电网技术2024,Vol.48Issue(7):2873-2883,中插73,12.DOI:10.13335/j.1000-3673.pst.2023.0821
基于消费者耦合行为的综合需求响应建模与主从博弈运行策略研究
Integrated Demand Response Modeling and Master-slave Game Operation Strategy Based on Consumer Coupling Behavior
摘要
Abstract
The integrated utilization of various heterogeneous energy sources brings complementary coupling benefits,but usually ignores the influence of demand-side multi-energy coupling conversion on the user satisfaction.Moreover,the current mainstream unilateral pricing mechanism of demand response can hardly cope with the complex interest interaction and iterative relationships between the system and users.Therefore,this paper proposes an integrated demand response modeling and master-slave game operation strategy considering the consumer coupling behavior.Firstly,an improved integrated demand response model for the integrated energy system load aggregators is established based on the influence of consumer coupling behavior on the user satisfaction.Secondly,with the system operator as the leader and multiple load aggregators as the followers,an optimal scheduling strategy for the integrated energy system based on the master-slave game is proposed,and the existence and uniqueness of the Nash equilibrium solution of the established interactive model with one leader and multi-followers is proved.Finally,an example system is constructed by combining the standard IEEE33-node system and the Belgian 20-node gas network system.The results verify the accuracy of the proposed consumer coupling behavior demand response model and the effectiveness of the proposed strategy in coordinating interests of both players in the game.关键词
主从博弈/消费者耦合行为/需求响应/电能交互Key words
master-slave game/consumer coupling behavior/demand response/electricity interaction分类
信息技术与安全科学引用本文复制引用
王勇,吕华灿,姚文亮,刘春伶,刘超,王成福..基于消费者耦合行为的综合需求响应建模与主从博弈运行策略研究[J].电网技术,2024,48(7):2873-2883,中插73,12.基金项目
国家电网公司总部科技项目(1400-202355339A-1-1-ZN):"电力典型场景低碳评价指标体系及评价方法研究".This Work is Supported by Science and Technology Project of State Grid Corporation of China(1400-202355339A-1-1-ZN):"Research on Low-carbon Evaluation Target System and Evaluation Method of Electric Power Typical Scenarios". (1400-202355339A-1-1-ZN)
