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首页> 外文期刊>IEEE Transactions on Plasma Science >Conceptual Design Analysis of Tungsten Monoblock Components for KSTAR Divertor
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Conceptual Design Analysis of Tungsten Monoblock Components for KSTAR Divertor

机译:KSTAR分流器的钨单体组件概念设计分析

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摘要

Tungsten (W) monoblock that consists of W according to ITER specifications, oxygen-free high conductive copper (Cu-OFHC), and CuCrZr has been designed in preparation for KSTAR upgrade for steady-state long-pulse operation with 27.5-MW heating power. Finite-element analysis has been performed by ANSYS Workbench. The hydraulic thermomechanical analysis is performed to investigate the optimal design parameters and the expected fatigue lifetime under the operating conditions with 5.4-MW/m2 incident heat flux at the divertor. For a single W monoblock, the optimization gives a W thickness of 5 mm, a side thickness of 2.5 mm, a thickness in the back part of 6 mm, and a Cu-OFHC interlayer thickness of 0.5 mm. For a mock-up consisting of five optimized W monoblocks, the thermal fatigue analysis is performed. As a result, the maximum value of equivalent total strain in the CuCrZr tube is found to be 0.266%, which corresponds to for a fatigue lifetime of 23000 cycles.
机译:由符合ITER规范的W,无氧高导电铜(Cu-OFHC)和CuCrZr组成的钨(W)整体块旨在为KSTAR升级做准备,以使其具有27.5 MW加热功率的稳态长脉冲运行。 ANSYS Workbench进行了有限元分析。进行了液压热力学分析,以研究最佳设计参数和在工作条件下分流器入射热通量为5.4 MW / m2时的最佳设计参数和预期疲劳寿命。对于单个W整体块,优化后的W厚度为5 mm,侧面厚度为2.5 mm,背面厚度为6 mm,Cu-OFHC中间层厚度为0.5 mm。对于由五个优化的W单体组成的模型,执行了热疲劳分析。结果,发现CuCrZr管中的等效总应变的最大值为0.266%,这对应于23000个循环的疲劳寿命。

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  • 来源
    《IEEE Transactions on Plasma Science》 |2016年第9期|1529-1533|共5页
  • 作者

    J. H. Song; K. M. Kim; K. Im; S. H. Hong; H. T. Kim; H. K. Kim; S. H. Park; B. C. Kim; H. L. Yang; Y. S. Kim;

  • 作者单位

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

    Advanced Engineering Division, National Fusion Research Institute, Daejeon, South Korea;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Electron tubes; Heating; Stress; Fatigue; Thermomechanical processes; Finite element analysis;

    机译:电子管;加热;应力;疲劳;热机械过程;有限元分析;

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