INNOVATIONS IN CO2 METANACION: MATERIALS MDF, CINETICA, REACTOR DESIGN AND OPERATIONAL STRATEGIES (CATALYSER AND PROCESS) FOR A RENEWABLE ENERGY MODEL (Q3167585): Difference between revisions

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(‎Changed label, description and/or aliases in en: translated_label)
(‎Removed claim: summary (P836): THIS SUB-PROJECT, TO BE CARRIED OUT AT THE UNIVERSITY OF THE BASQUE COUNTRY (UPV/EHU) IS CORRELATED WITH THE SUB-PROJECT “DESIGN OF CATALYSTS WITH THREE-DIMENSIONAL ORDER FOR CO2 METANACION”, WHICH WILL BE CARRIED OUT AT THE UNIVERSITY OF ALICANTE (UA), TO STRUCTURE THE COORDINATED PROJECT INNOVATIONS IN CO2 METANACION: (CATALYSER AND PROCESS) FOR A RENEWABLE ENERGY MODEL? THE UPV RESEARCHERS WILL BRING AN ENGINEERING APPROACH TO THE TEAM, PAY...)
Property / summary
THIS SUB-PROJECT, TO BE CARRIED OUT AT THE UNIVERSITY OF THE BASQUE COUNTRY (UPV/EHU) IS CORRELATED WITH THE SUB-PROJECT “DESIGN OF CATALYSTS WITH THREE-DIMENSIONAL ORDER FOR CO2 METANACION”, WHICH WILL BE CARRIED OUT AT THE UNIVERSITY OF ALICANTE (UA), TO STRUCTURE THE COORDINATED PROJECT INNOVATIONS IN CO2 METANACION: (CATALYSER AND PROCESS) FOR A RENEWABLE ENERGY MODEL? THE UPV RESEARCHERS WILL BRING AN ENGINEERING APPROACH TO THE TEAM, PAYING ATTENTION TO ASPECTS RELATED TO THE REACTION SYSTEM AND THE CINEMATICS OF THE PROCESS. THE AU RESEARCHERS WILL CONTRIBUTE IN A FOCUSED APPROACH TO THE SCIENCE AND TECHNOLOGY OF MATERIALS, DEDICATING THEMSELVES TO THE PREPARATION AND CHARACTERISATION OF CATALYSTS AS WELL AS TO THE STUDY OF THE ELEMENTARY STAGES OF THE MECHANISM. THIS COMPLEMENTARITY BETWEEN TEAMS WILL MAKE IT POSSIBLE TO ADDRESS THE PROBLEM FROM A GLOBAL POINT OF VIEW. _x000D_ the GENERAL OBJECTIVE OF THE PROJECT IS INNOVATE IN THE TECHNOLOGY OF CO2 METANACTION WITH H2 PROCEDENT OF RENOVABLE SOURCES FOR PRODUCTION OF NATURAL SINTETIC GAS (GNS). THIS HAS INTERESTS FOR INDUSTRIES WITH AVAILABILITY OF CO2, AVAILABILITY OF RENEWABLE ENERGY AND NEED OF USE OR POSSIBILITY OF DISTRIBUTION OF NATURAL GAS SYNTHETIC. TO ACHIEVE THIS GENERAL OBJECTIVE, UPV/EHU RESEARCHERS SET THEMSELVES AS SPECIFIC OBJECTIVES: DESIGN DUAL-FUNCTIONING MATERIALS (MDF), CAPABLE OF ADSORBER CO2 AND SIMULTANEOUSLY OR SUCCESSIVELY PERFORM METANACION REACTION; STUDY THE ACTIVITY, SELECTIVITY AND DURABILITY OF CATALYSTS AS WELL AS THE INFLUENCE OF THE OPERATING VARIABLES (FEED COMPOSITION, PRESSURE, TEMPERATURE) ON A MICROREACTOR, IN THE ABSENCE OF DIFUSIONAL OR THERMAL GRADIENTS; DETERMINE THE GLOBAL CINETICO MODEL OF REACTION AND CINETICAL PARAMETERS AND DESIGN A REACTION DEVICE THAT ALLOWS HEAT TRANSMISSION MANAGEMENT TO ACHIEVE MAXIMUM PROCESS EFFICIENCY, AS WELL AS OPERATIONAL STRATEGIES TO MAXIMISE EFFICIENCY FOR SPECIFIC INDUSTRIAL APPLICATIONS. The TAREAS have been collated with the associations in sub-project of the AU with an Equipment Office can contribute to all their experience in the consequence of the GENERAL OBJECTIVES._x000D_ this project abrogates the third challenge of the Spanish STRATEGY OF SCIENCE AND TECHNOLOGY AND INNOVATION and OF THE EUROPEAN MARKET HORIZON2020 (societal CHALLENGES) DENOMINED SAFETY, Efficient and Clean Energy. IT ALSO CONTRIBUTES TO SOLVING THE PROBLEM CONTEMPLATED IN THE FIFTH CHALLENGE: ACTION ON CLIMATE CHANGE AND EFFICIENCY IN THE USE OF RESOURCES AND RAW MATERIALS? IN ADDITION, THIS PROJECT AIMS TO TAKE ADVANTAGE OF THE OPTIONS GIVEN BY NANOTECHNOLOGIES TO THE SYNTHESIS OF ADVANCED MATERIALS, WHICH BOTH THE EUROPEAN HORIZON2020 PROGRAMME AND THE SPANISH STRATEGY OF SCIENCE AND TECHNOLOGY AND INNOVATION CONSIDER THEM AS ESSENTIAL ENABLING TECHNOLOGIESAPPLICABLE TO ALL CHALLENGES. (English)
 
