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Practical study of optimizing the cool-down scenario for the KSTAR helium refrigeration system

机译:优化KSTAR氦制冷系统冷却方案的实践研究

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摘要

The cooling of superconducting (SC) magnet system for fusion device is the first procedure of the experiment. The Korea Superconducting Tokamak Advanced Research (KSTAR) device is fully SC tokamak that is made of NbTi and Nb3Sn. The KSTAR SC magnets are composed of 16 Toroidal Field (TF) coils and 14 Poloidal Field (PF) coils with 300 tons of cold mass. A Helium Refrigeration System (FIRS) with 9kW@4.5 K was installed and has been operated since 2008 to cool the SC magnets and keep all magnets at appropriate temperature conditions. This paper describes and analyzes the operational result of HRS during the KSTAR cool-down in 2008 and 2013. According to the cool-down analysis, the larger cryogenic helium flow from HRS made more efficient cooling of SC magnets. Furthermore, the study of cool-down optimization based on practical approach is presented and the build-up of control logic by using of cool-down optimization is also discussed. (C) 2017 Elsevier B.V. All rights reserved.
机译:用于融合设备的超导(SC)磁体系统的冷却是实验的第一步。韩国超导托卡马克先进研究(KSTAR)装置是完全由NbTi和Nb3Sn制成的SC托卡马克。 KSTAR SC磁体由16个环形磁场(TF)线圈和14个极性磁场(PF)线圈组成,冷重为300吨。已安装了9kW@4.5 K的氦制冷系统(FIRS),自2008年以来一直运行,以冷却SC磁体并将所有磁体保持在适当的温度条件下。本文描述并分析了2008年和2013年KSTAR冷却期间HRS的运行结果。根据冷却分析,HRS产生的更大的低温氦气流使SC磁体的冷却效率更高。此外,还提出了基于实际方法的冷却优化研究,并讨论了利用冷却优化建立控制逻辑的方法。 (C)2017 Elsevier B.V.保留所有权利。

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