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Study Finds EVs Have Lower Lifetime Carbon Footprint

LowCVP study demonstrates the increasing importance of measuring whole life carbon emissions to compare vehicle performance.

Published: 10-Jun-2011

ELECTRIC and hybrid cars create more carbon emissions during their production than standard vehicles – but are still greener overall, according to a new report.

The report highlights the increasing importance of accounting for whole life carbon emissions to compare the greenhouse gas emissions of low carbon vehicles. The report was prepared by Ricardo1 for, and in collaboration with, the expert membership of the Low Carbon Vehicle Partnership that includes major vehicle manufacturers and oil companies.

The study found that some of the CO2 savings made during the use of low carbon vehicles is offset by increased emissions created during their production, and to a lesser extent disposal. However, overall electric and hybrid vehicles still have lower carbon footprints than normal cars.

For example, a typical medium sized family car will create around 24 tonnes of CO2 during its life cycle, while an electric vehicle (EV) will produce around 18 tonnes over its life. For a battery EV, 46% of its total carbon footprint is generated at the factory, before it has travelled a single mile.

Greg Archer, LowCVP Managing Director, said: “This work dispels the myth that low carbon vehicles simply displace emissions from the exhaust to other sources. However, it does highlight the need to look at reducing carbon emissions from vehicles throughout their lifecycle.

“The automotive industry is already taking positive steps to address this issue - the recent announcement by Toyota of a solar array to provide electricity to power the hybrid Auris production facility and wind power at the Nissan Leaf plant are excellent examples of this.”

For a standard mid-sized gasoline ICE (internal combustion engine) vehicle, the embedded carbon in production will be around 5.6tCO2e, around three quarters of which is the steel in the vehicle glider. This highlights the importance of deploying low weight, low carbon alternatives to current steels in the ultra-low carbon vehicles of the future. A similar electric vehicle will have embedded production emissions of 8.8tCO2e, 43% of which arise from the battery. Decarbonising both electricity supply, through renewables; and the production of batteries will therefore be essential for electric vehicles to deliver ultra-low carbon lifetime emissions.

The report also indicates that lifecycle carbon emissions for mid-sized petrol and diesel vehicles doing a similar lifetime mileage are almost identical – the greater efficiency of the diesel being offset by high production emissions. It also highlights that some regulations designed to improve recyclability, safety or reduce air pollution can increase carbon emissions in production or use.

Ricardo Chief Technology & Innovation Officer and Chairman of the LowCVP, Prof. Neville Jackson, said “There is an emerging consensus that we need to move towards a more holistic analysis of whole life CO2 emissions in order to make more informed and better long term decisions on future technologies.

“Life cycle analysis is still in its infancy, with little defined process and standards. The Low Carbon Vehicle Partnership report is an important contribution to this type of analysis and highlights the need to work toward a common methodology and approach to deliver consistent and robust life cycle data on CO2 emissions.”

As a wider range of electric, biofuel and potentially hydrogen vehicles compete with petrol and diesel models in the future, it will become essential to compare vehicles on a whole-life carbon basis. The study shows the complexity, but also the practicalities of calculating whole life carbon emissions and highlights the need to develop a standard methodology acceptable to vehicle manufacturers.

Greg Archer added: “We already measure the whole life carbon emissions of biofuels and doing the same for vehicles is entirely feasible. However, it does require effort to be directed now, at agreeing how this should be done consistently at an EU, or possibly global level.”

Vehicle Whole Life Carbon Emissions Analysis

Estimated lifecycle emissions
(tonnes CO2e)

Proportion of emissions in production

Estimated emissions in production
(tonnes CO2e)

Standard gasoline vehicle




Hybrid vehicle




Plug-in hybrid vehicle




Battery electric vehicle




Based upon a 2015 vehicle in use for 150k KM using 10% ethanol blend and 500g/KWH grid electricity.

1 Ricardo is a leading global provider of product innovation, engineering solutions, clean technology and strategic consulting.

Further details: http://www.lowcvp.org.uk

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