香港今晚开现场直播

En
  • 足彩竞猜网香港今晚开现场直播
    官方微信公众号
    足彩竞猜网香港今晚开现场直播本科生
    官方微信公众号
    足彩竞猜网香港今晚开现场直播研究生
    官方微信公众号
    足彩竞猜网香港今晚开现场直播校友会
    官方微信公众号
    足彩竞猜网能源互联网创新研究院
    官方微信公众号
    香港今晚开现场直播四川能源互联网研究院
    官方微信公众号

香港今晚开现场直播:

香港今晚开现场直播微信公众号

香港今晚开现场直播:

校友微信公众号

香港今晚开现场直播:

研究生微信公众号

香港今晚开现场直播:

本科生微信二维码

香港今晚开现场直播:

北京院微信公众号

香港今晚开现场直播:

四川院微信公众号

香港今晚开现场直播: 本系动态

香港今晚开现场直播: “双创”专栏

当前位置: 首页 > 本系动态 > “双创”专栏 > 正文

报告题目:Future Electronic Power Systems – A Virginia Tech Perspective

报告人: Dr. Dushan Boroyevich

University Distinguished Professor

Director of Center for Power Electronics Systems (CPES)

Virginia Tech, Blacksburg, Virginia, U.S.A.

报告时间: 2017-11-2 9:30

报告地点: 西主楼2区203

联系人: 肖 曦

简介:Dushan Boroyevich received his Dipl. Ing. degree from the University of Belgrade in 1976 and his M.S. degree from the University of Novi Sad in 1982, in what then used to be Yugoslavia. He received his Ph.D. degree in 1986 from Virginia Polytechnic Institute and State University (Virginia Tech), Blacksburg, USA. From 1986 to 1990, he was an assistant professor and director of the Power and Industrial Electronics Research Program in the Institute for Power and Electronic Engineering at the University of Novi Sad. He then joined the Bradley Department of Electrical and Computer Engineering at Virginia Tech as associate professor. He is now University Distinguished Professor and Associate Vice President for Research and Innovation in Energy Systems at Virginia Tech, and Director of CPES.

Abstract – After a decade of premonition, it is becoming increasingly clear that the future human energy needs will be dominantly provided by electricity provided by renewable and distributed generation and delivered over electronic power “pipelines”. Moreover, modern electronic power distribution systems built for airplanes, ships, road and off-road vehicles, data-centers, industrial processes, and buildings, often comprise hundreds of electronic power converters, which is already challenging our basic understanding about how power systems are designed and operated. In order not only to cope with the trend, but to guide it instead, it is essential to develop innovative electronic power system architectures, new control concepts for the solid-state power substations, and methods that allow improved system integration and assessment of dynamic interactions.

—— 分享 ——

香港今晚开现场直播:上一篇:Toward Next Generation Tools for Modeling and Analysis of Evolving Energy Conversion Systems

香港今晚开现场直播:下一篇:Development of Power Quality Analyzing Platforms

关闭

香港今晚开现场直播电子有限公司