Abstract
Plug-in electric vehicles (PEVs) are a promising option for greenhouse gas (GHG) mitigation in the transport sector - especially when the fast decrease in carbon emissions from electricity provision is considered. The rapid uptake of renewable electricity generation worldwide implies an unprecedented change that affects the carbon content of electricity for battery production as well as charging and thus the GHG mitigation potential of PEV. However, most studies assume fixed carbon content of the electricity in the environmental assessment of PEV and the fast change of the generation mix has not been studied on a global scale yet. Furthermore, the inclusion of up-stream emissions remains an open policy problem. Here, we apply a reduced life cycle assessment approach including the well-to-wheel emissions of PEV and taking into account future changes in the electricity mix. We compare future global energy scenarios and combine them with PEV diffusion scenarios. Our results show that the remaining carbon budget is best used with a very early PEV market diffusion; waiting for cleaner PEV battery production cannot compensate for the lost carbon budget in combustion vehicle usage.
Highlights
Transport is responsible for about one quarter of global energy related greenhouse gas (GHG) emissions and transport is the only energy-related sector with emissions still growing compared to 1990 [1, 2]
Our results show that the remaining carbon budget is best used with a very early Plug-in electric vehicles (PEVs) market diffusion; waiting for cleaner PEV battery production cannot compensate for the lost carbon budget in combustion vehicle usage
An increased market share of alternative fuel vehicles, such as plug-in electric vehicles (PEVs), including plug-in hybrid electric vehicles (PHEVs) and battery electric vehicles (BEVs), powered from renewable energy sources seems essential for significant GHG mitigation in passenger road transport
Summary
Transport is responsible for about one quarter of global energy related greenhouse gas (GHG) emissions and transport is the only energy-related sector with emissions still growing compared to 1990 [1, 2]. An increased market share of alternative fuel vehicles, such as plug-in electric vehicles (PEVs), including plug-in hybrid electric vehicles (PHEVs) and battery electric vehicles (BEVs), powered from renewable energy sources seems essential for significant GHG mitigation in passenger road transport. Past studies have shown that life-cycle PEVs emissions depend heavily on the assumed electricity mix, driving patterns and ambient weather conditions [6,7,8,9]. These factors vary regionally, so PEV emissions can vary regionally
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