ITER绝缘线圈氦质谱压力检测优化分析

doi:10.13385/j.cnki.vacuum.2019.04.04

真空 ›› 2019, Vol. 56 ›› Issue (4): 15-18.doi: 10.13385/j.cnki.vacuum.2019.04.04

ITER绝缘线圈氦质谱压力检测优化分析

邢银龙^{1, 2}, 李波¹, 吴杰峰¹, 刘志宏¹, 周能涛¹

1.中国科学院等离子体物理研究所,安徽合肥 230031;
2.中国科学技术大学,安徽合肥 230036

收稿日期:2018-11-07 发布日期:2019-08-22
通讯作者: 李波,副研究员。
作者简介:邢银龙（1988-）,男,安徽省合肥市人,博士。
基金资助:
新型高密度等离子体发生源研究与实验（11305217）

Optimization Analysis of Pressure Detection by Helium Mass Spectrometry of ITER Insulation Coils

XING Yin-long^{1, 2}, LI Bo¹, WU Jie-feng¹, LIU Zhi-hong¹, ZHOU Neng-tao¹

1.Institute of Plasma Physics Chinese Academy of Sciences, Hefei 230031 China;
2.University of Science and Technology of China, Hefei 230026 China

Received:2018-11-07 Published:2019-08-22

摘要/Abstract

摘要： ITER将第一次在世界上实现能与未来实用聚变规模相比拟的受控热核聚变实验堆,解决通向聚变工程的很多物理和工程问题。其中超导体磁体作为国际热核聚变实验堆ITER（International Thermonuclear Experimental Reactor）装置的核心部件之一其制造过程中非常关键问题就是焊缝的密封性能。对于焊缝的密封性能常用检漏方法是氦质谱真空压力检漏。本文主要介绍了氦质谱压力真空检漏方法在线圈泄漏检测中的优化分析及检测步骤。通过给氦质谱压力检漏法集气室中的连接工装增加辅助机械泵,避免真空条件下连接法兰泄漏造成的检漏系统本底信号过高影响,提高了氦质谱压力真空检漏方法在线圈检测中的灵敏度和检测数据的准确性,减少了误判的几率,拓展了氦质谱压力真空检漏方法的适用范围。

关键词: 氦气, 真空漏率, 真空压力检漏, 氦质谱检漏仪

Abstract: ITER will first achieve the controlled thermonuclear fusion reactor, which is comparable to the future practical fusion scale world-widely, to solve many physical and engineering problems involving in the fusion engineering. As one of the core components of the International Thermonuclear Fusion Experimental Reactor ITER, the key issue in the manufacturing process is the sealing performance of weld. The common leak detection method for sealing performance of weld is helium mass spectrometry vacuum pressure leak detection. This paper mainly introduces the optimization analysis and detection steps of the helium mass spectrometry pressure vacuum leak detection in coil leakage detection. The auxiliary mechanical pump is added to the connecting unit in the gas chamber of helium mass spectrometry pressure leak detection method, in order to avoid the excessive influence of the background signal due to the leakage of the connecting flange under vacuum conditions. This method improves the sensitivity and accuracy of the measurement data, reduced the chance of misjudgment, and expands the application range of helium mass spectrometry pressure vacuum leak detection method.

Key words: helium gas, vacuum leak rate, vacuum pressure leak, helium mass spectrometer leak detector

中图分类号:

TB774+.3

邢银龙, 李波, 吴杰峰, 刘志宏, 周能涛. ITER绝缘线圈氦质谱压力检测优化分析[J]. 真空, 2019, 56(4): 15-18.

XING Yin-long, LI Bo, WU Jie-feng, LIU Zhi-hong, ZHOU Neng-tao. Optimization Analysis of Pressure Detection by Helium Mass Spectrometry of ITER Insulation Coils[J]. VACUUM, 2019, 56(4): 15-18.

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ITER绝缘线圈氦质谱压力检测优化分析

Optimization Analysis of Pressure Detection by Helium Mass Spectrometry of ITER Insulation Coils

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