跨场反常扩散对带有活化漂移的刮除层中钨杂质迁移影响的模拟研究

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS
Jin Guo, Yuchen Xu, Shifeng Mao, Guoliang Xu, Minyou Ye
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引用次数: 0

摘要

掺杂钨(W)杂质从掺杂靶侵蚀出来会降低未来聚变反应堆的约束性能。在我们之前的模拟工作中,当 W 离子的横场反常粒子扩散系数(D⊥,W)固定为 1 m2s-1 时,我们研究了 E × B 漂移对 W 在刮离层(SOL)中传输的影响机制、这表明,漂移会使进入约束区域的 W 通量(Γenter)和约束区域的平均 W 浓度(CWavg$$ {C}_\{mathrm{W}}^{mathrm{avg}} $$)增加一个数量级以上。在这项工作中,我们进一步研究了跨场反常扩散对 W 在 SOL 中传输的影响。当 D⊥,W 变化范围为 0.5 至 3 m2s-1 时,W 离子通量(ΓW)保持基本流动模式,而Γenter 主要来自较热的分流区。结果表明,D⊥,W 值会影响 W 从分流区的泄漏和进入封闭区。因此,Γenter 和 CWavg$$ {C}_{\mathrm{W}}^{mathrm{avg}} 都会随着 D⊥ 的增大而减小。$$ 都会随着 D⊥,W 的增大而减小。比较了两种漂移情况的机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simulation study of the influence of the cross-field anomalous diffusion on the tungsten impurity transport in the scrape-off layer with activated drifts

Tungsten (W) impurity eroded from the divertor target can degrade the confinement performance of future fusion reactors. The mechanism of the effect of E × B drift on the W transport in the scrape-off layer (SOL) was investigated with a fixed cross-field anomalous particle diffusion coefficient for W ions (D⊥,W) of 1 m2s−1 in our previous simulation work, which indicates that the W flux entering the confined region (Γenter) and mean W concentration in the confined region ( C W avg $$ {C}_{\mathrm{W}}^{\mathrm{avg}} $$ ) can be increased by more than one order of magnitude by drifts. In this work, the influence of the cross-field anomalous diffusion on the W transport in the SOL is further investigated. The basic flow pattern of the W ion flux (ΓW) keeps when D⊥,W varying from 0.5 to 3 m2s−1, and Γenter mainly comes from the hotter divertor region. Results show that D⊥,W value affects the W leakage from divertor region and entry into confined region. Therefore, Γenter and C W avg $$ {C}_{\mathrm{W}}^{\mathrm{avg}} $$ both decrease with increasing D⊥,W. Mechanisms for cases w/wo drifts are compared.

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来源期刊
Contributions to Plasma Physics
Contributions to Plasma Physics 物理-物理:流体与等离子体
CiteScore
2.90
自引率
12.50%
发文量
110
审稿时长
4-8 weeks
期刊介绍: Aims and Scope of Contributions to Plasma Physics: Basic physics of low-temperature plasmas; Strongly correlated non-ideal plasmas; Dusty Plasmas; Plasma discharges - microplasmas, reactive, and atmospheric pressure plasmas; Plasma diagnostics; Plasma-surface interaction; Plasma technology; Plasma medicine.
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