Q3137698 (Q3137698): Difference between revisions
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(Created claim: summary (P836): THE PROJECT’S INTEREST IS FOCUSED ON HOW IONIC LIQUIDS (ILS) CAN BE DESIGNED TO PERFORM SPECIFIC AND SELECTIVE SEPARATIONS OF GASES, AND THEREFORE, A POTENTIAL APPLICATION IS THE SEPARATION OF INDUSTRIAL COMBUSTION GASES FOR THE REMOVAL OF ENVIRONMENTALLY HAZARDOUS ACID GASES. THE PROJECT STUDIES THE APPLICATION OF ILS FOR THE CAPTURE PROCESSES OF ACID GASES, MAINLY FOR CO2 AND SO2, BASED ON THE PARTICULAR PROPERTIES OF THESE ILS. COMPARED TO CU...) |
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THE PROJECT’S INTEREST IS FOCUSED ON HOW IONIC LIQUIDS (ILS) CAN BE DESIGNED TO PERFORM SPECIFIC AND SELECTIVE SEPARATIONS OF GASES, AND THEREFORE, A POTENTIAL APPLICATION IS THE SEPARATION OF INDUSTRIAL COMBUSTION GASES FOR THE REMOVAL OF ENVIRONMENTALLY HAZARDOUS ACID GASES. THE PROJECT STUDIES THE APPLICATION OF ILS FOR THE CAPTURE PROCESSES OF ACID GASES, MAINLY FOR CO2 AND SO2, BASED ON THE PARTICULAR PROPERTIES OF THESE ILS. COMPARED TO CURRENT METHODS FOR CAPTURING AND SEPARATING ACID GASES, LSIS HAVE SEVERAL ADVANTAGES SUCH AS LOWER VOLATILITY, LOWER THERMAL DEGRADATION DURING REGENERATION AND THE LOWER ENERGY REQUIRED FOR DESORCION PROCESSES COMPARED TO STANDARD METHODS. Thus, the ability to control and devise the Ownerships of the ILS, in the course of an adduced combition of IONEs, would allow the development of lower-targeted approaches for the design of ABSORBENTS ADECTED TO THE CAPTURE OF ACID GASES._x000D_ BY WHEN, a COMPUTATIONAL/EXPERIMENTAL COMMITTEE TO DESIGN ILS ADECTED FOR THE ELIMINATION OF ACID GASES is proposed. THE METHODOLOGY PROPOSED IN THIS WORK FOR THE DEVELOPMENT OF ACID GAS REMOVAL PROCESSES USING ILS CAN BE SUMMARISED IN THE FOLLOWING POINTS. FIRST, THE STUDY WILL FOCUS ON THOSE LSIS COMPOSED OF CATIONS AND ANIONS WITH APPROPRIATE ENVIRONMENTAL AND TOXICOLOGICAL PROFILES, WHICH CAN BE OBTAINED FROM CHEAP SOURCES THROUGH SIMPLE SYNTHESIS PROCEDURES, AND WITH TERMOFISICAS PROPERTIES SUITABLE FOR PROCESS DESIGN PURPOSES. SECONDLY, A COMPUTATIONAL STUDY USING METHODS BASED ON THE DENSITY FUNCTIONAL THEORY (DFT) WILL BE CONDUCTED TO PREDICT THE EFFECT OF CATION/ANION ON THE SOLUBILITY OF CO2 AND SO2, AS WELL AS THEIR INTERACTION WITH THE CORRESPONDING IONS. THIRDLY, A GROUP OF ILS WILL BE SELECTED ACCORDING TO THE CALCULATION RESULTS FOR EXPERIMENTAL STUDIES. FOURTHLY, THROUGH THE USE OF A WIDE COLLECTION OF HIGH PRECISION DEVICES EXISTING IN OUR LABORATORIES, THERMOPHYSICAL STUDIES WILL BE CARRIED OUT TO DETERMINE THE SOLUBILITY OF ACID GASES IN THE SELECTED ILS AND THE RELATED PROPERTIES REQUIRED FOR PROCESS DESIGN. FIFTH, A COMPUTATIONAL STUDY, USING MOLECULAR DYNAMICS AND MONTE CARLO METHODS, WILL BE CONDUCTED TO ANALYSE THE INTERACTION BETWEEN THE SELECTED IONIC LIQUIDS AND THE ACID GASES STUDIED, THE MECHANISM OF ABSORPTION AT THE NANOSCOPIC LEVEL AND TO INFER