With the development of social economy, the forms of electricity consumption on the distribution network side are becoming more and more diverse.Aiming at the impact of peak load on the power grid, a peak shaving control strategy with hybrid energy storage and photovoltaic power generation is proposed.First, the mathematical models of flywheel energy storage, lithium iron phosphate energy storage and photovoltaic power generation systems are introduced.Secondly, the charge-discharge control, hybrid energy storage coordination control and other strategies are respectively studied on the subsystem model.Finally, based on the photovoltaic power generation under different lighting environments, the simulation of the hybrid energy storage participating in the peak shaving system is carried out respectively.The simulation results show the effectiveness of the control strategy, which provides a good solution for active distribution grid-side peak regulation applications, while reducing the impact of peak negative on the power grid, it can prolong the service life of lithium battery and reduce the power cost of owners.