南方电网技术2026,Vol.20Issue(3):61-73,13.DOI:10.13648/j.cnki.issn1674-0629.2026.03.007
计及光伏光热和阶梯碳交易的园区综合能源系统氢储能优化配置
Optimization Configuration of Hydrogen Storage in Park Integrated Energy System Considering Photovoltaic Photothermal and Stepped Carbon Trading
摘要
Abstract
Hydrogen energy is an important carrier for China's low-carbon transformation,with zero emissions and renewable characteristics.The carbon emissions and economic benefits of hydrogen storage optimization configuration are poor in existing park integrated energy systems based on photovoltaic hydrogen production.Therefore,a hydrogen storage optimization configuration method for park integrated energy systems is proposed,which takes into account photovoltaic photothermal proton exchange membrane electrolysis for hydrogen production(PV/T-PEMWE)and stepped carbon trading.Firstly,considering the comprehensive energy supply characteristics of the park,an integrated energy system framework containing PV/T-PEMWE is constructed for the park.Secondly,the working principles of photovoltaic photothermal technology(PV/T)and proton exchange membrane electrolysis for hydrogen production(PEMWE)are analyzed and PV/T and PEMWE are coupled.And a PV/T-PEMWE model is established.Finally,by introducing a stepped carbon trading mechanism and aiming at the economic and low-carbon aspects of the system,a hydrogen storage optimization configuration model for the integrated energy system in the park is constructed.Taking a integrated energy system in a certain park in the northwest region as an example for simulation,the advantages of the proposed model in terms of economy and low-carbon are verified.关键词
光伏光热技术/质子交换膜电解槽/阶梯碳交易/综合能源系统/容量优化配置Key words
photovoltaic photothermal technology/proton exchange membrane electrolysis cell/stepped carbon trading/integrated energy system/capacity optimization configuration分类
信息技术与安全科学引用本文复制引用
王秋杰,王昊,谭洪,亓浩,李振兴,翁汉琍..计及光伏光热和阶梯碳交易的园区综合能源系统氢储能优化配置[J].南方电网技术,2026,20(3):61-73,13.基金项目
国家自然科学基金资助项目(52307109) (52307109)
湖北省自然科学基金创新发展联合基金项目(2024AFD362). Supported by the National Natural Science Foundation of China(52307109) (2024AFD362)
the Hubei Provincial Natural Science Foundation Innovation and Development Joint Fund Project(2024AFD362). (2024AFD362)
