Paper Title
Relocating of PHEVs Peak Load in Smart Grid Using Wind Power Output and Real Time Pricing as Objective Function
Abstract
Abstract - A stochastic model in Matlab is created on this paper to discover the impact of charging demand from plug-in hybrid electric-powered vehicles (PHEVs). Two styles of PHEVs are defined on this version: public transportation automobiles and private automobiles. For each sort of vehicle, a different charging time plan, charging velocity, and battery length are taken under consideration. When the penetration level of PHEVs keeps to upward thrust to 30% in 2030, the simulation findings show that there might be two load peaks (at noon and inside the night). As aresult, an optimization device is used to transport load peaks. Real-time pricing and wind power output information are used in this optimization approach. The energy allocated to each automobile might be managed with the assistance of a smart grid. As a result, this optimization can be capable of attain the intention of relocating load peaks to valley areas with low real-time prices and strong wind output..
Keywords - PHEVs, Stochastic model, State of charge, Real-time price, Smart grid,