Advanced chemicals production from biogenic CO2 emissions for circular bio-based industries Biorefinery industries are in a unique position to lead the way in turning CO2 emissions into added-value chemicals due to their intrinsic keenness towards innovation and their potential to transform their biogenic CO2 waste streams into bio-based chemicals that can be integrated within their […]
The BIOMAC project aims to build a sustainable OITB (Open Innovation Test Bed), composed of 17 pilot plants and supported by several technical and non-technical services spread across Europe for the scale-up of new bio-based materials.
The conventional meat production system is not sustainable and climate neutral. The increasing concerns regarding animal welfare have also pushed the meat market to look for different means of production for instance of vegan “meat”.
CO2PERATE aims to develop catalytic technologies to convert CO2 into formic acid, using renewable electricity. Formic acid will subsequently be used as building block for the biosynthetic production of value-added chemicals, as a building block for the chemical industry, or as a potential carrier for energy storage.
SPICY aims at creating a new and profitable value chain in the Flemish bio-economy by connecting sugar feedstock suppliers with fermentation-based and chemical biorefinery companies to end-users active in chemical and polymer production.