电容器组对太阳能和风力发电厂变电站电弧闪弧应用的贡献

E. Enrique, S. Moser, Timothy P. Bailey
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引用次数: 4

摘要

IEEE标准1584规定电容器必须是电弧闪光研究的一部分。分析研究中常用的软件工具不适用于电容器组存在时的电弧故障入射能量的计算。造成这种缺陷的原因是,电网模型只适用于分析基频下的短路电流。电容器组爆发电流的频率由电容器的大小和连接电容器组到故障点的导体的阻抗决定。鉴于太阳能和风力发电场变电站电容器组的额定功率很大,开发一种方法来确定这些电容器组对弧闪入射能量的最大贡献是很重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Capacitor banks contribution to arc-flash applications to solar and wind farm substations
IEEE Std. 1584 specifies that capacitors must be part of the arc-flash study. The software tools generally adopted for analytical studies are not suitable for the calculation of the arc-fault incident energy in the presence of capacitor banks. The reason for this deficiency is that the model of the electrical network is only valid for the analysis of short circuit currents at the fundamental frequency. The frequency of the outburst current from a capacitor bank is determined by the size of the capacitors and the impedance of the conductors connecting the capacitor bank to the fault. Given the large power ratings of capacitor banks at the substation of solar and wind farms, it is important to develop a method to determine the maximum contribution from these capacitor banks to the arc-flash incident energy.
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