ADVANCED SFR DESIGN CONCEPTS AND R&D ACTIVITIES

In order to meet the increasing demand for electricity, Korea has to rely on nuclear energy due to its poor natural resources. In order for nuclear energy to be expanded in its utilization, issues with uranium supply and waste management issues have to be addressed. Fast reactor system is one of the...

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Veröffentlicht in:Nuclear engineering and technology 2009, 41(4), , pp.427-446
Hauptverfasser: Hahn, Do-Hee, Chang, Jin-Wook, Kim, Young-In, Kim, Yeong-Il, Lee, Chan-Bock, Kim, Seong-O, Lee, Jae-Han, Ha, Kwi-Seok, Kim, Byung-Ho, Lee, Yong-Bum
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Sprache:eng
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Zusammenfassung:In order to meet the increasing demand for electricity, Korea has to rely on nuclear energy due to its poor natural resources. In order for nuclear energy to be expanded in its utilization, issues with uranium supply and waste management issues have to be addressed. Fast reactor system is one of the most promising options for electricity generation with its efficient utilization of uranium resources and reduction of radioactive waste, thus contributing to sustainable development. The Korea Atomic Energy Research Institute (KAERI) has been performing R&Ds on Sodium-cooled Fast Reactors (SFRs) under the national nuclear R&D program. Based on the experiences gained from the development of KALIMER conceptual designs of a pool-type U-TRU-10%Zr metal fuel loaded reactor, KAERI is currently developing Advanced SFR design concepts that can better meet the Generation IV technology goals. This also includes developing, Advanced SFR technologies necessary for its commercialization and basic key technologies, aiming at the conceptual design of an Advanced SFR by 2011. KAERI is making R&D efforts to develop advanced design concepts including a passive decay heat removal system and a supercritical CO2 Brayton cycle energy conversion system, as well as developing design methodologies, computational tools, and sodium technology. The long-term Advanced SFR development plan will be carried out toward the construction of an Advanced SFR demonstration plant by 2028. KCI Citation Count: 16
ISSN:1738-5733
2234-358X
DOI:10.5516/NET.2009.41.4.427