Resilient and Reconfigurable Distribution Systems Using Dynamic Microgrids with Cross-Layer Interdependencies in Cyber and Physical Networks is coming at 11/04/2019 - 4:00pm
Gilfillan Auditorium Mon, 11/04/2019 - 4:00pm Xiaonan Lu Assistant Professor, College of Engineering, Temple University Abstract: Grid modernization has raised the increasing interests in power system resiliency enhancement. As the penetration level of distributed energy resources (DERs) increases rapidly, a distribution grid, as the active and most significant ‘grid-edge’ for DER integration, plays a crucial role to bridge the grid backbone (i.e., transmission system) to the end-users. A resilient, stable and secure distribution system is urgently needed to modernize electric grids and ensure operation continuity. As an effective entity of integrating DERs and local loads, microgrids have been widely deployed in modern distribution grids. In addition to single and individual microgrids, networked and dynamic microgrids with controllable and effective interconnections have been deployed and studied to advance resiliency enhancement, especially for critical infrastructures. Given the information exchange to ensure stable control and physical interactions between neighboring microgrids, networked and dynamic microgrids can be regarded as coupled cyber and physical systems with interdependencies across layers. In this presentation, a cross-layer and resilient control framework of networked and dynamic microgrids with stability guarantees will be discussed. Particular examples and use cases will also be introduced to verify the proposed control framework. Bio: Read more: http://eecs.oregonstate.edu/colloquium/resilient-and-reconfigurable-dist... [1] [1] http://eecs.oregonstate.edu/colloquium/resilient-and-reconfigurable-distribution-systems-using-dynamic-microgrids-cross-layer
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