Journal ArticleDOI
Formation of a Y-Type Zeolite Membrane on a Porous α-Alumina Tube for Gas Separation
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TLDR
In this paper, a porous α-alumina support tube, polished with a finely powdered X-type zeolite for use as seeds, was placed vertically in an autoclave containing an aqueous mixture of water glass and sodium aluminate.Abstract:
A porous α-alumina support tube, polished with a finely powdered X-type zeolite for use as seeds, was placed vertically in an autoclave containing an aqueous mixture of water glass and sodium aluminate. Hydrothermal synthesis was carried out at 90 °C for 24 h. A polycrystalline layer of Y-type zeolite was thus formed on the outer surface of the support tube. After washing and drying in air, permeances of single components and mixtures of CO2 and N2, as well as CH4, C2H6, and SF6, were determined. The CO2 permeance was higher than that of N2 at temperatures of 30−130 °C. When an equimolar mixture of CO2 and N2 was fed into the feed side, the CO2 permeance was nearly equal to that for the single-component system and the N2 permeance for the mixture was greatly decreased, especially at lower permeation temperatures. This was due to selective adsorption of CO2 in subnanometer micropores of the membrane. At 30 °C, the permeance of CO2 was higher than 10-7 mol·m-2·s-1·Pa-1, and the permselectivity of CO2 to N2 ...read more
Citations
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Journal ArticleDOI
Carbon Dioxide Capture in Metal–Organic Frameworks
Kenji Sumida,David L. Rogow,Jarad A. Mason,Thomas M. McDonald,Eric D. Bloch,Zoey R. Herm,Tae-Hyun Bae,Jeffrey R. Long +7 more
TL;DR: Kenji Sumida, David L. Rogow, Jarad A. Mason, Thomas M. McDonald, Eric D. Bloch, Zoey R. Herm, Tae-Hyun Bae, Jeffrey R. Long
Journal ArticleDOI
Progress in carbon dioxide separation and capture: a review.
Hongqun Yang,Zhenghe Xu,Maohong Fan,Rajender Gupta,Rachid B. Slimane,Alan E. Bland,Ian G. Wright +6 more
TL;DR: This article reviews the progress made in CO2 separation and capture research and engineering and various technologies, such as absorption, adsorption, and membrane separation are thoroughly discussed.
Journal ArticleDOI
Membrane Gas Separation: A Review/State of the Art
TL;DR: In this paper, the most promising areas of research in gas separation, by considering the materials for membranes, the industrial applications of membrane gas separations, and finally the opportunities for the integration of membrane separation units in hybrid systems for the intensification of processes.
Journal ArticleDOI
Carbon dioxide capture-related gas adsorption and separation in metal-organic frameworks
Jian-Rong Li,Yuguang Ma,M. Colin McCarthy,Julian P. Sculley,Jiamei Yu,Hae-Kwon Jeong,Perla B. Balbuena,Hong-Cai Zhou +7 more
TL;DR: In this article, the authors review the research progress in metal-organic frameworks (MOFs) for CO 2 adsorption, storage, and separations that are directly related to CO 2 capture.
Journal ArticleDOI
CO2 capture and separation technologies for end-of-pipe applications – A review
TL;DR: In this paper, the authors present a review of the possible CO 2 capture and separation technologies for end-of-pipe applications, including post-combustion, pre-completion and oxyfuel combustion techniques.
References
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Journal ArticleDOI
The Potential Theory of Adsorption of Gases and Vapors for Adsorbents with Energetically Nonuniform Surfaces.
Journal ArticleDOI
Deposition of H2-permselective SiO2 films
TL;DR: In this paper, a thin amorphous SiO 2 film was deposited within the walls of porous Vycor tubes by SiH 4 oxidation in an opposing-reactants geometry: SiO 4 was passed inside the tube while O 2 was passed outside the tube.
Journal ArticleDOI
Organic “template” approach to molecular sieving silica membranes
N.K. Raman,C. J. Brinker +1 more
TL;DR: In this paper, a template approach to prepare microporous inorganic inorganic membranes exhibiting high flux combined with high selectivity, overcoming limitations inherent to both conventional inorganic (sol-gel, CVD) and organic membrane approaches was demonstrated.
Journal ArticleDOI
Separation of Hydrocarbon Isomer Vapors with Silicalite Zeolite Membranes
TL;DR: In this paper, the performance of n-octane, isooctane, and n-hexane vapors through continuous, silicalite zeolite membranes on porous alumina supports was investigated between 383 and 523 K. Selectivity was a function of temperature, and lower selectivities were obtained above and below 413 K.