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Financement de l’UE (303 777 €) : De nouvelles conceptions d’assemblages membrane-électrode bipolaires pour la capture et la réduction simultanées du CO2 Hor26/04/2024 Programme de recherche et d'innovation de l'UE « Horizon »

Vue d’ensemble

Texte

De nouvelles conceptions d’assemblages membrane-électrode bipolaires pour la capture et la réduction simultanées du CO2

The discovery of efficient technologies for mitigation of the rising CO2 level and the associated energy and environmental issues is the grand challenge of our time. Electrochemical CO2 reduction (eCO2R) is one promising approach to convert CO2 into valuable products, but the practical realization is still limited by material and system-level challenges. On top of this, the pathway to bring CO2 captured from a point source to an eCO2R site involves energy-intensive, practically difficult intermediate steps often overlooked by the research community. The BattleCapCO2 project introduces a new pathway to fully integrate CO2 capture and CO2 reduction (CO2CR) in a unit flow reactor. This will be achieved by a unique design of bipolar membrane-electrode assemblies obtained by coupled 3D printing and photolithography techniques. An attempt will be done to elucidate the impact of BPM interface morphologies and electrode surface properties on the efficiency of CO2CR. The conceptual flow reactor design allows for simultaneous CO2 capture, in situ regeneration, and subsequent electroreduction into useful chemicals, presenting an energy efficient and cost-effective technological solution. The action will broaden the knowledge and expertise of the researcher through high-quality research training in the field of carbon capture and utilization, involving multidisciplinary investigation approaches and intersectoral secondments. This will allow him to expand his professional network with leading scientists in academia and industry from across Europe and the globe, and acquire key skill sets towards professional independence. The project will provide new technological solutions with a significant impact on the ambitious Europan green deal aiming to transform EU into a resource-efficient and competitive economy, ensuring a climate-neutral society.


Danmarks Tekniske Universitet ?
Universita Della Calabria 303 777 €

https://cordis.europa.eu/project/id/101153662

Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel. L’état actuel est présenté à la page suivante : Danmarks Tekniske Universitet, Kongens Lyngby, Danemark.