电力需求侧管理2026,Vol.28Issue(2):86-92,7.DOI:10.3969/j.issn.1009-1831.2026.02.013
电-碳耦合机制下的区域能源系统双层低碳优化
Bi-level low-carbon optimization of regional energy systems under power-carbon coupling mechanisms
摘要
Abstract
Under the deep implementation of the"Dual-Carbon"strategy,integrated energy systems(IESs)in industrial parks are increas-ingly taking on the dual roles of energy management and resource scheduling.However,demand response and optimal dispatch are often in-vestigated separately,and coordinated supply-demand low-carbon optimization remains insufficient.To address this gap,a bi-level low-car-bon optimization model for industrial-park IESs considering electricity-carbon demand response is proposed.A unified framework that cou-ples demand response and optimal dispatch from the operator perspective is constructed.A dynamic multi-energy carbon-emission factor calculation method is developed,and a comprehensive demand response model integrating both electricity and carbon perspectives is estab-lished.A bi-level optimization model is further formulated,where carbon-emission factors are iteratively updated based on load adjustments to achieve solution convergence.Case studies show that,compared with the electricity-only demand response case,the total cost for opera-tors is reduced by 4.15%,and carbon emissions are reduced by 14.3%.关键词
综合能源系统/电-碳需求响应/低碳优化调度/电动汽车/双层优化模型Key words
integrated energy system in industrial parks/electricity-carbon demand response/low-carbon optimal scheduling/bi-level opti-mization model/carbon emission factor分类
信息技术与安全科学引用本文复制引用
孙广增,元博,鲁刚,张涵,龚一莼..电-碳耦合机制下的区域能源系统双层低碳优化[J].电力需求侧管理,2026,28(2):86-92,7.基金项目
国家电网有限公司总部科技项目(1400-202426279A-1-1-ZN) (1400-202426279A-1-1-ZN)
