A Subsynchronous Resonance Suppression Method by Transient Current Filtering Based on STATCOM

A Subsynchronous Resonance Suppression Method by Transient Current Filtering Based on STATCOM

Subsynchronous resonance includes inductive generator effect, torsional interaction and transient torque amplification. The mainstream method to suppress torsional interaction in series compensated transmission systems is improving the damping of the system based on power electronic equipment. In co...

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Bibliographic Details
Published in:2024 IEEE 10th International Power Electronics and Motion Control Conference (IPEMC2024-ECCE Asia) pp. 1875 - 1879
Main Authors: Tao, Ran, Qiu, Yanhui, Yi, Hao, Zhuo, Fang
Format: Conference Proceeding
Language:English
Published: IEEE 17-05-2024
Subjects:
Eigenvalues Analysis
Eigenvalues and eigenfunctions
Filtering
Power electronics
Resonance
Shafts
Static Synchronous Compensator
Stators
Subsynchronous Resonance
Torque
Transient Current Filtering
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Summary:Subsynchronous resonance includes inductive generator effect, torsional interaction and transient torque amplification. The mainstream method to suppress torsional interaction in series compensated transmission systems is improving the damping of the system based on power electronic equipment. In contrast, there is currently no good ways to cope with transient torque caused by violent disturbances. This paper proposes a transient current filtering method based on static synchronous compensator to suppress the transient torque amplification. This method can significantly reduce the impact on the shaft system by filtering out the transient component of the stator current when system occurs a large disturbance, thereby suppressing the modal oscillation. Based on the IEEE first benchmark model (FBM), this paper lists the differential equations of electromechanical coupling system, and illustrates the impact of this method on the system oscillation characteristics through the eigenvalue analysis. Finally, effectiveness for the method is verified through PSCAD/EMTDC time domain simulation.
DOI:10.1109/IPEMC-ECCEAsia60879.2024.10567782