Person:
Águeda Maté, Vicente Ismael

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First Name
Vicente Ismael
Last Name
Águeda Maté
URI
https://hdl.handle.net/20.500.14352/76114
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Ciencias Químicas
Department
Ingeniería Química y de Materiales
Area
Ingeniería Química
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2019 - 201912020 - 20249
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Author: Larriba Martínez, Marcos ×

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Now showing 1 - 10 of 11
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    Project number: PIMCD405/23-24
    Dando a conocer la Ingeniería Química: del bachillerato a la Universidad… y vuelta!
    (2024) Martín Martínez, María; Águeda Maté, Vicente Ismael; Álvarez Torrellas, Silvia; Carbajo Olleros, Jaime; Delgado Dobladez, José Antonio; García Rodríguez, Juan; Larriba Martínez, Marcos; Calero Berrocal, Ruben; Cañada Barcala, Andres; Huber Benito, Diego; Martin Gutierrez, Diego; Pascual Muñoz, Gonzalo; Peinado Serrano, M. Cristina; Pinzolas Rubio, Alejandro; Portillo Sanchez, Eva; Rodriguez Llorente, Diego; Sanchez Quiñones, Carlos A. A.; Sanchez Fernandez, Ignacio
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    Project number: 78
    Lab at home: prácticas de Ingeniería Química en tiempos de confinamiento
    (2021) Larriba Martínez, Marcos; Ovejero Escudero, Gabriel; García Rodríguez, Juan; Delgado Dobladez, José Antonio; Águeda Maté, Vicente Ismael; Curto Maldonado, Andrés; Serra Pérez, Estrella; Hernández Abreu, Ana Belén; Uribe Santos, Dora Lucía; Pascual Muñoz, Gonzalo; Rodríguez Llorente, Diego; Cañada Barcala, Andrés; Sanz Santos, Eva; Huaccallo Aguilar, Ysabel; Ruiz de León Gómez, Carlos; Cañas Jiménez, Javier
    En este proyecto de innovación docente se han desarrollado prácticas de laboratorio de dos asignaturas del Grado en Ingeniería Química, Ingeniería Térmica y Operaciones de Separación, para así garantizar la experimentalidad en situaciones de docencia no presencial empleando materiales cotidianos e instalaciones confeccionadas por impresión 3D, que podrán ser empleadas por los estudiantes en situación de confinamiento.
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    Project number: 208
    Practicando Ingeniería Química: Prácticas colaborativas de bajo coste para grupos numerosos
    () Larriba Martínez, Marcos; Ovejero Escudero, Gabriel; García Rodríguez, Juan; Delgado Dobladez, José Antonio; Águeda Maté, Vicente Ismael; Álvarez Torrellas, Silvia; Martín Martínez, María; Carbajo Olleros, Jaime; García Sánchez, Laura; Guerrero Moreno, Elisa; Aranda López, Daniel; Serra Pérez, Estrella; Pascual Muñoz, Gonzalo; Rodríguez Llorente, Diego; Cañada Barcala, Andrés; Sanz Santos, Eva; Gutiérrez Sánchez, Pablo; Calero Berrocal, Rubén; Sánchez Quiñones, Carlos Alberto Augusto; Cañas Jiménez, Javier; Huber Benito, Diego; Portillo Sánchez, Eva; Martín Gutiérrez, Diego; Suárez Rodríguez, Pablo; Sánchez Fernández, Ignacio
    Elaboración de un catálogo de prácticas de laboratorio de bajo coste para trabajar los fundamentos de ingeniería química con grupos numerosos, usando metodologías activas de aprendizaje para incrementar la motivación de los estudiantes.
