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Financement de l’UE (6 989 207 €) : Réduction des émissions grâce à la capture de la bioénergie et son application dans une industrie difficile à abattre Hor07/10/2025 Programme de recherche et d'innovation de l'UE « Horizon »
Vue d’ensemble
Texte
Réduction des émissions grâce à la capture de la bioénergie et son application dans une industrie difficile à abattre
BECCS technologies are a valuable option to reach Net Zero Emissions by 2050, applicable to different sectors (energy, hard-to-abate, biofuel production). High costs, environmental concerns related to solvent emissions, biomass source, permanent CO2 storage hubs availability, and uncertainties in the policy framework represent challenges for their large-scale deployment. ENHANCEMENT will address all these through i) the characterization and modelling of a green, non-volatile, amino acid-based solvent, with 50% reduced harmful compounds emissions and 3-8% reduced make-up cost; ii) integration of a BECCS technology using the green solvent with a Heat Pipe Condensing Economiser (HPCE) condensing water and acidic pollutants (NOX, SOX) from the flue gas entering the CC unit, to prevent its corrosion while recovering heat (12% energy savings), hence lowering OPEX by 6%; iii) study and model of the BECCS value chain, focusing on biomass availability and development of EU storage hubs at EU level; iv) assessment of the policy scenario, accessible incentives, and carbon credits, delivering policy briefs to guide policymakers towards sustainable development of BECCS technologies. ENHANCEMENT will validate the technology to TRL7 in two pilots: the semi-industrial plant at SINTEF’s CO2Lab and DABO’s mobile testing unit CC+HPCE at SOSVAV’s CHP plant (Italy). The sustainability of the ENHANCEMENT technology will be evaluated through techno-economic analysis, LCA, and s-LCA. Moreover, the replicability of the technology to the hard-to-abate sector (steel industry) will be assessed through the same assessments. ENHANCEMENT technology will target >90% CO2 capture rate and up to 15% total cost reduction down to <70 €/tavoidedCO2 (<80 €/t for the steel plant). Scaled-up ENHANCEMENT technology can prevent >18,000 tCO2/y emissions in the CHP demo and ~80,000 tCO2/y for the steel replicability demo case, with a global economic benefit of > 5 M€/y from carbon credits and ETS savings.
| ArcelorMittal Hamburg GmbH | 199 592 € |
| Bewarrant | 293 125 € |
| Brunel University London | 395 528 € |
| Dabo Engineering AB | 471 433 € |
| Econotherm (UK) Ltd. | 350 525 € |
| Imperial College of Science Technology and Medicine | 791 110 € |
| Lunds Universitet | 473 493 € |
| PERSPECTIVES CLIMATE RESEARCH gGmbH | 359 949 € |
| Politecnico Di Milano | 415 151 € |
| Sintef AS | 2 431 178 € |
| Societa Per LO Sviluppo Dell'Alta Valle Camonica Srl | 269 765 € |
| Universita Degli Studi Di Modena E Reggio Emilia | 300 880 € |
| Wood Italiana Srl | 237 480 € |
https://cordis.europa.eu/project/id/101235557
Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel.
