中国电机工程学报2024,Vol.44Issue(6):2097-2118,后插2,23.DOI:10.13334/j.0258-8013.pcsee.222894
面向多元灵活资源聚合的区域综合能源系统主动调节能力评估与优化:关键问题与研究架构
Fundamental Problems and Research Framework for Assessment and Optimization of the Functional Regulation Capacity of the Regional Integrated Energy System Under the Aggregation of Diversified and Flexible Resources
摘要
Abstract
The regional integrated energy system(RIES)integrates and coordinates diversified and flexible resources to maintain local multi-energy supply-demand balance,optimize the adjustable capacity,realize cross-regional energy complementarity,and improve energy utilization efficiency by sharing the adjustable capacity.It plays an essential role in deeply mining the adjustable potential of massive users and giving full play to the value of system flexibility.First,this paper analyzes the driving force and barriers to building RIES under the aggregation of diversified and flexible resources and systematically reviews the existing research.Then,based on the current research clues,the critical problems of the RIES are analyzed from three aspects:in-depth mining of the spatio-temporal dynamic evolution of the functional regulation capacity of the RIES,optimization of the functional regulation capacity of complex nonlinear dynamic RIES,and optimal coordination of multiple RIES clusters.On this basis,the research framework of the RIES under the aggregation of diversified and flexible resources is proposed from three key issues that jointly affect the stable and economical operation,namely,the assessment of the functional regulation capability,the autonomous coordination and optimization,and the collaborative cluster control of the RIES.Finally,the critical research contents are analyzed and elaborated.关键词
区域综合能源系统/灵活性/主动调节能力/能量共享/不确定性/分布式优化Key words
regional integrated energy system/flexibility/functional regulation capacity/energy sharing/uncertainty/distributed optimization分类
信息技术与安全科学引用本文复制引用
司方远,张宁,韩英华,窦真兰,董启环,康重庆..面向多元灵活资源聚合的区域综合能源系统主动调节能力评估与优化:关键问题与研究架构[J].中国电机工程学报,2024,44(6):2097-2118,后插2,23.基金项目
国家电网公司科技项目(5100-202199519A-0-5-ZN).Science and Technology Project of the State Grid Corporation of China(5100-202199519A-0-5-ZN). 本文部分研究工作还得到了国家自然科学基金(52207112)和中国博士后科学基金(2022M711761)等项目的资助,特此感谢! (5100-202199519A-0-5-ZN)
