Optimized control of hydrogen production and energy storage system for wind-solar complementary power generation

Abstract

The combination of multiple renewable energy sources with hydrogen energy has emerged as a scorching area of study. The control of a wind-solar complementary power generation and hydrogen energy storage system has significant implications for the safe and stable operation of said system. To delve into this topic, it is paramount to undertake mathematical modeling and simulation of wind power, solar power, and hydrogen production by electrolysis. Building upon the foundation of said modeling and simulation, the adoption of an improved variable-step perturbation observation method is crucial for the optimization and control of the system. The outcomes of the simulation confirm that this optimization algorithm can indeed augment the stability of the wind-solar complementary hydrogen production system. Ultimately, this research paves the way for new research methods and directions towards the safe and stable operation of new energy complementary power generation and hydrogen production systems.