Simulation Analysis of DC Arc Extinguishing Characteristics of Arcing Horn

2021 IEEE/IAS Industrial and Commercial Power System Asia (I&CPS Asia) Pub Date : 2021-07-18 DOI:10.1109/ICPSAsia52756.2021.9621557

Qin Deng, Pan Xu, T. Zang

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Abstract

Due to Direct Current (DC) has no periodic zero crossing, the arc is difficult to extinguish by itself. To prevent grounding insulator surface flashover, a protective gap is set on the grounding insulator. The Claw arcing horns are one of the protection gap devices and produce DC arc. In this study, the simulation model of Claw arcing horns is established, based on the Magneto Hydro Dynamics (MHD) theory. The arc development characteristics are analyzed, which is of maximum temperature and the corresponding time. The simulation results show that the minimum distance of its installation gap and the material of its electrode have a great influence on the DC arc. When the gap minimum distance between the gaps of its electrodes increases, the temperature of arc changes regularly. The minimum gap distance for this model is 3.5 mm. And the Claw arcing horns are made of copper, which is conducive to arc extinguishing. This study has guiding significance for the structural design and material selection of the arc extinguishing horn in DC grounding system.

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灭弧喇叭直流灭弧特性仿真分析

由于直流电无周期性过零，电弧难以自行熄灭。为防止接地绝缘子表面闪络，应在接地绝缘子上设置保护间隙。爪形电弧角是一种保护间隙装置，产生直流电弧。本文基于磁流体动力学(MHD)理论，建立了爪弧角的仿真模型。分析了电弧的发展特点，即最高温度和相应时间。仿真结果表明，其安装间隙的最小距离和电极的材料对直流电弧有很大的影响。当其电极间隙的最小间距增大时，电弧温度有规律地变化。此型号的最小间隙距离为3.5毫米。钳形灭弧角采用铜制成，有利于灭弧。本研究对直流接地系统灭弧角的结构设计和材料选择具有指导意义。

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2021 IEEE/IAS Industrial and Commercial Power System Asia (I&CPS Asia)

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