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ZHANG Shanwen(张善文), SONG Yuntao(宋云涛), WANG Zhongwei(王忠伟), LU Su(卢速), JI Xiang(戢翔), DU Shuangsong(杜双松), LIU Xufeng(刘旭峰), FENG Changle(冯昌乐), YANG Hong(杨洪), WANG Songke(王松可), LUO Zhiren(罗志仁). Rapid Thermal-Hydraulic Analysis and Design Optimization of ITER Upper ELM Coils[J]. Plasma Science and Technology, 2014, 16(10): 978-983. DOI: 10.1088/1009-0630/16/10/14
Citation: ZHANG Shanwen(张善文), SONG Yuntao(宋云涛), WANG Zhongwei(王忠伟), LU Su(卢速), JI Xiang(戢翔), DU Shuangsong(杜双松), LIU Xufeng(刘旭峰), FENG Changle(冯昌乐), YANG Hong(杨洪), WANG Songke(王松可), LUO Zhiren(罗志仁). Rapid Thermal-Hydraulic Analysis and Design Optimization of ITER Upper ELM Coils[J]. Plasma Science and Technology, 2014, 16(10): 978-983. DOI: 10.1088/1009-0630/16/10/14
  • ITER edge localized mode (ELM) coils are important components of the in-vessel coils (IVCs) and they are designed for mitigating or suppressing ELMs. The coils located on the vacuum vessel (VV) and behind the blanket are subjected to high temperature due to the nuclear heat from the plasma, the Ohmic heat induced by the working current and the thermal radiation from the environment. The water serves as coolant to remove the heat deposited into the coils. Based on the results of nuclear analysis, the thermal-hydraulic analysis is performed for the preliminary design of upper ELM coils using a rapid evaluation method based on 1D treatment. The thermal-hydraulic design and operating parameters including the water flow velocity are optimized. It is found that the rapid evaluation method based on 1D treatment is feasible and reliable. According to the rapid analysis method, the thermal hydraulic parameters of two water flow schemes are computed and proved similar to each other, providing an effective basis for the coil design. Finally, considering jointly the pressure drop requirement and the cooling capacity, the flow velocity is optimized to 5 m/s.
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