References

  1. Z. Zeng, J. Liu, H.H.G. Savenije, A simple approach to assess water scarcity integrating water quantity and quality, Ecol. Indic., 34 (2013) 441–449.
  2. L.A. Hoover, W.A. Phillip, A. Tiraferri, N.Y. Yip, M. Elimelech, Forward with osmosis: emerging applications for greater sustainability, Environ. Sci. Technol., 45 (2011) 9824–9830.
  3. M. Pedro-Monzonís, A. Solera, J. Ferrer, T. Estrela, J. Paredes-Arquiola, A review of water scarcity and drought indexes in water resources planning and management, J. Hydrol., 527 (2015) 482–493.
  4. C. Charcosset, A review of membrane processes and renewable energies for desalination, Desalination, 245 (2009) 214–231.
  5. M.S. El-Bourawi, Z. Ding, R. Ma, M. Khayet, A framework for better understanding membrane distillation separation process, J. Membr. Sci., 285 (2006) 4–29.
  6. K.W. Lawson, D.R. Lloyd, Membrane distillation, J. Membr. Sci., 124 (1997) 1–25.
  7. A.M. Alklaibi, N. Lior, Membrane-distillation desalination: status and potential, Desalination, 171 (2005) 111–131.
  8. L. Mariah, C.A. Buckley, C.J. Brouckaert, E. Curcio, E. Drioli, D. Jaganyi, D. Ramjugernath, Membrane distillation of concentrated brines – role of water activities in the evaluation of driving force, J. Membr. Sci., 280 (2006) 937–947.
  9. P. Wang, T.-S. Chung, Recent advances in membrane distillation processes: membrane development, configuration design and application exploring, J. Membr. Sci., 474 (2015) 39–56.
  10. M. Gryta, Fouling in direct contact membrane distillation process, J. Membr. Sci., 325 (2008) 383–394.
  11. A.K. Fard, T. Rhadfi, M. Khraisheh, M.A. Atieha, M. Khraisheha, N. Hilal, Reducing flux decline and fouling of direct contact membrane distillation by utilizing thermal brine from MSF desalination plant, Desalination, 379 (2016) 172–181.
  12. D. Singh, P. Prakash, K.K. Sirkar, Deoiled produced water treatment using direct-contact membrane distillation, Ind. Eng. Chem. Res., 52 (2013) 13439–13448.
  13. H.C. Duong, S.R. Gray, M. Duke, T.Y. Cath, L.D. Nghiem, Scaling control during membrane distillation of coal seam gas reverse osmosis brine, J. Membr. Sci., 493 (2015) 673–682.
  14. J. Gilron, Y. Ladizansky, E. Korin, Silica fouling in direct contact membrane distillation, Ind. Eng. Chem. Res., 52 (2013) 10521–10529.
  15. W. Zhong, H. Li, Y. Ye, V. Chen, Evaluation of silica fouling for coal seam gas produced water in a submerged vacuum membrane distillation system, Desalination, 393 (2016) 52–64.
  16. C.M. Law, X.-Y. Li, Q. Li, The combined colloid-organic fouling on nanofiltration membrane for wastewater treatment and reuse, Sep. Sci. Technol., 45 (2010) 935–940.
  17. X. Zhu, M. Elimelech, Colloidal fouling of reverse osmosis membranes: measurements and fouling mechanisms, Environ. Sci. Technol., 31 (1997) 3654–3662.
  18. W. Stumm, Chemistry of the Solid–Water Interface, Wiley Interscience, New York, 1992.
  19. X. Zhu, M. Elimelech, Fouling of reverse osmosis membranes by aluminium oxide colloids, J. Environ. Eng., 121 (1995) 884–893.
  20. S. Srisurichan, R. Jiraratananon, A. Fane, Mass transfer mechanisms and transport resistances in direct contact membrane distillation process, J. Membr. Sci., 277 (2006) 186–194.
  21. S. Walczak, N. Cerpa, Artificial Neural Networks, R.A. Meyers, Ed., Encyclopedia of Physical Science and Technology, 3rd ed., Academic Press, San Diego, CA, 2003, pp. 631–645.
  22. V.N. Delgrange, N. Cabassud, M. Cabassud, L. Durand- Bourlier, J.M. Laine, Neural networks for prediction of ultrafiltration transmembrane pressure: application to drinking water production, J. Membr. Sci., 150 (1998) 111–123.