Preparation and Characterization of Catalytic Membrane Reactors

Veronica Patricia Pinos Velez; Francesc Medina Cabello; Anton Ivanov Dafinov Ivanov

Preparation and Characterization of Catalytic Membrane Reactors

Veronica Patricia Pinos Velez, Francesc Medina Cabello (Autor de Correspondencia), Anton Ivanov Dafinov Ivanov (Autor de Correspondencia)

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Catalytic Membrane Reactors, CMR, are well known because of their versatility to develop various industrial processes. This versatility lies in CMR’s ability to run many functions in a single device. These functions can be filtration, dosage and catalysis. This work proposes four ways to prepare CMRs in interface mode to be tested in environmental remediation. For the preparation of Catalytic Membrane Reactors, commercial Hollow Fiber Membranes made of corundum were used. Palladium, as the main active phase, was synthesized by different methods such as impregnation, sputtering and microemulsion. Moreover, copper palladium alloy nanoparticles were obtained by the polyol route. The reactors obtained were tested in aqueous medium, at atmospheric pressure and low reaction temperatures (< 60°C) in the following reactions: in situ generation of hydrogen peroxide and phenol oxidation. The best results were achieved with the CMR with palladium prepared by impregnation. The others CMRs showed fast deactivation in all tests.

Idioma original	Español
Publicación	Revista de la Facultad de Ciencias Químicas; Núm. 16 (2017): Revista de la Facultad de Ciencias Químicas
Estado	Publicada - 1 ene. 2018

Palabras clave

Reactores Catalíticos de Membrana; RCM; Nanopartículas de Paladio; Tratamiento de agua; Catálisis

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title = "Preparation and Characterization of Catalytic Membrane Reactors",

abstract = "Catalytic Membrane Reactors, CMR, are well known because of their versatility to develop various industrial processes. This versatility lies in CMR{\textquoteright}s ability to run many functions in a single device. These functions can be filtration, dosage and catalysis. This work proposes four ways to prepare CMRs in interface mode to be tested in environmental remediation. For the preparation of Catalytic Membrane Reactors, commercial Hollow Fiber Membranes made of corundum were used. Palladium, as the main active phase, was synthesized by different methods such as impregnation, sputtering and microemulsion. Moreover, copper palladium alloy nanoparticles were obtained by the polyol route. The reactors obtained were tested in aqueous medium, at atmospheric pressure and low reaction temperatures (< 60°C) in the following reactions: in situ generation of hydrogen peroxide and phenol oxidation. The best results were achieved with the CMR with palladium prepared by impregnation. The others CMRs showed fast deactivation in all tests.",

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author = "\{Pinos Velez\}, \{Veronica Patricia\} and \{Medina Cabello\}, Francesc and \{Dafinov Ivanov\}, \{Anton Ivanov\}",

year = "2018",

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Preparation and Characterization of Catalytic Membrane Reactors. / Pinos Velez, Veronica Patricia; Medina Cabello, Francesc (Autor de Correspondencia); Dafinov Ivanov, Anton Ivanov (Autor de Correspondencia).
En: Revista de la Facultad de Ciencias Químicas; Núm. 16 (2017): Revista de la Facultad de Ciencias Químicas, 01.01.2018.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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AU - Pinos Velez, Veronica Patricia

AU - Medina Cabello, Francesc

AU - Dafinov Ivanov, Anton Ivanov

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AB - Catalytic Membrane Reactors, CMR, are well known because of their versatility to develop various industrial processes. This versatility lies in CMR’s ability to run many functions in a single device. These functions can be filtration, dosage and catalysis. This work proposes four ways to prepare CMRs in interface mode to be tested in environmental remediation. For the preparation of Catalytic Membrane Reactors, commercial Hollow Fiber Membranes made of corundum were used. Palladium, as the main active phase, was synthesized by different methods such as impregnation, sputtering and microemulsion. Moreover, copper palladium alloy nanoparticles were obtained by the polyol route. The reactors obtained were tested in aqueous medium, at atmospheric pressure and low reaction temperatures (< 60°C) in the following reactions: in situ generation of hydrogen peroxide and phenol oxidation. The best results were achieved with the CMR with palladium prepared by impregnation. The others CMRs showed fast deactivation in all tests.

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