The chemical industry is one of the most energy and CO2 intensive sectors globally. To reach climate targets, thissector needsto accelerate the transition towards non-fossil,sustainable and more circular and efficient resources. Bio-based industries(BBIs) go in that direction by substituting fossil feedstocks with biological residues and waste to produce greener products. However, this innovative sector has the opportunity to move a step further in creating a circular bioeconomy by also converting biogenic CO2 emissions into sustainable biochemicals and biomaterials (e.g. bioplastics).
Launched in May 2021, the Horizon 2020 EU project CO2SMOS - Advanced chemicals production from biogenic CO2 emissions for circular bio-based industries, will, in the next 4 years, develop a set of breakthrough and cost-competitive CO2 conversion technologies. The CO2SMOS project will develop solutions to transform the carbon emissions generated from bioprocesses (e.g. fermentation) into different sustainable bioproducts: durable polymers, renewable biochemicals and biodegradable materials. With these compounds it is possible to produce greener end-products such as packaging, coatings, textiles and materials for biomedical applications. The demonstration of the technical, economic and environmental sustainability of the different CO2SMOS technologies will allow the design of an integrated platform of CO2 conversion processes for BBIs. This will help achieve zero or even negative carbon emissions as well asreplacing fossil-based chemicals with more sustainable ones using renewable sources (green H2 and biomass) and CO2 as main raw materials.
The project consortium, led by the CARTIF Technology Center, counts on the wide expertise and high interdisciplinarity of 15 international partners ranging from technology developers (CARTIF, CSIC, FUNDITEC, SINTEF, University of Twente and University of Amsterdam), a waste management and technology transfer company (HERA Group), industrial end-users (Avantium, Novamont and Nadir), interdisciplinary research institutions (CERTH and RWTH Aachen University), a service provider (RINA) and the European Association representing the Carbon Capture and Utilisation community in Europe (CO2 Value Europe). The scale-up and demonstration of the CO2-derived intermediates will take place at the Bio Base Europe Pilot Plant.
The consortium will work together with the goal of opening new markets and business models for sustainable industries based on CO2-derived chemicals, contributing to diversify the economic base of these rising sectors and to mitigate climate change.