DTT 分流器区域等离子体与壁相互作用的动力学建模

IF 2.1 2区物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS

Plasma Physics and Controlled Fusion Pub Date : 2024-01-03 DOI:10.1088/1361-6587/ad1a41

F. Cichocki, P. Innocente, V. Sciortino, P. Minelli, F. Taccogna

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引用次数: 0

摘要

要精确估算聚变反应堆岔道单块的局部能量通量和侵蚀剖面，需要对等离子体与壁的相互作用进行动力学建模。在此，我们使用二维 "舱内粒子"（Particle-in-Cell）代码来量化 "Divertor Tokamak Test "反应堆岔道单块上的粒子和能量通量以及离子撞击分布函数，重点是具有环形斜面的极性间隙。所考虑的临界位置靠近内垂直目标和外垂直目标的撞击点。假设粒子通量的最坏情况与附加等离子体条件相对应，并以单空磁场配置为特征。此外，还评估了电子壁发射和离子/电子与背景中性气体碰撞（在壁上循环）的单独和累积效应。研究发现，不可忽略的能量通量会影响单块的阴影区域，特别是在考虑碰撞的情况下，而且离子撞击分布函数会受到所考虑的动力学效应的强烈影响，从而对诱导溅射产率产生重要影响。

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Kinetic modeling of the plasma-wall interaction in the DTT divertor region

A precise estimate of the local energy fluxes and erosion profiles at the divertor monoblocks of a fusion reactor requires a kinetic modeling of the plasma-wall interaction. Here, a two-dimensional Particle-in-Cell code is used to quantify the particle and energy fluxes and ion impact distribution functions across the divertor monoblocks of the ``Divertor Tokamak Test'' reactor, focusing on poloidal gaps with toroidal beveling. The considered critical locations are close to the strike points at both Inner and Outer Vertical Targets. A worst-case scenario for particle fluxes corresponding to attached plasma conditions and featuring a single-null magnetic configuration is assumed. The separate and cumulative effects of including electron wall emission and ions/electrons collisions with a background neutral gas (recycled at the walls) are also assessed. It is found that a non-negligible energy flux affects the shadowed regions of the monoblocks, especially when accounting for collisions, and that the ion impact distribution functions are strongly influenced by the considered kinetic effects, with important implications on the induced sputtering yield.

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来源期刊

Plasma Physics and Controlled Fusion 物理-物理：核物理

CiteScore

4.50

自引率

13.60%

发文量

224

审稿时长

4.5 months

期刊介绍： Plasma Physics and Controlled Fusion covers all aspects of the physics of hot, highly ionised plasmas. This includes results of current experimental and theoretical research on all aspects of the physics of high-temperature plasmas and of controlled nuclear fusion, including the basic phenomena in highly-ionised gases in the laboratory, in the ionosphere and in space, in magnetic-confinement and inertial-confinement fusion as well as related diagnostic methods. Papers with a technological emphasis, for example in such topics as plasma control, fusion technology and diagnostics, are welcomed when the plasma physics is an integral part of the paper or when the technology is unique to plasma applications or new to the field of plasma physics. Papers on dusty plasma physics are welcome when there is a clear relevance to fusion.