Article: Control variable optimisation for an extended range electric vehicle Journal: International Journal of Powertrains (IJPT) 2016 Vol.5 No.1 pp.30 - 54 Abstract: A dynamic programming-based algorithm is used for off-line optimisation of control variables of a series-parallel extended range electric vehicle powertrain. The aim is to minimise the fuel and/or electricity consumption, subject to battery state-of-charge constraints and physical limits of different powertrain variables. The optimised control variables include engine torque and electric machine speed, as well as a variable that selects the powertrain operating mode defining the state of powertrain clutches. The optimisation results are presented for four characteristic certification driving cycles and different vehicle operating regimes including electric driving during charge depleting (CD) regime, hybrid driving during charge sustaining (CS) regime, and combined/blended regime. The emphasis is on the blended regime and a related analysis of fuel saving potential when compared to the CD-CS regime. The optimisation results are used to provide recommendations for design of a realistic (online) control strategy that is a subject of another publication. Inderscience Publishers - linking academia, business and industry through research

Title: Control variable optimisation for an extended range electric vehicle

Authors: Mihael Cipek; Branimir Škugor; Mirko Čorić; Josip Kasać; Joško Deur

Addresses: Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, I. Lučića 5, HR-10002 Zagreb, Croatia ' Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, I. Lučića 5, HR-10002 Zagreb, Croatia ' Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, I. Lučića 5, HR-10002 Zagreb, Croatia ' Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, I. Lučića 5, HR-10002 Zagreb, Croatia ' Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, I. Lučića 5, HR-10002 Zagreb, Croatia

Abstract: A dynamic programming-based algorithm is used for off-line optimisation of control variables of a series-parallel extended range electric vehicle powertrain. The aim is to minimise the fuel and/or electricity consumption, subject to battery state-of-charge constraints and physical limits of different powertrain variables. The optimised control variables include engine torque and electric machine speed, as well as a variable that selects the powertrain operating mode defining the state of powertrain clutches. The optimisation results are presented for four characteristic certification driving cycles and different vehicle operating regimes including electric driving during charge depleting (CD) regime, hybrid driving during charge sustaining (CS) regime, and combined/blended regime. The emphasis is on the blended regime and a related analysis of fuel saving potential when compared to the CD-CS regime. The optimisation results are used to provide recommendations for design of a realistic (online) control strategy that is a subject of another publication.

Keywords: extended range electric vehicles; EREVs; dynamic programming; control variables; optimisation; analysis; blended mode; fuel consumption; electricity consumption; battery state-of-charge; SoC; powertrain variables; engine torque; electric machine speed; powertrain clutches; powertrain operating mode; fuel saving.

DOI: 10.1504/IJPT.2016.075183

International Journal of Powertrains, 2016 Vol.5 No.1, pp.30 - 54

Accepted: 14 May 2015
Published online: 06 Mar 2016 *

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Title: Control variable optimisation for an extended range electric vehicle

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