Predicting Permeate Fluxes and Rejection Rates in Reverse Osmosis and Tight-Nanofiltration Processes

Abstract : The performance of reverse osmosis and tight nanofiltration with flat-sheet membranes can be predicted accurately. The proposed numerical model solves the local momentum and mass conservation equations in the module's feed channel with solution-diffusion boundary conditions. Both qualitative and quantitative predictions of the permeate flux and of the rejection rate are obtained with an accuracy depending on the limitations of the solution-diffusion model for describing membrane mass transport and on the value of solute permeability. As an extension of the applications to plate-and-frame modules, the ability to describe the performance of processes carried out with spiral-wound modules is also tested with own desalination experiments and with data from the literature.
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Chemical Engineering and Technology, Wiley-VCH Verlag, 2015, 38 (4), pp.585-594. 〈10.1002/ceat.201400654〉
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https://hal.archives-ouvertes.fr/hal-01135689
Contributeur : Nelson Ibaseta <>
Soumis le : mercredi 25 mars 2015 - 16:44:35
Dernière modification le : jeudi 18 janvier 2018 - 02:21:38

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Gustavo Henndel Lopes, Nelson Ibaseta, Pierrette Guichardon, Pierre Haldenwang. Predicting Permeate Fluxes and Rejection Rates in Reverse Osmosis and Tight-Nanofiltration Processes. Chemical Engineering and Technology, Wiley-VCH Verlag, 2015, 38 (4), pp.585-594. 〈10.1002/ceat.201400654〉. 〈hal-01135689〉

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