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    Synthetic natural gas production through biogas methanation using a sorption-enhanced reaction process
    (Separation and Purification Technology, 2024) Cañada Barcala, Andrés; Larriba Martínez, Marcos; Águeda Maté, Vicente Ismael; Delgado Dobladez, José Antonio
    Using CO2 from biogenic sources to produce fuels is one of the most attractive applications in climate change mitigation, as it leads to the replacement of fossil fuels and contributes to the circular economy. By this means, the primary purpose of this paper is to design a biogas methanation process to produce synthetic natural gas (SNG) suitable to be fed into the gas grid. In this way, a SERP process was proposed in which the equilibrium is overcome by eliminating the co-produced water using a selective adsorbent, such as zeolite 3A. For this purpose, two different catalysts were (NiAl2O3 and Ni5A) and compared with a commercial catalyst. First, the catalytic performance of the three catalysts was studied in an experimental setup, discarding the Ni5A catalyst due to its lower reaction yields. Subsequently, a sorption-enhanced reaction process (SERP) was designed by simulation using the experimental kinetic data obtained and a theoretical model of reaction/adsorption cycles design. The PSASIM software, previously registered by the research group, was used for the simulation. The proposed process consisted of three main stages: a first reaction/adsorption stage where the biogas was upgraded to SNG with the corresponding water adsorption by the catalyst/adsorbent, and a second and third stages (purge and rinse) where the retained water in the adsorbent is desorbed and eliminated from the process. The process variables studied were temperature and biogas composition fed to the process. Finally, at 488 K and a residual waste biogas composition (55–60 % CH4), CO2 conversions of 99.55 % and selectivities towards methane of 99.99 % were achieved using NiAl2O3-zeolite3A mixture. In addition, the purity of the methane produced was 98.6 % molar in the product.
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    Si l@s estudiantes universitari@s no eligen ingenierías que las ingenierías vayan al colegio.
    (2022) Águeda Maté, Vicente Ismael; Ovejero Escudero, Gabriel; Delgado Dobladez, José Antonio; García Rodríguez, Juan; Álvarez Torrellas, Silvia; Larriba Martínez, Marcos; Serra Pérez, Estrella; Uguina Zamorano, María de los Ángeles; Curto Maldonado, Andrés; Pascual Muñoz, Gonzalo; García Dávila, Oscar; Rodríguez Llorente, Diego; Corral Pumarega, Jose Luis; Hernández Abreu, Ana Belén; García López, Inmaculada; Sánchez Quiñones, Carlos Alberto Augusto; Cañas Jiménez, Javier; Cañada Barcala, Andrés; Sanz Santos, Eva; Gutiérrez Sánchez, Pablo; Sanz Santos, Alberto; Sánchez Morales, Laura Laila
    La pandemia provocada por el virus SARS-CoV-2 ha puesto de manifiesto la imperiosa necesidad de construir una sociedad basada en el conocimiento. Otros grandes retos sociales como son revertir el cambio climático y la conservación y/o recuperación del entorno natural hacen énfasis en la necesidad de un desarrollo sostenible e igualitario. En este sentido es necesario concienciar a las nuevas generaciones del papel primordial que deben jugar las ingenieras e ingenieros en el desarrollo futuro como motores de ese cambio necesario. Sin embargo, el número de estudiantes de ingenierías disminuye paulatinamente, siendo además profesiones copadas mayoritariamente por hombres. En el presente proyecto se plantea ir a colegios e institutos de la Comunidad de Madrid a realizar actividades que pongan de manifiesto lo que la ingeniería puede hacer por la sociedad, presentado por los y las estudiantes de ingeniería química de la UCM que servirán de referentes tanto femeninos como masculinos para las generaciones venideras.
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    Project number: 148
    TFG en Ingeniería Química: Un trampolín al mercado laboral
    (2020) Larriba Martínez, Marcos; Águeda Maté, Vicente Ismael; Delgado Dobladez, José Antonio; Garrido Escudero, Amalio; Villarroel Amoraga, María; Carretero Gómez, Silvia; Sánchez Alonso, Jorge; Aranda López, Daniel; Pascual Muñoz, Gonzalo; Rodríguez Llorente, Diego; Uribe Santos, Dora Lucía; Cañada Barcala, Andrés; Bengoa Placeres, Arkaitz
    En este proyecto de innovación docente, se pretende mejorar la empleabilidad de los estudiantes tras la realización del Trabajo Fin de Grado e incrementar la motivación de los mismos por el emprendimiento. Para ello, han realizado actividades por parte de agentes provenientes de la Industria Química y expertos en emprendimiento y herramientas digitales.
