摘要
随着分布式能源不断融入配电网系统,提高电源调度的集成与协同优化水平受到广泛关注。通过分析不同类型的分布式能源特性、考虑配电网拓扑结构,并引入先进的集成算法,旨在提高配电网的健壮性和效能。通过建立电源调度模型,探讨了需求侧与供给侧管理,并引入智能算法与协同优化策略。通过实验与仿真,验证了框架的有效性,为未来分布式能源与配电网的协同发展提供了实质性指导。研究结果对电力系统的智能化与可持续发展具有重要意义。
With the continuous integration of distributed energy sources into power distribution systems,this study focuses on enhancing the integration and cooperative optimization of power dispatching.Through analyzing the characteristics of various types of distributed energy sources,considering the topology of power distribution networks,and incorporating advanced integration algorithms,the aim is to improve the robustness and efficiency of power distribution networks.This paper establishes a power dispatching model,explores demand-side and supply-side management,and introduces intelligent algorithms along with cooperative optimization strategies.Through experimentation and simulation,the effectiveness of the framework is validated,providing substantial guidance for the collaborative development of distributed energy sources and power distribution networks in the future.The research results presented in this paper hold significant implications for the intelligent and sustainable development of power systems.
作者
杨宏
YANG Hong(Guizhou Power Grid Guiyang Power Supply Bureau,Guiyang 550001,China)
出处
《通信电源技术》
2024年第4期95-97,共3页
Telecom Power Technology
关键词
分布式能源
电源调度
协同优化
配电网
集成算法
distributed energy sources
power dispatching
cooperative optimization
power distribution network
integration algorithms
