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Mechanism of PV Generation System Damping Electromechanical Oscillations

Mingxian Li, Liansong Xiong, Hua Chai, Liancheng Xiu, Jie Hao

2020IEEE Access30 citationsDOIOpen Access PDF

Abstract

For physically understanding the dynamic response of the photovoltaic (PV) integrated power system for electromechanical oscillations damping, firstly, this paper develops the linear mathematical model of a single machine infinite bus system integrated by the PV grid-tied inverter under the electromechanical time scale. Then, based on the electric torque analysis method, and the functional route of the PV grid-tied inverter variable active power control (P-control) and reactive power control (Q-control) with the power angle or grid frequency feedback as the input control signal, the key factors and influence laws of the integrated system inertia, damping level and synchronization capability are investigated. The developed model shows that enlarging the proportional-integral-derivative (PID) controller parameters of P and/or Q-control loop can effectively change electromagnetic power distribution to suppress the imbalance power, and equivalently improve the system damping level, synchronization capability and inertial effect, respectively, contributing to actively adjust the grid frequency oscillation amplitude, period and recovery speed to maintain the system control stability according to the grid code demand. Besides, under the same inverter capacity constraint, P-control mode is proved more advantageous than Q-control mode to damp electromechanical oscillations. Finally, the correctness of the physical mechanism analysis is verified by MATLAB simulations and RT-LAB experiments.

Topics & Concepts

Control theory (sociology)InverterPID controllerSynchronization (alternating current)Controller (irrigation)Electric power systemPhotovoltaic systemInertiaDamping torqueControl systemPower (physics)Computer scienceEngineeringControl engineeringPhysicsDirect torque controlVoltageControl (management)Induction motorTopology (electrical circuits)Electrical engineeringClassical mechanicsArtificial intelligenceBiologyQuantum mechanicsTemperature controlAgronomyMicrogrid Control and OptimizationPower System Optimization and StabilityIslanding Detection in Power Systems
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