Optimal allocation of electric-hydrogen hybrid energy storage in areas with high proportion of hydropower
Affected by the rapid electricity load growth and the increase of water uncertainty under extreme weather conditions,the contradiction between supply-side and demand-side volatility in areas with high hydropower proportion has become increasingly prominent.The demand for flexible resources with long-term regulation capability is becoming more urgent.Hydrogen energy storage with long-term regulation capacity can alleviate the tense situation of supply and demand in areas with high proportion of hydropower.The research designs an optimal allocation model of electric-hydrogen hybrid energy storage,which is suitable for areas with high hydropower proportion.The loss of load penalty function is introduced into the objective function,and the variation of generation capacity of large/small and medium-sized hydropower units with time is quantified.By taking the power system composed of 96 different types of generators in a high hydropower proportion area as the object,analysis is performed.Compared with the current energy storage configuration requirements,the optimization result of the model increases the hydropower consumption by 7188 MW·h,reduces the unloaded electricity by 6513 MW·h,and reduces the total cost by 3.194 million yuan.Moreover,the demand scale of different types of energy storage and the income of energy storage enterprises in high hydropower area,high thermal power area and high new energy area are compared horizontally.The relevant conclusions can provide reference for the development of energy storage investment in the future.
high proportion of hydropowerelectric-hydrogen hybrid energy storageregulation capacityload loss effect