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Thermal-Structural Coupled Analysis of ITER Torus Cryo-Pump Housing

Thermal-Structural Coupled Analysis of ITER Torus Cryo-Pump Housing
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摘要 An ITER torus cryo-pump housing (TCPH), which encloses a torus cryo-pump, is connected to a vacuum vessel (VV) by a set of associated double bellows. There are complicated loads due to two different operating states (pumping and regeneration) and foreseeable accidents with the cryo-pump. This paper describes a thermal-structural coupled analysis of the present TCPH according to tho allowatfle stress criteria of RCC-MR, in which the worst cases and outcomes of various load combinations are obtained. Meanwhile, optimization of the structure has been carried oul, to obtain positive analysis results and an adequate safety margin. An ITER torus cryo-pump housing (TCPH), which encloses a torus cryo-pump, is connected to a vacuum vessel (VV) by a set of associated double bellows. There are complicated loads due to two different operating states (pumping and regeneration) and foreseeable accidents with the cryo-pump. This paper describes a thermal-structural coupled analysis of the present TCPH according to tho allowatfle stress criteria of RCC-MR, in which the worst cases and outcomes of various load combinations are obtained. Meanwhile, optimization of the structure has been carried oul, to obtain positive analysis results and an adequate safety margin.
作者 王松可 宋云涛 谢韩 雷明准
机构地区 Institute of Plasma Physics
出处 《Plasma Science and Technology》 SCIE EI CAS CSCD 2012年第11期1011-1016,共6页 等离子体科学和技术(英文版)
基金 supported by International Thermonuclear Experimental Reactor (ITER) Specific Plan in China (2009GB101004)
关键词 ITER TCPH thermal-structural coupled analysis 1R CC-MR ITER, TCPH, thermal-structural coupled analysis, 1R,CC-MR
分类号 TL628 [核科学技术—核技术及应用]
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参考文献15

  • 1Bharat Doshi, Antipenkov Alexander, Bruno Levesy. 2010, Draft, Preliminary Technical Input for Torus Cryo-Pump tIousing and Associated Bellows. ITER- D-35TFJ5, France.
  • 2A. Mack, A. Antipenkov, J.C. Boissin, et ah 2002, Fu- sion Engineering and Design, 61-62:611.
  • 3Prosenjit Santra, Vijay Bedakihale, Tata Ranganath. 2009, htsion Engineering and Design, 84:1708.
  • 4Cai Yingxiang, Yu Jie, Wu Songtao. 2007, Plasma Sci- ence and Technology, 9:216.
  • 5Barabash V. 2008, Summary of material data for struc- tural analysis of the ITER vacuum vessel and ports. ITER-D-229DTN, France.
  • 6French Society for Design and Construction Rules for Nuclear Island Components. 2007, RCC-MR, "Design and Construction Rules for Mechanical Components of FBR. Nuclear Island". AFCEN, Paris.
  • 7Bachmann C. 2010, Load Specification for the ITER Vacuum Vessel. ITER-D-2F52JY, France.
  • 8Zhou C, Doshi B. 2010, Load Specification for the ITER Cryostat. ITER-D-34HHUG, Prance.
  • 9Sannazzaro G, Mazzone G. 2010, Template for analy- sis document on calculation of ITER tokamak corn-plex seismic loads from heavy equipment. ITER-D- 3V74UZ, France.
  • 10Sorin V. 2011, Seismic analyses of the tokamak build- ing complex and the main tokamak components. ITER-D-3ZS67G, Prance.
Plasma Science and Technology
2012年 第11期

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