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S-PRISM, also called PRISM (Power Reactor Innovative Small Module), is the name of a nuclear power plant design by General Electric-Hitachi based on a sodium-cooled fast breeder reactor^[1]. The design utilizes reactor modules, each having a power output of 311 MWe, to enable factory fabrication at low cost. The design is based on the Integral Fast Reactor. The Integral Fast Reactor was developed at the West Campus of the Argonne National Laboratory in Idaho Falls, Idaho and was the intended successor to the Experimental Breeder Reactor II. The Integral Fast Reactor project was shut down by the U.S. Congress in 1994. The S-PRISM represents General Electric-Hitachi's Generation IV reactor solution to closing the nuclear fuel cycle and is also part of its Advanced Recycling Center proposition^[2] to U.S. Congress to deal with nuclear waste.

References

External links

Fast Neutron reactors, World Nuclear Association

PRISM IFR Nuclear Engineering Wall Chart

Esquire Magazine: "Meet the Man Who Could End Global Warming"

[1] GE Energy press release

[2] Testimony to U.S. Congress

[1]

[2]

Revision as of 14:25, 14 May 2010 edit Coenen (talk \| contribs) 331 edits added a link to wall chart at the University of New Mexico ← Previous edit		Revision as of 14:26, 14 May 2010 edit undo Coenen (talk \| contribs) 331 edits mNo edit summary Next edit →
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	[[Image:GE-Hitachi-Prism-Reactor.jpg\|left\|thumb\|150px\|Drawing of the PRISM Reactor]]		[[Image:GE-Hitachi-Prism-Reactor.jpg\|left\|thumb\|150px\|Drawing of the PRISM Reactor]]

	S-PRISM, also called PRISM (Power Reactor Innovative Small Module), is the name of a nuclear power plant design by General Electric-Hitachi based on a [[sodium]]-cooled fast breeder reactor<ref>[http://www.gepower.com/about/press/en/2009_press/061609.htm GE Energy press release]</ref>. The design utilizes reactor modules, each having a power output of 311 MWe, to enable factory fabrication at low cost. The design is based on the [[Integral Fast Reactor]]. The Integral Fast Reactor was developed at the West Campus of the [[Argonne National Laboratory]] in [[Idaho Falls, Idaho]] and was the intended successor to the [[Experimental Breeder Reactor II]]. The Integral Fast Reactor project was shut down by the [[United States Congress\|U.S. Congress]] in 1994. The S-PRISM represents General Electric-Hitachi's [[Generation IV reactor]] solution to closing the nuclear fuel cycle and is also part of its Advanced Recycling Center proposition<ref>[http://democrats.science.house.gov/Media/file/Commdocs/hearings/2009/Full/17jun/Price_Testimony.pdf Testimony to U.S. Congress]</ref> to U.S. Congress to deal with nuclear waste.		S-PRISM, also called PRISM (Power Reactor Innovative Small Module), is the name of a nuclear power plant design by General Electric-Hitachi based on a [[sodium]]-cooled fast breeder reactor<ref>[http://www.gepower.com/about/press/en/2009_press/061609.htm GE Energy press release]</ref>. The design utilizes reactor modules, each having a power output of 311 MWe, to enable factory fabrication at low cost. The design is based on the [[Integral Fast Reactor]]. The Integral Fast Reactor was developed at the West Campus of the [[Argonne National Laboratory]] in [[Idaho Falls, Idaho]] and was the intended successor to the [[Experimental Breeder Reactor II]]. The Integral Fast Reactor project was shut down by the [[United States Congress\|U.S. Congress]] in 1994. The S-PRISM represents General Electric-Hitachi's [[Generation IV reactor]] solution to closing the nuclear fuel cycle and is also part of its Advanced Recycling Center proposition<ref>[http://democrats.science.house.gov/Media/file/Commdocs/hearings/2009/Full/17jun/Price_Testimony.pdf Testimony to U.S. Congress]</ref> to U.S. Congress to deal with [[nuclear waste]].