Property / summary: THIS SUB-PROJECT, TO BE CARRIED OUT AT THE UNIVERSITY OF THE BASQUE COUNTRY (UPV/EHU) IS CORRELATED WITH THE SUB-PROJECT “DESIGN OF CATALYSTS WITH THREE-DIMENSIONAL ORDER FOR CO2 METANACION”, WHICH WILL BE CARRIED OUT AT THE UNIVERSITY OF ALICANTE (UA), TO STRUCTURE THE COORDINATED PROJECT INNOVATIONS IN CO2 METANACION: (CATALYSER AND PROCESS) FOR A RENEWABLE ENERGY MODEL? THE UPV RESEARCHERS WILL BRING AN ENGINEERING APPROACH TO THE TEAM, PAYING ATTENTION TO ASPECTS RELATED TO THE REACTION SYSTEM AND THE CINEMATICS OF THE PROCESS. THE AU RESEARCHERS WILL CONTRIBUTE IN A FOCUSED APPROACH TO THE SCIENCE AND TECHNOLOGY OF MATERIALS, DEDICATING THEMSELVES TO THE PREPARATION AND CHARACTERISATION OF CATALYSTS AS WELL AS TO THE STUDY OF THE ELEMENTARY STAGES OF THE MECHANISM. THIS COMPLEMENTARITY BETWEEN TEAMS WILL MAKE IT POSSIBLE TO ADDRESS THE PROBLEM FROM A GLOBAL POINT OF VIEW. _x000D_ the GENERAL OBJECTIVE OF THE PROJECT IS INNOVATE IN THE TECHNOLOGY OF CO2 METANACTION WITH H2 PROCEDENT OF RENOVABLE SOURCES FOR PRODUCTION OF NATURAL SINTETIC GAS (GNS). THIS HAS INTERESTS FOR INDUSTRIES WITH AVAILABILITY OF CO2, AVAILABILITY OF RENEWABLE ENERGY AND NEED OF USE OR POSSIBILITY OF DISTRIBUTION OF NATURAL GAS SYNTHETIC. TO ACHIEVE THIS GENERAL OBJECTIVE, UPV/EHU RESEARCHERS SET THEMSELVES AS SPECIFIC OBJECTIVES: DESIGN DUAL-FUNCTIONING MATERIALS (MDF), CAPABLE OF ADSORBER CO2 AND SIMULTANEOUSLY OR SUCCESSIVELY PERFORM METANACION REACTION; STUDY THE ACTIVITY, SELECTIVITY AND DURABILITY OF CATALYSTS AS WELL AS THE INFLUENCE OF THE OPERATING VARIABLES (FEED COMPOSITION, PRESSURE, TEMPERATURE) ON A MICROREACTOR, IN THE ABSENCE OF DIFUSIONAL OR THERMAL GRADIENTS; DETERMINE THE GLOBAL CINETICO MODEL OF REACTION AND CINETICAL PARAMETERS AND DESIGN A REACTION DEVICE THAT ALLOWS HEAT TRANSMISSION MANAGEMENT TO ACHIEVE MAXIMUM PROCESS EFFICIENCY, AS WELL AS OPERATIONAL STRATEGIES TO MAXIMISE EFFICIENCY FOR SPECIFIC INDUSTRIAL APPLICATIONS. The TAREAS have been collated with the associations in sub-project of the AU with an Equipment Office can contribute to all their experience in the consequence of the GENERAL OBJECTIVES._x000D_ this project abrogates the third challenge of the Spanish STRATEGY OF SCIENCE AND TECHNOLOGY AND INNOVATION and OF THE EUROPEAN MARKET HORIZON2020 (societal CHALLENGES) DENOMINED SAFETY, Efficient and Clean Energy. IT ALSO CONTRIBUTES TO SOLVING THE PROBLEM CONTEMPLATED IN THE FIFTH CHALLENGE: ACTION ON CLIMATE CHANGE AND EFFICIENCY IN THE USE OF RESOURCES AND RAW MATERIALS? IN ADDITION, THIS PROJECT AIMS TO TAKE ADVANTAGE OF THE OPTIONS GIVEN BY NANOTECHNOLOGIES TO THE SYNTHESIS OF ADVANCED MATERIALS, WHICH BOTH THE EUROPEAN HORIZON2020 PROGRAMME AND THE SPANISH STRATEGY OF SCIENCE AND TECHNOLOGY AND INNOVATION CONSIDER THEM AS ESSENTIAL ENABLING TECHNOLOGIESAPPLICABLE TO ALL CHALLENGES. (English) / rank
Normal rank
 
