Nathan Vervloesem, Wouter Dekeyser, Sander van den Kerkhof, Martine Baelmans
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引用次数: 0
摘要
直到最近,SOLPS-ITER 才实现了等离子体边缘到壁的模拟。这就需要专门的网格划分技术来协调网格与磁场的对齐以及向壁面的细化,因为网格质量是确保快速可靠收敛的首要条件。因此,我们分析并改进了直至壁面的网格划分方法。在 SOLPS-ITER 中对离散化方案的离散算子进行截断误差分析,从而得出不受欢迎的网格属性指标。根据这些指标,开发了网格适应和网格平滑算法,以减少截断误差并提高整体网格质量。由此产生的方法被应用于 AUG 单空案例。在此,研究了新网格划分策略对分流器热负荷的影响,这是等离子体边缘模拟的一个典型关注量。与单元总数相近的原始网格相比,新的网格划分方法可以减少目标热负荷曲线中的虚假数值尖峰,将收敛时间缩短 30 倍,并将热负荷的精度提高 3 倍。
Error-based grid adaptation methods for plasma edge simulations with SOLPS-ITER
Only recently, plasma edge simulations up to the wall have been enabled with SOLPS-ITER. This requires dedicated gridding techniques to reconcile grid alignment with the magnetic field and refinement toward the wall as grid quality is primordial to ensure fast and reliable convergence. Therefore, the gridding approach for the grids up to the wall is analyzed and improved. A truncation error analysis is performed on the discrete operators of the discretization scheme in SOLPS-ITER, resulting in indicators of grid properties that are undesired. Based on these indicators, grid adaptation and grid smoothing algorithms are developed to reduce truncation errors and improve the overall grid quality. The resulting methods are applied on an AUG single-null case. Here, the impact of the new gridding strategy is examined on the divertor heat load, a typical quantity of interest for plasma edge simulations. The new gridding methods allow to mitigate spurious numerical spikes in the target heat load profiles, reduce the convergence time with a factor 30, and improve the accuracy of the heat load with a factor 3 compared to original grids with similar total number of cells.
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