Method for actively suppressing ferromagnetic resonance of distribution network by resistive current

2021 IEEE 1st International Power Electronics and Application Symposium (PEAS) Pub Date : 2021-11-13 DOI:10.1109/peas53589.2021.9628476

Pan Lu, Wen Wang, Meina Zhou, Qiong Liu, Huaze Shi

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Abstract

In the neutral-point ungrounded distribution network, the non-linear characteristics of the magnetizing inductance of the electromagnetic voltage transformer (PT) are easy to saturate under certain conditions, resulting in ferromagnetic resonance overvoltage, which seriously affects the safe operation of the system. Aiming at the 10 kV neutral point ungrounded system, this paper proposes a method for the neutral point of the distribution network to inject the harmonic elimination resistive current to suppress the ferromagnetic resonance, and the selection of the optimal value of the resonance elimination injection current is explained. Inject a harmonic elimination current into the neutral point of the system to quickly consume grid resonance energy and eliminate ferromagnetic resonance. Through simulation verification, it is found that the proposed method only needs to inject the harmonic elimination current into the neutral point of the system for a short time to make the distribution network out of resonance, and the zero-sequence voltage returns to zero. The time required for the grid to resume normal operation is the shortest.

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用阻性电流主动抑制配电网铁磁共振的方法

在中性点不接地配电网中，电磁电压互感器(PT)磁化电感的非线性特性在一定条件下容易饱和，产生铁磁谐振过电压，严重影响系统的安全运行。针对10kv中性点不接地系统，提出了配电网中性点注入谐波消除电阻电流抑制铁磁谐振的方法，并说明了谐振消除注入电流最优值的选取。在系统中性点注入谐波消除电流，快速消耗电网共振能量，消除铁磁共振。通过仿真验证，发现所提出的方法只需要在系统中性点注入短时间的谐波消除电流，使配电网脱离谐振，零序电压恢复为零。电网恢复正常运行所需时间最短。

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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2021 IEEE 1st International Power Electronics and Application Symposium (PEAS)

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