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    Si l@s estudiantes universitari@s no eligen ingenierías que las ingenierías vayan al colegio
    (2020) Águeda Maté, Vicente Ismael; Álvarez Torrellas, Silvia; Delgado Dobladez, José Antonio; García Rodríguez, Juan; Larriba Martínez, Marcos; Ovejero Escudero, Gabriel; Uguina Zamorano, Mª Ángeles; Serra Pérez, Estrella; Hernández Abreu, Ana Belén; Pascual Muñoz, Gonzalo; Rodríguez Llorente, Diego; Cañada Barcala, Andrés
    La pandemia provocada por el virus SARS-CoV-2 ha puesto de manifiesto la imperiosa necesidad de construir una sociedad basada en el conocimiento. Otros grandes retos sociales como son revertir el cambio climático y la conservación y/o recuperación del entorno natural hacen énfasis en la necesidad de un desarrollo sostenible e igualitario. En este sentido es necesario concienciar a las nuevas generaciones del papel primordial que deben jugar las ingenieras e ingenieros en el desarrollo futuro como motores de ese cambio necesario. Sin embargo, el número de estudiantes de ingenierías disminuye paulatinamente, siendo además profesiones copadas mayoritariamente por hombres. En el presente proyecto se plantea ir a colegios e institutos de la Comunidad de Madrid a realizar actividades que pongan de manifiesto lo que la ingeniería puede hacer por la sociedad, presentado por los y las estudiantes de ingeniería química de la UCM que servirán de referentes tanto femeninos como masculinos para las generaciones venideras.
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    Extraction of antibiotics identified in the EU Watch List 2020 from hospital wastewater using hydrophobic eutectic solvents and terpenoids
    (Separation and Purification Technology, 2022) Gutiérrez Sánchez, Pablo; Rodríguez Llorente, Diego; Navarro, Pablo; Águeda Maté, Vicente Ismael; Álvarez Torrellas, Silvia; García, Juan; Larriba Martínez, Marcos
    The increasing consumption of pharmaceuticals, along with the ineffectiveness of conventional wastewater treatment, has resulted in an increased presence of these pollutants in both drinking water supplies and aquatic environments. The potential adverse health effects and environmental impact of these chemicals are drawing the attention of several bodies around the world. For instance, some antibiotics such as ciprofloxacin, trimethoprim, and sulfamethoxazole have been included in the most recent European Surface Water Watch List under the EU Water Framework Directive (Decision 2020/1161). The present work proposes the use of terpenoids and eutectic solvents, as effective and green solvents with low toxicity, for multicomponent liquid-liquid extraction of ciprofloxacin, trimethoprim, and sulfamethoxazole from ultrapure water and hospital wastewater. The COSMO-RS method was used for a predictive initial solvent screening. Thymol, carvacrol, eutectic solvents (thymol + fatty acids), and conventional solvents (methyl isobutyl ketone and ethyl acetate) were selected to be used in the experiments. The influence of the volume S/F ratio, aqueous matrix, and pH was analysed. Conventional solvents show significantly lower overall extraction yields than those observed for eutectic solvents and terpenoids at any pH and matrix. Carvacrol presented the most favourable conditions, reaching overall extraction yields above 98.0% (98.9% for trimethoprim, 99.5% for ciprofloxacin, and 97.0% for sulfamethoxazole) with hospital wastewater at pH 5.0 and S/F ratio of 1.00. Carvacrol showed a feasible operating in a continuous extraction column at room temperature, providing effective reuse and regeneration processes in this study.The increasing consumption of pharmaceuticals, along with the ineffectiveness of conventional wastewater treatment, has resulted in an increased presence of these pollutants in both drinking water supplies and aquatic environments. The potential adverse health effects and environmental impact of these chemicals are