References

  1. B. Penate, L. Garcia-Rodriguez, Current trends and future prospects in the design of seawater reverse osmosis desalination technology, Desalination, 284 (2012) 1–8.
  2. T. Humplik, J. Lee, S.C.O. Hern, B.A. Fellman, M.A. Baig, S.F. Hassan, M.A. Atieh, F. Rahman, T. Laoui, R. Karnik, E.N. Wang, Nanostructured materials for water desalination, Nanotechnology, 22 (2011) 1–19.
  3. A.M. Bernardes, M.A.S. Rodrigues, J.Z. Ferreira, Electrodialysis and Water Reuse: Novel Approaches, Springer-Verlag Berlin and Heidelberg GmbH & Co. KG, 2014 Ed.
  4. N. Misdan, W.J. Lau, A.F. Ismail, Seawater reverse osmosis (SWRO) desalination by thin-film compositemembrane - Current development, challenges and future prospects, Desalination, 287 (2012) 228–237.
  5. K. Venugopal, S. Dharmalingam, Desalination efficiency of a novel bipolar membrane basedon functionalized polysulfone, Desalination, 296 (2012) 37–45.
  6. J.M. Ortiz, J.A. Sotoca, E. Exposito, F. Gallud, V. Garcia-Garcia, V. Montiel, A. Aldaz, Brackish water desalination by electrodialysis: batch recirculation operation modeling, J. Membr. Sci., 252 (2005) 65–75.
  7. A. Basile, S.P. Nunes, Advanced Membrane Science and Technology for Sustainable Energy and Environmental Applications, Woodhead Publishing Series in Energy, 24th August 2011.
  8. P. Moon, G. Sandi, D. Stevens, R. Kizilel, Computational modeling of ionic transportin continuous and batch electrodialysis, Sep. Sci. Technol., 39 (2004) 2531–2555.
  9. L. Firdaous, T. Saheb, J.-P. Schlumpf, J.-P. Maleriat, P. Bourseau, P. Jaouen, A mathematical model of multicomponent mass transfer in electrodialysis, Scandinavian Conference on Simulationand Modeling, Trondheim, Norway, October 13–14, 2005.
  10. S. Casas, N. Bonet, C. Aladjem, J.L. Cortina, E. Larrotcha, L.V. Cremades, Modelling sodium chloride concentration from seawater reverse osmosis brine by electrodialysis: preliminary results, Solvent. Extr. Ion Exc., 29 (2011) 488–508.
  11. F. Fadaei, S. Shirazian, S.N. Ashrafizadeh, Mass transfer modeling of ion transport through nanoporous media, Desalination, 281 (2011) 325–333.
  12. A. Tamburini, G. La Barbera, A. Cipollina, M. Ciofalo, G. Micale, CFD simulation of channels for direct and reverse electrodialysis, Desal. Water Treat., 48 (2012) 370–389.
  13. P. Sousa, A. Soares, E. Monteiro, A. Rouboa, A CFD study of the hydrodynamics in a desalination membrane filled with spacers, Desalination, 349 (2014) 22–30.
  14. Z. Zourmand, F. Faridirad, N. Kasiri, T. Mohammadi, Mass transfer modeling of desalination through an electrodialysis cell, Desalination, 359 (2015) 41–51.
  15. L. Gurreri, G. Battaglia, A. Tamburini, A. Cipollina, G. Micale, M. Ciofalo, Multi-physical modelling of reverse electrodialysis, Desalination, 423 (2017) 52–64.
  16. A.A. Moya, Numerical simulation of ionic transport processesthrough bilayer ion-exchange membranes in reverse electrodialysis stacks, J. Membr. Sci., 524 (2017) 400–408.
  17. M. Sadrzadeh T. Mohammadi, Sea water desalination using electrodialysis, Desalination, 221 (2008) 440–447.
  18. E. Samson, J. Marchand, K.A. Snyder, Calculation of ionic diffusion coefficients on the basis of migration test results, Mater. Struct., 36 (2003) 156–165.