Property / summary: THIS SUB-PROJECT, TO BE CARRIED OUT AT THE UNIVERSITY OF THE BASQUE COUNTRY (UPV/EHU) IS CORRELATED WITH THE SUB-PROJECT “DESIGN OF CATALYSTS WITH THREE-DIMENSIONAL ORDER FOR CO2 METANACION”, WHICH WILL BE CARRIED OUT AT THE UNIVERSITY OF ALICANTE (UA), TO STRUCTURE THE COORDINATED PROJECT INNOVATIONS IN CO2 METANACION: (CATALYSER AND PROCESS) FOR A RENEWABLE ENERGY MODEL? THE UPV RESEARCHERS WILL BRING AN ENGINEERING APPROACH TO THE TEAM, PAYING ATTENTION TO ASPECTS RELATED TO THE REACTION SYSTEM AND THE CINEMATICS OF THE PROCESS. THE AU RESEARCHERS WILL CONTRIBUTE IN A FOCUSED APPROACH TO THE SCIENCE AND TECHNOLOGY OF MATERIALS, DEDICATING THEMSELVES TO THE PREPARATION AND CHARACTERISATION OF CATALYSTS AS WELL AS TO THE STUDY OF THE ELEMENTARY STAGES OF THE MECHANISM. THIS COMPLEMENTARITY BETWEEN TEAMS WILL MAKE IT POSSIBLE TO ADDRESS THE PROBLEM FROM A GLOBAL POINT OF VIEW. _x000D_ the GENERAL OBJECTIVE OF THE PROJECT IS INNOVATE IN THE TECHNOLOGY OF CO2 METANACTION WITH H2 PROCEDENT OF RENOVABLE SOURCES FOR PRODUCTION OF NATURAL SINTETIC GAS (GNS). THIS HAS INTERESTS FOR INDUSTRIES WITH AVAILABILITY OF CO2, AVAILABILITY OF RENEWABLE ENERGY AND NEED OF USE OR POSSIBILITY OF DISTRIBUTION OF NATURAL GAS SYNTHETIC. TO ACHIEVE THIS GENERAL OBJECTIVE, UPV/EHU RESEARCHERS SET THEMSELVES AS SPECIFIC OBJECTIVES: DESIGN DUAL-FUNCTIONING MATERIALS (MDF), CAPABLE OF ADSORBER CO2 AND SIMULTANEOUSLY OR SUCCESSIVELY PERFORM METANACION REACTION; STUDY THE ACTIVITY, SELECTIVITY AND DURABILITY OF CATALYSTS AS WELL AS THE INFLUENCE OF THE OPERATING VARIABLES (FEED COMPOSITION, PRESSURE, TEMPERATURE) ON A MICROREACTOR, IN THE ABSENCE OF DIFUSIONAL OR THERMAL GRADIENTS; DETERMINE THE GLOBAL CINETICO MODEL OF REACTION AND CINETICAL PARAMETERS AND DESIGN A REACTION DEVICE THAT ALLOWS HEAT TRANSMISSION MANAGEMENT TO ACHIEVE MAXIMUM PROCESS EFFICIENCY, AS WELL AS OPERATIONAL STRATEGIES TO MAXIMISE EFFICIENCY FOR SPECIFIC INDUSTRIAL APPLICATIONS. The TAREAS have been collated with the associations in sub-project of the AU with an Equipment Office can contribute to all their experience in the consequence of the GENERAL OBJECTIVES._x000D_ this project abrogates the third challenge of the Spanish STRATEGY OF SCIENCE AND TECHNOLOGY AND INNOVATION and OF THE EUROPEAN MARKET HORIZON2020 (societal CHALLENGES) DENOMINED SAFETY, Efficient and Clean Energy. IT ALSO CONTRIBUTES TO SOLVING THE PROBLEM CONTEMPLATED IN THE FIFTH CHALLENGE: ACTION ON CLIMATE CHANGE AND EFFICIENCY IN THE USE OF RESOURCES AND RAW MATERIALS? IN ADDITION, THIS PROJECT AIMS TO TAKE ADVANTAGE OF THE OPTIONS GIVEN BY NANOTECHNOLOGIES TO THE SYNTHESIS OF ADVANCED MATERIALS, WHICH BOTH THE EUROPEAN HORIZON2020 PROGRAMME AND THE SPANISH STRATEGY OF SCIENCE AND TECHNOLOGY AND INNOVATION CONSIDER THEM AS ESSENTIAL ENABLING TECHNOLOGIESAPPLICABLE TO ALL CHALLENGES. (English) / qualifier
point in time: 12 October 2021
Timestamp+2021-10-12T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0
 

