Solubility controlled permeation of hydrocarbons: New membrane materials and results

Polymers of different classes are considered as membrane materials for separation of hydrocarbons C1–C4. It has been known for a long time that solubility controlled permeation is characteristic of rubbery polymers and in particular of the most permeable rubber polydimethylsiloxane. The transport pr...

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Bibliographic Details
Published in:Journal of membrane science 2014-03, Vol.453, p.532-545
Main Authors: Yampolskii, Yu, Starannikova, L., Belov, N., Bermeshev, M., Gringolts, M., Finkelshtein, E.
Format: Article
Language:English
Subjects:
Addition type Si-containing polynorbornenes
Glassy
Hydrocarbons C1–C4
Membrane gas separation
Membranes
Metathesis polynorbornenes
Penetration
Permeation
Polyacetylenes
Polydimethylsiloxane
Polymers
Separation
Solubility
Transport properties
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Summary:Polymers of different classes are considered as membrane materials for separation of hydrocarbons C1–C4. It has been known for a long time that solubility controlled permeation is characteristic of rubbery polymers and in particular of the most permeable rubber polydimethylsiloxane. The transport properties of these polymers are considered. Discovery of poly(trimethylsilyl propyne) and other polyacetylenes showed that similar properties can be revealed in glassy polymers. As is discussed in this review, the most important properties are reduction of the permeability of light components (CH4) in the presence of more condensable penetrant (C4H10) and higher selectivity of mixture separation as compared with ideal separation factors measured in the experiments with pure gases. Recently, two other classes of glassy polymers with solubility controlled permeation were discovered: addition type Si-containing norbornene polymers and metathesis polynorbornenes with flexible Si–O bonds in side groups. The transport properties of these novel polymers are considered in detail. It was shown that for the former group of norbornene polymers the reasons for solubility controlled permeation is great and opened porosity just as is the case for polyacetylenes. For the latter group, the presence of flexible Si–O bonds in side groups is responsible for their transport properties. •Separation of alkanes C1–C4 in rubbers and polyacetylenes are considered.•Additive and ROMP polynorbornenes also show solubility controlled permeation.•Novel polymers are capable for removal of C3+ from natural gas.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2013.11.002