主讲人:李运帷
讲座时间:2024-05-14 14:00:00
讲座地点:杨浦校区电工场会议室
主讲人简介:
Dr. Yunwei (Ryan)Li is currently a University of Alberta Senior Engineering Research Chair and Chair of the Department of Electrical and Computer Engineering. Dr. Li received the Ph.D. degree from Nanyang Technological University, Singapore. Dr. Li was a Visiting Scholar with the Aalborg University, Denmark in 2005, and a Postdoctoral Research Fellow at Ryerson University, Canada 2006 - 2007. In 2007, he also worked at Rockwell Automation Canada before joined University of Alberta. His research interests include PWM and control of power electronics in distributed generation, microgrid, renewable energy, and electric motor drives. His research has produced more than 450 papers with over 24,000 citations.
Dr. Li is currently the Vice President for Products of IEEE Power Electronics Society (PELS). He was the Editor-in-Chief for IEEE Transactions on Power Electronics Letters 2019-2023. Prior to that, he was Associate Editor for IEEE Transactions on Power Electronics, IEEE Transactions on Industrial Electronics, IEEE Transactions on Smart Grid, and IEEE Journal of Emerging and Selected Topics in Power Electronics. Dr. Li served as the general chair of IEEE Energy Conversion Congress of Exposition (ECCE) in 2020. Dr. Li received the Nagamori Foundation Award in 2022 and the Richard M. Bass Outstanding Young Power Electronics Engineer Award from IEEE PELS in 2013. He is a Fellow of Canadian Academy of Engineering, a Fellow of IEEE and recognized as the Clarivate Highly Cited Researcher.
讲座内容:
In recent years, there is a rapid advancement of power electronics technologies and their industry applications. This development is particularly crucial to meet the pressing demands of distributed energy resources (DER), including renewable energy integrations, energy storage systems, and electric vehicles. In these applications, innovations in power electronic converter topologies and operational strategies can result in higher efficiency, improved reliability, and reduced physical footprint. Power electronics technologies play a vital role in addressing challenges within today's grids, encompassing energy management, system reliability, and efficient energy conversion. This presentation will specifically focus on recent advancements that tackle these challenges. It will cover various aspects, such as converter topology, design, and advanced control methods, including model predictive control and multi-rate-based techniques suitable for the high switching frequency of WBG-based power converters. Furthermore, it will explore the development of innovative topologies and modulation approaches inspired by graph theory-based methodologies.