MOLECULAR INFORMATION ON THE BEHAVIOR OF THE ABSORBENT FLUIDS. In SEXT PLACE, ECONOMIC AND TECHNOLOGIC ASPECTS OF PROCESSES BASED IN THE Selected ILS TO STUDY YOUR VIABILITY AND COMPETITIVITY WITH RESPECT TO THE ACTUAL CAPTURE METODS FOR THE ELIMINATION OF ACID GASES._x000D_ THE FINAL WORK OBJECTIVE OBJECTIVE IS TO find ILS ADECTED WITH LOW Toxicity, ECONOMIC, who can be produced in the process of sensitised synthesis, with technical and physical property, which will be used for the capturing of the state-of-the-art, and therefore, that they are in competition with the available products of eLIMINATION. LIKEWISE, THE COMBINED EXPERIMENTAL — COMPUTATIONAL METHODOLOGY WOULD ALLOW FOR A DEEPER VISION OF THE MECHANISM THAT CONTROLS THE ABSORPTION OF ACID GASES IN ILS. (English) | |||||||||||||||
| Property / summary: THE PROJECT’S INTEREST IS FOCUSED ON HOW IONIC LIQUIDS (ILS) CAN BE DESIGNED TO PERFORM SPECIFIC AND SELECTIVE SEPARATIONS OF GASES, AND THEREFORE, A POTENTIAL APPLICATION IS THE SEPARATION OF INDUSTRIAL COMBUSTION GASES FOR THE REMOVAL OF ENVIRONMENTALLY HAZARDOUS ACID GASES. THE PROJECT STUDIES THE APPLICATION OF ILS FOR THE CAPTURE PROCESSES OF ACID GASES, MAINLY FOR CO2 AND SO2, BASED ON THE PARTICULAR PROPERTIES OF THESE ILS. COMPARED TO CURRENT METHODS FOR CAPTURING AND SEPARATING ACID GASES, LSIS HAVE SEVERAL ADVANTAGES SUCH AS LOWER VOLATILITY, LOWER THERMAL DEGRADATION DURING REGENERATION AND THE LOWER ENERGY REQUIRED FOR DESORCION PROCESSES COMPARED TO STANDARD METHODS. Thus, the ability to control and devise the Ownerships of the ILS, in the course of an adduced combition of IONEs, would allow the development of lower-targeted approaches for the design of ABSORBENTS ADECTED TO THE CAPTURE OF ACID GASES._x000D_ BY WHEN, a COMPUTATIONAL/EXPERIMENTAL COMMITTEE TO DESIGN ILS ADECTED FOR THE ELIMINATION OF ACID GASES is proposed. THE METHODOLOGY PROPOSED IN THIS WORK FOR THE DEVELOPMENT OF ACID GAS REMOVAL PROCESSES USING ILS CAN BE SUMMARISED IN THE FOLLOWING POINTS. FIRST, THE STUDY WILL FOCUS ON THOSE LSIS COMPOSED OF CATIONS AND ANIONS WITH APPROPRIATE ENVIRONMENTAL AND TOXICOLOGICAL PROFILES, WHICH CAN BE OBTAINED FROM CHEAP SOURCES THROUGH SIMPLE SYNTHESIS PROCEDURES, AND WITH TERMOFISICAS PROPERTIES SUITABLE FOR PROCESS DESIGN PURPOSES. SECONDLY, A COMPUTATIONAL STUDY USING METHODS BASED ON THE DENSITY FUNCTIONAL THEORY (DFT) WILL BE CONDUCTED TO PREDICT THE EFFECT OF CATION/ANION ON THE SOLUBILITY OF CO2 AND SO2, AS WELL AS THEIR INTERACTION WITH THE CORRESPONDING IONS. THIRDLY, A GROUP OF ILS WILL BE SELECTED ACCORDING TO THE CALCULATION RESULTS FOR EXPERIMENTAL STUDIES. FOURTHLY, THROUGH THE USE OF A WIDE COLLECTION OF HIGH PRECISION DEVICES EXISTING IN OUR LABORATORIES, THERMOPHYSICAL STUDIES WILL BE CARRIED OUT TO DETERMINE THE SOLUBILITY OF ACID GASES IN THE SELECTED ILS AND THE RELATED PROPERTIES REQUIRED FOR PROCESS DESIGN. FIFTH, A COMPUTATIONAL STUDY, USING MOLECULAR DYNAMICS AND MONTE CARLO