Method to determine rotation velocity of constricted vacuum arcs driven by transverse magnetic field

Hui Ma, Zaiqin Zhang, S. Ferrari, Jianhua Wang, Yingsan Geng, Zhiyuan Liu
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引用次数: 5

Abstract

The objective of this paper is to propose a new method to quantitatively determine the arcing rotation velocity of the constricted vacuum arc driven by a transverse magnetic field (TMF). This method is based on a split anode and TMF cathode configuration system. Experiments were set in a demountable vacuum chamber. Both electrodes have a contact diameter of 60 mm. The anode surface was divided into four regions: one central region (Area I) and three symmetrically peripheral annular regions (Area II, III and IV). The currents of the four areas on the anode contact were measured using four Rogowski coils situated outside the vacuum chamber. The observed arc modes were recorded by a high-speed CCD video camera. The rotation velocity of the constricted arc column is calculated from the arc current waveforms of the four split areas. The experimental results indicate that the maximum speed is approximately 471 m/s with the arc current of 16 kA rms. The results also reveal the corresponding anode current distribution characteristics under TMF in different arc stages during the arcing time.
测定横向磁场驱动的压缩真空电弧旋转速度的方法
本文的目的是提出一种定量确定横向磁场驱动的收缩真空电弧的电弧旋转速度的新方法。该方法是基于一个分裂阳极和TMF阴极配置系统。实验在可拆卸的真空室中进行。两个电极的接触直径均为60mm。阳极表面分为四个区域:一个中心区域(区域I)和三个对称的外围环形区域(区域II, III和IV)。阳极接触上的四个区域的电流使用位于真空室外的四个Rogowski线圈进行测量。用高速CCD摄像机记录了观测到的电弧模式。根据四个分裂区域的电弧电流波形计算出压缩弧柱的旋转速度。实验结果表明,电弧电流为16 kA rms,最大速度约为471 m/s。结果还揭示了电弧时间内不同电弧阶段在TMF作用下对应的阳极电流分布特征。
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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