Seite - 56 - in Emerging Technologies for Electric and Hybrid Vehicles

Energies 2017,10, 1217 withdifferentarchitectures toobserve the integrationscenarioofwindenergywithEVassistance. Figure63demonstrates integrationofwindandsolar farmwithconventionalcoalandnuclear powergridwithEVchargingstationemployingbidirectionalV2G.Table27showsthetypesof assistanceEVscanprovide for integratingrenewableenergysources to thegrid. Figure63.Windandsolar integration in thegridwith thehelpofEVinV2Gsystem.TSOstandsfor transmissionsystemorganization;DSOfordistributionsystemorganization;T1toT4represent the transformerscouplingthegeneration, transmission,anddistributionstages [117]. Table27.Scopesofassistingrenewableenergysource (RES) integrationusingEV.Adaptedfrom[1]. InteractionwithRES FieldofApplication Contribution SolarPV Smarthome • ImplementationofPVandEVinsmarthometo reduceemission • Developmentofstand-alonehomeEVchargerbased onsolarPVsystem • Developmentof futurehomewithuninterruptable powerby implementingV2GwithsolarPV Parking lot • AnalysisofEVchargingusingsolarPVat parking lots • Schedulingofcharginganddischargingfor intelligentparking lot Griddistributionnetwork • Assessmentofpowersystemperformancewith integrationofgridconnectedEVandsolarPV • DevelopmentofEVchargingcontrol strategyforgrid connectedsolarPVbasedchargingstation • Developmentofoptimizationalgorithmtocoordinate V2Gservices Microgrid • Developmentofgenerationschedulingformicrogrid consistingofEVandsolarPV Windturbine Griddistributionnetwork • DeterminationofEVinteractionpotentialwithwind energygeneration • DevelopmentofV2Gsystemstoovercomewind intermittencyproblems Microgrid • Developmentofcoordinatingalgorithmforenergy dispatchingofV2Gandwindgeneration 56