials for fast breeder reactors; it was the first time that niobium had been part of a fast breeder reactor. [4]
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 ...
The Experimental Breeder Reactor II. Experimental Breeder Reactor-II (EBR-II) was a sodium-cooled fast reactor designed, built and operated by Argonne National Laboratory at the National Reactor Testing Station in Idaho. It was shut down in 1994. Custody of the reactor was transferred to Idaho National Laboratory after its founding in 2005.
Superphénix was a 1,242 MWe fast breeder reactor with the twin goals of reprocessing nuclear fuel from France's line of conventional nuclear reactors, while also being an economical generator of power on its own. As of 2024, Superphénix remains the largest breeder reactor ever built.