Efficient Gear Ratio Selection of a Single-Speed Drivetrain for Improved Electric Vehicle Energy Consumption

Polychronis Spanoudakis,Nikolaos Sarantinoudis,Nikolaos C Tsourveloudis,Lefteris Doitsidis,Gerasimos Moschopoulos,Eftichios Papadokokolakis,Theodoros Stefanoulis,Ioannis Ioannou,Savvas Piperidis

doi:10.3390/su12219254

Polychronis Spanoudakis, Nikolaos Sarantinoudis + Show 7 more

Open Access

https://doi.org/10.3390/su12219254

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Journal: Sustainability	Publication Date: Nov 7, 2020
Citations: 10	License type: CC BY 4.0

Affiliation: Technical University of Crete

Abstract

The electric vehicle (EV) market has grown over the last few years and even though electric vehicles do not currently possess a high market segment, it is projected that they will do so by 2030. Currently, the electric vehicle industry is looking to resolve the issue of vehicle range, using higher battery capacities and fast charging. Energy consumption is a key issue which heavily effects charging frequency and infrastructure and, therefore, the widespread use of EVs. Although several factors that influence energy consumption of EVs have been identified, a key technology that can make electric vehicles more energy efficient is drivetrain design and development. Based on electric motors’ high torque capabilities, single-speed transmissions are preferred on many light and urban vehicles. In the context of this paper, a prototype electric vehicle is used as a test bed to evaluate energy consumption related to different gear ratio usage on single-speed transmission. For this purpose, real-time data are recorded from experimental road tests and a dynamic model of the vehicle is created and fine-tuned using dedicated software. Dynamic simulations are performed to compare and evaluate different gear ratio set-ups, providing valuable insights into their effect on energy consumption. The correlation of experimental and simulation data is used for the validation of the dynamic model and the evaluation of the results towards the selection of the optimal gear ratio. Based on the aforementioned data, we provide useful information from numerous experimental and simulation results that can be used to evaluate gear ratio effects on electric vehicles’ energy consumption and, at the same time, help to formulate evolving concepts of smart grid and EV integration.

Highlights

Electric Vehicles (EVs) are currently trending in the automotive industry and there is an increased demand for this type of vehicle
The best lap is chosen, corresponding to the lower energy consumption achieved in the track and it is used for further comparison of gear ratios effects
The sustainability issues that arise from our results are discussed and calculation of their impacts are presented for the year 2050

Summary

Introduction

Electric Vehicles (EVs) are currently trending in the automotive industry and there is an increased demand for this type of vehicle. In 2017, 1.3 million units were sold around the world, while in 2020 this number is estimated to have increased to around 2.9 million. This number corresponds to 1% of the total passenger vehicle sales and corresponds to 57% of the 2016 numbers [1]. Various original equipment manufacturers (OEMs) are ready to introduce more than 100 car models powered by electric motors by 2024, and the total share of electric vehicles is estimated to reach 20–25% globally by 2030. The ability of EVs to reach higher ranges and targets depends on increasing design efficiency or reducing manufacturing costs; the main target is that they can become affordable to more customer segments. Energy consumption is a factor of great interest throughout the automotive industry and significant research is conducted in every automotive component in order to a achieve higher range

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Conclusion