METHODS, WILL BE CONDUCTED TO ANALYSE THE INTERACTION BETWEEN THE SELECTED IONIC LIQUIDS AND THE ACID GASES STUDIED, THE MECHANISM OF ABSORPTION AT THE NANOSCOPIC LEVEL AND TO INFER MOLECULAR INFORMATION ON THE BEHAVIOR OF THE ABSORBENT FLUIDS. In SEXT PLACE, ECONOMIC AND TECHNOLOGIC ASPECTS OF PROCESSES BASED IN THE Selected ILS TO STUDY YOUR VIABILITY AND COMPETITIVITY WITH RESPECT TO THE ACTUAL CAPTURE METODS FOR THE ELIMINATION OF ACID GASES._x000D_ THE FINAL WORK OBJECTIVE OBJECTIVE IS TO find ILS ADECTED WITH LOW Toxicity, ECONOMIC, who can be produced in the process of sensitised synthesis, with technical and physical property, which will be used for the capturing of the state-of-the-art, and therefore, that they are in competition with the available products of eLIMINATION. LIKEWISE, THE COMBINED EXPERIMENTAL — COMPUTATIONAL METHODOLOGY WOULD ALLOW FOR A DEEPER VISION OF THE MECHANISM THAT CONTROLS THE ABSORPTION OF ACID GASES IN ILS. (English) / rank | |||||||||||||||
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| Property / summary: THE PROJECT’S INTEREST IS FOCUSED ON HOW IONIC LIQUIDS (ILS) CAN BE DESIGNED TO PERFORM SPECIFIC AND SELECTIVE SEPARATIONS OF GASES, AND THEREFORE, A POTENTIAL APPLICATION IS THE SEPARATION OF INDUSTRIAL COMBUSTION GASES FOR THE REMOVAL OF ENVIRONMENTALLY HAZARDOUS ACID GASES. THE PROJECT STUDIES THE APPLICATION OF ILS FOR THE CAPTURE PROCESSES OF ACID GASES, MAINLY FOR CO2 AND SO2, BASED ON THE PARTICULAR PROPERTIES OF THESE ILS. COMPARED TO CURRENT METHODS FOR CAPTURING AND SEPARATING ACID GASES, LSIS HAVE SEVERAL ADVANTAGES SUCH AS LOWER VOLATILITY, LOWER THERMAL DEGRADATION DURING REGENERATION AND THE LOWER ENERGY REQUIRED FOR DESORCION PROCESSES COMPARED TO STANDARD METHODS. Thus, the ability to control and devise the Ownerships of the ILS, in the course of an adduced combition of IONEs, would allow the development of lower-targeted approaches for the design of ABSORBENTS ADECTED TO THE CAPTURE OF ACID GASES._x000D_ BY WHEN, a COMPUTATIONAL/EXPERIMENTAL COMMITTEE TO DESIGN ILS ADECTED FOR THE ELIMINATION OF ACID GASES is proposed. THE METHODOLOGY PROPOSED IN THIS WORK FOR THE DEVELOPMENT OF ACID GAS REMOVAL PROCESSES USING ILS CAN BE SUMMARISED IN THE FOLLOWING POINTS. FIRST, THE STUDY WILL FOCUS ON THOSE LSIS COMPOSED OF CATIONS AND ANIONS WITH APPROPRIATE ENVIRONMENTAL AND TOXICOLOGICAL PROFILES, WHICH CAN BE OBTAINED FROM CHEAP SOURCES THROUGH SIMPLE SYNTHESIS PROCEDURES, AND WITH TERMOFISICAS PROPERTIES SUITABLE FOR PROCESS DESIGN PURPOSES. SECONDLY, A COMPUTATIONAL STUDY USING METHODS BASED ON THE DENSITY FUNCTIONAL THEORY (DFT) WILL BE CONDUCTED TO PREDICT THE EFFECT OF CATION/ANION ON THE SOLUBILITY OF CO2 AND SO2, AS WELL AS THEIR INTERACTION WITH THE CORRESPONDING IONS. THIRDLY, A GROUP OF ILS WILL BE SELECTED ACCORDING TO THE CALCULATION RESULTS FOR EXPERIMENTAL STUDIES. FOURTHLY, THROUGH THE USE OF A WIDE COLLECTION OF HIGH PRECISION DEVICES EXISTING IN OUR