Enhancement of overcurrent protection in active medium voltage distribution networks

Matin Meskin, P. Iyer, A. Domijan, I. Grinberg
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引用次数: 7

Abstract

Using renewable sources to meet the load demand in the distribution level has become more economical and prevalent. The integration of these sources has impact on the load flow direction and magnitude. These changes can affect the operation of overcurrent (OC) relays as the main protective device in medium voltage (MV) distribution networks. In other words, the changes in the current magnitude and direction will result in misoperation of the OC relays during normal conditions of the network. In addition, the variation of the output generation of renewable sources due to weather condition changes, makes it difficult to define appropriate settings for OC relays. In this paper, a novel idea for improvement of OC relay operation in MV distribution networks in the presence of photovoltaic (PV) sources is presented. The proposed protection system is based on the augmentation of current and the reduction in voltage during the fault. Therefore, a combination of directional OC and undervoltage (UV) protection can distinguish between faulty and normal conditions. The proposed method is simulated using EMTDC/PSCAD software. The results show that the proposed method can effectively protect the MV distribution network containing PV sources.
有功中压配电网过流保护的增强
利用可再生能源来满足配电层面的负荷需求已经变得更加经济和普遍。这些源的整合对负荷的流向和大小有影响。这些变化会影响作为中压配电网主要保护装置的过流继电器的运行。换句话说,在网络正常情况下,电流大小和方向的变化会导致OC继电器误动作。此外,由于天气条件的变化,可再生能源的输出发电量也会发生变化,因此很难确定OC继电器的适当设置。本文提出了一种改进光伏电源下中压配电网OC继电器运行的新思路。所提出的保护系统是基于故障时电流的增大和电压的降低。因此,定向OC和欠压(UV)保护的组合可以区分故障和正常情况。采用EMTDC/PSCAD软件对该方法进行了仿真。结果表明,该方法能有效保护含光伏电源的中压配电网。
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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