Design Evolution and Analysis of the ITER Cryostat Support System

被引:0
|
作者
谢韩 [1 ,2 ]
宋云涛 [2 ]
王松可 [2 ]
机构
[1] ITER Organization
[2] Institute of Plasma Physics,Chinese Academy of
来源
Plasma Science and Technology. | 2015年 / 17卷 / 12期
关键词
D O I
暂无
中图分类号
学科分类号
摘要
The cryostat is a vacuum tight container enveloping the entire basic systems of the ITER tokamak machine,including a vacuum vessel,a superconducting magnet and thermal shield etc.It is evacuated to a pressure of 10-4Pa to limit the heat transfer via gas conduction and convection to the cryogenically cooled components.Another important function of cryostat is to support all the loads from the tokamak to the concrete floor of the pit by its support system during different operational regimes and accident scenarios.This paper briefly presents the design evolution and associated analysis of the cryostat support system and the structural interface with the building.
引用
收藏
页数:5
相关论文
共 50 条
  • [21] Design options for a magnet support column in the cryostat of a hybrid magnet system
    Miller, JR
    Miller, GE
    [J]. ADVANCES IN CRYOGENIC ENGINEERING, VOLS. 49A AND B, 2004, 710 : 479 - 486
  • [22] Design analysis of the hinge support for the ITER vacuum vessel
    Kim, B. Y.
    Ahn, H. J.
    Ha, M. S.
    Kim, Y. K.
    Kim, H. S.
    Sa, J. W.
    Kim, B. C.
    Bak, J. S.
    Choi, C. H.
    Ioki, K.
    Wang, X.
    Bachmann, C.
    [J]. FUSION ENGINEERING AND DESIGN, 2011, 86 (9-11) : 2003 - 2007
  • [23] The cryostat and subsystems development at ITER
    Sekachev, Igor
    Meekins, Michael
    Sborchia, Carlo
    Vitupier, Guillaume
    Xie, Han
    Zhou, Caipin
    [J]. PROCEEDINGS OF THE 25TH INTERNATIONAL CRYOGENIC ENGINEERING CONFERENCE AND INTERNATIONAL CRYOGENIC MATERIALS CONFERENCE 2014, 2015, 67 : 294 - 301
  • [24] Mesh sensitivity study and optimization of fixed support for ITER torus and cryostat cryoline
    Badgujar, S.
    Vaghela, H.
    Shah, N.
    Bhattacharya, R.
    Sarkar, B.
    [J]. 23RD NATIONAL SYMPOSIUM ON PLASMA SCIENCE AND TECHNOLOGY (PLASMA-2008), 2010, 208
  • [25] SUPPORT AND CRYOSTAT SYSTEM FOR DOUBLER MAGNETS
    BIALLAS, G
    FINKS, JE
    STRAUSS, BP
    KUCHNIR, M
    HANSON, WB
    KNEIP, E
    HINTERBERGER, H
    DEWITT, D
    POWERS, R
    [J]. IEEE TRANSACTIONS ON MAGNETICS, 1979, 15 (01) : 131 - 133
  • [26] The ITER divertor pumping system, design evolution, simplification and performance
    Pearce, Robert John
    Antipenkov, Alexander
    Boussier, Bastien
    Bryan, Stephan
    Dremel, Matthias
    Levesy, Bruno
    Mayaux, Christian
    Wykes, Michael
    [J]. FUSION ENGINEERING AND DESIGN, 2013, 88 (6-8) : 809 - 813
  • [27] Fluid dynamics analysis of loss of vacuum accident of ITER cryostat
    Lo Frano, Rosa
    Aquaro, Donato
    Olivi, Nicola
    [J]. FUSION ENGINEERING AND DESIGN, 2016, 109 : 1302 - 1307
  • [28] Design and structural analysis of support structure for ITER vacuum vessel
    Takeda, N
    Ohmori, J
    Nakahira, M
    Shibanuma, K
    [J]. JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGY, 2004, 41 (12) : 1280 - 1286
  • [29] The structure analysis of ITER cryostat based on the finite element method
    Chao, Liang
    Ye, M. Y.
    Yao, D. M.
    Lei, Cao
    Zhou, Z. B.
    Xu Teijun
    Jian, Wang
    [J]. FUSION ENGINEERING AND DESIGN, 2013, 88 (01) : 42 - 45
  • [30] Design and analysis of the CFETR cryostat
    Yang, Qingxi
    Li, Ning
    Chen, Zhaoxi
    Jian, Chen
    Xu, Hao
    Zhou, Caipin
    [J]. FUSION ENGINEERING AND DESIGN, 2022, 177
12345