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引用次数: 0
摘要
微电网具有降低输电损耗、低碳排放、提高系统可靠性等诸多优点。然而,为了使磁力发电机正常工作,需要对其进行不同故障条件下的保护。由于微电网运行的不同模式、所使用的dg类型、dg的额定值以及双向故障电流的不同,故障电流的大小也各不相同,因此MGs故障状态的检测具有挑战性。本文介绍了一种基于信号处理的微电网故障诊断技术,以及微电网故障检测的最新研究进展。本文分析了不同的相量估计技术,如样本间比较(S to S)技术、周期间比较(C to C)技术以及用于微电网故障检测的卡尔曼滤波技术。采用RTDS/RSCAD (Real-time digital simulator,实时数字模拟器)对不同类型dg的微电网进行了仿真,卡尔曼滤波技术可以有效地检测微电网中不同的故障状态。
Comparison of Fault Detection Technique for AC Microgrid Protection
Microgrid(MG) provides numerous advantages such as reduced transmission losses, low carbon emission, improved system reliability. However, for the proper functioning of the MG, it should be protected from different fault conditions. Detection of fault conditions in MGs is challenging because the fault current magnitude varies in various modes of microgrid operations, types of DGs used, ratings of DGs, and bidirectional fault current flow. This article presents a signal processing-based technique to determine the faults in the Microgrids and state-of-the-art latest research on microgrid fault detection. This paper analyzes different phasor estimation techniques such as sample to sample comparison (S to S) technique, cycle to cycle (C to C) comparison, and Kalman filtering technique for Microgrid fault detection. The microgrid with various types of DGs are simulated using RTDS/RSCAD (Real-time digital simulator), and the Kalman filtering techniques can effectively detect different fault conditions in the microgrid.
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