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Effects of thermal crosslinking treatment on gas separation performance and stability of polymeric membranes
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SYSNO ASEP 0431121 Document Type C - Proceedings Paper (int. conf.) R&D Document Type Conference Paper Title Effects of thermal crosslinking treatment on gas separation performance and stability of polymeric membranes Author(s) Martin-Gil, V. (CZ)
Hrabánek, Pavel (UFCH-W) RID
Sysel, P. (CZ)
Fíla, V. (CZ)Source Title CHISA 2014 and PRES 2014 CD-ROM of Full Texts. - Prague : Czech Society of Chemical Engineering, 2014 - ISBN 978-80-02-02555-9 Pages 0630 Number of pages 13 s. Publication form Medium - C Action International Congress of Chemical and Process Engineering CHISA 2014 /21./ and Conference PRES 2014 /17./ Event date 23.08.2014-27.08.2014 VEvent location Praha Country CZ - Czech Republic Event type WRD Language eng - English Country CZ - Czech Republic Keywords dense membrane ; gas separation ; polyimide Subject RIV CF - Physical ; Theoretical Chemistry Institutional support UFCH-W - RVO:61388955 Annotation In this work, (4,4’-Hexafluoroisopropylidene) diphthalic anhydride (6FDA), 2,4,6- trimethyl-1,3-diaminobenzene (DAM) and 3,5-diaminobenzoic acid (DABA) were used to synthesize copolyimides with different ratios of DAM:DABA (2:1 and 9:1) as well as polyimide 6FDA-DAM in order to check the influence of acidic group from DABA in the membrane formation process as well as in the crosslinking treatment. The main aim of crosslinking treatment is to improve the CO 2 induced plasticization resistance of the membrane. Copolyimides were synthesized using two steps reaction: (i) synthesis of polyamic acid (PAA) and (ii) thermal imidization in solution. The obtained crosslinked membranes presented solvent resistance due to the transesterification of the polymer. Furthermore, it could be observed that the crosslinked membranes showed higher permeabilities for small gases (He and H 2 ) and for bigger gases (CO 2 and CH 4 ) permeabilities decreased slightly. It can be due to the densification of the membrane during the thermal treatment. However, this treatment presents highly promising results for H 2 recovery in syngas production or extraction of hydrogen from petroleum naphtha cracking streams Workplace J. Heyrovsky Institute of Physical Chemistry Contact Michaela Knapová, michaela.knapova@jh-inst.cas.cz, Tel.: 266 053 196 Year of Publishing 2015
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