%0 Journal Article
%T Open Issues in Supervisory Control of Hybrid Electric Vehicles: A Unified Approach Using Optimal Control Methods Questions ouvertes sur la supervision ¨¦nerg¨¦tique des v¨¦hicules hybrides ¨¦lectriques : une approche unifi¨¦e par la th¨¦orie de la commande optimale
%A Serrao L.
%A Sciarretta A.
%A Grondin O.
%A Chasse A.
%J Oil & Gas Science and Technology
%D 2013
%I Institut Fran?ais du P¨¦trole
%R 10.2516/ogst/2012080
%X Energy management of hybrid propulsion systems is considered, presenting new issues that extend the energy management role beyond the standard torque splitting to maximize system efficiency. The new issues include additional optimization criteria, constraints and relevant dynamics to deal with. New optimization criteria in addition the sole fuel consumption minimization include engine-out pollutant emissions and battery aging. State constraints are modified to account for plug-in hybrid vehicles. Moreover, specific supervisory control problems are recognized to need additional state variables. The latter comprise: engine and catalyst temperature to deal with engine warm-up effects on fuel consumption and after-catalyst emissions; thermal dynamics of heat recovery systems (Rankine or Thermo-Electric Generators, TEGs); and battery temperature, which influences battery performance and aging. It is shown that all these control problems can be treated in an unified fashion by extending the well-known ECMS (Equivalent Consumption Minimization Strategy), which is an implementation of Pontryagin Minimum Principle (PMP) as formulated by optimal control theory. Extended definitions of the Hamiltonian function and Lagrange multipliers are introduced. Optimization runs performed off line are reported. Results show the benefits of the proposed unified approach and enlighten some first online implementation issues. Cet article a pour objet la gestion optimale de l¡¯¨¦nergie pour un syst¨¨me de propulsion hybride. Le probl¨¨me traditionnel de r¨¦partition de la puissance est modifi¨¦ avec des nouveaux objectifs d¡¯optimisation et des nouvelles contraintes. Les nouveaux objectifs d¡¯optimisation incluent les ¨¦missions de polluants et le vieillissement de la batterie. Les contraintes sont modifi¨¦es pour prendre en compte des batteries ¨¤ recharge externe (hybrides plug-in). De plus, des probl¨¨mes sp¨¦cifiques sont trait¨¦s avec une mod¨¦lisation plus d¨¦taill¨¦e, qui comprend : les dynamiques thermiques du moteur ¨¤ combustion interne et du catalyseur, pour prendre en compte les effets du d¨¦marrage ¨¤ froid; les dynamiques thermiques des syst¨¨mes de r¨¦cup¨¦ration de la chaleur ¨¤ l¡¯¨¦chappement; la temp¨¦rature de la batterie, qui a un effet sur ses performances et son vieillissement. L¡¯article montre comment tous ces probl¨¨mes peuvent ¨ºtre trait¨¦s de fa on coh¨¦rente avec une extension de l¡¯approche ECMS (Equivalent Consumption Minimization Strategy, ou strat¨¦gie de minimisation de la consommation ¨¦quivalente), qui est une impl¨¦mentation du principe du minimum de Pontryagin formul¨¦ dans la
%U http://dx.doi.org/10.2516/ogst/2012080