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AuthorAlkhouzaam, Abedalkhader
AuthorKhraisheh, Majeda
AuthorAtilhan, Mert
AuthorAl-Muhtaseb, Shaheen A.
AuthorZaidi, Syed Javaid
Available date2021-03-25T11:33:35Z
Publication Date2016
Publication NameNanostructured Polymer Membranes
ResourceScopus
URIhttp://dx.doi.org/10.1002/9781118831779.ch7
URIhttp://hdl.handle.net/10576/18004
AbstractMembranes are becoming popular for CO2 separation as an environmentally friendly, efficient technology. A comprehensive review of recent studies conducted on CO2 separation from different sources is essential for tracking the progress of membrane development. This chapter reviews the recent studies conducted concerning CO2 permeation properties, breakthroughs and challenges in developing efficient CO2 separation membranes. Three main membrane categories have been reviewed in this chapter: polymeric membranes, mixed matrix membranes (MMMs), and supported ionic liquid membranes (SILMs). Studies conducted on polymeric materials and polymer blending resulted in some efficient CO2 separation membranes such as Matrimid-, 6FDA-, and Pebax-based blend membranes. Some of the MMMs that have been widely investigated have shown promising CO2 separation efficiency. For example, the combination of poly(ionic liquid)s ionic liquids, and zeolite particles resulted in highly efficient CO2/CH4 separation. Additionally, MMMs containing Pebax and zeolites showed high CO2/N2 separation. Several SILMs were investigated using different ionic liquids. Some of these SILMs achieved high CO2 permeability; however, only a few SILMs have achieved simultaneous high permeability and selectivity, including [bmim][BF4]- Ammoeng� 100-, [emim][BF4]-, and [emim][CF3SO3]-based SILMs. The main constraint of the reported membranes is the trade-off relationship between the permeability and selectivity, and both cannot be achieved simultaneously.
Languageen
Publisherwiley
SubjectBlending
Catalyst selectivity
Economic and social effects
Ionic liquids
Liquid membranes
Mechanical permeability
Polymer blends
Polymeric membranes
Separation
Zeolites
CO2 separation
Efficient technology
High permeability
Mixed matrix membranes
Permeation properties
Poly(ionic liquid)s
Supported ionic liquid membrane
Trade-off relationship
Carbon dioxide
TitleMembranes for CO2 Separation
TypeBook chapter
Pagination237-292
Volume Number1
dc.accessType Abstract Only


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