- eForFuel is a Horizon 2020 EU project launched in March 2018 and scheduled to run for the next 4 years with funding of around 4 million Euros.
- The project is led and coordinated by scientists at the Max Planck Institute (MPI) of Molecular Plant Physiology in Germany and boasts the participation of 14 industrial and academic partners from 9 European and associated countries.
- eForFuel is a truly interdisciplinary project aiming to achieve its research targets of offering sustainable alternatives to fossil fuels.
Greenhouse gases (especially CO2) emitted from the burning of fossil fuels are significant drivers of climate change and a global threat to society and the environment. Hence, it is very important to replace fossil fuels with an alternative, sustainable sources. Early generation 'biofuels' compete with land resources, limit agricultural production of food, and, therefore, cannot completely replace fossil fuels without severely undermining food security and decreasing biodiversity. In order to overcome this problem, eForFuel provides a novel solution to utilize resources that are essentially unlimited and that are independent of land use: CO2, electricity and water.
"What makes eForFuel unique is the sustainable production chain that converts CO2 emissions and renewable electricity into easy to handle formic acid, which is then fed to engineered microbes for the production of renewable hydrocarbon fuels", says project coordinator Arren Bar-Even from MPI.
eForFuel aims to establish and demonstrate a unique integrated electro-bioreactor, which automatically integrates CO2 electro-reduction, formate production and formate bioconversion to hydrocarbons that can serve as "drop in" fuels. This integrated system will serve as a stepping-stone towards a transforming the way we produce fuels and carbon-based chemicals.
"We will combine our expertise in material science and electrochemistry in the optimization of electrochemical conversion of CO2 to formic acid in a collaborative effort with University of Stuttgart and University of Alicante" explains Paul Inge Dahl from SINTEF, leading scientist in the project.
Alejandro Oyarce, Kaushik Jayasayee and Edel Sheridan from SINTEF will provide an important contribution to eForFuel by conducting research on the anodic half-cell for oxygen production from water, which will be coupled with the cathodic half-cell in which CO2 is reduced to formic acid.
Updates can be found at www.eforfuel.eu and on Twitter @eforfuel
For more information contact:
Project coordinator Arren Bar-Even (MPI)
or Paul Inge Dahl (SINTEF)
eForFuel, which was launched in March 2018 in Berlin, is a 4-year project funded by the European Union's Horizon 2020 Research and Innovation programme under grant agreement No.763911