电力建设2024,Vol.45Issue(9):142-163,22.DOI:10.12204/j.issn.1000-7229.2024.09.013
新型电力系统需求侧灵活性资源时空协同优化与动态均衡机制研究综述
Review of Novel Demand-Side Flexibility Resource Spatio-Temporal Co-Optimization and Dynamic Equilibrium Mechanism of Power Systems
摘要
Abstract
The high proportion of new energy access to the distribution network and the decline in the proportion of traditional controllable generating units have led to a significant shortage of power system regulation capacity. Demand-side flexibility resources can provide regulation capacity for power systems at multiple scales through certain control means. In this context,this paper first introduces the basic concept,characteristics,and types of demand-side flexibility resources. Then,it summarizes the research hotspots and progress of the spatio-temporal co-optimization and dynamic equilibrium mechanism of new power-system demand-side flexibility resources. It also summarizes the key technologies and achievements of the spatio-temporal co-optimization and dynamic equilibrium mechanism in the areas of morphology and structure decoupling analysis,coordinated allocation of supply-demand equilibrium,aggregated dispatch,and co-optimization and dynamic and equilibrium allocation of cluster benefits. Finally,this paper summarizes the advantages and disadvantages of key technologies and implementation algorithms of demand-side flexibility resource spatio-temporal cooperative optimization and dynamic balancing mechanism in terms of morphological structure decoupling analysis,supply-demand balance coordination allocation,aggregation scheduling and cooperative optimization,and cluster benefit dynamic balancing allocation.关键词
新型电力系统/需求侧灵活性资源/时空协同优化/动态均衡机制Key words
new power systems/demand-side flexibility resources/space-time synergy optimization/dynamic equalization mechanism分类
信息技术与安全科学引用本文复制引用
鞠立伟,吕硕硕,李鹏..新型电力系统需求侧灵活性资源时空协同优化与动态均衡机制研究综述[J].电力建设,2024,45(9):142-163,22.基金项目
国家自然科学基金项目(72274060) This work is supported by National Natural Science Foundation of China(No.72274060). (72274060)
