基于绕组中信号传播的变压器局部放电定位新方法

2021 International Conference on Advanced Electrical Equipment and Reliable Operation (AEERO) Pub Date : 2021-10-15 DOI:10.1109/AEERO52475.2021.9708147

Yuqi Jin, Bowen Zhang, H. Mu, Yiming Zheng, Jiansvans Zhan, Shao Xianjun, Chen Li, Chi Zhang, Guanjun Zhang

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引用次数: 0

摘要

局部放电是变压器故障的重要原因之一。变压器局部放电的检测和定位对保证电力系统的安全运行具有重要意义。建立了变压器绕组的有限元模型，采用有限元法求解了变压器绕组的集总参数。建立了以两个圆盘为单位的变压器绕组等效电路，研究了主绝缘局部放电和纵向绝缘局部放电激励脉冲信号的传播原理。研究表明，绕组两端接收到的主绝缘局部放电信号极性相同，且脉冲幅度随传播距离的增加而衰减。通过计算中频区域的能量占比，可以实现主绝缘局部放电的局部化;绕组两端接收到的纵向绝缘局部放电信号极性不同，且脉冲幅度几乎不随传播距离的增加而衰减。通过计算脉冲第一峰到达时间，可以实现纵向绝缘局部放电的局部化。该研究为变压器局部放电的电定位提供了一种新的方法

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A Novel Partial Discharge Localization Method in Transformer based on Signal Propagation in Winding

Partial discharge is one of the important causes of transformer faults. The detection and localization of partial discharges in transformers are of great significance to ensure the safe operation of power systems. The finite element model of the transformer winding was built, lumped parameters of the transformer winding were solved by the finite element method. The equivalent circuit with two disks as the unit of transformer winding was established, and the propagation principle of the pulse signals excited by main insulation partial discharge and longitudinal insulation partial discharge were studied. Research showed that the signals of the main insulation partial discharge received at both ends of the winding were of the same polarity, and the pulse amplitude attenuated with the increase of the propagation distance. The localization of the main insulation partial discharge could be realized by calculating the proportion of energy in the middle-frequency region; The longitudinal insulation partial discharge signals received at both ends of the winding were of different polarity, and the pulse amplitude hardly attenuated with the increase of the propagation distance. the Localization of the longitudinal insulation partial discharge could be realized by calculating the arrival time of the first peak of the pulse. This study provided a new method of electrical localization of the partial discharge in transformer

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2021 International Conference on Advanced Electrical Equipment and Reliable Operation (AEERO)

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