Summary
TThe FuelGae project aims to develop a novel model of advanced liquid fuels (ALF) production from different CO2 emissions streams of two industrial sectors (biorefinery and energy intensive industries) through a microalgae pilot plant integrated into their infrastructure. The performance of the selected microalgae strains will be improved by adapting them to each industrial case study. The ALF production will be addressed developing different technologies: i) selective production of microalgae to obtain polysaccharides or lipids, ii) alternative microalgal biomass treatments, iii) innovative catalytic upgrading systems from biocrude., iv) online microalgae sensor. Additionally, to the previously innovative technologies, FuelGae concept uses modelling techniques integrated into Process Analytical Techniques to develop a global Digital Twin (DT).
Furthermore, the C-economy of FuelGae approach will be significantly improved through hydrothermal liquefaction and, biogas processes. The biochar produced will be tested in agricultural uses creating synergies with energy and biocrude generation. All technologies will be upscaled to TRL5 in the two case study sites; the microalgae pilot plant will be transported and validated in the two industrial sites in Romania (steel plant) and Spain (2G-bioethanol). FuelGae technologies will be further evaluated through life cycle assessment (LCA/LCC) to confirm their lower environmental impact, use of resources, or GHG emissions, and a first approach of economical sustainability. DT will be coupled with LCA-LCC to provide a global and dynamic assessment of the FuelGae concept.
FuelGae will contribute to advancing the European scientific basis and global technological leadership in the area of renewable fuels, increase their technology competitiveness and role in transforming the energy system on a fossil-free basis by 2050, in particular in the sectors like aviation and shipping, while supporting the EU goals for energy independence.
Furthermore, the C-economy of FuelGae approach will be significantly improved through hydrothermal liquefaction and, biogas processes. The biochar produced will be tested in agricultural uses creating synergies with energy and biocrude generation. All technologies will be upscaled to TRL5 in the two case study sites; the microalgae pilot plant will be transported and validated in the two industrial sites in Romania (steel plant) and Spain (2G-bioethanol). FuelGae technologies will be further evaluated through life cycle assessment (LCA/LCC) to confirm their lower environmental impact, use of resources, or GHG emissions, and a first approach of economical sustainability. DT will be coupled with LCA-LCC to provide a global and dynamic assessment of the FuelGae concept.
FuelGae will contribute to advancing the European scientific basis and global technological leadership in the area of renewable fuels, increase their technology competitiveness and role in transforming the energy system on a fossil-free basis by 2050, in particular in the sectors like aviation and shipping, while supporting the EU goals for energy independence.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101122151 |
| Start date: | 01-10-2023 |
| End date: | 30-09-2027 |
| Total budget - Public funding: | - 4 990 123,00 Euro |
Cordis data
Original description
TThe FuelGae project aims to develop a novel model of advanced liquid fuels (ALF) production from different CO2 emissions streams of two industrial sectors (biorefinery and energy intensive industries) through a microalgae pilot plant integrated into their infrastructure. The performance of the selected microalgae strains will be improved by adapting them to each industrial case study. The ALF production will be addressed developing different technologies: i) selective production of microalgae to obtain polysaccharides or lipids, ii) alternative microalgal biomass treatments, iii) innovative catalytic upgrading systems from biocrude., iv) online microalgae sensor. Additionally, to the previously innovative technologies, FuelGae concept uses modelling techniques integrated into Process Analytical Techniques to develop a global Digital Twin (DT).Furthermore, the C-economy of FuelGae approach will be significantly improved through hydrothermal liquefaction and, biogas processes. The biochar produced will be tested in agricultural uses creating synergies with energy and biocrude generation. All technologies will be upscaled to TRL5 in the two case study sites; the microalgae pilot plant will be transported and validated in the two industrial sites in Romania (steel plant) and Spain (2G-bioethanol). FuelGae technologies will be further evaluated through life cycle assessment (LCA/LCC) to confirm their lower environmental impact, use of resources, or GHG emissions, and a first approach of economical sustainability. DT will be coupled with LCA-LCC to provide a global and dynamic assessment of the FuelGae concept.
FuelGae will contribute to advancing the European scientific basis and global technological leadership in the area of renewable fuels, increase their technology competitiveness and role in transforming the energy system on a fossil-free basis by 2050, in particular in the sectors like aviation and shipping, while supporting the EU goals for energy independence.
Status
SIGNEDCall topic
HORIZON-CL5-2022-D3-03-07Update Date
12-03-2024
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
Search
Organisations
-
| AGENCIA ESTATAL CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS (Coördinator)
-
| ARCELORMITTAL TUBULAR PRODUCTS LEGUTIO SA
-
| ARCELORMITTAL TUBULAR PRODUCTS ROMAN SA
-
| DYNAMIC & SECURITY COMPUTATIONS SL (ANALISIS-DSC)
-
| ELLINIKA PETRELAIA MONOPROSOPIANONYMI ETAIREIA DIYLISISEFODIASMOU KAI POLISEONPETRELAIOEIDON KAI PET...
-
| ETHNIKO KENTRO EREVNAS KAI TECHNOLOGIKIS ANAPTYXIS (CERTH)
-
| INLECOM COMMERCIAL PATHWAYS COMPANYLIMITED BY GUARANTEE
-
| ITENE. Packaging, logistics, transport and mobility areas Research Institute
-
| National Technical University of Athens
-
| PERSEO BIOTECHNOLOGY S.L.
-
| RTDS - VEREIN ZUR FORDERUNG DER KOMMUNIKATION UND VERMITTLUNG VON FORSCHUNG, TECHNOLOGIE UND INNOVAT...
-
| TEKNOLOGIAN TUTKIMUSKESKUS VTT OY
-
| University of Oulu / Oulun yliopisto (UOULU)