基于pmu的选择模态分析电力系统动力学降阶建模

Benjamin P. Wiseman, Yang Chen, Le Xie, P. Kumar
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引用次数: 5

摘要

本文研究了如何利用同步量数据进行在线系统辨识。提出了两种识别降阶模型的方法:一种是纯数据驱动的方法,另一种是将在线数据驱动的动态系统识别与第一原理离线选择模态分析相结合的方法。利用电力系统操作员感兴趣的频率范围的先验知识,第二种方法恢复了原始系统的关键模式,并产生了一个大大降低阶的电网级动力学模型。在实际模式存在不确定性的情况下,设计了一种自适应调整频率范围的自动调谐方案,以提高系统的辨识度。采用合成同步量数据的数值算例验证了该方法的有效性。
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PMU-based reduced-order modeling of power system dynamics via selective modal analysis
This paper investigates how to perform online system identification employing synchrophasor data. Two approaches to identifying a reduced-order model are presented: a purely data-driven approach, and an approach that integrates online data-driven dynamic system identification with firstprinciple offline selective modal analysis. With prior knowledge of the frequency range interesting to power system operators, it is shown that the second approach recovers the key modes of the original system and produces a much reduced-order model of grid-level dynamics. Even with the presence of uncertainty about the actual modes of interest, an automatic tuning scheme is devised to adaptively adjust the frequency range to improve system identification. Numerical examples with synthetic synchrophasor data demonstrate the efficacy of the proposed identification approach.
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