Matching battery size with vehicle use is crucial for the environment, reveals a new report from the Low Carbon Vehicle Partnership.
It scotches the idea that a bigger battery is always better for a vehicle and says the important factor is likely use of the vehicle to better match performance and reduce emissions.
A new study by Ricardo for the Low Carbon Vehicle Partnership (LowCVP) aims to push the boundaries of knowledge of Life Cycle Assessment, an increasingly important area of research in the area of road transport. As new types and technologies of vehicles enter the market place and as electrification of road transport becomes mainstream, the ability to assess emissions ‘beyond the tailpipe’ to provide the basis for better regulation and more effective policies, will become more and more important.
Life Cycle Assessment (LCA) is about taking a holistic approach to the analysis of a product’s total environmental impact.
The report looks across a broad range of vehicle sectors for the first time and finds that the relative contribution of each vehicle life cycle stage is highly dependent on the vehicle type and powertrain technology as well as what assumptions are made about a vehicle’s operational life, mileage and duty cycle. | This new analysis – “Understanding the life cycle GHG emissions for different vehicle types and powertrain technologies” builds on earlier work for the LowCVP. In 2011 the LowCVP commissioned “Preparing for a life cycle CO2 measure” (link), also by Ricardo. A follow-up project – “Life cycle CO2e assessment of low carbon cars 2020-30” (link) – was completed in 2013 by PE International. |
For electric and plug-in hybrid vehicles the carbon intensity of the power grid is, of course, also a key factor in terms of the vehicle’s full life cycle emissions. Well-to-wheel CO2e emissions of current electric vehicles are already significantly lower (40-60%) as a proportion of full lifetime emissions than those of typical current passenger cars (70-85%) and this difference can increase as the electricity grid becomes increasingly decarbonised. However, if a race for bigger and bigger batteries is left unchecked, EVs doing low mileages could undermine some of the potential benefits
The environmental impacts associated with the production phase, in particular, for road vehicles will become increasingly important in the context of the full life cycle and, therefore, the focus of more policy attention as the UK and other governments around the world strive to meet greenhouse gas (GHG) emissions reduction targets in order to tackle climate change.
The Ricardo study focuses on providing insights into how life cycle CO2e emissions vary by vehicle segment and powertrain technology. It considers ‘L-category’ (micro) vehicles, passenger cars, heavy duty trucks and buses across four life cycle stages – vehicle production, fuel production, vehicle use and vehicle end-of-life.
For larger, heavy duty trucks, life cycle CO2e emissions are overwhelmingly from vehicle use (>95%); unsurprising given the high utilisation and lifetime mileages of these types of vehicles. In this sector using lower carbon fuels and energy sources will deliver the greatest carbon reductions in the near term.
For smaller vehicles, such as passenger cars and micro vehicles, there is much greater sensitivity in each life cycle stage; often more than 50% of the overall impact comes in the manufacturing stage.