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Low-frequency Oscillations and Resonance Analysis of VSG-controlled PMSG-based Wind Generation Systems

Yizhuo Ma, Jin Xu, Chenxiang Gao, Guojie Li, Keyou Wang

2024Journal of Modern Power Systems and Clean Energy13 citationsDOIOpen Access PDF

Abstract

With good adaptability to weak power grids, the grid-forming inverter becomes the foundation of future power grids with high-proportion renewable energy. Moreover, the virtual synchronous generator (VSG) control is recognized as the mainstream control strategy for grid-forming inverters. For permanent magnet synchronous generator (PMSG) based wind generation systems connected to power grid via VSG-controlled grid-forming inverters, some novel impacts on the low-frequency oscillations (LFOs) emerge in power grids. The first impact involves the negative/positive damping effect on LFOs. In this paper, the small-signal torque model of VSG-controlled PMSG-based wind generation systems is established based on the damping torque analysis method, revealing the influence mechanism of machine-side dynamics on LFOs and proving the necessity of the double-mass model for accurate stability analysis. The second impact is the resonance effect between torsional oscillation and LFOs. Subsequently, this paper uses the open-loop resonance analysis method to study the resonance mechanism and to predict the root trajectory. Then, a damping enhancement strategy is proposed to weaken and eliminate the negative damping effect of machine-side dynamics on LFOs and the resonance effect between torsional oscillation and LFOs. Finally, the analysis result is validated through a case study involving the connection of the VSG-controlled PMSG-based wind generation system to the IEEE 39-bus AC grid, supporting the industrial application and stable operation of VSG-controlled PMSG-based wind generation systems.

Topics & Concepts

Resonance (particle physics)Control theory (sociology)PhysicsEngineeringComputer scienceControl (management)Atomic physicsArtificial intelligenceWind Turbine Control SystemsWind Energy Research and DevelopmentPower Systems and Renewable Energy
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