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HL-2M环向场线圈匝间剪切应力分析 被引量:7

Interturn shear stress analysis for HL-2M toroidal field coils
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摘要 介绍了HL-2M环向场线圈的基本结构设计及其承受的电磁载荷,分析了水平预加载、中心柱预应力筒以及环向抗扭支撑对线圈匝间剪切应力的影响。结果表明,水平预加载及预应力筒在中心柱内产生的压应力有利于提高中心柱的抗扭刚度;环向支撑刚度增加可减小线圈的面内剪切应力。在正常运行工况下,环向场线圈的最大匝间剪切应力小于8MPa,其结构设计满足线圈强度要求。对于大破裂瞬态事件,匝间最大剪切应力约12MPa,接近绝缘材料的剪切疲劳极限,建议采取破裂抑制措施避免该情况发生。 The structural design of HL-2M toroidal field coils and the electromagnetic loads on the coils was introduced in this paper. It was carried on that the analyses of the horizontal pre-loading system, pre-stressed epoxy-glass cylinder and the anti-torque structure which have big effects on the interturn shear stress. The results showed that the toroidal compression stress caused by the preloads and pre-stressed cylinder enhanced the anti-torque stiffness of the center-post, and the shear stress were reduced with the increase of lateral support stiffness. For normal operating scenarios, the maximum in-plane shear stress was less than 8MPa. If the major disruption occurs, a peak value of 12MPa in-plane shear stress may be induced, a limitation has to be made on the number of allowed disruption.
作者 蔡立君 邹晖 刘健 邱银 林涛 卢波 李广生 刘德权
机构地区 核工业西南物理研究院
出处 《核聚变与等离子体物理》 CAS CSCD 北大核心 2013年第2期135-141,共7页 Nuclear Fusion and Plasma Physics
关键词 HL-2M装置 环向场线圈 电磁载荷 剪切应力 HL-2Mtokamak Toroidal field coils Electromagnetic loads Shear stress
分类号 TL62 [核科学技术—核技术及应用]
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参考文献6

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同被引文献23

  • 1张璞,许立宁,路民旭.金属表面预处理对环氧树脂粘结剂粘结强度的影响[J].科学技术与工程,2007,7(8):1662-1665. 被引量:21
  • 2袁保山,姜韶风,陆志鸿.托卡马克装置工程基础[M].北京:原子能出版社,2011.91.
  • 3龙永兴,牟宗泽,简广德,孙爱萍,袁保山,高庆弟,王爱科.HL-2M装置环向场线圈的磁场和波纹度计算[J].核工业西南物理研究院年报,2006(1):60-61. 被引量:1
  • 4Puhn F A, Callis R W, Jones J D, et al. Design ofdemountable joint for Doublet III toroidal field coil [R].IEEE 6th Symposium on Engineering Problems of FusionResearch, 1975: 623-626.
  • 5Sharma A N, Pradhan S, Duchateau J L,et al. Thermohydraulic and quench propagation characteristics ofSST-1 TF coil [J], Fusion Engineering and Design, 2014,89(2): 115-121.
  • 6Lacroix Benoint, Portafaix Christophe, Barabaschi Pietro,et al. Development of modelling tools for thermo-hydraulic analyses and design of JT-60SA TF coils [J].Fusion Engineering and Design, 2011, 86(6-8):1483-1487.
  • 7Lewandowska M,Sedlak K. Thermal-hydraulic analysisof LTS cables for the DEMO TF coil [J]. AppliedSuperconductivity, IEEE Transactions on,2014, 24(3):4200305.
  • 8Peng N, Liu L Q, Xiong L Y. Thermal-hydraulic analysisof the cool-down for the ITER magnets[J]. Cryogenics,2013,57:45-49.
  • 9Savoldi R L, Bonifetto R,Heller R, et al. Thermal-hydraulic simulation of 80kA safety discharge in theITER toroidal field model coil (TFMC) using the 4Ccode [J]. Plasma Science, IEEE Transactions on, 2012,40(3): 782-787.
  • 10Luxon J L. A design retrospective of the DⅢ-D toroidal field coil to increased lateral loads [R]. San Diego, CA: 20^th IEEE/NPSS Symposium on Fusion Engineering, 2003.77-88.

引证文献7

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核聚变与等离子体物理
2013年 第2期

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