CO2–CH4 permeation in high zeolite 4A loading mixed matrix membranes

Ryan T. Adams, Jong Suk Lee, Tae-Hyun Bae, Jason K. Ward, J.R. Johnson, Christopher W. Jones, Sankar Nair, William J. Koros

Research output: Contribution to journalArticlepeer-review

159 Scopus citations

Abstract

Mixed matrix membranes (MMMs) with low particle loadings have been shown to improve the properties of pure polymers for many gas separations. Comparatively few reports have been made for high particle loading (≥50vol.%) MMMs. In this work, CO2-CH4 feeds were used to study the potential of 50vol.% zeolite 4A-poly(vinyl acetate) (PVAc) MMMs for natural gas separations. A low CO2 partial pressure mixed feed probed MMM performance below the plasticization pressure of PVAc and a high CO2 partial pressure mixed feed probed MMM performance at industrially relevant conditions above the plasticization pressure.Under both mixed feed conditions at 35°C, substantial improvements in overall separation performance were observed. At low CO2 partial pressures, CO2 permeability roughly doubled with a nearly 50% increase in selectivity versus pure PVAc under the same conditions. For the high CO2 partial pressure feed, CO2 permeability remained effectively unchanged with a 63% increase in selectivity versus pure PVAc. Surprisingly, the performance of these PVAc based MMMs approached the properties of current " upper bound" polymers. Overall, this work shows that significantly improved performance MMMs can be made with traditional techniques from a low cost, low performance polymer without costly adhesion promoters. © 2010.
Original languageEnglish (US)
Pages (from-to)197-203
Number of pages7
JournalJournal of Membrane Science
Volume367
Issue number1-2
DOIs
StatePublished - Feb 2011
Externally publishedYes

Bibliographical note

KAUST Repository Item: Exported on 2020-10-01
Acknowledged KAUST grant number(s): KUS-I1-011-21
Acknowledgements: NSF-STC (CERSP) under agreement CHE-9876674 and Award no. KUS-I1-011-21 made by the King Abdullah University of Science and Technology (KAUST) for this research.
This publication acknowledges KAUST support, but has no KAUST affiliated authors.

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