Panel: İklim Değişikliği ve Enerji: Etkiler, Çözümler ve Politikalar
Driving Forces Of Economic Growth - A New Theory of Metabolic Growth by Ping Chen
Towards Optimal Real-Time Demand Dispatch in Smart Grids - Seminar by: Dr. Sumit Paudyal
Abstract: With the implementation of Smart Grid technologies, such as sensors, smart meters, smart appliances, more than one-fourth of the US total electricity demand could be dispatchable [1, 2]. Coordinated demand dispatch of customers' loads provides benefits to the customers and the grid both.
A complete demand dispatch solution that benefits the customers and the grid involves a large scale optimization problem with underlying complex transmission and distribution grid models. A centralized approach to solve this problem is computationally involving in a practical sized grid with the consideration of comprehensive customer load models and the grid models that include discrete control variables. A practical way to solve this problem is to use hierarchical and distributed computing approaches, where information exchange occurs between the different levels in the hierarchy.
This talk presents hierarchical framework to i) optimally dispatch electric vehicle (EV) loads in vehicle-to-grid interaction (V2G) and ii) optimally dispatch commercial building loads in building-to-grid (B2G) interaction. The case studies demonstrate the benefits of optimal demand dispatch of EV and building loads to the customers and distribution grid operation.
 DOE. Building to Grid Technical Opportunities: Introduction and Vision.
 National Energy Technology Laboratory. Demand Dispatch -Intelligent Demand for a More Efficient Grid. August 2011.