This paper describes the design considerations of a termination for a superconducting cable, based on tapes produced with the powder-in-tube method, with a room temperature dielectric design. Most important is the optimization of the current lead that leads the current from room temperature to cryogenic temperature. The current lead is optimized, using analytical as well as numerical methods. The paper proposes a current lead made of copper, with a constant cross-section area. With an optimized length-to-cross-section area ratio, the heat flow to the cold region is 43 W/kA for an uncooled current lead and 20 W/kA for a cooled current lead. The minimum loss in the entire termination is approximately 60 W/kA for a termination optimized for 2 kA. The paper describes why a gas-cooled current lead only reduces the total losses when used in connection with a multistep cooling machine.
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机译:本文介绍了基于超导电缆终端的设计考虑因素,该终端基于采用管中粉末法生产的带材,并具有室温电介质设计。最重要的是优化将电流从室温引导到低温的电流引线。使用分析和数值方法对当前导线进行优化。本文提出了一种具有恒定横截面积的铜制电流引线。通过优化的长宽比,对于未冷却的电流引线,流向冷区的热量为43 W / kA,对于冷却的电流引线为20 W / kA。对于优化为2 kA的终端,整个终端的最小损耗约为60 W / kA。本文描述了为什么在与多级冷却机一起使用时,气体冷却的电流引线仅能减少总损耗。
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