Fangliang Dong, Dongkeun Park, Junseong Kim, Juan Bascuñán, Yukikazu Iwasa
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引用次数: 0
摘要
在本文中,我们采用了一种表面分流方法,以防止因磁体电流导线或电源供应器的外部故障(即故障模式)而引发的无绝缘(NI)REBCO 磁体淬火。在高磁场磁体系统中,即使整个磁体设计良好、无缺陷且运行正常,NI 线圈在上述淬火事件中仍可能面临风险。这种故障模式淬火启动和传播的机理仍不清楚,使得开发可靠的淬火保护功能变得更加复杂。在此,我们介绍了这一机制,并演示了一种名为表面分流的相应实用淬火预防方法,该方法利用低温焊料附着在薄饼线圈的顶部和底部。我们通过比较有无分流的故障模式下的电磁、热和机械行为,验证了这种方法的有效性。我们得出的结论是,表面分流器通过将原始匝间电流和感应过电流重定向到 NI 绕组之外,抑制了故障模式淬火的启动和传播。我们希望这项工作能提供一种解决方案,提高高磁场 HTS NI 磁体的运行安全性,防止故障模式下的淬火和潜在损坏。
A surface-shunting method for the prevention of a fault-mode-induced quench in high-field no-insulation REBCO magnets.
In this paper, we apply a surface-shunting method to prevent quenches in no-insulation (NI) REBCO magnets triggered by external failures of magnet current leads or power suppliers (i.e., fault mode). In a high-field magnet system, an NI coil may still be at risk during the mentioned quench events even if the whole magnet is well-designed, non-defective, and properly operated. The mechanism of this fault-mode quench initiation and propagation still remains unclear, complicating the development of reliable quench protection. Here, we present this mechanism to demonstrate a corresponding practical quench-preventive approach named surface shunting, which utilizes a low-temperature solder attached to the top and bottom of pancake coils. We validate the effectiveness of this approach by comparing the electromagnetic, thermal, and mechanical behaviors in the fault mode with and without the shunt. We conclude that the surface shunt suppresses the fault-mode quench initiation and propagation by redirecting the original turn-to-turn current and induced overcurrent out of the NI winding. We anticipate this work can provide a solution to improve the operational safety of high-field HTS NI magnets against quench and potential damage during fault modes.
期刊介绍:
Superconductor Science and Technology is a multidisciplinary journal for papers on all aspects of superconductivity. The coverage includes theories of superconductivity, the basic physics of superconductors, the relation of microstructure and growth to superconducting properties, the theory of novel devices, and the fabrication and properties of thin films and devices. It also encompasses the manufacture and properties of conductors, and their application in the construction of magnets and heavy current machines, together with enabling technology.