Andrea Altomonte, A. Bracale, P. Caramia, P. De Falco, G. Di Ilio, L. D. di Noia, E. Jannelli, R. Rizzo
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Time-Domain Modeling and Simulation of a Fuel Cell Hybrid Truck Powertrain Operating in Port Logistics
The implementation of cleaner technology in the propulsion of heavy-duty vehicles can contribute reducing the environmental impact of the port-logistic industry. This paper provides an analysis and a time-domain simulation of the power unit in a hybrid fuel cell/battery truck equipped with an electric motor for propulsion. The energy management strategy that rules the powertrain energy flows is implemented by means of a numerical simulation and within the time-domain simulator, that allows evaluating not only the energy variables but also the time behavior of several electric variables that are of particular concern in the real-world development of the truck. The assessment of the experimental results evidences a substantial agreement between the numerical and the time-domain simulations. Moreover, the strategy and/or the control systems may be further refined based on the mitigation of the fluctuations of the electric variables.
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