Off-target gradient driven flows in 3D simulations of ADITYA-Upgrade tokamak scrape-off layer plasma transport

Nuclear Fusion Pub Date : 2024-07-03 DOI:10.1088/1741-4326/ad5e95

Arzoo Malwal, B. P. Sahoo, Devendra Sharma, Yuhe Feng

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Abstract

Coupled plasma-neutral transport simulations are performed of ADITYA-Upgrade tokamak scrape-off layer (SOL) plasma where flows in the core and SOL were measured to reverse sign with density variation. The simulations per- formed using EMC3-Eirene plasma-neutral code combination incorporate the toroidally continuous high-field-side belt-limiter placed in a moderate-circular tokamak equilibrium. Development of mutually counter-propagating toroidal plasma flows in top and bottom regions of both SOL and core is recovered for relatively high upstream density cases with high input power (300 kW and 3 m 2 s −1 ). The origin of the flows is traced to the poloidal density variation introduced by high recycling on the inboard localized belt limiter. The results are compared with the similar observations, for example, in Doppler shifted passive charge exchange line emission on the ADITYA-Upgrade (ADITYA-U) tokamak , highlighting the role played by residual stress in the total Reynold stress. The external stimuli, like a localized gas puff, are discussed as potential drivers of flow, by means of residual stress, based on the existing resonant model of the tokamak plasma rotation.

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ADITYA-Upgrade托卡马克刮积层等离子体输运三维模拟中的离靶梯度驱动流

对ADITYA-Upgrade托卡马克刮除层（SOL）等离子体进行了等离子体-中性输运耦合模拟。模拟使用 EMC3-Eirene 等离子体中性代码组合，将环形连续高场边带限制器置于中圆托卡马克平衡中。在输入功率相对较高的情况下（300 kW 和 3 m 2 s -1 ），恢复了 SOL 和堆芯顶部和底部区域相互逆向推进的环形等离子体流的发展。等离子流的起源可追溯到内侧局部带限制器的高回收率所带来的极性密度变化。研究结果与类似的观测结果进行了比较，例如，ADITYA-U（ADITYA-U）托卡马克上多普勒频移的被动电荷交换线发射，突出了残余应力在总雷诺应力中所起的作用。在现有托卡马克等离子体旋转共振模型的基础上，通过残余应力，讨论了外部刺激（如局部气体脉冲）作为流动潜在驱动力的问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nuclear Fusion

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