LABORATORIES, THERMOPHYSICAL STUDIES WILL BE CARRIED OUT TO DETERMINE THE SOLUBILITY OF ACID GASES IN THE SELECTED ILS AND THE RELATED PROPERTIES REQUIRED FOR PROCESS DESIGN. FIFTH, A COMPUTATIONAL STUDY, USING MOLECULAR DYNAMICS AND MONTE CARLO METHODS, WILL BE CONDUCTED TO ANALYSE THE INTERACTION BETWEEN THE SELECTED IONIC LIQUIDS AND THE ACID GASES STUDIED, THE MECHANISM OF ABSORPTION AT THE NANOSCOPIC LEVEL AND TO INFER MOLECULAR INFORMATION ON THE BEHAVIOR OF THE ABSORBENT FLUIDS. In SEXT PLACE, ECONOMIC AND TECHNOLOGIC ASPECTS OF PROCESSES BASED IN THE Selected ILS TO STUDY YOUR VIABILITY AND COMPETITIVITY WITH RESPECT TO THE ACTUAL CAPTURE METODS FOR THE ELIMINATION OF ACID GASES._x000D_ THE FINAL WORK OBJECTIVE OBJECTIVE IS TO find ILS ADECTED WITH LOW Toxicity, ECONOMIC, who can be produced in the process of sensitised synthesis, with technical and physical property, which will be used for the capturing of the state-of-the-art, and therefore, that they are in competition with the available products of eLIMINATION. LIKEWISE, THE COMBINED EXPERIMENTAL — COMPUTATIONAL METHODOLOGY WOULD ALLOW FOR A DEEPER VISION OF THE MECHANISM THAT CONTROLS THE ABSORPTION OF ACID GASES IN ILS. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 13:05, 12 October 2021
Project Q3137698 in Spain
| Language | Label | Description | Also known as |
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| English | No label defined |
Project Q3137698 in Spain |
Statements
35,695.0 Euro
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71,390.0 Euro
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50.0 percent
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1 January 2014
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31 December 2016
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UNIVERSIDAD DE BURGOS
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42°20'38.15"N, 3°41'49.13"W
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09059
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EL INTERES DEL PROYECTO SE CENTRA EN COMO LOS LIQUIDOS IONICOS (ILS) PUEDEN SER DISEÑADOS PARA REALIZAR SEPARACIONES ESPECIFICAS Y SELECTIVAS DE GASES, Y POR LO TANTO, UNA APLICACION POTENCIAL ES LA SEPARACION DE GASES DE COMBUSTION INDUSTRIALES PARA LA ELIMINACION DE GASES ACIDOS PELIGROSOS PARA EL MEDIO AMBIENTE . EL PROYECTO ESTUDIA LA APLICACION DE ILS PARA LOS PROCESOS DE CAPTURA DE GASES ACIDOS, PRINCIPALMENTE PARA CO2 Y SO2 , CON BASE EN LAS PROPIEDADES PARTICULARES DE ESTOS ILS . EN COMPARACION CON LOS METODOS ACTUALES PARA LA CAPTURA Y SEPARACION DE GASES ACIDOS , LOS ILS TIENEN VARIAS VENTAJAS TALES COMO MENOR VOLATILIDAD, LA MENOR DEGRADACION TERMICA DURANTE LA REGENERACION Y LA MENOR ENERGIA REQUERIDA PARA LOS PROCESOS DE DESORCION EN COMPARACION CON LOS METODOS ESTANDAR. ASI MISMO, LA POSIBILIDAD DE CONTROLAR Y DISEÑAR LAS PROPIEDADES DE LOS ILS, A TRAVES DE UNA COMBINACION ADECUADA DE IONES, PERMITIRIA EL DESARROLLO