摘要
为实现EAST装置超400s长脉冲高约束模、10MW加热功率下的稳态运行,需对现有的下碳偏滤器进行升级改造,拟采用钨串结构水冷却系统,热通量控制在水冷钨铜第一壁材料允许的稳态的10MW·m-2。在对下钨偏滤器的冷却结构传热性能进行数值模拟仿真研究的基础上,研究了多种以钨串单元为基础的冷却结构,提出了一种新型下钨偏滤器水冷结构设计,并建立了满足传热要求的EAST装置新型下钨偏滤器单元结构模型。
A new water-cooled tungsten lower divertor was designed to replace the present carbon lower divertor in EAST to fit the heat flux up to 10 MW·m-2 under a 400 s long pulse and high β H-mode plasma operation. Based on the heat transfer simulation of the lower divertor, an advanced water-cooled structure for the lower divertor was proposed after several cooling structures were studied. According to the analysis, the divertor model of EAST which meets the requirements of heat transfer is established.
引文
[1]姚达毛.EAST偏滤器设计与分析[D].合肥:中国科学院等离子物理研究所,2006.
[2]Zhou Z,Yao D,Cao L,et al.Engineering studies on the EAST tungsten divertor[J].IEEE Transactions on Plasma Science,2014,42(3):580-584.
[3]Cao L,Zhou Z,Yao D.EAST full tungsten divertor design[J].Journal of Fusion Energy,2015,34(6):1-6.
[4]Zhou Z,Yao D,Cao L.The upgrade of EAST divertor[J].Journal of Fusion Energy,2015,34(1):93-98.
[5]Zhou Z,Yao D,Cao L,et al.The design and R&D work of EAST tungsten divertor[C].Fusion Engineering.IEEE,2013:1-4.
[6]Yao D M,Luo G N,Zhou Z B,et al.Design,R&D and commissioning of EAST tungsten divertor[J].Phys.Scr.,2016,T167:014003.
[7]刘志宏,吴杰峰,范小松.EAST偏滤器热沉冷却水新过渡接头设计[J].核聚变与等离子体物理,2017,37(3):325-330.
[8]孙兆轩,李强,王万景,等.ITER偏滤器钨/铜穿管模块的高热负荷测试及事后分析[J].核聚变与等离子体物理,2017,37(4):446-451.
[9]薛奎,陈俊凌,朱大焕.ITER偏滤器W/Cu单体模块热-结构模拟与分析[J].核聚变与等离子体物理,2013,33(4):354-358.
[10]孙兆轩,李强,王万景,等.ITER偏滤器钨/铜穿管模块的高热负荷测试及事后分析[J].核聚变与等离子体物理,2017,37(4):446-451.
[11]张建中,陈科,汪燕.ITER真空室支撑筋板结构设计与强度分析[J].核聚变与等离子体物理,2017,37(4):441-445.