Accelerator driven sub-critical systems——a promising solution for cycling nuclear fuel

LUO Peng; WANG Si-Cheng; HU Zheng-Guo; XU Hu-Shan; ZHAN Wen-Long

doi:10.7693/wl20160903

PHYSICS > 2016 > 45(9): 569-577. > DOI: 10.7693/wl20160903

LUO Peng, WANG Si-Cheng, HU Zheng-Guo, XU Hu-Shan, ZHAN Wen-Long. Accelerator driven sub-critical systems——a promising solution for cycling nuclear fuel[J]. PHYSICS, 2016, 45(9): 569-577. DOI: 10.7693/wl20160903

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Accelerator driven sub-critical systems——a promising solution for cycling nuclear fuel

Institute of Modern Physics,Chinese Academy of Sciences,Lanzhou 730000,China

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Received Date: July 05, 2016
Published Date: September 11, 2016

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Abstract

An accelerator driven sub-critical system (ADS) that utilizes spallation neutrons as an external neutron source to drive the sub-critical blanket system has inherent safety features. It is universally regarded as the most promising approach for the disposal of the long-lived nuclear wastes because of its hard and wide neutron spectra, and large flux. In addition to its ability to reduce significantly the lifetime and volume of nuclear waste, it also has the potential for nuclear fuel breeding and nuclear power generation, which could improve the utilization efficiency of nuclear fuel resource. In this paper we describe the basis principles, challenges and current status of ADS research worldwide. A brief review of the progress of China's ADS research program is then presented, followed by an overview of the outlook for future developments.
- nuclear energy,
- spent fuel,
- accelerator driven sub-critical system,
- transmutation

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[1]	Wakabayashi T et al. Nuclear Technology，1997，118：14
[2]	IAEA. Implications of Partitioning and Transmutation in RadioactiveWaste Management，IAEA-TECDOC-435，2004
[3]	Kadi Y，Revol J P. Design of an Accelerator-driven System for the Destruction of NuclearWaste. LNS0212002，2001
[4]	Stanculescu A. Accelerator Driven Systems (ADS) and Transmutation of NuclearWaste：Options and Trends. LNS015022，2000
[5]	何祚庥. 世界科技研究与发展，1996，6：1
[6]	Andriamonje S et al. Physics Letters B，1994，348：697
[7]	Arnould H et al. Physics Letters B，1999，458：167
[8]	Abderrahim H A et al. WIREs Energy and Environment，2014，3(1)：60
[9]	戴光曦. 科技导报，1996，8：38
[10]	戴光曦. 核物理动态，1996，13(4)：53
[11]	丁大钊，方守贤，何祚庥. 中国科学院院刊，1997，(2)：116
[12]	赵志祥，丁大钊. 物理，1997，26(4)：221

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