Impact of Wind Power on Power System Frequency and Combined Virtual Inertia Control

The high level of wind power penetration has reduced the system equivalent moment of inertia and challenged the frequency stability of power grid. Firstly, this paper reviews and analyzes the frequency regulation process of power system and conventional virtual inertia control of wind turbine. Then, a dynamic frequency response model of power system with wind power is established. The impact and variation of wind power and its frequency regulation parameters on dynamic characteristics of system frequency are studied. Furthermore, a novel combined virtual inertia control scheme for the wind turbine based on the selection function is proposed. The limited rotor kinetic energy of the wind turbine is utilized to increase the system equivalent moment of inertia effectively, and the secondary power drop caused by the conventional control is avoided. Finally, a simulation model is established in MATLAB/Simulink, and the simulation results verify the effectiveness of proposed control strategy and the improvement on the dynamic characteristics of power system frequency. © 2019 Automation of Electric Power Systems Press.