Revision as of 18:34, 12 October 2021

Project Q3167585 in Spain
Language Label Description Also known as
English
INNOVATIONS IN CO2 METANACION: MATERIALS MDF, CINETICA, REACTOR DESIGN AND OPERATIONAL STRATEGIES (CATALYSER AND PROCESS) FOR A RENEWABLE ENERGY MODEL
Project Q3167585 in Spain

    Statements

    contained in NUTS
    Biscay
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    country
    Spain
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    EU contribution
    131,285.0 Euro
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    budget
    262,570.0 Euro
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    co-financing rate
    50.0 percent
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    start time
    1 January 2016
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    end time
    31 December 2020
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    beneficiary name (string)
    UNIVERSIDAD DEL PAIS VASCO/EUSKAL HERRIKO UNIBERTSITATEA
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    beneficiary
    Q3134714
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    coordinate location

    43°19'37.56"N, 2°59'4.60"W
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    postal code
    48054
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    summary
    ESTE SUBPROYECTO, QUE SE REALIZARA EN LA UNIVERSIDAD DEL PAIS VASCO (UPV/EHU) SE CORRELACIONA CON EL SUBPROYECTO ¿DISEÑO DE CATALIZADORES CON ORDEN TRIDIMENSIONAL PARA LA METANACION DE CO2¿, QUE SERA LLEVADO A CABO EN LA UNIVERSIDAD DE ALICANTE (UA), PARA ESTRUCTURAR EL PROYECTO COORDINADO ¿INNOVACIONES EN LA METANACION DE CO2: (CATALIZADOR Y PROCESO) PARA UN MODELO ENERGETICO RENOVABLE¿. LOS INVESTIGADORES DE LA UPV APORTARAN UN ENFOQUE INGENIERIL AL EQUIPO, PRESTANDO ATENCION A ASPECTOS RELACIONADOS CON EL SISTEMA DE REACCION Y CON LA CINETICA DEL PROCESO. LOS INVESTIGADORES DE LA UA APORTARAN EN ENFOQUE CENTRADO EN LA CIENCIA Y TECNOLOGIA DE MATERIALES, DEDICANDOSE A LA PREPARACION Y CARACTERIZACION DE LOS CATALIZADORES ASI COMO AL ESTUDIO DE LAS ETAPAS ELEMENTALES DEL MECANISMO. ESTA COMPLEMENTARIEDAD ENTRE EQUIPOS PERMITIRA ABORDAR EL PROBLEMA DESDE UN PUNTO DE VISTA GLOBAL. _x000D_ EL OBJETIVO GENERAL DEL PROYECTO ES INNOVAR EN LA