This paper addresses the modeling control and simulation of a power-split hybrid propulsion system for driving a Wheel Loader. The modeling is performed exploiting the Power-Oriented Graphs (POG) graphical modeling technique. The main elements involved in the system are: an ICE (Internal Combustion Engine), two PMSMs (Permanent Magnet Synchronous Motors) controlled using a vectorial control and powered by a DC bus, a planetary gear set, a DC/DC converter, a supercapacitor acting as energy storage device and the transmission system of the vehicle, including all the physical elements from the gearbox to the vehicle wheels. A control strategy aiming at reducing the ICE operating point fluctuations caused by the transmission load and minimizing the ICE specific fuel consumption is proposed. Simulation results with reference to a typical driving cycle for this type of vehicle are finally presented and commented in detail.
Modeling Control and Simulation of a Power-Split Hybrid Wheel Loader / Tebaldi, Davide; Zanasi, Roberto. - (2021), pp. 465-471. (Intervento presentato al convegno 29th Mediterranean Conference on Control and Automation, MED 2021 tenutosi a Puglia, Italy nel 22-25 June 2021) [10.1109/MED51440.2021.9480213].
Modeling Control and Simulation of a Power-Split Hybrid Wheel Loader
Davide Tebaldi
;Roberto Zanasi
2021
Abstract
This paper addresses the modeling control and simulation of a power-split hybrid propulsion system for driving a Wheel Loader. The modeling is performed exploiting the Power-Oriented Graphs (POG) graphical modeling technique. The main elements involved in the system are: an ICE (Internal Combustion Engine), two PMSMs (Permanent Magnet Synchronous Motors) controlled using a vectorial control and powered by a DC bus, a planetary gear set, a DC/DC converter, a supercapacitor acting as energy storage device and the transmission system of the vehicle, including all the physical elements from the gearbox to the vehicle wheels. A control strategy aiming at reducing the ICE operating point fluctuations caused by the transmission load and minimizing the ICE specific fuel consumption is proposed. Simulation results with reference to a typical driving cycle for this type of vehicle are finally presented and commented in detail.
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