Modelling and validation of arc-fault currents under resistive and inductive loads

Yashodha Karunarathna, J. Wijayakulasooriya, J. Ekanayake, Pasindu Perera
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Abstract

Over half of all electrical fires in installations are caused by arcing due to poorly connected equipment or wiring system failures. Therefore, it is essential to detect arcs and interrupt them using a suitable protective device. This paper provides a modelling simulation and experimental approach to obtain arc voltage and current. The parameters for the theoretical model were turned based on the experimental results. A realistic case study was done to obtain the arc current under parallel and series arcs. As seen from the results, a parallel arc creates a current much higher than the load current, whereas a series arc current is often lower than the load current. Even though a parallel arc current may be detected by an overcurrent device, as it is often intermittent, it may not sustain to be captured by existing protection devices. Therefore, both parallel and series arc detection and interruption demand a reliable protection device.
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电阻和感性负载下电弧故障电流的建模和验证
超过一半的电气火灾是由设备连接不良或布线系统故障引起的电弧引起的。因此,检测电弧并使用合适的保护装置中断电弧是至关重要的。本文提供了一种模型仿真和实验方法来获得电弧电压和电流。根据实验结果对理论模型参数进行了反演。通过实际算例计算了并联和串联电弧下的电弧电流。从结果可以看出,并联电弧产生的电流远高于负载电流,而串联电弧产生的电流通常低于负载电流。即使平行电弧电流可以被过流装置检测到,因为它通常是间歇性的,它可能无法被现有的保护装置捕获。因此,无论是并联还是串联的电弧检测和中断都需要可靠的保护装置。
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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