All Projects

BioSFerA
  • 2G biomass, CO, CO2, Fermentation, Finished projects, Food, Forestry waste, Fuels, Gas fermentation, Gasses, H2, H2020-RIA, Jet fuel, Marine fuel, Mobile unit, Partner, Process development (TRL 4-5), Product recovery and purification, Scale-up (TRL 4-6), Syngas, Triacylglycerides

BioSFerA aims to develop a cost-effective interdisciplinary technology to produce sustainable aviation and maritime fuels. Thus, biogenic residues and wastes will be gasified and the syngas will be fermented to produce bio-based triacylglycerides (TAGs).

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Biosurfing
  • 1G sugar, Biosurfactants, Cosmetic ingredients, Detergents, FP7, Fatty acids, Fermentation, Finished projects, Glucose, Nano technology, Oils, Oils and derivatives, Personal and home care, Personal care, Process development, Product recovery & purification, Scale-up (TRL 4-6), Sophorolipids, Vegetable oils, WP leader

This project aims to create new-to-nature and tailor-made biosurfactants through metabolic engineering of the unconventional yeast Starmerella bombicola.
Surfactants or surface active agents are applied in a wide range of industries and products e.g. cleaning, personal care, cosmetics, agriculture, oil recovery, paper industry.

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CarboSurf
  • 1G sugar, 2G oils, 2G sugar, 2G sugar - agriculture, Agricultural sidestreams, Biosurfactants, Custom manufacturing, Demonstration (TRL 5-7), Detergents, Fatty acids, Fatty alcohols, Fermentation, Finished projects, Food, Food grade, Fucosylated carbohydrates, H2020 BBI-RIA, HMO, Lactose, MELs, Market sample production, Oils, Oils and derivatives, Personal and home care, Product recovery & purification, Rhamnolipids, Scale-up (TRL 4-6), Sialylated carbohydrates, Sophorolipids, Specialty carbohydrates, Used cooking oil, Vegetable oils, WP leader, Xylolipids

The CARBOSURF project aims to develop new biobased processes as well as products and solves bottlenecks in the fermentative production of biobased biosurfactants and specialty carbohydrates. Specifically, it targets different glycolipid biosurfactants with a wide range of application fields and specialty carbohydrates, i.e. complex Human Milk Oligosaccharides that find applications as neutraceutical, pharmaceutical and cosmetic ingredients.

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ChitoBioEngineering
  • 1G sugar, Agriculture, Bacterial, Biopolymers, Chitin, Chito-oligosaccharides, Chitosans, Coordinator, E. coli, ERA-IB, Fermentation, Finished projects, Food related sidestreams, Glucose, Process development (TRL 4-5), Sucrose, Sugar, WP leader

The ChitoBioEngineering project aims at establishing biotechnological ways of producing fully defined, partially acetylated chitosan oligomers. This will be achieved through genetic, metabolic, and enzyme engineering.

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CLEO
  • Det Energiteknologiske Udviklings- og Demonstrations program, Finished projects, Forestry sidestreams, Fuels, Lignin biomass, Lignin-based fuel, Marine fuel, Process development, Scale-up (TRL 4-6), WP leader

Sustainable and competitive lignin-based biofuels with sufficient supply-chain security and cost-efficiency to be used as a replacement of fossil-based oils in the marine sector.

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CO2PERATE
  • (Inter)Cluster, Bioplastics, Biopolymers, CCU, CO2, Catalisti-ISBO, Feed, Fermentation, Finished projects, Food, Formic acid, Gas fermentation, Gasses, H2, Low TRL, Other feedstock, PHA, PHB, Partner, Polymers and packaging and biomaterials, Process development (TRL 4-5), Product recovery and purification, Regional-flanders, Single cell protein, Specialty chemicals, Waste gasses

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.

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DAFIA
  • Active barrier coatings, Biochemicals, Biopolymers, Bulk chemicals, Chemical building blocks, Di-amines, Fermentation, Finished projects, Flame retardants, Food related sidestreams, H2020-RIA, MSW, Marine waste, Muconic acid, Municipal solid waste, Other feedstock, Polyamides, Polymers and packaging and biomaterials, Process development (TRL 4-5), Product recovery & purification, Scale-up (TRL 4-6), Specialty chemicals, WP leader

The main objective of DAFIA is to exploit the organic fraction of municipal solid wastes (MSW) and marine rest raw materials (MRRM) as feedstocks for higher value products.

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DEMETER
  • 1G sugar, 2G sugar, 2G sugar - agriculture, Agricultural sidestreams, Agricultural waste, Anaerobic digestion, Biogas, Carbohydrates, Custom manufacturing, Demonstration (TRL 5-7), Enzyme formulation, Enzyme production, Enzymes, Fermentation, Finished projects, Formulation, Fuels, H2020 BBI-IA-DEMO, Product recovery & purification, Scale-up, Scale-up (TRL 4-6), WP leader

Demeter: Demonstrating more efficient enzyme production to increase biogas yields.
DEMETER will increase the yield of the fermentation process at an industrial scale as well as the down-stream processing of a C1-based biogas enzyme, reducing the cost of the end product and making the enzyme available for wide-spread application in biogas production throughout Europe.

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DemoProBio
  • 1G sugar, AO-NIB, Aceton, Acetonitrile, Bulk chemicals, Butanol, Ethanol, Fermentation, Finished projects, Fuels, In situ product recovery, Product recovery & purification, Regional-flanders, Scale-up (TRL 4-6), Solvents, VLAIO/AO, WP leader

Industrial biotechnology plays a crucial role in the development of sustainable and cost effective production processes for biobased chemicals. These processes typically consist of two distinct unit operations: fermentation, followed by purification of the compound of interest from the fermentation broth. Product recovery and purification (also called downstream processing or DSP) are important cost factors, responsible for up to 80% of the total production cost. Reducing DSP cost is therefore a key success factor to improve the overall economics of biobased processes.

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