报告形式:信息楼7003全讯白菜网310报告厅、腾讯会议
报 告 人:横山隆一(Ryuichi Yokoyama),日本早稻田大学(Waseda University)教授
报告主题:Control and Optimization Technology for Renewable Energy
(一)
报告时间:5月11日(星期二)14:30 – 16:00
会 议 ID:246 709 775
主要内容:
1. Resilient and Expandable Networked Microgrid and Technical Issues
(1)Resilient and Expandable Networked Microgrid
(2)Influence on Power System under Large Scale Installation of Inverter-Driven Sustainable Energy
(3)Load-following Performance of Distributed Generators in Networked Microgrid
(4)Future Prospect of Networked Microgrid
2. The Role of Large Scale Battery Storage for Practical Use of Sustainable Energy in Micro Grid
(1)Electrical Energy Storage for Efficient Use of Sustainable Energy for Stable Power Supply
(2)Features and Usage of Energy Storage Systems in Power System Operation
(3)Capacity and Characteristics of Large Scale Energy Storage Systems
(4)The Role of Battery Energy Storage System in Power System operation
(5)Practical Applications of Battery Energy Storage System in Microgrid
(二)
报告时间:5月12日(星期三)14:30– 16:00
会 议 ID:915 436 263
主要内容:
1. Advanced Inverter Technology and Issues in Application to Micro Grids
(1)Role of Power Electronic Devices and Fundamental Structures
(2)Configuration and Control Scheme of Power Electronics Conversion
(3)Operation under combination of Inverter and Synchronous Generator in Microgrid
(4)Application Fields of Inverter Control and Future Prospects
(5)Application of Inverter Control to Microgrids
2. Per Unit System for Electric Power Flow Analysis
(1)Features and Benefits of The Per Unit System
(2)Extension of the Per Unit System to for 3-phase systems
(3)The Per Unit System for Transformers
(4)Summary of The Per Unit System
(三)
报告时间:5月18日(星期二)14:30 – 16:00
会 议 ID:839 792 854
主要内容:
1. Formulation and Solution of Electric Power Flow Analysis
(1)Objectives and Features of Power System Analysis
(2)Solution of Power Flow Problem by The Newton–Raphson Method
(3)Solution of Power Flow Problem by The Direct Current Method
(4)Summary of Power Flow Analysis
(5)Application of Power Flow Analysis to Actual Power System
2. Resilient and Autonomous Community for Future Infrastructure in The New Normal Life
(1)Damages of Infrastructures by Natural Disasters
(2)Future Grids for Stable and Sustainable Power Supply
(3)Resilient and Autonomous Microgrids for Natural Disasters and Restorations
(4)Impacts of COVID on GDP, Energy Demand and Emissions
(5)Resilient and Autonomous Community in The New Normal Life
(6)Prospects of Future Social Infrastructure and Resilient and Autonomous Community
(7)Microgrid Designer Objectives, Features and Input/output
报告人简介:Ryuichi Yokoyama (Life Fellow of IEEE) received the degrees of B.S., M.S., and Ph.D. in electrical engineering from Waseda University, Tokyo, Japan, in 1968, 1970, and 1974 respectively. After working in Mitsubishi Research Institute, from 1978 through 2007, he was a professor in the Faculty of Technology of Tokyo Metropolitan University. Since 2007, he had been a professor of the Graduate School of Environment and Energy Engineering in Waseda University. His fields of interests include planning, operation, control and optimization of large-scale environment and energy systems, and economic analysis and risk management of deregulated power markets. Now, he is a Professor Emeritus of Waseda University, a Life Fellow of IEEE, a Senior Life Member of IEE of Japan, a member of CIGRE. He is also Chairmen of Standardization Commissions of Electric Apparatus in METI Japan. He is a President of Consortium of Power System Technology of Japan and CEO of the Energy and Environment Technology Research Institute.