Multi-objective optimization for capacity of non-grid-connected wind/hydrogen hybrid power system

In order to solve the load problem that wind farm output power satisfies best in the least economic cost, a capacity allocation scheme based on total installation cost of wind turbines and the hydrogen manufacture-storage-combustion device, load shortage rate LPSP(loss of power supply probability) and wind-hydrogen complementary system FPP (fluctuation of power probability) is put forward. One day's wind speed and load in a certain area is used to write the multi-objective function optimization program based on elite non-dominated sorting genetic algorithm NSGA-II in Matlab, and carry out the optimal capacity configuration for wind turbines, electrolytic cell - hydrogen storage tanks-hydrogen burning gas turbine systems and obtain the optimum combination scheme. The optimized complementary system can effectively guarantee its economy and power supply reliability. © 2019, Editorial Board of Acta Energiae Solaris Sinica. All right reserved.