Descripción del proyecto
Producción de amoníaco como combustible renovable
El amoníaco es considerado como el futuro combustible renovable ideal. En el proyecto ORACLE, financiado con fondos europeos, se desarrollarán tecnologías de reacción alternativas y escalables que integren catalizadores y tecnología de reactores para la producción descentralizada de amoníaco a partir de nitrógeno (N2) y agua (H20). Su equipo desarrollará y validará tres métodos de síntesis de amoníaco con un nivel de preparación tecnológica tres, a saber: electrocatálisis, electrocatálisis activada por plasma y catálisis térmica electrificada, que servirá como punto de referencia. En el proyecto ORACLE se probarán electrocatalizadores subestimados para la síntesis electroquímica de amoníaco a partir de N2 y H2O, se desarrollarán celdas electroquímicas activadas por plasma y se demostrarán nuevos conceptos interesantes de recombinación de óxidos de nitrógeno e hidrógeno a amoníaco en una celda electroquímica para aumentar la selectividad. Los procesos del sistema ORACLE podrían transformar de forma crítica la producción a gran escala basada en amoníaco.
Objetivo
The Oracle will develop scalable alternative reaction technologies for decentralised production of ammonia as a renewable fuel from N2 and H2O. Three strands for ammonia synthesis will be developed and validated at TRL3: electro-catalytic, plasma-aided electrocatalytic as well as electrified thermal catalysis process that will serve as a benchmark. The ORACLE proposes to test overlooked electrocatalysts for electrochemical synthesis of NH3 from N2 and H2O. To increase the selectivity ORACLE proposes to develop plasma-aided electrochemical cells and test exciting new concepts of NOx and H2 recombination to NH3 in an electrochemical cell. Here NOx and H2 are sourced from plasma-assisted electrolysis of N2 and H2O. The ORACLE system processes will integrate catalysts and reactor technology to create adaptable user-centered system for localized on-site ammonia production. The processes have the potential to decisively transform existing large-scale ammonia based production towards a non-fossil-based economy.
At the core of ORACLES’s systems are tuned (electro)catalyst design and their 3D controlled deposition for, on the one hand magnetic nanoparticle-bearing catalyst compositions for the thermocatalytic process and, on the other hand, NRR reduction, OER and HOR catalysts for the (plasma-assisted) electro-catalytic process. The electrified thermal catalysis will use local heat delivery through magnetic particles-mediated AC-fields to push the catalytic process beyond the reactor heat transfer limits.
The ORACLE project partners have accumulated a wealth of experience in e-fuels within a number of projects. In addition, the ORACLE project will benefit from the European longstanding collaboration with two Japanese research centres, AIST and ORIST. To reach this ambitious goal, ORACLE will draw on the complimentary expertise of its industrial ammonia producer CASALE and innovative catalyst manufacturer C2CAT, who cover two opposite ends of commercially-driven value chain.
Ámbito científico
Palabras clave
Programa(s)
Convocatoria de propuestas
Consulte otros proyectos de esta convocatoriaConvocatoria de subcontratación
H2020-LC-SC3-2020-NZE-RES-CC
Régimen de financiación
RIA - Research and Innovation actionCoordinador
8000 Aarhus C
Dinamarca