The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models
Asymmetric cellulose acetate nanofiltration (NF) membranes were prepared at different shear rate between 152.0 and 506.67 s-1 to investigate the effect of casting shear rate on the fine structural details of the membrane and membrane performance by using sodium chloride solution. The experimental da...
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my.utm.7812017-03-09T07:15:05Z http://eprints.utm.my/id/eprint/781/ The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models Ismail, A. F. Hassan, A. R. TP Chemical technology Asymmetric cellulose acetate nanofiltration (NF) membranes were prepared at different shear rate between 152.0 and 506.67 s-1 to investigate the effect of casting shear rate on the fine structural details of the membrane and membrane performance by using sodium chloride solution. The experimental data is modeled based on the pore flow, solution–diffusion mechanisms and the extended Nernst–Plank equation. The Spiegler–Kedem membrane transport model was used to evaluate the membrane parameters such as reflection coefficient, and solute permeability, Ps. The fine structural details of the nanofiltration membrane were evaluated in terms of effective pore radius rp, effective charge density Xd, ratio of effective membrane thickness to membrane porosity. The measurement was conducted using steric-hindrance pore (SHP) model. The effective charge density Xd, was determined using Teorell–Meyer–Sievers (TMS) model. The modeling results show that, the obtained values were in the range of the commercial available NF membranes. 2004 Article PeerReviewed Ismail, A. F. and Hassan, A. R. (2004) The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models. Journal of Membrane Science, 231 . pp. 23-36. http://dx.doi.org/10.1016/j.memsci.2003.10.024 10.1016/j.memsci.2003.10.024 |
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TP Chemical technology Ismail, A. F. Hassan, A. R. The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
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Asymmetric cellulose acetate nanofiltration (NF) membranes were prepared at different shear rate between 152.0 and 506.67 s-1 to investigate the effect of casting shear rate on the fine structural details of the membrane and membrane performance by using sodium chloride solution. The experimental data is modeled based on the pore flow, solution–diffusion mechanisms and the extended Nernst–Plank equation. The Spiegler–Kedem membrane transport model was used to evaluate the membrane parameters such as reflection coefficient, and solute permeability, Ps. The fine structural details of the nanofiltration membrane were evaluated in terms of effective pore radius rp, effective charge density Xd, ratio of effective membrane thickness to membrane porosity. The measurement was conducted using steric-hindrance pore (SHP) model. The effective charge density Xd, was determined using Teorell–Meyer–Sievers (TMS) model. The modeling results show that, the obtained values were in the range of the commercial available NF membranes. |
| format |
Article |
| author |
Ismail, A. F. Hassan, A. R. |
| author_facet |
Ismail, A. F. Hassan, A. R. |
| author_sort |
Ismail, A. F. |
| title |
The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
| title_short |
The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
| title_full |
The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
| title_fullStr |
The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
| title_full_unstemmed |
The deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
| title_sort |
deduction of fine structural details of asymmetric nanofiltration membranes using theoretical models |
| publishDate |
2004 |
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http://eprints.utm.my/id/eprint/781/ http://dx.doi.org/10.1016/j.memsci.2003.10.024 |
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1643643182872788992 |
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