European Consortium Works to Optimize Production Processes for Renewable Products
LUDWIGSHAFEN, Germany - A consortium of companies in the European process industry comprising the areas of biotechnology, renewable resources, chemistry, process engineering, and equipment supply, as well as research organizations, recently launched project PRODIAS (PROcessing Diluted Aqueous Systems). The project focuses on unlocking the potential of renewable-based products made via white biotechnology by significantly decreasing production costs, increasing productivity and efficiency, lowering energy consumption, and accelerating process developments.
Under the leadership of BASF, the partners include: Cargill Haubourdin, France; University of Kaiserslautern, Germany; Imperial College London, Great Britain; Alfa Laval, Sweden; GEA Messo PT, the Netherlands; Xendo, the Netherlands; UPM, Finland; and Enviplan, Germany. These partners will collaborate to develop cost- and energy-efficient technologies for water purification removal and product-recovery needed to support downstream processing in white biotechnology.
Using biotechnological methods such as fermentation or biocatalysis, in most cases the renewable-based products are produced as part of complex dilute aqueous mixtures from which they have to be purified. This includes the removal of a vast amount of water, making the downstream process energy intensive as it often requires many complex consecutive separation steps and thus hampers the cost-competitiveness of products from renewable resources. Furthermore, processing methods developed for chemical production are often used, which are insufficiently adapted to biotechnological processes.
PRODIAS aims to address these challenges by developing and implementing cost-effective separation and purification technologies tailored for renewable resources in white biotechnology production processes. Its focus is to adapt separation techniques to meet the needs of white biotechnology products and to design novel hybrid systems combining individual advantages, for example, selectivity and energy efficiency. The bioreactions (fermentations) and biocatalysis by which the products are produced are subject to alteration and optimization to enable more efficient and resource-saving downstream processing.
The total project budget is about €14 million with the European Union contributing €10 million. The public-private partnership with SPIRE (Sustainable Process Industry through Resource and Energy Efficiency) supports the EU funding of PRODIAS. SPIRE, in turn, is part of Horizon 2020, the EU framework program for research and innovation, which runs from 2014 to 2020 and has an €80 million budget. In partnership with industry, the EU will invest in innovative technologies for sustainable processes. For more information, visit http://ec.europa.eu/programmes/horizon2020 and www.spire2030.eu/projects.