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基于GDT的14MeV中子源初步设计研究 被引量:5

Preliminary design of GDT-based 14 MeV neutron source
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摘要 为满足聚变材料测试对D-T聚变中子源的需要,本文首先根据国际上对用于聚变材料测试的中子源的要求给出设计目标,然后基于Gas Dynamic Trap(GDT)装置的实验进展,提出了基于GDT装置的14MeV中子源的设计初步方案,并建立了GDT中子源的物理模型。计算分析给出了两套中子源参数初步方案,其中FDS-GDT2中子壁负载为2MW/m2,可用于聚变材料的测试。 To meet the need of D-T fusion neutron source for fusion material testing,design goals were presented in this paper according to the international requirements of neutron source for fusion material testing.A preliminary design scheme of GDT-based 14 MeV neutron source was proposed,and a physics model of the neutron source was built based on progress of GDT experiments.Two preliminary design schemes(i.e.FDS-GDT1,FDS-GDT2) were designed;among which FDS-GDT2 can be used for fusion material testing with neutron first wall loading of 2 MW/m2.
作者 杜红飞 陈德鸿 蒋洁琼 汪晖 王福琼 陈一平 吴宜灿 FDS团队
机构地区 中国科学院核能安全技术研究所 中国科学院等离子体物理研究所 中国科学技术大学核科学技术学院
出处 《核科学与工程》 CSCD 北大核心 2012年第1期68-73,共6页 Nuclear Science and Engineering
基金 中科院知识创新工程重要方向项目(095CF2R211) 中科院重大装备仪器(CX2140000005)
关键词 GAS DYNAMIC Trap(GDT) 中子源 磁镜 聚变材料测试 Gas Dynamic Trap(GDT) neutron source magnetic mirror fusion material testing
分类号 TL64 [核科学技术—核技术及应用]
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参考文献1

二级参考文献20

  • 1Ivanov A A,Beklemishev A D,Kruglyakov E P. Results of recent experiments on GDT device afterupgrade of heating neutral beams[J].Fusion Science and Technology,2010.320325.
  • 2Fischer U,Moslang A,Ivanov A A. Assessment of the gas dynamic trap mirror facility as intense neutron source for fusion material test irradiations[J].Fusion Engineering and Design,2000,(3/4):307-325.doi:10.1016/S0920-3796(00)00164-2.
  • 3Bagryansky P A,Ivanov A A,Kruglyakov E P. Gas dynamic trap as high power beta 14 MeV neutron source[J].Fusion Engineering and Design,2004,(1):13-33.doi:10.1016/j.fusengdes.2003.08.002.
  • 4Molvik A,lvanov A A,Kulcinski G L. A gas dynamic trap neutron source for fusion material and subcomponent testing[J].Fusion Science and Technology,2010.369-394.
  • 5Anikeev A V,Bagryansky P A,Fischer U. The GDT based neutron source as a driver in a sub-critical burner of radioactive wastes[J].Transactions of Fusion Science and Technology,2011.220-222.
  • 6Anikeev A V,Dagan R,Fischer U. Numerical model of the fusion-fission hybrid system based on gas dynamic trap for transmutation of radioactive wastes[J].Transactions of Fusion Science and Technology,2011.162-165.
  • 7Beklemishev A D,Bagryansky P A,Chaschin M S. Vortex confinement of plasmas in symmetric mirror traps[J].Fusion Science and Technology,2010.351-360.
  • 8Wu Y,Zheng S,Zhu X. Conceptual design of the fusion-driven subcritical system FDS-I[J].Fusion Engineering and Design,2006.1305-1311.
  • 9Wu Y,FDS Team. Conceptual design activities of FDS series fusion power plants in China[J].Fusion Engineering and Design,2006.2713-2718.
  • 10Wu Y,FDS Team. Conceptual design of the China fusion power plant FDS-Ⅱ[J].Fusion Engineering and Design,2008.1683-1689.doi:10.1038/hdy.2009.182.

共引文献3

同被引文献47

  • 1吴宜灿,柯严,郑善良,汪卫华,储德林,黄群英,刘晓平,许德政,王红艳,黄德所,朱晓翔,高纯静,李静惊,陈义学,吴斌,汪太平,柏云清,章毛连,刘松林,罗月童,刘萍,李春京,李强,童莉莉,翁晓毅,吴磊,王祥科,FDS课题组.聚变驱动次临界堆概念设计研究[J].核科学与工程,2004,24(1):72-80. 被引量:53
  • 2陈志,冯开明,邓柏权,袁涛.D-^3He先进燃料聚变空间核动力推进器的可行性探索[J].科学技术与工程,2005,5(2):124-127. 被引量:4
  • 3何伟锋,向红军,蔡国飙.核火箭原理、发展及应用[J].火箭推进,2005,31(2):37-43. 被引量:11
  • 4M.ICHIMURA,T.CHO,H.HIGAKI,M.HIRATA,H.HOJO,T.IMAI,K.ISHII,M.K.ISLAM,A.ITAKURA,I.KATANUMA,J.KOHAGURA,Y.NAKASHIMA,T.NUMAKURA,T.SAITO,Y.TATEMATSU,M.WATANABE,M.YOSHIKAWA.ICRF Experiments and Potential Formation on the GAMMA 10 Tandem Mirror[J].Plasma Science and Technology,2006,8(1):87-90. 被引量:1
  • 5Ivanov A A,Beklemishev A D,Kruglyakov E P. Results of recent experiments on GDT device afterupgrade of heating neutral beams[J].Fusion Science and Technology,2010.320325.
  • 6Fischer U,Moslang A,Ivanov A A. Assessment of the gas dynamic trap mirror facility as intense neutron source for fusion material test irradiations[J].Fusion Engineering and Design,2000,(3/4):307-325.doi:10.1016/S0920-3796(00)00164-2.
  • 7Bagryansky P A,Ivanov A A,Kruglyakov E P. Gas dynamic trap as high power beta 14 MeV neutron source[J].Fusion Engineering and Design,2004,(1):13-33.doi:10.1016/j.fusengdes.2003.08.002.
  • 8Molvik A,lvanov A A,Kulcinski G L. A gas dynamic trap neutron source for fusion material and subcomponent testing[J].Fusion Science and Technology,2010.369-394.
  • 9Anikeev A V,Bagryansky P A,Fischer U. The GDT based neutron source as a driver in a sub-critical burner of radioactive wastes[J].Transactions of Fusion Science and Technology,2011.220-222.
  • 10Anikeev A V,Dagan R,Fischer U. Numerical model of the fusion-fission hybrid system based on gas dynamic trap for transmutation of radioactive wastes[J].Transactions of Fusion Science and Technology,2011.162-165.

引证文献5

二级引证文献7

核科学与工程
2012年 第1期

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