为研究电缆终端主绝缘含气隙缺陷下的局部放电(PD)及缺陷表面的形貌特征,通过在10 k V电缆终端上制作典型的气隙缺陷,利用电缆附件电热老化平台模拟终端的实际运行工况并加速老化,利用罗戈夫基线圈传感器提取终端在不同老化时刻下的PD数...为研究电缆终端主绝缘含气隙缺陷下的局部放电(PD)及缺陷表面的形貌特征,通过在10 k V电缆终端上制作典型的气隙缺陷,利用电缆附件电热老化平台模拟终端的实际运行工况并加速老化,利用罗戈夫基线圈传感器提取终端在不同老化时刻下的PD数据,并用扫描电镜(SEM)对气隙缺陷的表面形貌特征进行观察。结合气隙缺陷内部的电场分布进一步分析终端PD的发展规律。结果表明:电缆终端的PD及气隙缺陷表面的形貌特征在不同老化时刻下呈现明显差异,缺陷表面XLPE的碳化过程提高了气隙缺陷的表面电导率,加快了缺陷表面电荷的耗散速度。展开更多
Partial discharge based risk assessment method has rapidly developed as an effective diagnosis method in oil/pressboard insulation system.The temperature in field power transformer is variable according to loading and...Partial discharge based risk assessment method has rapidly developed as an effective diagnosis method in oil/pressboard insulation system.The temperature in field power transformer is variable according to loading and the PD properties in insulation are also variable in different temperature.In order to assess the influence of temperature on partial discharge properties in oil/pressboard insulation system,a partial discharge testing system with temperature adjusting function was adopted in this paper.The partial discharge data obtained from the experimental work were presented in phase-resolved PD(PRPD) pattern analysis and pulse sequence analysis(PSA).The single pulse in time domain at different temperature is also analysed in this paper.展开更多
文摘为研究电缆终端主绝缘含气隙缺陷下的局部放电(PD)及缺陷表面的形貌特征,通过在10 k V电缆终端上制作典型的气隙缺陷,利用电缆附件电热老化平台模拟终端的实际运行工况并加速老化,利用罗戈夫基线圈传感器提取终端在不同老化时刻下的PD数据,并用扫描电镜(SEM)对气隙缺陷的表面形貌特征进行观察。结合气隙缺陷内部的电场分布进一步分析终端PD的发展规律。结果表明:电缆终端的PD及气隙缺陷表面的形貌特征在不同老化时刻下呈现明显差异,缺陷表面XLPE的碳化过程提高了气隙缺陷的表面电导率,加快了缺陷表面电荷的耗散速度。
文摘Partial discharge based risk assessment method has rapidly developed as an effective diagnosis method in oil/pressboard insulation system.The temperature in field power transformer is variable according to loading and the PD properties in insulation are also variable in different temperature.In order to assess the influence of temperature on partial discharge properties in oil/pressboard insulation system,a partial discharge testing system with temperature adjusting function was adopted in this paper.The partial discharge data obtained from the experimental work were presented in phase-resolved PD(PRPD) pattern analysis and pulse sequence analysis(PSA).The single pulse in time domain at different temperature is also analysed in this paper.