Forced Oscillation Source Location in Power Systems Using MVMD-Assisted DEF in TF Plane

Tao Jiang, Bohan Liu, Bin Wang, Guodong Liu, Xue Li

Research output: Contribution to journalArticlepeer-review

Abstract

Fast and accurate forced oscillation source location (FOSL) is critical for mitigating forced oscillations in power systems. To overcome the shortcomings of traditional dissipating energy flow (DEF) in decomposing the forced oscillation components from the measurement responses, a multivariate variational mode decomposition (MVMD)-assisted FOSL is proposed in this paper to locate the forced oscillation sources from measurements in time-frequency (TF) plane. The multi-channel measurement matrix of each generator is formed, then the multi-channel modes are decomposed from the formed multi-channel measurement matrix using the MVMD. Further, the intrinsic mode functions (IMFs) associated with the forced oscillation mode are distinguished from the decomposed modes according to the relative energy weights. With the distinguished IMFs, the MVMD-assisted DEF calculation method is developed to locate the forced oscillation source. Finally, the performance of the proposed method is evaluated using the simulation data of the WECC 179-bus test system and IEEE-NASPI Oscillation Source Location Contest as well as the actual PMU data of ISO New England. The results validated the effectiveness and accuracy of the proposed method in the FOSL.

Original languageEnglish
Pages (from-to)6901-6913
Number of pages13
JournalIEEE Transactions on Power Systems
Volume39
Issue number6
DOIs
StatePublished - 2024

Funding

This work was supported in part by the National Natural Science Foundation of China under Grant U23B20131, Grant 52377083, and Grant 52077029.

FundersFunder number
National Natural Science Foundation of China52377083, 52077029, U23B20131
National Natural Science Foundation of China

    Keywords

    • Power systems
    • dissipating energy flow
    • forced oscillation
    • multivariate variational mode decomposition
    • oscillation source location

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