Negative DC Breakdown Characteristics of C3F7CN and CO2 Mixture with Different Electrode Materials

F. O. Bahdad, L. Chen, S. Rowland
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Abstract

Sulphur hexafluoride (SF6) is an insulating medium widely used in the power industry due to its high dielectric strength and arc quenching capability. There is a growing interest in identifying an environmentally friendly alternative to SF6 and a mixture of C3F7CN and CO2 is one potential candidate. This project investigates the effect of different electrode materials on the breakdown performance of the aforementioned gas mixture over 300 breakdowns under negative DC. Three sets of rod-plane electrodes manufactured in stainless steel, aluminum and brass are tested for a fixed gap distance of 3 mm and pressure of 4.8 bar absolute. The results show that stainless steel has the highest breakdown voltage and the lowest change in surface roughness compared to aluminum and brass. The post-testing gas analyses have shown negligible reduction in the C3F7CN content after 300 breakdowns.
不同电极材料C3F7CN和CO2混合物的直流负击穿特性
六氟化硫(SF6)具有较高的介电强度和灭弧能力,是一种广泛应用于电力工业的绝缘介质。人们对寻找SF6的环保替代品越来越感兴趣,C3F7CN和CO2的混合物是一个潜在的候选物。本项目研究了不同电极材料对上述气体混合物在负直流下击穿性能的影响,击穿次数超过300次。用不锈钢、铝和黄铜制造的三套杆面电极在3毫米的固定间隙距离和4.8 bar的绝对压力下进行测试。结果表明,与铝和黄铜相比,不锈钢的击穿电压最高,表面粗糙度变化最小。测试后的气体分析显示,在300次击穿后,C3F7CN含量的降低可以忽略不计。
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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