DE ENFOQUES ABAJO-ARRIBA PARA EL DISEÑO DE ABSORBENTES ADECUADOS PARA LA CAPTURA DE GASES ACIDOS._x000D_ POR LO TANTO, SE PROPONE UN ENFOQUE COMPUTACIONAL / EXPERIMENTAL COMBINADO PARA DISEÑAR ILS ADECUADOS PARA LA ELIMINACION DE GASES ACIDOS. LA METODOLOGIA PROPUESTA EN ESTE TRABAJO PARA EL DESARROLLO DE LOS PROCESOS DE ELIMINACION DE GASES ACIDOS UTILIZANDO ILS PUEDE RESUMIRSE EN LOS SIGUIENTES PUNTOS . EN PRIMER LUGAR, EL ESTUDIO SE CENTRARA EN AQUELLOS ILS COMPUESTOS POR CATIONES Y ANIONES CON PERFILES AMBIENTALES Y TOXICOLOGICOS ADECUADOS, QUE PUEDEN SER OBTENIDOS DE FUENTES BARATAS A TRAVES DE PROCEDIMIENTOS DE SINTESIS SENCILLOS, Y CON PROPIEDADES TERMOFISICAS ADECUADAS PARA FINES DE DISEÑO DE PROCESOS. EN SEGUNDO LUGAR, UN ESTUDIO COMPUTACIONAL USANDO METODOS BASADOS EN LA TEORIA DEL FUNCIONAL DE LA DENSIDAD ( DFT ) SE LLEVARA A CABO PARA PREDECIR EL EFECTO DE CATION / ANION SOBRE LA SOLUBILIDAD DEL CO2 Y SO2, ASI COMO SU INTERACCION CON LOS CORRESPONDIENTES IONES. EN TERCER LUGAR, UN GRUPO DE ILS SERA SELECCIONADO DE ACUERDO CON LOS RESULTADOS DE CALCULO PARA LLEVAR A CABO ESTUDIOS EXPERIMENTALES. EN CUARTO LUGAR, MEDIANTE EL USO DE UNA AMPLIA COLECCION DE APARATOS DE ALTA PRECISION EXISTENTES EN NUESTROS LABORATORIOS, SE LLEVARAN A CABO ESTUDIOS TERMOFISICOS PARA DETERMINAR LA SOLUBILIDAD DE LOS GASES ACIDOS EN LOS ILS SELECCIONADOS Y LAS PROPIEDADES RELACIONADAS REQUERIDAS PARA EL DISEÑO DE PROCESOS. EN QUINTO LUGAR, UN ESTUDIO COMPUTACIONAL , USANDO DINAMICA MOLECULAR Y METODOS DE MONTE CARLO SE LLEVARA A CABO, PARA ANALIZAR LA INTERACCION ENTRE LOS LIQUIDOS IONICOS SELECCIONADOS Y LOS GASES ACIDOS ESTUDIADOS, EL MECANISMO DE ABSORCION A NIVEL NANOSCOPICO Y PARA INFERIR INFORMACION A NIVEL MOLECULAR DEL COMPORTAMIENTO DE LOS FLUIDOS ABSORBENTES. EN SEXTO LUGAR, SE ANALIZARAN LOS ASPECTOS ECONOMICOS Y TECNOLOGICOS DE LOS PROCESOS BASADOS EN LOS ILS SELECCIONADOS PARA ESTUDIAR SU VIABILIDAD Y COMPETITIVIDAD CON RESPECTO A LOS METODOS DE CAPTURA ACTUALES PARA LA ELIMINACION DE GASES ACIDOS._x000D_ EL OBJETIVO FINAL DEL TRABAJO ES ENCONTRAR ILS ADECUADOS CON BAJA TOXICIDAD, ECONOMICOS, QUE PUEDAN SER PRODUCIDOS A TRAVES DE PROCEDIMIENTOS DE SINTESIS SENCILLOS, CON PROPIEDADES TERMOFISICAS ADECUADAS, QUE SEAN ADECUADOS PARA LA CAPTURA DE LOS GASES ESTUDIADOS, Y POR LO TANTO, QUE SEAN COMPETITIVOS CON LOS PROCESOS DE ELIMINACION DISPONIBLES . ASIMISMO, LA METODOLOGIA COMBINADA EXPERIMENTAL - COMPUTACIONAL PERMITIRIA OBTENER UNA VISION MAS PROFUNDA DEL MECANISMO QUE CONTROLA LA ABSORCION DE GASES ACIDOS EN ILS. (Spanish)
