Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12494/33421
Exportar a:
Full metadata record
DC FieldValueLanguage
dc.contributor.advisorArbeláez Pérez, Oscar Felipe-
dc.creatorCardona Gonzalez, Cristian-
dc.creatorGonzalez Chevejoni, Roger Junior-
dc.creatorMolina Cardona, Diego Andres-
dc.date.accessioned2021-02-17T15:33:49Z-
dc.date.available2021-02-17T15:33:49Z-
dc.date.issued2021-02-15-
dc.identifier.urihttp://hdl.handle.net/20.500.12494/33421-
dc.descriptionSe sintetizaron membranas de sodalita sobre la superficie interna de soportes porosos de Titania y alúmina, empleando un método continuo de síntesis. Los resultados de ganancia en peso permitieron evidenciar la formación de un material sobre la superficie interna de los soportes. Así mismo, los análisis de difracción de rayos X, corroboran un patrón característico para la sodalita. Las pruebas de permeancia permitieron evidenciar un flujo a través de las membranas sintetizadas proporcional al tamaño molecular de los gases permeados (permeación difusión de Knudsen fue el predominante.es
dc.format.extent19 p.es
dc.publisherUniversidad Cooperativa de Colombia, Facultad de Ingenierías, Ingeniería Mecánica, Medellín y Envigadoes
dc.subjectSodalitaes
dc.subjectAlúminaes
dc.subjectMembranases
dc.subjectZeolitaes
dc.subjectTitaniaes
dc.subject.classificationTG 2021 IMC 33421es
dc.titleTecnología de membranas para la purificación de biogás: revisión del estado del artees
dc.typeTrabajos de grado - Pregradoes
dc.rights.licenseAtribución – No comercial – Sin Derivares
dc.publisher.departmentMedellínes
dc.publisher.programIngeniería mecanicaes
dc.identifier.bibliographicCitationCardona Gonzalez, C., Gonzalez Chevejoni, R. J. y Molina Cardona, D. A. (2021). Tecnología de membranas para la purificación de biogás: revisión del estado del arte. [Tesis de pregrado, Universidad Cooperativa de Colombia Repositorio Institucional UCC. http://hdl.handle.net/20.500.12494/33421es
dc.rights.accessRightsembargoedAccesses
dc.source.bibliographicCitationK. K. Sirkar, P. V. Shanbhag, and a. S. Kovvali, “Membrane in a Reactor: A Functional Perspective,” Ind. Eng. Chem. Res., vol. 38, no. 10, pp. 3715–3737, Oct. 1999.es
dc.source.bibliographicCitationI. F. J. Vankelecom, “Polymeric Membranes in Catalytic Reactors,” Chem. Rev., vol. 102, no. 10, pp. 3779–3810, Oct. 2002.es
dc.source.bibliographicCitationC. E. Powell and G. G. Qiao, “Polymeric CO2/N2 gas separation membranes for the capture of carbon dioxide from power plant flue gases,” J. Memb. Sci., vol. 279, no. 1–2, pp. 1–49, Aug. 2006.es
dc.source.bibliographicCitationI. Sereewatthanawut, A. T. Boam, and A. G. Livingston, “Polymeric Membrane Nanofiltration and Its Application to Separations in the Chemical Industries,” Macromol. Symp., vol. 264, no. 1, pp. 184–188, Mar. 2008.es
dc.source.bibliographicCitationX. Feng and R. Y. M. Huang, “Liquid Separation by Membrane Pervaporation : A Review,” no. i, pp. 1048–1066, 1997.es
dc.source.bibliographicCitationJ. Caro and M. Noack, “Zeolite membranes – Recent developments and progress,” Microporous Mesoporous Mater., vol. 115, no. 3, pp. 215–233, Nov. 2008.es
dc.source.bibliographicCitationL. Sandström, M. Palomino, and J. Hedlund, “High flux zeolite X membranes,” J. Memb. Sci., vol. 354, no. 1–2, pp. 171–177, May 2010.es
dc.source.bibliographicCitationL. R. Geilens, W. J. Mortier, J. B. Uytterhoeven, and C. Scheikunde, “On the nature of the charged silver clusters in zeolites of type A , X and Y,” vol. 1, pp. 11–18, 1981.es
dc.source.bibliographicCitationX. Lin, H. Kita, and K. Okamoto, “Silicalite Membrane Preparation , Characterization , and Separation Performance,” pp. 4069–4078, 2001.es
dc.source.bibliographicCitationS. Khajavi, J. C. Jansen, and F. Kapteijn, “Application of a sodalite membrane reactor in esterification—Coupling reaction and separation,” Catal. Today, vol. 156, no. 3–4, pp. 132–139, Oct. 2010.es
dc.source.bibliographicCitationM. P. Bernal, E. Piera, J. Coronas, M. Menéndez, and J. Santamar, “Mordenite and ZSM-5 hydrophilic tubular membranes for the separation of gas phase mixtures,” vol. 56, pp. 221–227, 2000.es
dc.source.bibliographicCitationM. E. Davis, “for emerging applications,” vol. 417, no. June, pp. 813–821, 2002.es
