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智能制造学院学术讲座

发布者: 发布日期:2024年04月03日 10:33 浏览次数:


报告题目

To decentralized or to distributed That is the   question---A case study on the DC microgrid secondary control

  

郭方洪 副教授

报告时间

2024410日下午200330

报告地点

智能制造学院S-531会议室

告人简介:郭方洪,博士,副教授,浙江工业大学信息工程学院自动化系主任。曾在南洋理工大学劳斯莱斯联合实验室、新加坡科技局智能电网实验中心从事微电网能量管理相关研究工作。目前研究方向是微电网分布式控制与优化、能源工业互联网等。主持国家基金项目2项,浙江省“领雁”研发攻关项目1项,企业委托横向项目10余项。目前以第一作者身份出版中英文专著各一部,发表SCI收录论文60篇,授权专利20余件。入选斯坦福大学20222023年度全球前2%顶尖科学家榜单、浙江省高校领军人才培养计划(青年优秀人才)。曾获得中国自动化学会科技进步一等奖、浙江省科学技术进步三等奖。目前任国际期刊IEEE Transactions on Industrial Electronics杂志编委、中国自动化学会能源互联网专委会委员。

报告内容简介:Currently, several secondary control strategies including   centralized, decentralized and distributed control have been proposed to   solve the secondary voltage restoration and power sharing problem in DC   microgrids. However, each strategy has its own merits and demerits. How to   enjoy their merits and avoid their demerits is an interesting but challenging   problem. In this talk, a first attempt on designing a decentralized   cluster-based distributed secondary control strategy is made towards the goal   of accurate voltage restoration and power sharing. Specifically, we divide   all the distributed generators (DGs) into several clusters. Then, for DGs   within the same cluster, a distributed finite-time control approach is   proposed; while no information exchange is involved among different clusters.   Thus, all the distributed controls of different clusters are totally   decentralized. If each cluster has only one DG, our proposed control strategy   reduces to the existing decentralized approaches, while the case of one   cluster boils down to distributed control. Rigorous theoretical analysis for   such control strategy is given. Compared to existing methods, our proposed   strategy has better transient and steady-state performance than purely   decentralized one and better robustness than distributed one. The proposed   method is validated in an experimental test system built in OPAL-RT.

 

承办单位

智能制造学院

发布日期

2023.4.03

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