温室气体
碳足迹
汽车工业
碳中和
电动汽车
环境友好型
碳纤维
环境经济学
环境科学
工程类
计算机科学
功率(物理)
生态学
物理
算法
量子力学
复合数
经济
生物
航空航天工程
作者
Zhenhai Gao,Haicheng Xie,Xianbin Yang,Lisheng Zhang,Hanqing Yu,Wentao Wang,Yongfeng Liu,Youqing Xu,Baosong Ma,Xinhua Liu,Siyan Chen
摘要
Abstract Under the global carbon neutrality initiative, carbon emissions from the transportation sector are becoming increasingly prominent due to the growth in vehicle ownership. And electric mobility may be a potentially effective measure to reduce road traffic carbon emissions and achieve a green transformation of transportation. This paper systematically collates the relevant carbon accounting standards for the automotive industry and elaborates the current status of road transport greenhouse gas emissions by combining the data from the International Energy Agency. And by comparing the lifecycle carbon footprint of various energy types of vehicles, the necessity and feasibility of electric mobility to reduce carbon emissions are discussed. However, the comparison of vehicle lifecycle carbon footprints shows that electric vehicles (EVs) are not as environmentally friendly as expected, although they can significantly reduce road traffic carbon emissions. The high carbon emissions from the manufacturing process of the core components of EVs, especially the power battery, reduce the low‐carbon potential of electric mobility. Therefore, the carbon emission reduction strategies and outcomes of automakers in the automotive industry chain have been further reviewed. Finally, focusing on vehicle power batteries, this article reviews the technologies such as refined management and echelon utilization that can make EVs more environmentally friendly and promote carbon neutrality in the transportation sector.
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