Energies (Apr 2024)

The Electrochemical Commercial Vehicle (ECCV) Platform

  • Max Johansson,
  • Arnaud Contet,
  • Olof Erlandsson,
  • Robin Holmbom,
  • Erik Höckerdal,
  • Oskar Lind Jonsson,
  • Daniel Jung,
  • Lars Eriksson

DOI
https://doi.org/10.3390/en17071742
Journal volume & issue
Vol. 17, no. 7
p. 1742

Abstract

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Several technological challenges delay the adoption of electrified powertrains in the heavy-duty transport sector. For fuel-cell hybrid electric trucks, key issues include slow cold start, reduced cooling power during high ambient temperatures, and uncertainties regarding durability. In addition, the engineers must handle the complexity of the system. In this article, a Matlab/Simulink library is introduced, which has been developed to aid engineers in the design and optimization of energy management systems and strategies of this complex system that consider mechanical, electrochemical, and thermal energy flows. The library is introduced through five example vehicle models, and through case studies that highlight the various kinds of analysis that can be performed using the provided models. All library code is open source, open for commercial use, and runs in Matlab/Simulink without any need for external libraries.

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