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THE PROJECT’S INTEREST IS FOCUSED ON HOW IONIC LIQUIDS (ILS) CAN BE DESIGNED TO PERFORM SPECIFIC AND SELECTIVE SEPARATIONS OF GASES, AND THEREFORE, A POTENTIAL APPLICATION IS THE SEPARATION OF INDUSTRIAL COMBUSTION GASES FOR THE REMOVAL OF ENVIRONMENTALLY HAZARDOUS ACID GASES. THE PROJECT STUDIES THE APPLICATION OF ILS FOR THE CAPTURE PROCESSES OF ACID GASES, MAINLY FOR CO2 AND SO2, BASED ON THE PARTICULAR PROPERTIES OF THESE ILS. COMPARED TO CURRENT METHODS FOR CAPTURING AND SEPARATING ACID GASES, LSIS HAVE SEVERAL ADVANTAGES SUCH AS LOWER VOLATILITY, LOWER THERMAL DEGRADATION DURING REGENERATION AND THE LOWER ENERGY REQUIRED FOR DESORCION PROCESSES COMPARED TO STANDARD METHODS. Thus, the ability to control and devise the Ownerships of the ILS, in the course of an adduced combition of IONEs, would allow the development of lower-targeted approaches for the design of ABSORBENTS ADECTED TO THE CAPTURE OF ACID GASES._x000D_ BY WHEN, a COMPUTATIONAL/EXPERIMENTAL COMMITTEE TO DESIGN ILS ADECTED FOR THE ELIMINATION OF ACID GASES is proposed. THE METHODOLOGY PROPOSED IN THIS WORK FOR THE DEVELOPMENT OF ACID GAS REMOVAL PROCESSES USING ILS CAN BE SUMMARISED IN THE FOLLOWING POINTS. FIRST, THE STUDY WILL FOCUS ON THOSE LSIS COMPOSED OF CATIONS AND ANIONS WITH APPROPRIATE ENVIRONMENTAL AND TOXICOLOGICAL PROFILES, WHICH CAN BE OBTAINED FROM CHEAP SOURCES THROUGH SIMPLE SYNTHESIS PROCEDURES, AND WITH TERMOFISICAS PROPERTIES SUITABLE FOR PROCESS DESIGN PURPOSES. SECONDLY, A COMPUTATIONAL STUDY USING METHODS BASED ON THE DENSITY FUNCTIONAL THEORY (DFT) WILL BE CONDUCTED TO PREDICT THE EFFECT OF CATION/ANION ON THE SOLUBILITY OF CO2 AND SO2, AS WELL AS THEIR INTERACTION WITH THE CORRESPONDING IONS. THIRDLY, A GROUP OF ILS WILL BE SELECTED ACCORDING TO THE CALCULATION RESULTS FOR EXPERIMENTAL STUDIES. FOURTHLY, THROUGH THE USE OF A WIDE COLLECTION OF HIGH PRECISION DEVICES EXISTING IN OUR LABORATORIES, THERMOPHYSICAL STUDIES WILL BE CARRIED OUT TO DETERMINE THE SOLUBILITY OF ACID GASES IN THE SELECTED ILS AND THE RELATED PROPERTIES REQUIRED FOR PROCESS DESIGN. FIFTH, A COMPUTATIONAL STUDY, USING MOLECULAR DYNAMICS AND MONTE CARLO METHODS, WILL BE CONDUCTED TO ANALYSE THE INTERACTION BETWEEN THE SELECTED IONIC LIQUIDS AND THE ACID GASES STUDIED, THE MECHANISM OF ABSORPTION AT THE NANOSCOPIC LEVEL AND TO INFER MOLECULAR INFORMATION ON THE BEHAVIOR OF THE ABSORBENT FLUIDS. In SEXT PLACE, ECONOMIC AND TECHNOLOGIC ASPECTS OF PROCESSES BASED IN THE Selected ILS TO STUDY YOUR VIABILITY AND COMPETITIVITY WITH RESPECT TO THE ACTUAL CAPTURE METODS FOR THE ELIMINATION OF ACID GASES._x000D_ THE FINAL WORK OBJECTIVE OBJECTIVE IS TO find ILS ADECTED WITH LOW Toxicity, ECONOMIC, who can be produced in the process of sensitised synthesis, with technical and physical property, which will be used for the capturing of the state-of-the-art, and therefore, that they are in competition with the available products of eLIMINATION. LIKEWISE, THE COMBINED EXPERIMENTAL — COMPUTATIONAL METHODOLOGY WOULD ALLOW FOR A DEEPER VISION OF THE MECHANISM THAT CONTROLS THE ABSORPTION OF ACID GASES IN ILS. (English)
12 October 2021
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Burgos
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Identifiers
CTQ2013-40476-R
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