Article: Energy management strategy design and fuel consumption analysis for a parallel hydraulic hybrid vehicle Journal: International Journal of Heavy Vehicle Systems (IJHVS) 2024 Vol.31 No.2 pp.187 - 209 Abstract: In this paper, the energy saving benefits of a parallel hydraulic hybrid vehicle (PHHV) are investigated. The vehicle powertrain components such as engine, hydraulic pump/motor (HPM) and accumulator are modelled to demonstrate the PHHV powertrain working principle. The optimal fuel economy of the PHHV is obtained by dynamic programming (DP) optimisation. Based on the DP optimisation results, a practical rule based energy management strategy (EMS) is designed with which the PHHV fuel economy in real application is investigated, including gear shift schedule and regenerative braking control strategy. Through simulation under a selected urban driving condition, PHHV achieves fuel consumption reduction by 27.5% compared to the conventional engine driven vehicle, which proves that the PHHV achieves significant energy saving benefits. PHHV consumes only 1.5% more fuel with the rule based EMS than the DP optimisation, indicating the effectiveness and practicality of the rule based EMS in urban driving conditions. Inderscience Publishers - linking academia, business and industry through research

Title: Energy management strategy design and fuel consumption analysis for a parallel hydraulic hybrid vehicle

Authors: Shilei Zhou; Paul Walker; Weiwei Yang; Cong Thanh Nguyen; Nong Zhang

Addresses: Faculty of Engineering and Information Technology, University of Technology Sydney, 15 Broadway, Ultimo, 2007, NSW, Australia ' Faculty of Engineering and Information Technology, University of Technology Sydney, 15 Broadway, Ultimo, 2007, NSW, Australia ' School of Mechanical Engineering, University of Science and Technology Beijing, 30 Xueyuan Road, Haidian District, 100083, Beijing, China ' Faculty of Engineering and Information Technology, University of Technology Sydney, 15 Broadway, Ultimo, 2007, NSW, Australia ' Faculty of Engineering and Information Technology, University of Technology Sydney, 15 Broadway, Ultimo, 2007, NSW, Australia

Abstract: In this paper, the energy saving benefits of a parallel hydraulic hybrid vehicle (PHHV) are investigated. The vehicle powertrain components such as engine, hydraulic pump/motor (HPM) and accumulator are modelled to demonstrate the PHHV powertrain working principle. The optimal fuel economy of the PHHV is obtained by dynamic programming (DP) optimisation. Based on the DP optimisation results, a practical rule based energy management strategy (EMS) is designed with which the PHHV fuel economy in real application is investigated, including gear shift schedule and regenerative braking control strategy. Through simulation under a selected urban driving condition, PHHV achieves fuel consumption reduction by 27.5% compared to the conventional engine driven vehicle, which proves that the PHHV achieves significant energy saving benefits. PHHV consumes only 1.5% more fuel with the rule based EMS than the DP optimisation, indicating the effectiveness and practicality of the rule based EMS in urban driving conditions.

Keywords: hydraulic hybrid vehicle; EMS; energy management strategy; regenerative braking; fuel economy analysis; dynamic programming.

DOI: 10.1504/IJHVS.2024.137248

International Journal of Heavy Vehicle Systems, 2024 Vol.31 No.2, pp.187 - 209

Received: 08 Mar 2021
Accepted: 02 Aug 2021
Published online: 07 Mar 2024 *

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Title: Energy management strategy design and fuel consumption analysis for a parallel hydraulic hybrid vehicle

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