FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2009183539> ?p ?o ?g. }

• W2009183539 endingPage "403" @default.
• W2009183539 startingPage "392" @default.
• W2009183539 abstract "In this study, thermally cross-linkable co-polyimide dual-layer hollow fiber membranes grafted with β-Cyclodextrin for separation of CO2/CH4 and propylene/propane have been fabricated. In order to find the best spinning condition, the performance of hollow fiber membranes at various take-up velocities and outer-layer dope flow rates was investigated. The fiber membranes were thermally cross-linked at different temperatures and the performance of the fibers before and after silicon rubber coating was studied using CH4, CO2, propane and propylene. It was observed that permeances of all gases decreased with an increase in take-up velocity and outer-layer dope flow rate. Selectivities of the membrane with respect to the take-up velocity initially increased and after a take-up velocity value of 7.4 m/min started to decrease. This up and down trend was attributed to the influence of elongational draw ratio and change in surface porosity of the membrane. Optimum take-up velocity and outer-layer dope flow rate for as-spun fibers were 7.4 m/min and 0.5 ml/min, respectively. These conditions resulted in CO2/CH4 selectivities of 6.22 and 14.3 before and after silicon rubber coating, respectively. The results demonstrated that thermal treatment improves membrane selectivities and decreases membrane permeances. The enhancement of selectivities can be a result of cross-linking and reduction in permeances due to densification of the hollow fiber membranes. Selectivities of thermally treated fiber membranes at 350 °C were slightly higher than those of the precursor fibers and this improvement was more significant for membranes treated at 400 °C. This enhancement demonstrates that cross-linking is more severe at 400 °C. The best separation performance of the annealed and silicone rubber coated hollow fibers in this study has a CO2 permeance of around 82 GPU with a CO2/CH4 ideal selectivity of around 20 and a high C3H6 permeance of around 29 GPU with a C3H6/C3H8 ideal selectivity of 15.3. It can also resist CO2 induced plasticization until 25 atm. It is believed that, with these gas separation and anti-plasticization properties, the newly developed membranes may have high prospective for natural gas purification and olefin/paraffin separation." @default.
• W2009183539 created "2016-06-24" @default.
• W2009183539 creator A5058988279 @default.
• W2009183539 creator A5062603606 @default.
• W2009183539 creator A5065997189 @default.
• W2009183539 date "2012-12-01" @default.
• W2009183539 modified "2023-09-23" @default.
• W2009183539 title "Natural gas purification and olefin/paraffin separation using cross-linkable dual-layer hollow fiber membranes comprising β-Cyclodextrin" @default.
• W2009183539 cites W1964054068 @default.
• W2009183539 cites W1969058342 @default.
• W2009183539 cites W1970748033 @default.
• W2009183539 cites W1973470536 @default.
• W2009183539 cites W1975346598 @default.
• W2009183539 cites W1977097560 @default.
• W2009183539 cites W1979376864 @default.
• W2009183539 cites W1979688991 @default.
• W2009183539 cites W1983325032 @default.
• W2009183539 cites W1987261116 @default.
• W2009183539 cites W1993073579 @default.
• W2009183539 cites W2002427744 @default.
• W2009183539 cites W2003421975 @default.
• W2009183539 cites W2004864429 @default.
• W2009183539 cites W2010884453 @default.
• W2009183539 cites W2018124449 @default.
• W2009183539 cites W2024074644 @default.
• W2009183539 cites W2024771560 @default.
• W2009183539 cites W2028951992 @default.
• W2009183539 cites W2030091754 @default.
• W2009183539 cites W2030129309 @default.
• W2009183539 cites W2030428776 @default.
• W2009183539 cites W2030514267 @default.
• W2009183539 cites W2032979936 @default.
• W2009183539 cites W2039014373 @default.
• W2009183539 cites W2040566358 @default.
• W2009183539 cites W2043040989 @default.
• W2009183539 cites W2048383382 @default.
• W2009183539 cites W2050071326 @default.
• W2009183539 cites W2051580877 @default.
• W2009183539 cites W2054639539 @default.
• W2009183539 cites W2055159497 @default.
• W2009183539 cites W2066567538 @default.
• W2009183539 cites W2076662543 @default.
• W2009183539 cites W2085519570 @default.
• W2009183539 cites W2088284338 @default.
• W2009183539 cites W2092185604 @default.
• W2009183539 cites W2092958308 @default.
• W2009183539 cites W2125368238 @default.
• W2009183539 cites W2164664732 @default.
• W2009183539 cites W2166957516 @default.
• W2009183539 cites W2169898293 @default.
• W2009183539 cites W2171024086 @default.
• W2009183539 cites W2324574439 @default.
• W2009183539 cites W2580720740 @default.
• W2009183539 cites W2092101966 @default.
• W2009183539 doi "https://doi.org/10.1016/j.memsci.2012.08.036" @default.
• W2009183539 hasPublicationYear "2012" @default.
• W2009183539 type Work @default.
• W2009183539 sameAs 2009183539 @default.
• W2009183539 citedByCount "41" @default.
• W2009183539 countsByYear W20091835392013 @default.
• W2009183539 countsByYear W20091835392015 @default.
• W2009183539 countsByYear W20091835392016 @default.
• W2009183539 countsByYear W20091835392017 @default.
• W2009183539 countsByYear W20091835392018 @default.
• W2009183539 countsByYear W20091835392019 @default.
• W2009183539 countsByYear W20091835392020 @default.
• W2009183539 countsByYear W20091835392021 @default.
• W2009183539 countsByYear W20091835392022 @default.
• W2009183539 countsByYear W20091835392023 @default.
• W2009183539 crossrefType "journal-article" @default.
• W2009183539 hasAuthorship W2009183539A5058988279 @default.
• W2009183539 hasAuthorship W2009183539A5062603606 @default.
• W2009183539 hasAuthorship W2009183539A5065997189 @default.
• W2009183539 hasConcept C121332964 @default.
• W2009183539 hasConcept C127413603 @default.
• W2009183539 hasConcept C154815118 @default.
• W2009183539 hasConcept C159985019 @default.
• W2009183539 hasConcept C172120300 @default.
• W2009183539 hasConcept C176933379 @default.
• W2009183539 hasConcept C178790620 @default.
• W2009183539 hasConcept C18411161 @default.
• W2009183539 hasConcept C185592680 @default.
• W2009183539 hasConcept C188027245 @default.
• W2009183539 hasConcept C191897082 @default.
• W2009183539 hasConcept C192562407 @default.
• W2009183539 hasConcept C2776345496 @default.
• W2009183539 hasConcept C2778260969 @default.
• W2009183539 hasConcept C2779227376 @default.
• W2009183539 hasConcept C2780965675 @default.
• W2009183539 hasConcept C2781448156 @default.
• W2009183539 hasConcept C41625074 @default.
• W2009183539 hasConcept C42360764 @default.
• W2009183539 hasConcept C50670333 @default.
• W2009183539 hasConcept C519885992 @default.
• W2009183539 hasConcept C544956773 @default.
• W2009183539 hasConcept C55493867 @default.
• W2009183539 hasConcept C62520636 @default.
• W2009183539 hasConcept C6648577 @default.

• next