广东电力2025,Vol.38Issue(1):18-31,14.DOI:10.3969/j.issn.1007-290X.2025.01.003
考虑源荷双侧需求响应和氢能多元利用的综合能源系统低碳经济优化
Low Carbon Economic Optimization of Integrated Energy Systems Considering Dual Demand Response of Source and Load and Multiple Utilization of Hydrogen Energy
摘要
Abstract
Driven by the"dual carbon"goal,it is crucial to build a low carbon,economic,and flexible energy utilization system.To this end,this paper proposes a low carbon optimization scheduling model for the integrated energy system(IES),which considers the dual demand response of source and load and the multiple utilization of hydrogen energy.Firstly,an electric boiler and Karina cycle model are introduced into the combined heat and power(CHP)unit on the source side,decoupling the CHP"heat to electricity"and"electricity to heat"modes,and constructing a flexible output model for CHP.Secondly,the electricity and heat demand response models are introduced on the load side,and coordinated and optimized with the source side CHP flexible output model to construct a dual side demand response model for the source and load.Finally,a hydrogen energy multi utilization model consisting of hydrogen production,hydrogen consumption,gas mixed hydrogen,and hydrogen storage is introduced into the model,and a low carbon optimization scheduling model for electricity heat gas hydrogen IES is established.The simulation results of the example show that the proposed model effectively reduces the economic cost and carbon emissions of the system,and improves the absorption capacity of new energy,achieving low carbon,economical,and flexible operation of IES.关键词
热电联产灵活输出模型/源荷双侧需求响应/卡琳娜循环/氢能多元利用/低碳优化Key words
flexible output model for combined heat and power/source load dual demand response/Karina cycle/multi utilization of hydrogen energy/low carbon optimization分类
动力与电气工程引用本文复制引用
陈静,盛铭真,张岩,韩伟,段文岩..考虑源荷双侧需求响应和氢能多元利用的综合能源系统低碳经济优化[J].广东电力,2025,38(1):18-31,14.基金项目
国家电网有限公司总部科技项目(5100-202240012A-1-1-ZN) (5100-202240012A-1-1-ZN)
