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A core shroud is a stainless steel cylinder surrounding a nuclear reactor core whose main function is to direct the cooling water flow. [1] The nuclear reactor core is where the nuclear reactions take place. Because the reactions are exothermic, cool water is needed to prevent the reactor core from melting down. The core shroud helps by ...
Units 1 through 4 at the plant. At the time of the earthquake, Unit 4 had been shut down for shroud replacement and refueling since 29 November 2010. [1] [2] All 548 fuel assemblies had been transferred in December 2010 from the reactor to the spent fuel pool on an upper floor of the reactor building [3] where they were held in racks containing boron to damp down any nuclear reaction. [4]
Whilst most power reactors do have a pressure vessel, they are generally classified by the type of coolant rather than by the configuration of the vessel used to contain the coolant. The classifications are: Light-water reactor - Includes the pressurized water reactor and the boiling water reactor. Most nuclear power reactors are of this type.
^Location: the LF1 reactor is sited within an industrial park located in Hongshagang (town), Minqin (county), Wuwei (prefecture), Gansu (province), China. As per official documentation, the TMSR-LF1 site is located at 38°57'31" N, 102°36'55" E.
Entrance to the Radiation Center. The Oregon State University Radiation Center (OSURC) is a research facility that houses a nuclear reactor, Gammacell 200 irradiator, several radiation laboratories, and multiple high-bay thermal hydraulics laboratories at Oregon State University (OSU) in Corvallis, Oregon, United States.
VVR-M 18 MW reactor at St. Petersburg Institute of Nuclear Physics IBR-2 2 MW pulsed reactor at Joint Institute for Nuclear Research SM, Arbus (ACT-1), MIR.M1, RBT-6, RBT-10 / 1, RBT-10 / 2, BOR-60 and VK-50 Research Institute of Atomic Reactors
A map claiming to show the areas of the US that may be targeted in a nuclear war that originally circulated in 2015 is making the rounds again, amid the Russian war in Ukraine.
The high-temperature engineering test reactor (HTTR) is a graphite-moderated gas-cooled research reactor in Ōarai, Ibaraki, Japan operated by the Japan Atomic Energy Agency. It uses long hexagonal fuel assemblies, unlike the competing pebble bed reactor designs. HTTR first reached its full design power of 30 MW (thermal) in 1999.