电弧对低压配电设备雷击损伤的机理

2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.02CH37309) Pub Date : 2002-08-07 DOI:10.1109/PESW.2002.985116

T. Ohtsuka, M. Matsuoka, T. Inaba

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引用次数: 0

摘要

雷电对低压配电系统的破坏几乎是由于闪络和电弧动态或短路电流引起的低压配电设备的烧毁。雷电过电压在低压配电设备中引起闪络。在那之后，闪络引起燃烧，因为打动商业频率电压。作者进行了两种实验。第一种是使用低压配电设备。第二种是使用实际比例的低压配电线路模型。根据第一个实验，作者提出当闪络电流切换到电弧动态电流时，雷电过电压引起的闪络电流立即变为0 A。在第二个实验中，雷电过电压导致低压配电系统上的设备烧毁。因此，了解低压配电系统上烧毁的设备成为可能。

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Mechanism of lightning damage on low voltage distribution equipment due to arc current

The lightning damage on low voltage power distribution systems is almost a burning of low voltage distribution equipment due to a flashover and arc dynamic or short circuit current. The lightning overvoltage causes a flashover in low voltage distribution equipment. After that, the flashover causes burning because of impressing the commercial frequency voltage. The authors conducted two kinds of experiments. The first was using low voltage distribution equipment. The second was using a real scale low voltage distribution line model. According to the first experiment, the authors suggest that the flashover current due to lightning overvoltage becomes 0 A at once when the flashover current switches to the arc dynamic current. In the second experiment, a lightning overvoltage causes burning of equipment on a low voltage power distribution system. As a result, it became possible to know the equipment burnt on a low voltage distribution system.

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2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.02CH37309)

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