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An AC–DC/DC–DC hybrid multi-port embedded energy router based steady-state power flow optimizing in power system using substantial transformative energy management strategy
Journal of Ambient Intelligence and Humanized Computing ( IF 3.662 ) Pub Date : 2020-07-28 , DOI: 10.1007/s12652-020-02362-8
B. Tharani , C. Nagarajan

Novel and flexible interconnected architecture for micro grids and their associated energy the management strategy proposes to respond to the increase in renewable energy sources power generation. The key idea of the system is improve the renewable energy generation capacity using a multi-port DC–DC converter, the energy flow between the generation source and the micro grid system can be analyzed with the energy routers. The consumption methods can be used to compensate immediate energy shortage energy production. A multi-port based AC–DC and DC–DC converter and the, power routers are used as energy centers, are improve the stabilize energy flow between micro grids and the main grid. The power generation of the each and every renewable sources are monitored and controlled by the proposed substantial transformative energy management (STEM) strategy also the energy flow variation of the grid system is analyzed with the. This work demonstrates the role of energy routers in optimizing the efficient and flexible way of energy stabilization in grid system. This analysis model establishes the entire system, including power routers, interconnected microcircuits, and the main grid. Interconnected microcircuits were analyzed by various operating systems facilitated by power routers, and corresponding control strategies were developed. The simulation is performed on Mat lab/Simulink simulation platforms, and the results show the effectiveness especially in THD 2.52% is achieved and reliability of the control strategy for micro-grid interconnection and flexible energy flow correspondence.



中文翻译:

基于AC-DC / DC-DC混合多端口嵌入式能量路由器的电力系统稳态功率流优化,采用了重大的变革性能源管理策略

针对微电网及其相关能源的新颖且灵活的互连架构,该管理策略提出了对可再生能源发电量增长的应对措施。该系统的关键思想是使用多端口DC-DC转换器提高可再生能源的发电能力,可以使用能量路由器分析发电源和微电网系统之间的能量流。消耗方法可用于补偿立即的能源短缺能源生产。基于多端口的AC-DC和DC-DC转换器以及功率路由器用作能量中心,可改善微电网和主电网之间的稳定能量流。每种可再生能源的发电量均通过拟议的实质性转换能源管理(STEM)策略进行监控,并以此对电网系统的能量流变化进行了分析。这项工作演示了能量路由器在优化电网系统中高效而灵活的能量稳定方式中的作用。该分析模型建立了整个系统,包括电源路由器,互连的微电路和主电网。互连的微电路通过电源路由器支持的各种操作系统进行了分析,并开发了相应的控制策略。该仿真是在Mat lab / Simulink仿真平台上进行的,结果显示出了有效性,尤其是在THD 2中。

更新日期:2020-07-28
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