SEPARATION OF CO2/CH4 USING POLYMERIC MEMBRANES - REVIEW
Abstract
mixture is widely done
efficient separation of mixture into desired components unit processes and unit operation had
2 4 been developed with passage of time. Sometimes
using conventional technologies. CO2 when carried along with CH4 can cause additional cost of pumping. Most commonly used technique like cryogenic separation, adsorption and absorption are used for decades for separation of CO2 form CH4.Membrane has been developing technology for separation of CO2 from CO2/CH4 mixture. The current paper focuses on the overview of membrane for separation of CO2/CH4 mixture. Along with this different polymeric membrane and their properties have also been discussed. Membrane transport theory of gases is also described. Potential of membranes as future separation technology is described in comprehensive manner.
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R.W. Spillman, Economics of gas separation membranes, Chemical Engineering Progress. 85 (1989) 41–62.
S. Sridhar, B. Smitha, T.M. Aminabhavi, Separation of Carbon Dioxide from Natural Gas Mixtures through Polymeric Membranes—A Review, Separation & Purification Reviews. 36 (2007) 113–174. doi:10.1080/15422110601165967
W.J. Koros, G.K. Fleming, Membrane- based gas separation, Journal of Membrane Science. 83 (1993) 1–80. doi:10.1016/0376- 7388(93)80013-N
R.W. Baker, Membrane Technology and Applications, John Wiley & Sons, 2004
Wiley: Polymer Handbook, 2 Volumes Set, 4th Edition - J. Brandrup, Edmund H. Immergut, E. A. Grulke, (n.d.). http://eu.wiley.com/WileyCDA/WileyTitle/p roductCd-0471479365.html (accessed May 20, 2016)
J.P. Agrawal, S. Sourirajan, High flux freeze-dried cellulose acetate reverse osmosis membranes as microporous barriers in gas permeation and separation, J. Appl. Poly Sci. 14 (1970) 1303–1321. doi:10.1002/app.1970.070140517
Baker, R. W.; Pinnau, I.; He, Z.; Amo,
K. D.; DaCosta, A. R.; Daniels, R. Carbon Dioxide Gas Separation Using Organic- Vapor-Resistant Membranes, U.S. Patent 6,572,680, June 3, 2003.
Teraoka, Y.; Nobunaga, T.; Yamazoe,
N. The Effect of Cation Substitution on the Oxygen Semipermeability of Perovskite- Type Oxides. Chem. Lett. 1988, 503.
Freeman, B. D.; Pinnau, I. Polymeric Materials for Gas Separations. In Polymer Membranes for Gas and Vapor Separations; Freeman, B. D., Pinnau, I., Eds.; American Chemical Society: Washington, DC, 1999;
Vol
Auvil, S. R.; Choe, J. S.; Kellog, L. J. Use of Membrane Separation to Dry Gas Streams Containing Water V Scholes, C. A., Kentish, S. E., & Stevens, G. W. (2008). Carbon Dioxide Separation through Polymeric Membrane Systems for Flue Gas Applications. Recent Patents on chemical engineering, 52-56.apor, U.S. Patent 5,259,869, November 9, 1993.
V.I. Bondar, B.D. Freeman, Y.P. Yampolskii, Sorption of gases and vapors in an amorphous glassy perfluorodioxole copolymer, Macromolecules 32 (1999) 6163.
DOI: https://doi.org/10.37628/ijpse.v5i1.552
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