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Joint Design and Control of Electric Vehicle Propulsion Systems

Frans Verbruggen, Mauro Salazar, Marco Pavone, Théo Hofman

202027 citationsDOIOpen Access PDF

Abstract

This paper presents models and optimization methods for the design of electric vehicle propulsion systems. Specifically, we first derive a bi-convex model of a battery electric powertrain including the transmission and explicitly accounting for the impact of its components' size on the energy consumption of the vehicle. Second, we formulate the energy-optimal sizing and control problem for a given driving cycle and solve it as a sequence of second-order conic programs. Finally, we present a real-world case study for heavy-duty electric trucks, comparing a single-gear transmission with a continuously variable transmission (CVT), and validate our approach with respect to state-of-the-art particle swarm optimization algorithms. Our results show that, depending on the electric motor technology, CVTs can reduce the energy consumption and the battery size of electric trucks between up to 10%, and shrink the electric motor up to 50%.

Topics & Concepts

PowertrainElectric motorAutomotive engineeringElectric vehicleSizingEnergy consumptionTruckComputer scienceParticle swarm optimizationBattery (electricity)Electrically powered spacecraft propulsionPropulsionElectric machineContinuously variable transmissionTransmission (telecommunications)EngineeringTorqueElectrical engineeringAlgorithmStatorAerospace engineeringPhysicsVisual artsThermodynamicsArtPower (physics)Quantum mechanicsTelecommunicationsElectric Vehicles and InfrastructureElectric and Hybrid Vehicle TechnologiesAdvanced Battery Technologies Research