Enhancements in Vertical Instability Control for the HL-3 Tokamak

IF 1.9 4区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY Journal of Fusion Energy Pub Date : 2024-12-10 DOI:10.1007/s10894-024-00473-0

Panle Liu, Bo Li, Xiang Chen, Shaoyong Liang, Qiang Li, Junzhao Zhang, Yihang Chen, Da Li

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Abstract

Vertical position control of tokamak plasmas is essential for exploring operational limits and ensuring stable operation at high elongations to avoid disruptions. This study focuses on improving vertical instability control in the HL-3 tokamak by enhancing the signal-to-noise ratio of control signals and optimizing control strategies. We employed improved diagnostic techniques using Mirnov coils and flux loops, combined with digital filtering technology, to mitigate the effects of power supply switching and measurement noise. The vertical stabilization (VS) control system was upgraded with an optimized low-pass filter for vertical position estimation, a novel method for vertical velocity estimation using direct voltage signals from diagnostics, and an improved control algorithm. These enhancements resulted in significant improvements in control precision and noise reduction. Experimental results demonstrated successful control of highly elongated plasmas (\(\kappa \) up to 1.8) with high plasma currents (up to 1.6 MA), achieving vertical position control accuracy better than 1 cm during the plasma current ramp-up phase. These advancements expand the operational parameter space of HL-3, paving the way for higher performance plasma operation.

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HL-3托卡马克垂直不稳定控制的改进

托卡马克等离子体的垂直位置控制是探索运行极限和确保高伸长稳定运行以避免中断的必要条件。本研究主要通过提高控制信号的信噪比和优化控制策略来改善HL-3托卡马克的垂直失稳控制。我们采用改进的诊断技术，使用Mirnov线圈和磁通环，结合数字滤波技术，以减轻电源开关和测量噪声的影响。对垂直稳定（VS）控制系统进行了升级，采用了用于垂直位置估计的优化低通滤波器、利用诊断直接电压信号估计垂直速度的新方法以及改进的控制算法。这些改进显著提高了控制精度和降噪效果。实验结果表明，在高等离子体电流（高达1.6 MA）下，成功地控制了高度拉长的等离子体（\(\kappa \)高达1.8），在等离子体电流上升阶段实现了优于1厘米的垂直位置控制精度。这些进步扩大了HL-3的操作参数空间，为更高性能的等离子体操作铺平了道路。

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来源期刊

Journal of Fusion Energy 工程技术-核科学技术

CiteScore

2.20

自引率

0.00%

发文量

审稿时长

2.3 months

期刊介绍： The Journal of Fusion Energy features original research contributions and review papers examining and the development and enhancing the knowledge base of thermonuclear fusion as a potential power source. It is designed to serve as a journal of record for the publication of original research results in fundamental and applied physics, applied science and technological development. The journal publishes qualified papers based on peer reviews. This journal also provides a forum for discussing broader policies and strategies that have played, and will continue to play, a crucial role in fusion programs. In keeping with this theme, readers will find articles covering an array of important matters concerning strategy and program direction.