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100kW散裂中子源钨靶温度场数值计算 被引量:4

The thermal design of tungsten target for 100kw neutron spallation source
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摘要 对100kw散裂中子源钨靶的靶片及冷却水道进行了三维结构设计,在此基础上,用I-DEAStmTMG/ESC软件系统,计算了靶片的温度场、冷却水流速度场和温度场。结果表明,该结构设计较为合理,在允许的流量下,能实现靶的高效冷却。 The three -dimensional model of target pieces and cooling water channels was designed. Computational fluid dynamics was made in the thermal design of the target using I-DEAStm TMG/ESC software. The temperature distribution and the cooling water flow state parameters were calculated. From the calculated results ,it was found that the design is reasonable. Under the given flow rate, the target can cool effectively and the design is satisfied for the thermal capability of the target.
作者 杜建红
出处 《机械设计与制造》 北大核心 2008年第10期85-86,共2页 Machinery Design & Manufacture
关键词 散裂中子源 钨靶 温度场 流场 Neutron spallation source Tungsten target Temperature field Flow field
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参考文献4

  • 1王芳卫,梁天骄,殷文,曹慧波,张泮霖,严启伟,章综,张杰.散裂中子源靶站和中子散射谱仪的概念设计[J].核技术,2005,28(8):593-597. 被引量:20
  • 2Tokai. The ESS Mercury Target System Design,ICANS-XV,2000 (11): 1242- 1284
  • 3SDRC. I-DEAS ESCTM Reference Manual ESCrefl la[M], 1999
  • 4Masayoshi Kawai, Michihiro Furusaka, Kenji Kikuchi,ect. R&D of A MWclass solid-target for a spallation neutron source. Journal of Nuclear Materials [J] ,2003(18):47

二级参考文献5

  • 1Neutron Scattering, edited by Skold K, Price D, in Methods of Experimental Physics, Vol. 23, London:Academic Press, Inc. Ltd.. 1987. 1-95.
  • 2Bacon G E. Neutron Diffraction, Oxford: Clarendon Press,1975.1-19.
  • 3Koji N, Shin-ichiro M, Hiroshi T. High Energy Particle Transport Code NMTC/JAM, 2001, Tokai-mura: Japan Atomic Energy Research Institute.
  • 4Yin Wen, Liang Jiu-Qiang. Chin Phys (in China), 2003,12:599-603.
  • 5Windsor C G Pulsed Neutron Scattering, London: Taylor& Francis Ltd., 1981. 227-369.

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