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dc.contributor.authorJin, Y.
dc.contributor.authorMeng, X.
dc.contributor.authorYang, N.
dc.contributor.authorMeng, B.
dc.contributor.authorSunarso, J.
dc.contributor.authorLiu, Shaomin
dc.date.accessioned2018-05-18T08:01:24Z
dc.date.available2018-05-18T08:01:24Z
dc.date.created2018-05-18T00:23:03Z
dc.date.issued2018
dc.identifier.citationJin, Y. and Meng, X. and Yang, N. and Meng, B. and Sunarso, J. and Liu, S. 2018. Modeling of hydrogen separation through porous YSZ hollow fiber-supported graphene oxide membrane. AI Ch E Journal.
dc.identifier.urihttp://hdl.handle.net/20.500.11937/68239
dc.identifier.doi10.1002/aic.16144
dc.description.abstract

In this work, hydrogen (H 2 ) permeation fluxes through 230 nm-thick graphene oxide (GO) membrane deposited on porous YSZ hollow fiber were measured and correlated to an explicit H 2 permeation model. H 2 fluxes through such GO-YSZ hollow fiber membrane increased from 4.83 × 10 -8 mol cm -2 s -1 to 2.11 × 10 -7 mol cm -2 s -1 with temperature rise from 20 to 100 °C. The activation energy of H 2 permeation was determined by the linear regression of the experimental data and was applied in the theoretical calculations. The model predictions fit well the temperature dependent and the argon sweep gas flow rate dependent H 2 fluxes data. Using the derived permeation model, the effects of vacuum pressure at lumen side and H 2 partial pressure at shell side, membrane area, and GO membrane film thickness on the membrane performance were simulated and discussed to provide insights for practical applications.

dc.publisherJohn Wiley & Sons, Inc.
dc.titleModeling of hydrogen separation through porous YSZ hollow fiber-supported graphene oxide membrane
dc.typeJournal Article
dcterms.source.issn0001-1541
dcterms.source.titleAI Ch E Journal
curtin.departmentWASM: Minerals, Energy and Chemical Engineering (WASM-MECE)
curtin.accessStatusFulltext not available


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