Frequency optimization strategy of wind storage in power system

Abstract:
In the power system, due to the random variability of the power supply and the load, the frequency fluctuation problem is caused. In order to improve the stability of the frequency, a multi-scale frequency modulation optimization strategy for wind turbines and energy storage is proposed. The strategy is in the frequency modulation process, Divided into decomposition layer and control layer, each layer is related to each other. In the decomposition layer, based on the Discrete Fourier Transform (DFT), the differential active power is decomposed. In the control layer, the frequency modulation characteristics and reserve capacity of wind turbines under different wind speeds are considered comprehensively, and the state of charge (SoC) of energy storage is achieved to achieve wind power. For the purpose of frequency modulation optimization of the grid-connected energy storage unit and energy storage system, simulation shows that based on the wind-storage joint frequency modulation strategy, the frequency fluctuation of the power system can be effectively improved, and the grid-connected efficiency of wind turbines can be improved.