Manufacture and test of prototype water pipe chase barrier in ITER Magnet Feeder system

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• 作者：Kun Lu^a ; ^{lukun@ipp.ac.cn" class="auth_mail" title="E-mail the corresponding author} ; Xinjie Wen^a ; Chen Liu^a ; Yuntao Song^a ; Erwu Niu^b ; Chenyu Gung^c ; Man Su^c
• 关键词：ITER ; Magnet Feeder ; Water pipe chase barrier ; Hydraulic pressure test
• 刊名：Fusion Engineering and Design
• 出版年：2016
• 出版时间：1 November 2016
• 年：2016
• 卷：109-111
• 期：part_PB
• 页码：1087-1090
• 全文大小：1621 K

文摘

The Magnet Feeder system in the International Thermonuclear Experimental Reactor (ITER) deploys electrical currents and supercritical helium to the superconducting magnets and the magnet diagnostic signals to the operators. In the current design, the feeders located in the upper L3 level of the Tokamak gallery penetrate the Tokamak coolant water system vault, the biological shield and the cryostat. As a secondary confinement to contain the activated coolant water in the vault in the case of water pipe burst accident, a water barrier is welded between the penetration in the water pipe chase outer wall and the mid-plane of the vacuum jacket of the Feeder Coil Terminal Box (CTB). A thin-wall stainless steel diaphragm with an omega shape profile is welded around the CTB as the water barrier to endure 2 bar hydraulic pressure. In addition, the barrier is designed as a flexible compensator to withstand a maximum of 15 mm of axial displacement of the CTB in case of helium leak accident without failure. This paper presents the detail configuration, the manufacturing and assembly processes of the water barrier. Test results of the prototype water barrier under simulated accident conditions are also reported. Successful qualification of the design and manufacturing process of the water barrier lays a good foundation for the series production of this subsystem.