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The '''BN-800 reactor''' is a sodium-cooled [[fast breeder reactor]], built at the [[Beloyarsk Nuclear Power Station]], in [[Zarechny, Sverdlovsk Oblast]], [[Russia]]. Designed to generate electrical power of 880 MW in total, the plant is the final step to the commercial [[plutonium]] cycle breeder. It |
The '''BN-800 reactor''' is a sodium-cooled [[fast breeder reactor]], built at the [[Beloyarsk Nuclear Power Station]], in [[Zarechny, Sverdlovsk Oblast]], [[Russia]]. Designed to generate electrical power of 880 MW in total, the plant is the final step to the commercial [[plutonium]] cycle breeder. It was planned to start producing electricity in October, 2014, but the hydrodynamic problems in the core forced to implement some modification to fuel rods. By now (2015 July) the reactor is restarted at minimal controlled power to check the result of improvement. Officials say high power testing will follow in August but unofficial talks are less optimistic. Electricity production is now planned on January 2017 <ref>[http://www.atominfo.ru/newsl/s0420.htm]</ref> |
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Published time: June 27, 2014}}</ref> |
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The plant is a pool-type reactor, where the reactor, coolant pumps, intermediate heat exchangers and associated piping are all located in a common liquid sodium pool. The design of this plant was started in 1983 and was totally revised in 1987 after the [[Chernobyl Disaster]] and for somewhat lower degree in 1993 according to the new safety guidelines. After the second revision the electric output power was increased by 10% to 880 MW due to the increased efficiency of the planned power generator steam turbines. |
The plant is a pool-type reactor, where the reactor, coolant pumps, intermediate heat exchangers and associated piping are all located in a common liquid sodium pool. The design of this plant was started in 1983 and was totally revised in 1987 after the [[Chernobyl Disaster]] and for somewhat lower degree in 1993 according to the new safety guidelines. After the second revision the electric output power was increased by 10% to 880 MW due to the increased efficiency of the planned power generator steam turbines. |
Revision as of 12:28, 25 July 2015
The BN-800 reactor is a sodium-cooled fast breeder reactor, built at the Beloyarsk Nuclear Power Station, in Zarechny, Sverdlovsk Oblast, Russia. Designed to generate electrical power of 880 MW in total, the plant is the final step to the commercial plutonium cycle breeder. It was planned to start producing electricity in October, 2014, but the hydrodynamic problems in the core forced to implement some modification to fuel rods. By now (2015 July) the reactor is restarted at minimal controlled power to check the result of improvement. Officials say high power testing will follow in August but unofficial talks are less optimistic. Electricity production is now planned on January 2017 [1]
The plant is a pool-type reactor, where the reactor, coolant pumps, intermediate heat exchangers and associated piping are all located in a common liquid sodium pool. The design of this plant was started in 1983 and was totally revised in 1987 after the Chernobyl Disaster and for somewhat lower degree in 1993 according to the new safety guidelines. After the second revision the electric output power was increased by 10% to 880 MW due to the increased efficiency of the planned power generator steam turbines.
The reactor core is, in size and mechanical properties, very similar to the BN-600 reactor core, but the fuel composition is very different. While BN-600 uses medium-enriched uranium dioxide, the new plant will burn mixed uranium-plutonium fuel, helping to reduce the weapon-grade plutonium stockpile and provide information about the functioning of the closed uranium-plutonium fuel cycle. It was specially mentioned that the closed cycle will not require plutonium separation or other chemical processing.
The unit employs a three-circuit coolant arrangement; sodium coolant circulates in both the primary and secondary circuits. Water and steam flow in the third circuit. This heat is transferred from the reactor core via several independent circulation loops. Each comprises a primary sodium pump, two intermediate heat exchangers, a secondary sodium pump with an expansion tank located upstream, and an emergency pressure discharge tank. These feed a steam generator, which in turn supplies a condensing turbine that turns the generator.[2]
Export
The Peoples Republic of China's first commercial-scale, 800 MWe, fast neutron reactor, to be situated near Sanming city in Fujian province will be based upon the BN-800. In 2009 an agreement was signed that would entail the Russian BN-800 reactor design to be sold to the PRC once it is completed, this would be the first time commercial-scale fast neutron reactors have ever been exported.[3]
See also
References
- The information in this article is based on that in its Russian equivalent.
- The information in this article is based on that in its German equivalent.
External links
- Official website
- B.A. Vasilyev, S.F. Shepelev, M.R. Ashirmetov, V.M. Poplavsky (4 March 2013). "BN-1200 Reactor Power Unit Design Development" (PDF). International Conference on Fast Reactors and Related Fuel Cycles: Safe Technologies and Sustainable Scenarios. IAEA. Retrieved 21 February 2015.
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