RESULTS
This page showcases results with regard to the status of the project. It will be updated on a continuous basis.
WP2 Organosolv fractionation of lignocellulosic biomass
WP3 Hydrolysis of organic fraction of municipal solid waste and lignocellulosic biomass
- How can we use organic waste to produce green hydrogen?
- Enzymatic hydrolysis of the organic fraction of municipal solid waste for sugar recovery
- Cross-linked cellulase aggregates for the efficient hydrolysis of lignocellulosic residue biomass and organic fraction of municipal waste
- D3.1 Report on chemical composition of MSW stream by Aalborg University.
WP4 Sugar to lipid conversion and bio-hydrogen production
WP5 Thermochemical and catalytic upgrading of hemicellulose, lignin and microbial lipids to biofuels
- Production of alternative biofuel from black soldier fly lipid oil
- Catalytic hydrodeoxygenation of lignin pyrolysis bio-oil towards drop-in aviation biofuels
- Lignin fast pyrolysis achieved in a (pilot scale) twin-screw reactor
- D5.2 Report on finalized process model of lignin fast prolysis with optimized condensation system by Karlsruhe Institute of Technology
- D5.3 Report on catalytic hydrogenation/deoxygenation and alkylation of light lignin bio-oil fractions by University of Thessaloniki.
- D5.4 Report on heavy feedstock purification for lipids and lignin biofuels by Hulteberg Chemistry and Engineering AB.
- D5.6 Report on catalytic conversion of hemicellulose sugars to jet fuel alkanes by University of Thessaloniki.
WP6 Downstream separation of new green fuel fractions
- Downstream separation of new green fuel fractions
- D6.3 Experimental validation of downstream processing – separation of biofuels by University of Applied Sciences Bremerhaven.
- D6.4 New biofuel components/mixtures provided for pilot engine tests by University of Applied Sciences Bremerhaven.
WP7 Fuel characterization and test in ship & aircraft engines
- Guidelines for next generation biofuels targeted for use in shipping engines
- D7.1 Guideline for next generation biofuels targeted for use in aviation and shipping engines by German Aerospace Center.
- D7.2 Composition and key physical and chemical properties of next generation biofuels/-blends by German Aerospace Center.
- D7.3 Assessment of aviation fuel approval potential and identification of measures to de-risk fuel approval by German Aerospace Center.
- D7.4 Pilot test results representing for bunkerlike shipping engines by University of Rostock.
WP8 Process simulation, integration and optimization & TCA/LCA
- D8.1 Modelling and Simulation – FLEXI-GREEN FUELS Production at Industrial Scale by SUPREN GmbH.
- D8.3 Environmental Impact – FLEXI-GREEN FUELS Production at Industrial Scale by SUPREN GmbH.
- D8.4 Benchmarking Against Conventional Fuels – FLEXI-GREEN FUELS Production at Industrial Scale by SUPREN GmbH.
WP9 Dissemination and Exploitation
- D9.5 Report on evaluation of public acceptance by University of Applied Sciences Bremerhaven.
- D9.6 Patent and Market Survey by GreenLab Skive A/S.
- D9.6 Roadmap for exploitation and preliminary business plan by GreenLab Skive A/S.
ACKNOWLEDGEMENT
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 101007130.
