Contrôle optimal d’échauffement du moteur dans les véhicules hybrides

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Samenvatting

An Internal Combustion Engine (ICE) under cold conditions experiences increased friction losses due to a high viscosity of the lubricant. With the additional control freedom present in hybrid electric vehicles, the losses during warmup can be minimized and fuel can be saved. In this paper, firstly, a control-oriented model of the ICE, describing the warmup behavior, is developed and validated on measured vehicle data. Secondly, the two-state, non-autonomous fuel optimization, for a parallel hybrid electric vehicle with stop-start functionality, is solved using optimal control theory. The principal behavior of the Lagrange multipliers is explicitly derived, including the discontinuities (jumps) that are caused by the constraints on the lubricant temperature and the energy in the battery system. The minimization of the Hamiltonian for this two-state problem is also explicitly solved, resulting in a computationally efficient algorithm. The optimal controller shows the fuel benefit, as a function of the initial temperature, for a long-haul truck simulated on the FTP-75.

Vertaalde titel van de bijdrageOptimal control of engine warmup in hybrid vehicles
Originele taal-2Frans
Artikelnummer14
Pagina's (van-tot)1-18
TijdschriftOil and Gas Science and Technology
Volume71
Nummer van het tijdschrift1
DOI's
StatusGepubliceerd - 22 jan. 2016

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