报告主题:On Smart Frequency Control
报告人:Prof.Vladimir Terzija
会议时间:12月7日 (周三) 14:00
会议地点:腾讯会议129-336-890
主办单位:重庆大学、输配电装备及系统安全与新技术国家重点实验室、重庆大学溧阳智慧城市研究院
协办单位:四川大学、电子科技大学、西南交通大学、成都理工大学、成都中医药大学、四川师范大学、西华大学、西南科技大学、西南大学、重庆邮电大学、重庆科技学院
Personal Profile:
Vladimir Terzija received the Dipl-Ing., M.Sc., and Ph.D. degrees in electrical engineering from the University of Belgrade, Belgrade, Serbia. He is a Full Professor at Skoltech, Moscow, Russian Federation. He is also a Distinguished Professor at Shandong University, Jinan, China. In the past, he has been with the University of Belgrade (Serbia). ABB (Germany) and The University of Manchester (UK). His research interests include smart grid applications; WAMPAC; power system protection: transient processes; data analytics and digital signal processing applications in power systems. Prof Terzija is Editor in Chief of the International Journal of Electrical Power and Energy Systems, Alexander von Humboldt Fellow, Fellow of IEEE and the recipient of the National Friendship Award (China).
Abstract:
Massive integration of converter interfaced generation, e.g. Type-3 and Type-4 wind generators, PV and battery storage systems, but also power electronics connected demand, is Significantly influencing power system dynamics. One of consequences is that the system is losing one of its important features: its inertia. The system inertia is becoming not only reduced, but also time variable. Consequently, power system frequency control is becoming a challenge, asking for new solutions, capable of making sure that frequency operational and statutory limits will not be breached during normal and faulty system conditions. In this lecture, a new PMU-based Smart Frequency Control scheme will be proposed. It has been implemented in Great Britain, as a result of a large scale demonstration project entitled Enhanced Frequency Control Capabilities, EFCC, led by National Grid, UK. The project had research elements. design and development challenges, as well as hardware in the loop testing activities making sure that the proposed wide area frequency control scheme will be successfully operating in real-time.
