【电气工程学院】“Synchronized and Democratized (SYNDEM) Smart Grids: Next-Generation Smart Grids”

讲座标题:【电气工程学院】“Synchronized and Democratized (SYNDEM) Smart Grids: Next-Generation Smart Grids”

主讲人: 钟庆昌教授

讲座时间:2018-07-06 10:15:00

讲座地点:致远楼902

讲座语言:中文

主办单位:电气工程学院


讲座内容:

Power systems are going through a paradigm change. The centralized large facilities are being replaced by millions of widely dispersed non-synchronous relatively small renewable or alternative power plants, plug-in EVs, and energy storage units. Moreover, the majority of loads are expected to actively take part in the grid regulation in the same way as suppliers do. In this lecture, the system architecture, together with a technical route, to enable this paradigm change will be presented. It will be shown that the synchronization mechanism of conventional synchronous machines, which has underpinned the power systems for over 100 years, can continue playing its fundamental role in power systems. It will empower all power electronics-interfaced suppliers and loads to behave like virtual synchronous machines so that they can take part in the regulation of system frequency and voltage, in a synchronized and democratized (SYNDEM) manner. This will unify the integration and interaction of all players with the grid and harmonize power systems. It will also release the communication infrastructure from low-level control and open up the prospect of achieving autonomous operation for power systems. This holistic solution could considerably enhance the stability, scalability, operability, security, reliability and resiliency of the next-generation smart grid.



主讲人简介:

钟庆昌,博士,国家“千人计划“学者,IEEE Fellow,IET Fellow,美国伊利诺理工大学MaxMcGraw能源与电力首席教授。IEEE控制系统、电力与能源、电力电子三大学会杰出巡讲员,国际自动控制联合会(IFAC)电力与能源系统技术委员会副主席,IEEE控制与电力电子领域四大顶级期刊IEEE Trans. Automatic Control,IEEE Trans. Power Electronics,IEEE Trans. Industrial Electronics和IEEE Trans. Control Systems Technology编委,曾任英国谢菲尔德大学控制与系统工程首席教授、欧洲控制学会英国代表、美国FREEDM国家工程研究中心科学顾问,是国际上少数几位得到控制系统、电力电子和电力系统三大学科认可的知名专家之一,是虚拟同步机的主要发明人,提出了以同步机的同步机制来统一未来电网的接入以实现电力系统的接口统一、机理统一和全自主运行,取得了一系列原创性的研究成果。 欢迎感兴趣的老师和研究生参加!