Summary
ALGAESOL will develop and evaluate several solutions for the sustainable conversion of sunlight into fuels. The project will advance current state-of-the-art by creating and consolidating new value chains for shipping and aviation fuels based on micro-algae and direct solar renewable fuel technologies. ALGAESOL will reduce production costs by 25%and improve efficiency of converting solar energy, carbon dioxide (CO2) and organic wastes into renewable methanol (CH3OH), methane (CH4) and biooils, forming the basis for aviation and shipping fuels. Various systems (biologic, photoelectrochemical, electrochemical and bioelectrochemical) will be evaluated and smart reactor design will be combined with process improvements. Targeted are microbial contamination control strategies, the increase solar to chemical energy conversion efficiencies, and improved algal strains to generate lipid superproducers will facilitate extraction, followed by innovative purification and hydro-processing technology to deliver the fuels. Enhanced sustainability of the developed fuels, is also based on a circular bio economy approach by using waste streams and about 80% of residual biomass generate in the ALGAESOL value chain will be re-circulated as input for the conversion process. The economic and environmental, as well as social sustainability will guide the design and scale-up at process level and for the whole value chain in alignment with the European Green Deal priorities. Used will be computational modelling and process simulations, Life Cycle Analysis (LCA), Life Cycle Costs (LCC), and Social Life Cycle Analysis (S-LCA) as well as practical engineering approaches. Through this approach is the overall reduction of the environmental impact when producing biofuels expected to be about 20% relative to today's processes. The project will reinforce the European scientific basis, technology leadership and competitiveness through international collaborations.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101147112 |
Start date: | 01-05-2024 |
End date: | 30-04-2027 |
Total budget - Public funding: | 3 997 156,25 Euro - 3 997 156,00 Euro |
Cordis data
Original description
ALGAESOL will develop and evaluate several solutions for the sustainable conversion of sunlight into fuels. The project will advance current state-of-the-art by creating and consolidating new value chains for shipping and aviation fuels based on micro-algae and direct solar renewable fuel technologies. ALGAESOL will reduce production costs by 25%and improve efficiency of converting solar energy, carbon dioxide (CO2) and organic wastes into renewable methanol (CH3OH), methane (CH4) and biooils, forming the basis for aviation and shipping fuels. Various systems (biologic, photoelectrochemical, electrochemical and bioelectrochemical) will be evaluated and smart reactor design will be combined with process improvements. Targeted are microbial contamination control strategies, the increase solar to chemical energy conversion efficiencies, and improved algal strains to generate lipid superproducers will facilitate extraction, followed by innovative purification and hydro-processing technology to deliver the fuels. Enhanced sustainability of the developed fuels, is also based on a circular bio economy approach by using waste streams and about 80% of residual biomass generate in the ALGAESOL value chain will be re-circulated as input for the conversion process. The economic and environmental, as well as social sustainability will guide the design and scale-up at process level and for the whole value chain in alignment with the European Green Deal priorities. Used will be computational modelling and process simulations, Life Cycle Analysis (LCA), Life Cycle Costs (LCC), and Social Life Cycle Analysis (S-LCA) as well as practical engineering approaches. Through this approach is the overall reduction of the environmental impact when producing biofuels expected to be about 20% relative to today's processes. The project will reinforce the European scientific basis, technology leadership and competitiveness through international collaborations.Status
SIGNEDCall topic
HORIZON-CL5-2023-D3-02-08Update Date
24-12-2024
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