drawing the attention of several bodies around the world. For instance, some antibiotics such as ciprofloxacin, trimethoprim, and sulfamethoxazole have been included in the most recent European Surface Water Watch List under the EU Water Framework Directive (Decision 2020/1161). The present work proposes the use of terpenoids and eutectic solvents, as effective and green solvents with low toxicity, for multicomponent liquid-liquid extraction of ciprofloxacin, trimethoprim, and sulfamethoxazole from ultrapure water and hospital wastewater. The COSMO-RS method was used for a predictive initial solvent screening. Thymol, carvacrol, eutectic solvents (thymol + fatty acids), and conventional solvents (methyl isobutyl ketone and ethyl acetate) were selected to be used in the experiments. The influence of the volume S/F ratio, aqueous matrix, and pH was analysed. Conventional solvents show significantly lower overall extraction yields than those observed for eutectic solvents and terpenoids at any pH and matrix. Carvacrol presented the most favourable conditions, reaching overall extraction yields above 98.0% (98.9% for trimethoprim, 99.5% for ciprofloxacin, and 97.0% for sulfamethoxazole) with hospital wastewater at pH 5.0 and S/F ratio of 1.00. Carvacrol showed a feasible operating in a continuous extraction column at room temperature, providing effective reuse and regeneration processes in this study.
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    Project number: 142
    Lab at home: prácticas experimentales de Ingeniería Química en tiempos de pandemia
    (2022) Larriba Martínez, Marcos; Ovejero Escudero, Gabriel; García Rodríguez, Juan; Delgado Dobladez, José Antonio; Águeda Maté, Vicente Ismael; Álvarez Torrellas, Silvia; Martín Martínez, María; García Sánchez, Laura; Peinado Serrano, María Cristina; Serra Pérez, Estrella; Pascual Muñoz, Gonzalo; Rodríguez Llorente, Diego; Cañada Barcala, Andrés; Sanz Santos, Eva; Gutiérrez Sánchez, Pablo; Calero Berrocal, Rubén; Sánchez Quiñones, Carlos Alberto Augusto; Cañas Jiménez, Javier; Santos Sanz, Alberto; Carreras Navarro, Francisco Javier; Sánchez Morales, Laura Laila; Nájera García, Roberto
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    Application of Sludge-Based Activated Carbons for the Effective Adsorption of Neonicotinoid Pesticides
    (Applied Sciences, 2021) Sanz-Santos, Eva; Álvarez-Torrellas, Silvia; Ceballos, Lucía; Larriba Martínez, Marcos; Águeda Maté, Vicente Ismael; García Rodríguez, Juan
    The amount of sludge produced in wastewater treatment plants (WWTPs) has increased over the years, and the methods used to reduce this waste, such as incineration, agricultural use, or disposal in landfills, cause problems of secondary pollution. For this reason, it is necessary to find sustainable and low-cost solutions to manage this waste. Additionally, emerging and priority pollutants are attracting attention from the scientific community as they can generate health problems due to inadequate removal in conventional WWTPs. In this work, a pharmaceutical industry sludge was used as a precursor in the synthesis of four activated carbons (ACs) using different activating agents (ZnCl2, FeCl3∙6H2O, Fe(NO3)3∙9H2O, and Fe(SO4)3∙H2O), to be used for the removal by adsorption of three neonicotinoid pesticides included in latest EU Watch List (Decision 2018/840): acetamiprid (ACT), thiamethoxam (THM), and imidacloprid (IMD). The prepared ACs showed micro–mesoporous properties, obtaining relatively slow adsorption kinetics to reach equilibrium, but despite this, high values of adsorption capacity (qe) were obtained. For example, for AC-ZnCl2 (SBET = 558 m2/g), high adsorption capacities of qe = 128.9, 126.8, and 166.1 mg/g for ACT, THM, and IMD, respectively, were found. In most cases, the adsorption isotherms showed a multilayer profile, indicating an important contribution of the mesoporosity of the activated carbons in the adsorption process.