分流器
大型螺旋装置
等离子体
材料科学
硼
原子物理学
烧蚀
温度电子
离子
机械
托卡马克
物理
核物理学
工程类
航空航天工程
量子力学
作者
M. Shoji,G. Kawamura,R.D. Smirnov,Yasunori Tanaka,S. Masuzaki,F. Nespoli,E.P. Gilson,R. Lunsford
标识
DOI:10.1002/ctpp.202300105
摘要
Abstract The trajectories and the ablation positions of boron dust particles dropped from an impurity powder dropper in the peripheral plasma in the Large Helical Device (LHD) were calculated using a three‐dimensional edge plasma simulation code (EMC3‐EIRENE) and a dust transport simulation code (DUSTT). The simulation shows that the trajectory of the boron dust particles is deflected at the upper divertor leg due to the effect of the hydrogen plasma flow, and the ablation positions of the dust particles in an ergodic layer change toward the outboard side of the torus for higher plasma densities. The effect of the boron ion flow in the divertor leg on the deflection is investigated by coupling the two codes self‐consistently. The simulation predicts that the boron ions in the divertor leg, which are produced by sputtering on the divertor plates, which do not affect the change in the ablation positions. It also shows that the ablation positions move toward the inboard side and approach the Last Closed Flux Surface (LCFS) in case of increased boron dust drop rates, which is caused by the lowered plasma flow in the upper divertor leg due to the lowered electron temperature by radiation cooling by the dropped dust particles.
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