山东电力技术2026,Vol.53Issue(2):51-64,14.DOI:10.20097/j.cnki.issn1007-9904.250248
基于低碳综合需求响应的综合能源系统双层互动调度策略
Dual Layer Interactive Operation Strategy of Integrated Energy System Based on Low-carbon Comprehensive Demand Response
摘要
Abstract
Against the backdrop of the ongoing dual-carbon initiative,unlocking the potential of source-load interaction in energy conservation and carbon reduction has become a key pathway to promote the low-carbon transformation of integrated energy systems.This paper proposes a dual-layer low-carbon scheduling model for integrated energy systems based on comprehensive low-carbon demand response.First,a multi-energy coupled carbon emission matrix is constructed to clarify the transmission relationships of carbon emissions during the conversion among electricity,heat,and gas.Building on this foundation,a dynamic carbon emission factor calculation method is developed to enable accurate quantification of carbon intensity across multiple energy carriers.Then,a dual-layer scheduling architecture is established,wherein dynamic carbon emission factors function as interactive signals.In the upper layer,the integrated energy system performs multi-energy device scheduling and iteratively updates the carbon emission factors.In the lower layer,a load aggregator aggregates user loads and implements low-carbon demand response strategies.Through iterative feedback between the two layers,the model achieves a coordinated evolution of emission factors and demand response strategies.Finally,simulation results demonstrate that the proposed strategy significantly reduces overall carbon emissions and enhances the utilization of renewable energy,while maintaining economic efficiency.关键词
动态碳排放因子/低碳需求响应/供需互动/综合能源系统/综合需求响应Key words
dynamic carbon emission factor/low carbon demand response/supply-demand interaction/integrated energy system/integrated demand response分类
信息技术与安全科学引用本文复制引用
王鸿玺,申洪涛,冯波,王洪莹,阎超,李梦宇..基于低碳综合需求响应的综合能源系统双层互动调度策略[J].山东电力技术,2026,53(2):51-64,14.基金项目
国网河北省电力有限公司科技项目"广域负荷侧供需互动与平衡调节技术研究及示范应用"(5204YF230006). State Grid Hebei Electric Power Company Technology Project"Research and Demonstration Application of Wide Area Load Side Supply Demand Interaction and Balance Regulation Technology"(5204YF230006). (5204YF230006)
