Integrating Fuel Cell, Battery, and Supercapacitors in Hybrid Electric Vehicles: Modeling, Control, and Hardware-in-the-Loop Considerations

Jodie, Edith, Juliette Rerat

Integrating Fuel Cell, Battery, and Supercapacitors in Hybrid Electric Vehicles: Modeling, Control, and Hardware-in-the-Loop Considerations.

Rel. Angelo Bonfitto. Politecnico di Torino, Corso di laurea magistrale in Automotive Engineering (Ingegneria Dell'Autoveicolo), 2023

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Abstract

To meet the sustainability goals set by the European parliament by 2050 and attain the so-called "net-zero" emissions standard, the automotive industry will need to walk away from traditionally combustion-powered vehicles and develop alternative hybrid powertrains to propel private and commercial vehicles alike. In particular, hydrogen-powered vehicles have a lot of potential, in particular if combined to a battery to palliate the slow dynamics of a fuel cell. However, the production of batteries is resource-intensive and their life cycle can be significantly shortened depending on the use case. In this thesis, a model of a fuel cell electric hybrid light-duty vehicle has been proposed, with the fuel cell paired in series with a downsized battery with respect to the battery-only version.

To determine the power delivered by the fuel cell stack to the battery, two types of energy management strategies have been defined, a rule-based control with two working modes and a formulation-based strategy depending on the state of charge of the battery and a tuning factor, optimized with the bisection method