Electric mobility is playing an important and growing role in the context of sustainable transport sector development. This study presents the life cycle assessment of an electric car based on the technology of Lithium-ion battery (BEV) for Europe and compares it to an internal combustion engine vehicle (ICEV). According to a cradle-to-grave approach, manufacturing, use and disposal phases of both vehicles have been included in the assessment in order to identify the hot spots of the entire life cycles. For electric vehicles two manufacturing inventories have been analysed and different vehicle disposal pathways have also been considered. Furthermore, the environmental performances of hybrid vehicles have been analysed based on the life cyc...
Purpose: Sport utility vehicles typically have lower fuel economy due to their high curb weights and...
Full electric (FEV) and plug-in hybrid (PHEV) vehicles are promising, forward-looking technologies t...
This study is a critical review of the application of life cycle assessment (LCA) to lithium ion bat...
Electric mobility is playing an important and growing role in the context of sustainable transport s...
Global warming (GW) and urban pollution focused a great interest on hybrid electric vehicles (HEVs) ...
In this paper the life cycle of electric vehicles versus conventional cars has been assessed with re...
In this paper the environmental impacts of a battery electric vehicle (BEV) are assessed in a Belgia...
In the transition to cleaner mobility, electric vehicles and their primary power source, batteries,...
Electric mobility is being studied as a possible solution for reducing the environmental impact asso...
Global warming (GW) and urban pollution focused a great interest on hybrid electric vehicles (HEVs) ...
Battery electric vehicles are expected to reduce greenhouse gas emissions of road transport. Along w...
Electric vehicles have the potential to substitute conventional vehicles and to contribute to the su...
The number of vehicles with lithium-ion batteries (LIBs) is increasing. When these batteries no long...
Electric vehicles have the potential to substitute for conventional vehicles to contribute to the su...
The Life Cycle Sustainability Assessment (LCA) methodology is today considered as a crucial paradigm...
Purpose: Sport utility vehicles typically have lower fuel economy due to their high curb weights and...
Full electric (FEV) and plug-in hybrid (PHEV) vehicles are promising, forward-looking technologies t...
This study is a critical review of the application of life cycle assessment (LCA) to lithium ion bat...
Electric mobility is playing an important and growing role in the context of sustainable transport s...
Global warming (GW) and urban pollution focused a great interest on hybrid electric vehicles (HEVs) ...
In this paper the life cycle of electric vehicles versus conventional cars has been assessed with re...
In this paper the environmental impacts of a battery electric vehicle (BEV) are assessed in a Belgia...
In the transition to cleaner mobility, electric vehicles and their primary power source, batteries,...
Electric mobility is being studied as a possible solution for reducing the environmental impact asso...
Global warming (GW) and urban pollution focused a great interest on hybrid electric vehicles (HEVs) ...
Battery electric vehicles are expected to reduce greenhouse gas emissions of road transport. Along w...
Electric vehicles have the potential to substitute conventional vehicles and to contribute to the su...
The number of vehicles with lithium-ion batteries (LIBs) is increasing. When these batteries no long...
Electric vehicles have the potential to substitute for conventional vehicles to contribute to the su...
The Life Cycle Sustainability Assessment (LCA) methodology is today considered as a crucial paradigm...
Purpose: Sport utility vehicles typically have lower fuel economy due to their high curb weights and...
Full electric (FEV) and plug-in hybrid (PHEV) vehicles are promising, forward-looking technologies t...
This study is a critical review of the application of life cycle assessment (LCA) to lithium ion bat...