利用 JOREK 对掺杂氖的碎丸注入进行非线性 MHD 建模，并将其与 KSTAR 的实验进行比较

IF 3.5 1区物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS

Nuclear Fusion Pub Date : 2024-09-04 DOI:10.1088/1741-4326/ad6ea1

S.-J. Lee, D. Hu, M. Lehnen, E. Nardon, Jayhyun Kim, D. Bonfiglio, F.J. Artola, M. Hoelzl, Yong-Su Na, JOREK teama

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引用次数: 0

摘要

利用 JOREK 代码对掺氖单碎丸注入（SPI）进行的三维非线性 MHD 模拟揭示了在 SPI 诱导的 KSTAR 破坏过程中的丰富物理现象。在早期阶段，压力驱动模式占主导地位，等离子体电流的扰动与 Pfirsch-Schlüter 电流的扰动基本一致。当碎片到达q = 1表面时，螺旋电子冷却产生的阻性电流扰动开始占主导地位，内核中的电子温度在内部1/1扭结模式驱动的密度对流混合作用下开始坍缩。随后，等离子体的约束被完全破坏，因为冷气泡通过准交换模式对流进入内核。与现有实验数据的比较表明，JOREK 的结果与实验之间存在定性一致，并讨论了出现偏差的可能原因。

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Nonlinear MHD modeling of neon doped shattered pellet injection with JOREK and its comparison to experiments in KSTAR

3D nonlinear MHD simulations of neon-doped single shattered pellet injection (SPI) conducted with the JOREK code reveal rich physics during SPI-induced disruptions in KSTAR. In the early phase, pressure-driven modes dominate, and the perturbation of the plasma current is largely consistent with the perturbation of the Pfirsch–Schlüter current. As shards reach the q = 1 surface, resistive current perturbations by helical electron cooling start to dominate, and the electron temperature in the core begins to collapse with convective mixing of the density driven by the internal

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kink mode. The confinement of the plasma is later completely destroyed as a cold bubble convects into the core via quasi-interchange mode. Comparisons with available experimental data demonstrate qualitative agreements between JOREK results and experiments, and possible reasons for deviations are discussed.

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来源期刊

Nuclear Fusion 物理-物理：核物理

CiteScore

6.30

自引率

39.40%

发文量

411

审稿时长

2.6 months

期刊介绍： Nuclear Fusion publishes articles making significant advances to the field of controlled thermonuclear fusion. The journal scope includes: -the production, heating and confinement of high temperature plasmas; -the physical properties of such plasmas; -the experimental or theoretical methods of exploring or explaining them; -fusion reactor physics; -reactor concepts; and -fusion technologies. The journal has a dedicated Associate Editor for inertial confinement fusion.