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Extended Prony Analysis on Power System Oscillation Under a Near-Resonance Condition

Power system oscillations under a large disturbance often exhibit distorted waveforms as captured by increasingly deployed phasor measurement units. One cause is the occurrence of a near-resonance condition among several dominant modes that are influenced by nonlinear transient dynamics of generators. This paper proposes an Extended Prony Analysis method for measurement-based modal analysis. Based on the normal form theory, it compares analyses on transient and post-transient waveforms to distinguish a resonance mode caused by a near-resonance condition from natural modes so that the method can give more accurate modal properties than a traditional Prony Analysis method, especially for large disturbances. The new method is first demonstrated in detail on Kundur's two-area system and then tested on the IEEE 39-bus system to show its performance under a near-resonance condition.

preprint2020arXivOpen access
Tianwei XiaZhe YuKai SunDi ShiZhiwei Wang
Systems and Controleess.SY
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Tianwei XiaZhe YuKai SunDi ShiZhiwei Wang

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