Summary
BioTheRoS Project aims at developing a holistic methodology that will boost the scale-up of sustainable biofuels via thermochemical conversion technologies. These are pyrolysis upgrading through hydrodeoxygenation and Fischer-Tropsch synthesis from biomass gasification. The project will bring together key actors at a both European and International level, such as technological and social experts, renewable energy-oriented associations along with industrial experts that will bring and exchange their knowledge in order to reach the project targets. Within the project, several non-food biomass feedstock will be analyzed and optimized across their entire value chain. Barriers linked with the selected feedstocks supply and pretreatment will be identified. Furthermore, AI-based predictive models will be developed, in order to be adapted to the scale-up cases. Then, the most promising biomass feedstock will be tested experimentally in the studied thermochemical reactors. At this point of the project, technical constraints and opportunities for the scale-up of the sustainable biofuels thermochemical processes will be identified. Possible synergies of blending pyrolysis oil and gasification based advanced biofuels will be investigated by a potential end-user (petroleum company). The selected data will be used as an input for advanced modelling tools, including process modelling, CFD tools and LCA/LCC/sLCA tools results of which will feed a multi-criteria analysis to derive generalized up-scaling rules and guidelines of the produced biofuels. The engagement of several stakeholders in the planning of the scaling-up of sustainable biofuels production will be crucial at this point, since they will review the project results and assess if a biofuel production technology can be delivered from the lab/pilot to a larger-scale, by taking into account operational difficulties, plant cost and plant capacity limitations (technological barriers).
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| Web resources: | https://cordis.europa.eu/project/id/101122212 |
| Start date: | 01-10-2023 |
| End date: | 30-09-2026 |
| Total budget - Public funding: | 2 998 625,00 Euro - 2 998 625,00 Euro |
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Original description
BioTheRoS Project aims at developing a holistic methodology that will boost the scale-up of sustainable biofuels via thermochemical conversion technologies. These are pyrolysis upgrading through hydrodeoxygenation and Fischer-Tropsch synthesis from biomass gasification. The project will bring together key actors at a both European and International level, such as technological and social experts, renewable energy-oriented associations along with industrial experts that will bring and exchange their knowledge in order to reach the project targets. Within the project, several non-food biomass feedstock will be analyzed and optimized across their entire value chain. Barriers linked with the selected feedstocks supply and pretreatment will be identified. Furthermore, AI-based predictive models will be developed, in order to be adapted to the scale-up cases. Then, the most promising biomass feedstock will be tested experimentally in the studied thermochemical reactors. At this point of the project, technical constraints and opportunities for the scale-up of the sustainable biofuels thermochemical processes will be identified. Possible synergies of blending pyrolysis oil and gasification based advanced biofuels will be investigated by a potential end-user (petroleum company). The selected data will be used as an input for advanced modelling tools, including process modelling, CFD tools and LCA/LCC/sLCA tools results of which will feed a multi-criteria analysis to derive generalized up-scaling rules and guidelines of the produced biofuels. The engagement of several stakeholders in the planning of the scaling-up of sustainable biofuels production will be crucial at this point, since they will review the project results and assess if a biofuel production technology can be delivered from the lab/pilot to a larger-scale, by taking into account operational difficulties, plant cost and plant capacity limitations (technological barriers).Status
SIGNEDCall topic
HORIZON-CL5-2022-D3-03-02Update Date
12-03-2024
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Organisations
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| ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS (CERTH) (Coördinator)
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| B.T.G. BIOMASS TECHNOLOGY GROUP BV
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| BEST - BIOENERGY AND SUSTAINABLE TECHNOLOGIES GMBH
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| FUNDACION CIRCE CENTRO DE INVESTIGACION DE RECURSOS Y CONSUMOS ENERGETICOS
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| MOTOR OIL (HELLAS) DIILISTIRIA KORINTHOU AE
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| WIRTSCHAFT UND INFRASTRUKTUR GMBH & CO PLANUNGS KG