Non-linear MHD modelling of transients in tokamaks: a review of recent advances with the JOREK code

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-10 DOI:10.1088/1741-4326/ad5a21
M. Hoelzl, G.T.A. Huijsmans, F.J. Artola, E. Nardon, M. Becoulet, N. Schwarz, A. Cathey, S.J.P. Pamela, K. Aleynikova, F. Antlitz, V. Bandaru, H. Bergström, A. Bhole, T. Bogaarts, D. Bonfiglio, F. Cipolletta, T. Driessen, L. Edes, S. Futatani, G. Hao, F. Hindenlang, I. Holod, D. Hu, S. Hu, N. Isernia, H. Isliker, S.K. Kim, M. Kong, S. Korving, L. Kos, I. Krebs, S.J. Lee, Y.C. Liang, Z. Liang, S.J. Liu, Z.X. Lu, L. Meier, L. Messfeldt, V. Mitterauer, N. Nikulsin, B. Nkonga, R. Ramasamy, J. Reinking, C. Rogge, G. Rubinacci, K. Särkimäki, T. Smits, C. Sommariva, R. Sparago, K. Strien, M. Szucs, W. Tang, J. van Tongeren, F. Vannini, S. Ventre, F. Villone, C. Wang, L. Wang, F. Wieschollek, F. Wouters, J. Zielinski and H. Zhang
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Abstract

Transient magneto-hydrodynamic (MHD) events like edge localized modes (ELMs) or disruptions are a concern for magnetic confinement fusion power plants. Research with the MHD code JOREK towards understanding control of such instabilities is reviewed here in a concise way to provide a complete overview, while we refer to the original publications for details. Experimental validation for unmitigated vertical displacement events progressed. The mechanism of vertical force mitigation by impurity injection was identified. Two-way eddy current coupling to CARIDDI was completed. Shattered pellet injection was simulated in JET, KSTAR, ASDEX Upgrade (AUG) and ITER. Benign runaway electron beam termination in JET and ITER was studied. Coupling of kinetic REs to the MHD is ongoing and a virtual RE synchrotron radiation diagnostic was developed. Regarding pedestal physics, regimes devoid of large ELMs in AUG were simulated and predictive JT60-SA simulations are ongoing. For ELM suppression by resonant magnetic perturbations (RMPs), AUG, ITER and EAST simulations were performed. A free boundary RMP model was validated against experiments. Evidence for penetrated magnetic islands at the pedestal top based on AUG experiments and simulations was found. Simulations of the naturally ELM-free quiescent H-mode in AUG and HL-3 show external kink mode formation prevents pedestal build-up towards an ELM within windows of the edge safety factor. With kinetic neutral particles, high field side high density formation in ITER was simulated and with kinetic impurities, tungsten transport in AUG RMP plasmas was studied. To capture turbulent transport, electro-static full-f particle in cell models for ion temperature gradient and trapped electron modes were established and benchmarked. Application to RMP plasmas shows enhanced turbulence in comparison to unperturbed states. Energetic particle interactions with MHD were studied. Flux pumping that prevents the safety factor on axis from dropping below unity was simulated. First non-linear stellarator applications include current relaxation in l = 2 stellarators, while verification for advanced stellarators progresses.
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托卡马克瞬态非线性 MHD 建模:JOREK 代码最新进展回顾
边缘局部模态(ELM)或中断等瞬态磁流体动力(MHD)事件是磁约束核聚变电站所关注的问题。本文简要回顾了利用 MHD 代码 JOREK 开展的研究,旨在了解此类不稳定性的控制情况,以提供完整的概述,详细内容请参阅原始出版物。针对未缓解垂直位移事件的实验验证取得了进展。确定了通过注入杂质减轻垂直力的机制。完成了与 CARIDDI 的双向涡流耦合。在 JET、KSTAR、ASDEX 升级版(AUG)和 ITER 中模拟了碎丸注入。研究了 JET 和 ITER 中的良性失控电子束终止。正在进行动能 RE 与 MHD 的耦合,并开发了虚拟 RE 同步辐射诊断。关于基座物理学,模拟了AUG中没有大ELM的情况,并正在进行JT60-SA的预测模拟。关于共振磁扰动(RMP)对 ELM 的抑制,进行了 AUG、ITER 和 EAST 模拟。根据实验验证了自由边界 RMP 模型。根据 AUG 实验和模拟发现了基座顶部穿透磁岛的证据。对 AUG 和 HL-3 中自然无 ELM 的静态 H 模式的模拟显示,外部扭结模式的形成阻止了基座在边缘安全系数窗口内向 ELM 方向聚集。利用动力学中性粒子,模拟了国际热核聚变实验堆中的高场边高密度形成;利用动力学杂质,研究了 AUG RMP 等离子体中的钨传输。为了捕捉湍流输运,建立了离子温度梯度和困电子模式的静电全f粒子池模型,并对其进行了基准测试。对 RMP 等离子体的应用表明,与未扰动状态相比,湍流增强了。研究了能量粒子与 MHD 的相互作用。模拟了防止轴上的安全系数降到一以下的通量泵。非线性恒星仪的首次应用包括 l = 2 恒星仪中的电流松弛,而高级恒星仪的验证正在进行中。
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