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FlexAbility - Modeling and Maximizing the Bidirectional Flexibility Availability of Unidirectional Charging of Large Pools of Electric Vehicles

Jonas Schlund, Marco Pruckner, Reinhard German

202030 citationsDOIOpen Access PDF

Abstract

We propose a new methodology for modeling flexibility availability (FlexAbility) of decentralized electric loads, e.g., electric vehicle charging, with an intuitive visualization method. The approach includes a novel method for aggregating and disaggregating flexibility that is more accurate and less complex than existing approaches. In addition, it is suitable for online flexibility determination and dispatch. It is the first which enables to consider a total energy constraint per individual load. We enable the determination of guaranteed aggregated FlexAbility over a time horizon by means of calculating flexibility dispatch paths. We then propose a method for maximizing the bidirectional power flexibility of unidirectional charging for generic applications in the power grid. We combine both new methods in a simulation model of electric vehicles with realistic mobility behavior. We are the first to provide an evaluation of the bidirectional power flexibility from unidirectional charging of electric vehicles, which is found to be bounded by the minimal capability to decrease charging power. We show that there is a trade-off between power and energy flexibility. Today, 20 thousand of the typical electric vehicles in Germany are able to keep bidirectional power flexibility of at least 1.3 MW available during a whole year. The general modeling approach is applicable for other flexible loads with flexible profiles and a total energy constraint as well.

Topics & Concepts

Flexibility (engineering)Computer scienceConstraint (computer-aided design)Electric vehicleGridPower (physics)Electric power systemElectric powerAutomotive engineeringDistributed computingEngineeringMathematicsMechanical engineeringPhysicsGeometryStatisticsQuantum mechanicsElectric Vehicles and InfrastructureAdvanced Battery Technologies ResearchSmart Grid Energy Management
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