Experiment and Simulation of Space Charge Distribution in 35mm Cable Insulation

2018 Condition Monitoring and Diagnosis (CMD) Pub Date : 2018-09-01 DOI:10.1109/CMD.2018.8535733

Deyuan Liu, Yu Zhang, Yunkun Deng, Jiandong Wu, Y. Yin

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Abstract

In this paper, the space charge behavior in 35mm cable insulation was studied. Space charge profiles of a cross-linked polyethylene (XLPE) cable were obtained through a full-scale measurement system based on the pulsed electroacoustic (PEA) method. The high voltage pulse was coupled to the measurement area through the contiguous insulation. Due to the attenuation and dispersion, the acoustic signal generated by the pulse near the copper core was significantly affected during the propagation to the sensor. Limited by the dc voltage source, the applied electric field is relatively low. Thus, a one-dimensional bipolar charge transport model was developed to study the space charge characteristic under high dc stress. The model was optimized for the coaxial cable on the aspect of cylindrical geometry under dc stress. Poisson's equation, continuity equation and transport equation were solved, with injection and extraction, trapping and detrapping, and recombination taken into account. By comparing the space charge profiles obtained respectively from experiment and simulation, the accuracy of the simulation is verified.

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35mm电缆绝缘空间电荷分布的实验与仿真

本文对35mm电缆绝缘中的空间电荷行为进行了研究。利用脉冲电声(PEA)方法测量了交联聚乙烯(XLPE)电缆的空间电荷分布。高压脉冲通过连续绝缘耦合到测量区域。由于衰减和色散，脉冲在铜芯附近产生的声信号在传播到传感器的过程中受到很大的影响。受直流电压源的限制，外加电场相对较低。为此，建立了一维双极电荷输运模型来研究高直流应力下的空间电荷特性。对同轴电缆在直流应力作用下的圆柱几何特性进行了优化。求解了泊松方程、连续方程和输运方程，并考虑了注入与萃取、捕获与去捕获和复合。通过对比实验和仿真得到的空间电荷分布，验证了仿真的准确性。

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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2018 Condition Monitoring and Diagnosis (CMD)

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