外靶几何形状对钨污染影响的模拟研究:水平靶与垂直靶

IF 2.3 2区 物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Hongxin Ding , Jin Guo , Shifeng Mao , Xinglei Ruan , Yuchen Xu , Minyou Ye
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引用次数: 0

摘要

对于未来的聚变反应堆,堆芯钨(W)浓度必须限制在极低水平。在我们最近的工作[J. Guo 等,Nucl. Fusion 63 (2023) 126033]中发现,E × B 漂移的影响会导致堆芯钨浓度急剧增加。在这项工作中,基于典型的 EAST 上部单空配置和两种不同的外靶几何形状,即水平靶(HT)和垂直靶(VT),通过数值模拟进一步研究了在有利于 H 模式接入的环形场 BT 方向下外靶几何形状的影响。使用 SOLPS-ITER 模拟了背景等离子体,并使用 DIVIMP 分别模拟了 W 的传输。结果发现,在 HT 情况下,相对于 VT 情况,外侧分流器中的脱落得到了促进,从而抑制了外侧靶的 W 溅射通量。相反,在 VT 情况下,来自外靶的 W 溅射通量占主导地位。在内侧垂直靶上,两种情况下的等离子体剖面相似,除内侧撞击点附近区域外,在有利的 BT 条件下,由于漂移效应,等离子体都能脱离。由于等离子体脱离了内外靶的大部分区域,HT 情况下的上游 W 通量显著减少,核心 W 浓度比 VT 情况下低约 2 个数量级。根据 HT 情况下的 W 传输分析,在内侧撞击点附近溅射的 W 杂质有两条通过分离矩阵附近内外废料层的泄漏途径。
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 outer target geometry on tungsten contamination: Horizontal vs. vertical target
The core tungsten (W) concentration must be limited to an extremely low level for future fusion reactors. It was found that the effects of E × B drift can lead to a dramatic increase in the core W concentration in our recent work [J. Guo et al., Nucl. Fusion 63 (2023) 126033], in which the simulation study is performed for the divertor geometry with both inner and outer vertical targets. In this work, the influence of the outer target geometry is further investigated by numerical simulations under the direction of toroidal field BT favorable for H-mode access based on a typical EAST upper single-null configuration with two different outer target geometries, i.e. horizontal target (HT) and vertical target (VT). The background plasmas are simulated using SOLPS-ITER, and the W transport is simulated separately using DIVIMP. For the HT case, it is found that detachment in the outer divertor is promoted relative to the VT case, which leads to the suppression of W sputtering flux from the outer target. In contrast, the W sputtering flux from the outer target dominates for the VT case. The plasma profiles are similar for both cases at the inner vertical target, where detachment is achieved due to the drift effects under favorable BT except for the region near the inner strike point. Because the plasma detaches across most of the inner and outer target, the upstream W flux is significantly reduced for the HT case, and the core W concentration is about 2 orders of magnitude lower compared to the VT case. According to the analysis of the W transport for the HT case, two leakage pathways through the inner and outer scrap-off layer near the separatrix are indicated for the W impurities sputtered near the inner strike point.
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来源期刊
Nuclear Materials and Energy
Nuclear Materials and Energy Materials Science-Materials Science (miscellaneous)
CiteScore
3.70
自引率
15.40%
发文量
175
审稿时长
20 weeks
期刊介绍: The open-access journal Nuclear Materials and Energy is devoted to the growing field of research for material application in the production of nuclear energy. Nuclear Materials and Energy publishes original research articles of up to 6 pages in length.
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