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Modelling in mixed matrix membranes for gas separation
Author(s) -
Rafiq Sikander,
Maulud Abdulhalim,
Man Zakaria,
Mutalib Mohamed Ibrahim Abdul,
Ahmad Faizan,
Khan Asad Ullah,
Khan Asim Laeeq,
Ghauri Moinuddin,
Muhammad Nawshad
Publication year - 2015
Publication title -
the canadian journal of chemical engineering
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.404
H-Index - 67
eISSN - 1939-019X
pISSN - 0008-4034
DOI - 10.1002/cjce.22111
Subject(s) - permeance , ellipsoid , mathematics , shape factor , analytical chemistry (journal) , geometry , scanning electron microscope , membrane , least absolute deviations , permeation , materials science , statistics , physics , chromatography , chemistry , composite material , regression , biochemistry , astronomy
Various gas permeation models including Maxwell model, Bruggeman model, Lewis‐Nielson model and Pal model were compared via a modelling approach with the relative permeance of CO 2 against published experimental data on silica filled polysulfone/polyimide (PSF/PI) mixed matrix membranes (MMMs). However, none of the tested models were able to predict the data with good accurately. A closer look at the cross‐sectional image by scanning electron microscopy (SEM) indicated that the fillers were actually prolate ellipsoids dispersed within the matrix. Maxwell‐Wagner‐Sillar model was then employed to investigate the prolate effect and it was observed that the optimization curves of maximum packing ( φ m ) and shape factor (n) showed least deviations. The percentage average absolute relative error (AARE %) value for fitted shape factor (n f ) was found to be in the range of 1.12–2.17 at 2–10 bar pressure which showed its robustness. A further evaluation from SEM image showed that the shape factor along z‐direction (n z ) displayed a minimum deviation of 17.52 % for prolates at 0.102 ± 0.01. By using n z as upper limit and estimated shape factor n e through generalization, the error was reduced to 6.01 %. The AAR % deviation was found in the order of n f