dc.source.bibliographicCitationL. T. . Au and K. . Yeung, “An investigation of the relationship between microstructure and permeation properties of ZSM-5 membranes,” J. Memb. Sci., vol. 194, no. 1, pp. 33–55, Nov. 2001.es
dc.source.bibliographicCitationM. Daramola, E. Aransiola, and T. Ojumu, “Potential Applications of Zeolite Membranes in Reaction Coupling Separation Processes,” Materials (Basel)., vol. 5, no. 12, pp. 2101–2136, Oct. 2012.es
dc.source.bibliographicCitationX. Xu, Y. Bao, C. Song, W. Yang, J. Liu, and L. Lin, “Synthesis, characterization and single gas permeation properties of NaA zeolite membrane,” J. Memb. Sci., vol. 249, no. 1–2, pp. 51–64, Mar. 2005.es
dc.source.bibliographicCitationA. Huang and W. Yang, “Electrophoretic technique for hydrothermal synthesis of NaA zeolite membranes on porous α-Al2O3 supports,” Mater. Res. Bull., vol. 42, no. 4, pp. 657–665, Apr. 2007.es
dc.source.bibliographicCitationa. W. C. van den Berg, L. Gora, J. C. Jansen, M. Makkee, and T. Maschmeyer, “Zeolite A membranes synthesized on a UV-irradiated TiO2 coated metal support: the high pervaporation performance,” J. Memb. Sci., vol. 224, no. 1–2, pp. 29–37, Oct. 2003.es
dc.source.bibliographicCitationC. S. Cundy and P. a. Cox, “The hydrothermal synthesis of zeolites: Precursors, intermediates and reaction mechanism,” Microporous Mesoporous Mater., vol. 82, no. 1–2, pp. 1–78, Jul. 2005.es
dc.source.bibliographicCitationW. R. Bowen and H. Mukhtar, “Characterisation and prediction of separation performance of nanofiltration membranes,” J. Memb. Sci., vol. 112, no. 2, pp. 263–274, Apr. 1996.es
dc.source.bibliographicCitationD. M. Ruthven, “Diffusion through Porous Media : Ultrafiltration , Membrane Permeation and Molecular Sieving,” vol. 11, no. 2009, pp. 1–2.es
dc.source.bibliographicCitationJ. G. Wijmans and R. W. Baker, “The solution-diffusion model: a review,” J. Memb. Sci., vol. 107, no. 1–2, pp. 1–21, Nov. 1995.es
dc.source.bibliographicCitationJ. M. Benito and A. Conesa, “Cerámica y Vidrio,” no. 7, pp. 829–842.es
dc.source.bibliographicCitationE. S. P. B. V, K. Keizer, R. J. V. A. N. Vuren, and A. J. Burggraaf, “GAS SEPARATION MECHANISMS MODIFIED ~ _ AlzOs MEMBRANES IN MICROPOROUS Introduction In the past few years a number of papers have been published concerning the preparation and characterization of microporous y-alumina membranes Membranes with pore diameter,” vol. 39, pp. 285–300, 1988.es
dc.source.bibliographicCitationA. Hernfindez, J. I. Calvo, P. Prfidanos, and F. Tejerina, “Pore size distributions in microporous membranes . A critical analysis of the bubble point extended method,” vol. 7388, 1996.es
dc.source.bibliographicCitationM. a. Izquierdo-Gil, “Temperature influence on transport parameters characteristic of Knudsen and Poiseuille flows,” Chem. Eng. Sci., vol. 63, no. 22, pp. 5531–5539, Nov. 2008.es
dc.source.bibliographicCitationA. Akbar and A. Namini, “Synthesis and Seeding Time Effect on the Inter-Crystalline Structure of Hydroxy-Sodalite Zeolite Membranes by Single Gas ( H 2 and N 2 ) Permeation,” vol. 28, no. 4, pp. 1–12, 2009.es
dc.source.bibliographicCitationM. Pera-Titus, J. Llorens, F. Cunill, R. Mallada, and J. Santamaría, “Preparation of zeolite NaA membranes on the inner side of tubular supports by means of a controlled seeding technique,”in Catalysis Today, vol. 104, no. 2–4, pp. 281–287, Jun. 2005, doi: 10.1016/j.cattod.2005.03.042.es
dc.source.bibliographicCitationM. Pera-Titus, R. Mallada, J. Llorens, F. Cunill, and J. Santamaría, “Preparation of inner-side tubular zeolite NaA membranes in a semi-continuous synthesis system,” J. Memb. Sci., vol. 278, no. 1–2, pp. 401–409, Jul. 2006. doi: 10.1016/j.memsci.2005.11.026.es
dc.source.bibliographicCitationO. Arbeláez, F. Bustamante, and A. L. Villa, “Synthesis at several length scales of zeolite A membranes using a continuous flow method,” Sep. Sci. Technol., vol. 51, no. 6, pp. 990–997, Apr. 2016, doi: 10.1080/01496395.2015.1135947.es
dc.date.embargoEnd2024-02-15-
Appears in Collections:Ingeniería Mecánica

Files in This Item:
File Description SizeFormat 
2021_membrana_purificación_biogás.pdfTrabajo de grado855.85 kBAdobe PDFView/Open
2021_membrana_purificación_biogás_licenciadeuso.pdfLicencia de uso216.25 kBAdobe PDFView/Open


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.