电力工程技术2026,Vol.45Issue(4):24-33,10.DOI:10.12158/j.2096-3203.2026.04.003
基于太阳能全光谱利用的掺氢综合能源系统规划
Planning of hydrogen-blended integrated energy system based on full-spectrum utilization of solar energy
摘要
Abstract
Solar integrated energy systems are gradually becoming an important solution for residential district energy supply,yet spatial constraints pose significant challenges to the deployment of solar equipment.An integrated energy system for full-spectrum solar energy utilization coupled with hydrogen blending technology is proposed in this paper.Specifically,the system employs photovoltaic cells to convert high-energy spectrum of sunlight into electricity,while low-energy spectrum is directed to solar collectors for heat generation,thereby achieving multi-tiered and refined solar energy exploitation.Meanwhile,in order to extend the hydrogen utilization scenario,a hydrogen blending equipment operation strategy is introduced,offering hydrogen-mixed natural gas as a hybrid energy source for gas equipment.Finally,the optimal capacity configuration of the system is solved by the honey badger algorithm.The simulation results show that the solar spectrum beam splitting technology effectively improves the solar energy utilization of the system,thus reducing the footprint of the solar energy equipment.Furthermore,hydrogen blending technology and its operational strategy effectively reduce system operational carbon emissions,prevent over-allocation of hydrogen energy equipment,and strongly support the development of an efficient,clean,and flexible energy supply system.关键词
全光谱利用/电制氢/天然气掺氢/建设面积/蜜獾算法/系统规划Key words
full-spectrum utilization/electric hydrogen production/hydrogen blending into natural gas/construction area/honey badger algorithm/system planning分类
信息技术与安全科学引用本文复制引用
何新宇,杨晓辉,杨华强,黄泽中,杨启航..基于太阳能全光谱利用的掺氢综合能源系统规划[J].电力工程技术,2026,45(4):24-33,10.基金项目
国家自然科学基金资助项目(72461020) (72461020)