TECNOLOGIA DE METANACION DE CO2 CON H2 PROCEDENTE DE FUENTES RENOVABLES PARA PRODUCIR GAS NATURAL SINTETICO (GNS). ESTO TIENE INTERES PARA INDUSTRIAS CON DISPONIBILIDAD DE CO2, DISPONIBILIDAD DE ENERGIA RENOVABLE Y NECESIDAD DE UTILIZACION O POSIBILIDAD DE DISTRIBUCION DEL GAS NATURAL SINTETICO. PARA ALCANZAR ESTE OBJETIVO GENERAL, LOS INVESTIGADORES DE LA UPV/EHU SE PLANTEAN COMO OBJETIVOS ESPECIFICOS: DISEÑAR MATERIALES DE DOBLE FUNCION (MDF), CON CAPACIDAD PARA ADSORBER CO2 Y REALIZAR SIMULTANEA O SUCESIVAMENTE LA REACCION DE METANACION; ESTUDIAR DE LA ACTIVIDAD, SELECTIVIDAD Y DURABILIDAD DE LOS CATALIZADORES ASI COMO LA INFLUENCIA DE LAS VARIABLES DE OPERACION (COMPOSICION DE LA ALIMENTACION, PRESION, TEMPERATURA) EN UN MICRORREACTOR, EN AUSENCIA DE GRADIENTES DIFUSIONALES O TERMICOS; DETERMINAR EL MODELO CINETICO GLOBAL DE LA REACCION Y LOS PARAMETROS CINETICOS Y DISEÑAR UN DISPOSITIVO DE REACCION QUE PERMITA LA GESTION DE LA TRANSMISION DE CALOR PARA LOGRAR LA MAXIMA EFICIENCIA DEL PROCESO, ASI COMO ESTRATEGIAS DE OPERACION PARA MAXIMIZAR LA EFICACIA DE CARA A APLICACIONES INDUSTRIALES CONCRETAS. LA TAREAS SE HAN ACOPLADO CON LAS ASUMIDAS EN SUBPROYECTO DE LA UA CON OBJETO DE AMBOS EQUIPOS PUEDAN APORTAR TODA SU EXPERIENCIA EN LA CONSECUACION DE LOS OBJETIVOS GENERALES._x000D_ ESTE PROYECTO ABORDA EL RETO TERCERO DE LA ESTRATEGIA ESPAÑOLA DE CIENCIA Y TECNOLOGIA Y DE INNOVACION Y DEL PROGRAMA MARCO EUROPEO HORIZON2020 (¿SOCIETAL CHALLENGES¿) DENOMINADO ¿ENERGIA SEGURA, EFICIENTE Y LIMPIA¿. ASIMISMO, TAMBIEN CONTRIBUYE A RESOLVER LA PROBLEMATICA CONTEMPLADA EN EL QUINTO RETO ¿ACCION SOBRE EL CAMBIO CLIMATICO Y EFICIENCIA EN LA UTILIZACION DE RECURSOS Y MATERIAS PRIMAS¿. ADEMAS, ESTE PROYECTO PRETENDE APROVECHAR LAS OPCIONES QUE DA LA ¿NANOTECNOLOGIA¿ A LA SINTESIS DE ¿MATERIALES AVANZADOS¿, QUE TANTO EL PROGRAMA EUROPEO HORIZON2020 COMO LA ESTRATEGIA ESPAÑOLA DE CIENCIA Y TECNOLOGIA Y DE INNOVACION LAS CONSIDERAN COMO ¿TECNOLOGIAS FACILITADORAS ESENCIALES¿ APLICABLES A TODOS LOS RETOS. (Spanish)
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    location (string)
    Leioa
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    Identifiers

    Spanish Kohesio ID
    CTQ2015-67597-C2-1-R
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