Michele Tedesco scite author profile

Transport of water through ion-exchange membranes is of importance both for electrodialysis (ED) and reverse electrodialysis (RED). In this work, we extend our previous theory [J. Membrane Sci., 510, (2016) 370-381] and include water transport in a two-dimensional model for (R)ED. Following a Maxwell-Stefan (MS) approach, ions in the membrane have friction with the water, pore walls, and one another. We show that when ion-ion friction is neglected, the MS-approach is equivalent to the hydrodynamic theory of hindered transport, for instance applied to nanofiltration. After validation against experimental data from literature for ED and RED, the model is used to analyze single-pass seawater ED, and RED with highly concentrated solutions. In the model, fluxes and velocities of water and ions in the membranes are self-consistently calculated as function of the driving forces. We investigate the influence of water and coion leakage under different operational conditions.

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A simulation tool for analysis and design of reverse electrodialysis using concentrated brines

Tedesco

Cipollina

Tamburini

et al. 2015

Chemical Engineering Research and Design

129

117

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Michele Tedesco

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Nernst-Planck transport theory for (reverse) electrodialysis: I. Effect of co-ion transport through the membranes

Performance of the first reverse electrodialysis pilot plant for power production from saline waters and concentrated brines

Nernst-Planck transport theory for (reverse) electrodialysis: II. Effect of water transport through ion-exchange membranes

A simulation tool for analysis and design of reverse electrodialysis using concentrated brines

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