Assessing the environmental benefits of battery packs from multi‐vehicle and multi‐region perspective: Aiming for lightweight and carbon neutrality

Abstract

AbstractVehicle lightweight and carbon neutrality turn out to be the critical goals in developing new energy vehicles. As an important part of electric vehicles, power battery packs have an impact on the environment. In this study, multiple environmental assessment indicators were grouped into a comprehensive index, namely the green characteristic index, and the green characteristic index was used to comprehensively evaluate the environmental impact of 11 kinds of battery packs. This study calculates and analyzes the environmental impact values of battery packs in different regions for four types of small, medium, intermediate, and limousine cars. Finally, the uncertainty analysis was carried out. Research has found that micro battery packs have a lower potential environmental impact than advanced battery packs, so smaller, more energy‐efficient battery electric vehicles (BEVs) generally perform better than larger BEVs for vehicle models. During the operation stage of the battery pack, the environmental impact value of carbon footprint and ecological footprint is greatly affected by the regional power structure. Running the battery pack in China will generate higher carbon footprint and ecological footprint. In addition, the green characteristic index is more affected by the stage of use. When the scene is switched, the larger the model of the electric vehicle, the more obvious its environmental emission reduction capability. This highlights the benefits of high‐efficiency electrical structures in large electric vehicles, which can reduce environmental impact by increasing lifetime and charging efficiency, reducing the loss of transport power in the area, and improving the weight‐to‐energy relationship for BEVs.