Sustainable fuels key to climate change goals, says new study
While electric vehicles are becoming cheaper, sustainable fuels could also play an important role in reducing transport emissions in order to meet climate-change goals, says a new study by VTT Technical Research Centre of Finland and the University of Cambridge Judge Business School.
Sustainable fuels have much potential to help decarbonise road transport in the near term, particularly for use by long-range vehicles, says the study just published in Joule, a leading journal focusing on sustainable energy.
The research says, in effect, that while policymakers are rightly enthusiastic about the potential for electric vehicles to cut road emissions, we should not lose sight of the limitations of such vehicles for long-haul transport and the corresponding need to also develop sustainable fuels.
The study and its conclusions are based on what the authors believe is the first like-for-like comparison of near-term costs of various road-transport decarbonisation options including battery electric vehicles (BEVs) and carbon neutral synthetic fuels (CNSFs), which can be divided into fuels produced from biomass via gasification and electrofuels produced from CO2 and water using electricity.
“Although already competitive over short distances, we find longer-range BEVs are likely to remain more expensive than CNSFs even if low battery costs are achieved,” the study says.
The study says it is therefore a priority to develop and test a portfolio of different CNSF options in order to identify the most promising future technologies to cut transport emissions. There are currently no commercial-scale CNSF projects.
Of the fuel options examined in the new study, synthetic biofuels produced from woody biomass were identified as being more competitive than electrofuels at the present time.
“Converting CO2 from being a pollutant to a fuel has immediate appeal to many,” says the study’s lead author, Dr Ilkka Hannula of VTT.
“However, electrofuels will remain expensive in the near term and are difficult to scale up in the longer term. Although wind and solar have already reached cost parity with fossil energy in electricity in certain regions globally, they are still far from reaching cost parity with crude oil in transport.”
The research shows that we need to “pursue all transport decarbonisation options far more aggressively,” says study co-author Dr David M. Reiner, University Senior Lecturer in Technology Policy at Cambridge Judge Business School.
“These efforts should be technology-neutral as to whether breakthroughs happen with wood chips, CO2 utilisation or electric vehicles, as long as they meet basic sustainability standards. At this stage, the important thing is to have a wide portfolio where we focus on learning-by-doing and economies of scale.”