Abstract
Sustainable mobility has recently become a priority of research for on-road vehicles. Shifting towards vehicle electrification is one of the most promising solutions concerning the reduction in pollutant emissions and greenhouse gases, especially for urban areas. Nevertheless, battery electric vehicles might carry substantial limitations compared with other technologies. Specifically, the electric range could be highly affected by the ageing process, non-optimal thermal management of the battery and cabin conditioning. In this paper, a model for the estimation of the residual range of electric vehicles is proposed accounting for the influence of battery state of health, battery pack temperature, power consumption of the main vehicle auxiliaries, and battery pre-heating on the residual driving range. The results of the model application to an L7 battery electric vehicle highlighted that the electric range can be highly affected by several factors related to real-world driving conditions and can consistently differ from nominal values.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference41 articles.
1. Summary for Policymakers;Allen,2012
2. Emissions of Air Pollutants from Transport—European Environment Agencyhttps://www.eea.europa.eu/data-and-maps/indicators/transport-emissions-of-air-pollutants-8/transport-emissions-of-air-pollutants-8
3. Transport: Increasing Oil Consumption and Greenhouse Gas Emissions Hamper EU Progress towards Environment and Climate Objectives—European Environment Agencyhttps://www.eea.europa.eu/publications/transport-increasing-oil-consumption-and/increasing-oil-consumption-and-ghg
4. Real-World Contribution of Electrification and Replacement Scenarios to the Fleet Emissions in West Midland Boroughs, UK
5. Electric Vehicle Range Anxiety: An Obstacle for the Personal Transportation (R)evolution?
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