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Energy management algorithm based on average power demand prediction for plug-in hybrid electric trucks

Νικόλαος Αλετράς, Stijn Broekaert, Evangelos Bitsanis, Georgios Fontaras, Zissis Samaras, Leónidas Ntziachristos

2023Energy Conversion and Management11 citationsDOIOpen Access PDF

Abstract

This paper examines potential fuel consumption savings through the implementation of a predictive equivalent consumption minimisation strategy, as a control algorithm in the energy management system of hybrid heavy-duty vehicles. A plug-in hybrid electric truck simulation model was developed as a demonstrator and was validated with experimental data. The baseline vehicle model was based on the same algorithm as VECTO, which is further extended in the current study by novel factors that contain the average predicted power demand. The potential benefits of the proposed algorithm are examined for different heavy-duty categories over regulatory mission profiles in both charge-sustain and charge-depletion modes. The results show that the fuel consumption can be reduced by up to 5.9 % and 4.4% in charge sustaining and charge depleting modes, respectively, depending on the mission profile. If such an algorithm is adopted by commercial vehicles, this could lead to substantial CO2 and fuel consumption savings on the road.

Topics & Concepts

TruckPlug-inAutomotive engineeringFuel efficiencyHeavy dutyEnergy managementEngineeringEnergy consumptionElectric energy consumptionPower consumptionPower (physics)AlgorithmComputer scienceSimulationElectric energyEnergy (signal processing)Electrical engineeringMathematicsQuantum mechanicsStatisticsProgramming languagePhysicsAdvanced Battery Technologies ResearchElectric Vehicles and InfrastructureElectric and Hybrid Vehicle Technologies
Energy management algorithm based on average power demand prediction for plug-in hybrid electric trucks | Litcius