Calculation on the Transient Circulating Current of GIS Enclosure Caused by DS Operation Based on the Exponential Reignition Model of SF6 Gas Discharge

2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE) Pub Date : 2020-09-06 DOI:10.1109/ICHVE49031.2020.9279578

Xiao-tong Feng, Xixiu Wu, Pengpeng Wan, Qi-chao Zhang, Yu Feng, Hui Hou

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引用次数: 1

Abstract

To clearly understand TCC (transient circulating current), which is one of the most important EMI (electromagnetic interference) source of GIS (gas insulated substation), a research about TCC is carried out. The generation mechanism of TCC is analyzed, and a current transformer coupling method to calculate TCC accurately is presented. Then, this paper focus on setting up the model of SF6 gas discharge, which is the key problem of calculating TCC. According to the impedance variation characteristic of SF6 gas discharge, an exponential reignition model is set up and the typical transient parameters such as amplitude, rise steepness, duration, decay time and frequency are calculated. The results show that: 1) The positive and negative maximum value of TCC with UHV(ultra-high voltage) voltage level is about 129.90 $A$ and −108.37 $A$ respectively, and the positive value of TCC is always larger than that of the negative; 2) the rise steepness of TCC waveform can reach $321.39\ A/\mu s$, the duration and decay time is about 12 ms and $24.32\ \mu s$, respectively; 3) the frequency of TCC distributes at the range of 0∼417 MHz, and the dominant frequency is 5∼20 MHz and 30∼35 MHz.

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基于SF6气体放电指数重燃模型的DS操作引起的GIS机箱瞬态循环电流计算

暂态环流是气体绝缘变电站中最重要的电磁干扰源之一，为了更好地认识暂态环流，本文对暂态环流进行了研究。分析了TCC的产生机理，提出了一种精确计算TCC的电流互感器耦合方法。然后，重点建立了计算TCC的关键问题——SF6气体排放模型。根据SF6气体放电的阻抗变化特性，建立了指数型重燃模型，计算了典型的瞬态参数幅值、上升陡度、持续时间、衰减时间和频率。结果表明:1)特高压(特高压)电压水平下，TCC的正、负最大值分别约为129.90 $A$和- 108.37 $A$，且正TCC始终大于负TCC;2) TCC波形的上升陡度可达$321.39\ A/\mu s$，持续时间约为12 ms，衰减时间约为$24.32\ \mu s$;3) TCC的频率分布在0 ~ 417 MHz范围内，主导频率为5 ~ 20 MHz和30 ~ 35 MHz。

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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2020 IEEE International Conference on High Voltage Engineering and Application (ICHVE)

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