高压并联电抗器对空载输电线路通电时电流直流偏置的研究

Li Wenhua, Du Ning, Xiang Zutao, Yang Huiming, Jiang Haiyang, Zhao Xiaolong
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引用次数: 0

摘要

高压并联电抗器的输电线路通电后,会产生直流电流偏置,合闸后立即开断,可能造成故障。本文选取一条500kV高压并联电抗器输电线路作为研究对象,通过电磁暂态仿真软件EMTPE进行电磁暂态仿真,研究高压并联电抗器长线路断路器合闸引起的直流偏置,包括不同相单相合闸引起的直流偏置。仿真结果表明,对于带有高压并联电抗器的输电线路,在关闭空载线路时,临时开关电流不过零是合理的。本文主要分析了这一现象的原理,并提出了相关建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on current DC offset of energizing a no-load transmission line with high voltage shunt reactor
When a transmission line with high voltage shunt reactor is energized, the current DC offset will occur, which may cause a failure if the circuit breaker opens immediately after the closing operation. In this paper, a 500kV transmission line with high voltage shunt reactor is slected as the research object, and the electromagnetic transient simulation is carried out through the electromagnetic transient simulation software EMTPE to study the DC offset caused by closing of the circuit breaker of the long line with high voltage shunt reactor, including the DC offset caused by the single-phase closing of different phases. The simulation results show that for the transmission line with high voltage shunt reactor, it is reasonable that the temporary switching current doesn’t cross zero when closing the no-load line. This paper mainly analyzes the principle of this phenomenon and gives relevant suggestions.
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