Analysis of Decomposition Products of SF6 and C4F7N under Low Energy Corona Discharge

2020 IEEE Electrical Insulation Conference (EIC) Pub Date : 2020-06-01 DOI:10.1109/eic47619.2020.9158716

Jia Wei, Chanyeop Park, N. Uzelac, L. Graber

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Abstract

Although the breakdown strength and partial discharge characteristics between sulfur hexafluoride (SF6) and perfluoro-nitrile (C4F7N) have been reported in the literature, the study of aging and decomposition under low energy corona activity, and in particular, the potential deterioration of the dielectric properties have not been investigated yet. Since gas discharge is expected to result in the dissociation of the original gas species and recombine into other gaseous compounds, dielectric properties can exhibit significant deviation from the original gas. Therefore, it is crucial to understand the aging process and the impact of corona discharge on the physical properties of insulation gases. This paper summarizes and compares the decomposition characteristics of SF6 and C4F7N based on existing literature. Furthermore, an experimental setup proposed to study the decomposition product of SF6 and C4F7N under low energy corona activity is described. The objective of this paper is to evaluate the possibility and feasibility of using C4F7N to replace SF6 as an insulation gas in future power applications.

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低能量电晕放电下SF6和C4F7N分解产物分析

虽然已有文献报道了六氟化硫(SF6)和全氟腈(C4F7N)之间的击穿强度和局部放电特性，但低能电晕活动下老化和分解的研究，特别是介电性能的潜在劣化尚未得到研究。由于气体放电预计会导致原始气体种类的解离并重新组合成其他气体化合物，因此介电性质可能与原始气体表现出明显的偏差。因此，了解老化过程和电晕放电对绝缘气体物理性能的影响至关重要。本文在现有文献的基础上，对SF6和C4F7N的分解特性进行了总结和比较。此外，本文还介绍了在低能日冕活动下研究SF6和C4F7N分解产物的实验装置。本文的目的是评估在未来电力应用中使用C4F7N取代SF6作为绝缘气体的可能性和可行性。

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 Electrical Insulation Conference (EIC)

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