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Prediction of physical properties of nanofiltration membranes using experiment and theoretical models |
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| Authors: | A.A. Hussain S.K. Nataraj M.E.E. Abashar I.S. Al-Mutaz T.M. Aminabhavi |
| Affiliation: | aDoosan Desalination R&D Centre, Doosan Heavy Industries and Construction, Dubai 282350, United Arab Emirates bChemical Engineering Department, King Saud University, Riyadh 11421, Saudi Arabia cMembrane Separations Division, Center of Excellence in Polymer Science, Karnatak University, Dharwad 580003, India |
| Abstract: | Two commercial nanofiltration (NF) membranes, viz., Desal-HL and NF 700 MWCO were investigated experimentally using neutral and charged solutes, viz., glucose, sodium chloride and magnesium chloride. Effect of pH was studied for sodium chloride rejection and isoelectric point of the membrane was deduced. Experimental results were analyzed using Donnan steric pore and dielectric exclusion models. Dielectric exclusion arises due to the difference in dielectric constant between the bulk and the nano-pore. Born dielectric effect was used as dielectric exclusion phenomena in the present investigation. Stokes–Einstein, Born effective and Pauling radii were used for theoretical simulation, which accurately predicted different charge densities. Empirical correlations were proposed between charge density, concentration and pH for each radius. Charge density decreased drastically when dielectric exclusion term was included in the theoretical model, which showed the real physical characteristics of the membranes employed. Charge density and radius of pore was found to be an important surface parameter in predicting the separation effects in NF membranes. |
| Keywords: | Nanofiltration Charge density Dielectric constant Stokes–Einstein Born Pauling |
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