Diagnosis of severity degree for oil/pressboard insulation surface discharge

Wei Wang, Yan Xue, Yangchun Cheng, Bing Zhou, Jianfeng Xu, Chengrong Li
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引用次数: 4

Abstract

To research the diagnosis method based ultra high frequency (UHF) signal and dissolved gases analysis (DGA) in oil of severity degree for oil/pressboard insulation surface discharge, a surface discharge simulation and test equipment and measurement system have been set up in laboratory, which were consisted of surface discharge model, test tank, UHF sensor, gas-phase chromatographic instrument and partial discharge detector. Surface discharge growth from inception to breakdown has been simulated, test voltage was raised step by step, ultra high frequency signal and dissolved gases in oil have been measured in the growth. The results show that severity degree of surface discharge can be divided tree stages: inception stage, growth stage and critical stage according to statistics spectrum of the ultra high frequency signal; ultra high frequency signal and dissolved gases in oil both can indicate the oil/pressboard surface discharge severity degree, however, dissolved gases analysis method was not as sensitive as ultra high frequency method; C2H2/total hydrocarbon generated by oil/pressboard surface discharge was more than 10%; Surface discharge was in critical stage when C2H2/total hydrocarbon value more than 50% and raised rapidly.
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油压板绝缘表面放电严重程度诊断
为了研究基于超高频(UHF)信号和溶解气体分析(DGA)的油压板绝缘表面放电严重程度诊断方法,在实验室建立了由表面放电模型、试验槽、超高频传感器、气相色谱仪和局部放电检测器组成的表面放电模拟测试设备和测量系统。模拟了表面放电从开始到击穿的生长过程,逐步提高了试验电压,测量了生长过程中的超高频信号和油中溶解气体。结果表明:根据超高频信号的统计谱,地表放电的严重程度可分为初始阶段、生长阶段和临界阶段3个阶段;超高频信号和油中的溶解气体都能指示油/压板表面放电的严重程度,但溶解气体分析方法不如超高频方法灵敏;C2H2/总烃的比值大于10%;当C2H2/总烃值大于50%时,地表排放处于关键阶段,并迅速上升。
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