高压电器2024,Vol.60Issue(7):48-59,12.DOI:10.13296/j.1001-1609.hva.2024.07.005
基于博弈论的含氢微网多主体能源系统优化配置
Optimized Allocation of Hydrogen-containing Micro Grid Multi-subject Energy System Based on Game Theory
摘要
Abstract
With the continuous development of Hydrogen energy storage technology,the rational capacity allocation problem of Hydrogen-containing micro grids containing multiple main power sources will be one of the important di-rections to promote the integration of electricity and Hydrogen in the future.In this paper,the rational allocation prob-lem between wind and Hydrogen micro grid systems is studied.Firstly,a multi-subject revenue model is constructed with consideration of the individual revenue model of wind-solar Hydrogen,with the wind solar power as the premise as well as with Hydrogen storage to realize the residual power consumption of grid.Then,as for the hybrid method of proton-exchange membrane electrolyzer and alkaline electrolyzer for the Hydrogen storage side,a hybrid Hydrogen configuration model by taking the Hydrogen revenue and the rate of consumption as the target is constructed.Final-ly,the NSGA-Ⅱalgorithm is adopted to calculate the Nash equilibrium of each subject and solve the configuration re-sults of each subject.The calculation is made in combination with typical monthly wind speed and light scenario data in certain region in northwest of China.The simulation results show that the revenue of the overall system is improved by 6.8%through the optimized configuration of multiple energy sources participating in the game and the energy con-sumption is achieved.Meanwhile,after adopting the hybrid Hydrogen equipment,the main body revenue of the Hydro-gen storage is improved by 2.64%,and the load interruption rate is reduced by 14%compared with a single Hydrogen system,which improves the economic performance and reliability of the system.关键词
风电/光伏/制氢/氢储能/燃料电池/博弈论Key words
wind power/photovoltaic/Hydrogen production/Hydrogen storage/fuel cells/game theory引用本文复制引用
侯永全,徐敦彬,袁晓冬,曾飞,肖学权,马立方,梅霜..基于博弈论的含氢微网多主体能源系统优化配置[J].高压电器,2024,60(7):48-59,12.基金项目
国网江苏省电力有限公司科技项目(J2023166). Project Supported by Science and Technology Project of State Grid Jiangsu Electric Power Co.(J2023166). (J2023166)
