Title: Simulation and design of a kit for the electrification of a light tricycle truck
Authors: Luca Pugi; Matteo Giglioli; Lorenzo Berzi; Edoardo Locorotondo; Alessandro Pretto
Addresses: DIEF, Department of Industrial Engineering, Via Di Santa Marta 3, 50139 Florence, Italy ' DIEF, Department of Industrial Engineering, Via Di Santa Marta 3, 50139 Florence, Italy ' DIEF, Department of Industrial Engineering, Via Di Santa Marta 3, 50139 Florence, Italy ' DIEF, Department of Industrial Engineering, Via Di Santa Marta 3, 50139 Florence, Italy ' Pretto Group SRL, Via Cagliari, 2, 56038 Ponsacco, Pisa, Italy
Abstract: Light tricycle trucks represent a diffused kind of vehicle in urban areas in Asia, Africa and South America. Tricycle offers a cheap and agile solution for transportation of goods in crowded urban areas. Despite to its diffusion, electrification of this kind of vehicle has been neglected by large industrial groups since it involves low margin of profit with respect to upgraded vehicles. However, electrification of tricycles should be important for a world sustainable growth. A simple and cheap electrification kit is proposed in this study. Proposed solution can be used to upgrade existing vehicles with limited investments. An APE Piaggio, a widely diffused vehicle is considered as benchmark test case. Vehicle dynamics is modelled in order to optimise various aspects related to installation, and weight distribution. Particular attention is paid to optimisation of regenerative braking and its blending with mechanical one to maximise autonomy and to preserve vehicle stability.
Keywords: electrification of light tricycle trucks; optimal blending of regenerative braking; stability; experimental identification of vehicle properties; vehicle second life.
DOI: 10.1504/IJHVS.2020.108739
International Journal of Heavy Vehicle Systems, 2020 Vol.27 No.3, pp.278 - 302
Received: 21 Sep 2018
Accepted: 20 Feb 2019
Published online: 30 Jul 2020 *