Challenges in Grid Integration of Electric Vehicles in Urban and Rural Areas
Jakob Gemassmer, Carolin Daam, Ricardo Reibsch
Abstract
The ramp-up of battery electric vehicles (BEVs) could lead to severe grid issues but also enables flexibility. This paper provides a better understanding of the challenges and potentials of integrating BEVs in power grids. Three charging strategies were modelled on four use cases and six low-voltage grids for urban and rural areas. Especially in rural areas, where many cars charge at home overnight, the charging strategy significantly affects grid issues. Purely market-oriented strategies can lead to high load peaks and thus to transformer and line overloading, while even a relatively simple, balanced charging strategy can significantly reduce grid issues.
Topics & Concepts
GridFlexibility (engineering)TransformerBattery (electricity)Automotive engineeringVoltagePower gridComputer scienceElectricityEnvironmental economicsElectrical engineeringBusinessPower (physics)EngineeringEconomicsGeographyManagementQuantum mechanicsGeodesyPhysicsElectric Vehicles and InfrastructureAdvanced Battery Technologies ResearchMicrogrid Control and Optimization