可再生能源馈线距离保护的自适应逻辑

Badugu Mahesh Raju, S. Ashok
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引用次数: 2

摘要

广泛的变流器接口可再生能源发电厂(CIREPP)关注的是与电网的整合。电网规范下的故障穿越(FRT)方案是指发电厂在电压下降甚至故障持续一段时间内保持连接的能力,以防止可再生能源发电厂(REP)与电力系统的意外分离。该方案引起源端电流与负载端电流相位角差。并在故障持续时间内对电压和电流进行调制,使继电器处可用本地数据计算出的阻抗超出了距离继电器的跳闸边界,从而导致继电器故障。该方案借助REP的实际故障阻抗计算出故障电流的函数角,并计算出从故障起始点到继电器定位点的阻抗。研究了FRT方案带来的挑战,并在PSCAD/EMTDC典型太阳能发电厂集成的IEEE-39总线系统上验证了所提方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adaptive Logic for Distance Protection of Feeder Connecting Renewable Energy
Extensive Converter-Interfaced Renewable Energy Power Plants (CIREPP) are of focused on integration with the grid. Fault Ride-Through (FRT) scheme followed by grid code is the capability of generation plant to stay connected in voltage dip even fault duration for some period to prevent the unwanted detach of Renewable Energy Plant (REP) from the power system. This scheme causes the phase angle difference between source end current and load end current. And modulates the voltage and current in fault duration, which can cause the calculated impedance with local data available at the relay is out of the trip boundary of the Distance Relay, which leads malfunction of the relay. The proposed scheme calculates the angle, which is a function of fault current with the help of realfault impedance of the REP and calculates the impedance from fault inception point to relay location point. The challenges brought by the FRT scheme studied and the proposed method verified on the IEEE-39 bus system integrated with a typical Solar power plant in PSCAD/EMTDC.
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