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Construction of a 2 kW/4 K Helium Refrigerator for HT-7U 被引量:3

Construction of a 2 kW/4 K Helium Refrigerator for HT-7U
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摘要 Superconducting magnets of toroidal field (TF) and poloidal field (PF) of HT-7Utokamak are all made of NbTi/Cu Cable-in-Conduit Conductor (CICC), and cooled with a forcedflow supercritical helium of 3.8 K. A helium refrigerator with an equivalent capacity of 2 kW/4K will be constructed. This paper presents the design of the helium refrigerator process, thethermodynamics of the refrigeration cycle and the refrigerator equipments. Superconducting magnets of toroidal field (TF) and poloidal field (PF) of HT-7U tokamak are all made of NbTi/Cu Cable-in-Conduit Conductor (CICC), and cooled with a forced flow supercritical helium of 3.8 K. A helium refrigerator with an equivalent capacity of 2 kW/4 K will be constructed. This paper presents the design of the helium refrigerator process, the thermodynamics of the refrigeration cycle and the refrigerator equipments.
作者 白红宇 毕延芳 王金荣 庄明 朱平 张启勇 盛林海
出处 《Plasma Science and Technology》 SCIE EI CAS CSCD 2002年第3期1305-1310,共6页 等离子体科学和技术(英文版)
基金 This work was supported by National Meg-Science Engineering Project of Chinese Government.
关键词 In HT
分类号 TL631.24 [核科学技术—核技术及应用]
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参考文献3

  • 1WAN Yuan-xi, et al., Nuclear Fusion 40 (6)(2000).
  • 2WENG P. D., et al., The engineering design of the HT-7U tokamak, SOFT 21.
  • 3WENG P. D., et al., HT-7U TF and PF conductor Design, Cryogenics 40(2000) 531-538.

同被引文献22

  • 1陆培文.实用阀门设计手册[M].北京:机械工业出版社,2009.
  • 2Lebrun. Large cryogenic Helium refrigeration system for the LHC[R]. Switzerland: LHC Project Report, 2003,629.
  • 3Kalinin V, Tada E, Millet E, et al. ITER eryogenic system[J]. Fusion Engineering and Design, 2006,81: 2589 - 2595.
  • 4Kimura N, Ohhata H, Okamura T, et al. Development of a variable quench pressure relief valve for superconducting magnet system [J]. Cryogenic, 2011, 51:465 -469.
  • 5Weilert M, Hahn I, Barmatz M, et al. Progress on a small multi-cycling cryogenic fluid flow valve [J ]. Cryogenic, 2002,41:813 - 816.
  • 6Chagovets V K, Rudavskii E Y, Taubenteuther K U, et al. A cold valve for superfluid helium[J]. Physica B,2000,284- 288:2045 - 2046.
  • 7Rae P J, Dattelbaum D M. The properties of poly (tet- rafluoroethylene)(PTFE) in compression[J]. Polymer, 2004,45:7615 - 7625.
  • 8Bozet J L. Modeling of friction and wear for designing cryogenic valves[J]. Tribology International, 2001,34:207 - 215.
  • 9Murari A, Vinante C, Monnari M. Compositon of PEEK and VESPEL SPI characteristics as vacuum seals for fusion applications[J]. Vacuum, 2002, 65:137 - 145.
  • 10Chen X, Huish C. Ratcheting behavior of PTFE under cyclic compression [J]. Polymer Testing, 2005, 24: 829 - 833.

引证文献3

二级引证文献20

Plasma Science and Technology
2002年 第3期

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