%0 Journal Article
%@ 00218995
%A Mannan, H.A.
%A Mukhtar, H.
%A Murugesan, T.
%A Man, Z.
%A Bustam, M.A.
%A Shaharun, M.S.
%A Abu Bakar, M.Z.
%D 2017
%F scholars:8670
%I John Wiley and Sons Inc.
%J Journal of Applied Polymer Science
%K Carbon dioxide; Forecasting; Gas permeability; Gases; Ionic liquids; Liquids; Mechanical permeability; Membranes; Models; Polymeric membranes; Polymers, Accurate prediction; Dispersed phase; Gas separation membrane; Liquid polymers; Literature data; Maxwell models; Model parameters, Gas permeable membranes
%N 17
%R 10.1002/app.44761
%T Prediction of CO2 gas permeability behavior of ionic liquid�polymer membranes (ILPM)
%U https://khub.utp.edu.my/scholars/8670/
%V 134
%X Predicting the gas permeability of ionic liquid-polymeric membranes (ILPM) is of great importance for the design of efficient gas separation membrane materials. The available models for the prediction of CO2 gas permeability through ionic liquid-polymeric membranes were analyzed using the literature data. Maxwell model was selected for modification due to relatively accurate prediction capability. The Maxwell model was modified for ionic liquid-polymeric membranes by incorporating model parameter k for the effectiveness of volume fraction of dispersed phase. The established methodology was tested for different ionic liquid-polymeric membrane systems for validation. A satisfactory agreement was observed for predicted and experimental permeability by using the current approach. This method can be used for the prediction of CO2 gas permeability through ionic liquid-polymeric membranes. © 2017 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2017, 134, 44761. © 2017 Wiley Periodicals, Inc.
%Z cited By 12