摘要
提出面向未来能源互联网的以新型全可控柔性配电装备:电能交换器和电力集能器为核心的能源局域网与能源子网层次化配用电侧灵活配电系统架构,在此基础上,结合信息物理系统对以电力集能器为核心的能源子网进行了较详细的研究,并详细设计了电力集能器的系统结构,给出了其核心模块的主电路拓扑,同时提出了适用于当前应用场景下的能源子网组网模型,并对各种运行工况和暂态过程下的能源子网进行计算机仿真分析,论证其可行性和有效性。
The paper proposed a multiple hierarchic structure of the full flexible power distribution system for future energy-internet, including energy local area grid and energy sub grid patterns based on the brand new full controlled flexible electric equipment: energy switcher and energy hub. Furthermore, based on the cyber physical systems(CPS), the feasible energy sub grid and energy hub's architecture was designed in detail, and the energy-hub core module's main circuit topologies were given. At last, the energy sub grid pattern with an energy-hub was researched, and some operation conditions in computer simulation, were presented, and its feasibility and validity were demonstrated.
出处
《中国电机工程学报》
EI
CSCD
北大核心
2016年第2期388-398,共11页
Proceedings of the CSEE