Surface discharges over insulators of various materials in presence of SF6, CO2, N2 and SF6-CO2 and SF6-N2 mixtures under DC voltage

2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2013-10-01 DOI:10.1109/CEIDP.2013.6748170

F. Sadaoui, A. Beroual

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引用次数: 3

Abstract

This paper is aimed at the experimental characterization of discharges propagating at solid/gas interfaces under DC voltage using a point-plane electrode arrangement. Specifically, we analyze the morphology of creeping discharges and their final (i.e., stopping or maximum extension) length against the type of insulator and its thickness, the amplitude of the applied voltage, the type of gas (mixture) and its pressure. The insulators we investigate are Bakelite and glass; and the considered gases are N₂, SF₆, CO₂ and mixtures SF₆ - N₂ and SF₆ - CO₂. The obtained results show that the discharges can be radial or not depending on the type of interfaces. However, as we observed for AC and lightning impulse voltages, the final length L_f increases quasi-linearly with the voltage; it decreases when the gas pressure increase. L_f is shorter in SF₆ than in CO₂ or N₂; and the increase of SF₆ content in the investigated mixtures leads to a significant decrease of L_f.

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直流电压下SF6、CO2、N2及SF6-CO2和SF6-N2混合物存在下各种材料绝缘子的表面放电

本文研究了直流电压下固体/气体界面放电的实验特性。具体来说，我们分析了蠕变放电的形态及其最终(即停止或最大延伸)长度与绝缘子类型及其厚度、施加电压的振幅、气体(混合物)类型及其压力的关系。我们研究的绝缘体是胶木和玻璃;所考虑的气体为N2、SF6、CO2以及SF6 - N2和SF6 - CO2的混合物。结果表明，根据界面类型的不同，放电可以是径向的，也可以不是径向的。然而，正如我们观察到的交流和雷击电压，最终长度Lf随电压近似线性增加;当气体压力增加时，它减小。SF6中的Lf比CO2或N2中的短;混合料中SF6含量的增加导致Lf的显著降低。

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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2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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