The primary goal of this study is to investigate the effect of increasing battery size and driving range to the environmental impact of electric vehicles (EVs). To this end, we compile cradle-to-grave inventories for EVs in four size segments to determine their climate change potential. A second objective is to compare the lifecycle emissions of EVs to those of conventional vehicles. For this purpose, we collect lifecycle emissions for conventional vehicles reported by automobile manufacturers. The lifecycle greenhouse gas emissions are calculated per vehicle and over a total driving range of 180 000 km using the average European electricity mix. Process-based attributional LCA and the ReCiPe characterisation method are used to estimate the...
The life cycle of a car includes three basic phases: production, operation and end-of-life. All thes...
The majority of previous studies examining life cycle greenhouse gas (LCGHG) emissions of battery el...
Lithium traction batteries are a key enabling technology for plug-in electric vehicles (PEVs). Tract...
Electric mobility is being studied as a possible solution for reducing the environmental impact asso...
Purpose: In the light of decarbonizing the passenger car sector, several technologies are available ...
Electric vehicles have a clear benefit over conventional vehicles when it comes to the impact on cli...
Full electric (FEV) and plug-in hybrid (PHEV) vehicles are promising, forward-looking technologies t...
A life cycle assessment is presented for a current vehicle’s greenhouse gas impact when using a comb...
Electric vehicles have the potential to substitute for conventional vehicles to contribute to the su...
Purpose: Electric vehicles (EVs) are promoted due to their potential for reducing fuel consumption ...
As an important trend in the automotive industry, electrification of propulsion systems has potentia...
How to compare the environmental performance of different vehicle technologies? Vehicles with lower ...
Global warming (GW) and urban pollution focused a great interest on hybrid electric vehicles (HEVs) ...
The future environmental impacts of battery electric vehicles (EVs) are very important given their e...
The utilization has a significant effect on the life-cycle assessment (LCA) of battery electric vehi...
The life cycle of a car includes three basic phases: production, operation and end-of-life. All thes...
The majority of previous studies examining life cycle greenhouse gas (LCGHG) emissions of battery el...
Lithium traction batteries are a key enabling technology for plug-in electric vehicles (PEVs). Tract...
Electric mobility is being studied as a possible solution for reducing the environmental impact asso...
Purpose: In the light of decarbonizing the passenger car sector, several technologies are available ...
Electric vehicles have a clear benefit over conventional vehicles when it comes to the impact on cli...
Full electric (FEV) and plug-in hybrid (PHEV) vehicles are promising, forward-looking technologies t...
A life cycle assessment is presented for a current vehicle’s greenhouse gas impact when using a comb...
Electric vehicles have the potential to substitute for conventional vehicles to contribute to the su...
Purpose: Electric vehicles (EVs) are promoted due to their potential for reducing fuel consumption ...
As an important trend in the automotive industry, electrification of propulsion systems has potentia...
How to compare the environmental performance of different vehicle technologies? Vehicles with lower ...
Global warming (GW) and urban pollution focused a great interest on hybrid electric vehicles (HEVs) ...
The future environmental impacts of battery electric vehicles (EVs) are very important given their e...
The utilization has a significant effect on the life-cycle assessment (LCA) of battery electric vehi...
The life cycle of a car includes three basic phases: production, operation and end-of-life. All thes...
The majority of previous studies examining life cycle greenhouse gas (LCGHG) emissions of battery el...
Lithium traction batteries are a key enabling technology for plug-in electric vehicles (PEVs). Tract...