References

  1. EPA, Drinking Water Advisory: Consumer acceptability advice and health effects analysis on sodium, United States Environmental Protection Agency, 822-R-03-006, available at: www.epa.gov/safewater/ccl/pdf/sodium.pdf, 2003.
  2. N.I. Sax, R.L. Lewis, Hawley’s condensed chemical dictionary, 11 ed., Van Nostrand Reinhold, New York, 1987.
  3. F. Schutte, W. Focke, Handbook for the operation of water treatment works, Water Research Commission, The Water Institute of Southern Africa, 2006.
  4. S. Skipton, B. Dvorak, S. Niemeyer, Drinking water treatment: water softening (ion exchange), University of Nebraska, Lincoln Extension, Institute of Agriculture and Natural Resources: Lincoln, NE, 1491 (2008) 1–4.
  5. M.E. Doyle, K.A. Glass, Sodium reduction and its effect on food safety, food quality, and human health, Compr. Rev. Food Sci. Food. Safe., 9 (2010) 44–56.
  6. T.K. Welty, L. Freni-Titulaer, M.M. Zack, P. Weber, J. Sippel, N. Huete, J. Justice, D. Dever, M.A. Murphy, Effects of exposure to salty drinking water in an Arizona community: cardiovascular mortality, hypertension prevalence, and relationships between blood pressure and sodium intake, J. Amer. Med. Assoc., 255 (1986) 622–626.
  7. R.A. Lewis, Hawley’s Condensed Chemical Dictionary, John Wiley & Sons, 2016.
  8. M.J. Brandt, K.M. Johnson, A.J. Elphinston, D.D. Ratnayaka, Twort’s Water Supply, 7 ed., IWA Publishing, 2017.
  9. D.A. Sica, A.D. Struthers, W.C. Cushman, M. Wood, J.S. Banas, M. Epstein, Importance of potassium in cardiovascular disease, J. Clin. Hypertens., 4 (2002) 198–206.
  10. C.M. Weaver, Potassium and health, Advances in Nutrition: An Inter. Rev. J., 4 (2013) 368S–377S.
  11. K. Baek, H.-H. Lee, H.-J. Shin, J.-W. Yang, Electrochemical removal of sodium ion from fermented food composts, Korean J. Chem. Eng., 17 (2000) 245–247.
  12. K. Popper, R.J. Bouthilet, V. Slamecka, Ion-exchange removal of sodium chloride from water with calcium hydroxide as recoverable regenerant, Science, 141 (1963) 1038–1039.
  13. X. Guo, X. Li, H.-S. Park, Ammonium and potassium removal for anaerobically digested wastewater using natural clinoptilolite followed by membrane pretreatment, J. Hazard. Mater., 151 (2008) 125–133.
  14. J.C. Crittenden, R.R. Trussell, D.W. Hand, K.J. Howe, G. Tchobanoglous, MWH’s water Treatment: Principles and Design, John Wiley & Sons, 2012.
  15. M. Mahdavi, A.H. Mahvi, S. Nasseri, M. Yunesian, Application of freezing to the desalination of saline water, Arab. J. Sci. Eng., 36 (2011) 1171–1177.
  16. H. Shon, S. Phuntsho, D. Chaudhary, S. Vigneswaran, J. Cho, Nanofiltration for water and wastewater treatment-a mini review, Drink. Water. Eng. Sci., (2013).
  17. A. Ebrahimi, M.M. Amin, H. Pourzamani, Y. Hajizadeh, A.H. Mahvi, M. Mahdavi, M.H.R. Rad, Hybrid coagulation-UF processes for spent filter backwash water treatment: a comparison studies for PAFCl and FeCl3 as a pre-treatment, Environ. Monit. Assess., 189 (2017) 387.
  18. M. Mahdavi, A.H. Mahvi, H. Pourzamani, A. Fatehizadeh, A. Ebrahimi, High turbid water treatment by Kenaf fibers: a practical method for individual water supply and remote areas, Desal. Wat. Treat., 76 (2017) 225–231.
  19. M. Mahdavi, A. Ebrahimi, H. Azarpira, H.R. Tashauoei, A.H. Mahvi, Dataset on the spent filter backwash water treatment by sedimentation, coagulation and ultra filtration, Data in Brief., 15 (2017) 916–921.
  20. A. Ebrahimi, M. Mahdavi, M. Pirsaheb, F. Alimohammadi, A.H. Mahvi, Dataset on the cost estimation for spent filter backwash water (SFBW) treatment, Data in Brief., 15 (2017) 1043–1047.
  21. J. Gozalvez, J. Lora, J. Mendoza, M. Sancho, Modelling of a low-pressure reverse osmosis system with concentrate recirculation to obtain high recovery levels, Desalination, 144 (2002) 341–345.
  22. B. Van der Bruggen, M. Mänttäri, M. Nyström, Drawbacks of applying nanofiltration and how to avoid them: a review, Sep. Purif. Technol., 63 (2008) 251–263.
  23. N. Misdan, W. Lau, A. Ismail, Seawater reverse osmosis (SWRO) desalination by thin-film composite membrane — Current development, challenges and future prospects, Desalination, 287 (2012) 228–237.
  24. S. Yüksel, N. Kabay, M. Yüksel, Removal of bisphenol A (BPA) from water by various nanofiltration (NF) and reverse osmosis (RO) membranes, J. Hazard. Mater., 263 (2013) 307–310.
  25. F. Bi, H. Zhao, Z. Zhou, L. Zhang, H. Chen, C. Gao, Optimal design of nanofiltration system for surface water treatment, Chin. J. Che. Eng., 24 (2016) 1674–1679.
  26. A.W. Mohammad, Y. Teow, W. Ang, Y. Chung, D. Oatley-Radcliffe, N. Hilal, Nanofiltration membranes review: Recent advances and future prospects, Desalination, 356 (2015) 226–254.
  27. D. Zhao, S. Yu, A review of recent advance in fouling mitigation of NF/RO membranes in water treatment: pretreatment, membrane modification, and chemical cleaning, Desal. Wat. Treat., 55 (2015) 870–891.
  28. D. Hu, Z.-L. Xu, Y.-M. Wei, Y.-F. Liu, Poly (styrene sulfonic acid) sodium modified nanofiltration membranes with improved permeability for the softening of highly concentrated seawater, Desalination, 336 (2014) 179–186.
  29. T. Ren, L. Han, R. Liu, C. Ma, X. Chen, S. Zhao, Y. Zhang, Influence of inorganic salt on retention of ibuprofen by nanofiltration, Sep. Purif. Technol., 189 (2017) 382–388.
  30. D. Zhou, L. Zhu, Y. Fu, M. Zhu, L. Xue, Development of lower cost seawater desalination processes using nanofiltration technologies—A review, Desalination, 376 (2015) 109–116.
  31. A. Schäfer, A.G. Fane, T. Waite, Nanofiltration of natural organic matter: removal, fouling and the influence of multivalent ions, Desalination, 118 (1998) 109–122.
  32. Y. Xu, R.E. Lebrun, Investigation of the solute separation by charged nanofiltration membrane: effect of pH, ionic strength and solute type, J. Membr. Sci., 158 (1999) 93–104.
  33. W. Zhang, G. He, P. Gao, G. Chen, Development and characterization of composite nanofiltration membranes and their application in concentration of antibiotics, Sep. Purif. Technol., 30 (2003) 27–35.
  34. J. Garcia-Ivars, L. Martella, M. Massella, C. Carbonell-Alcaina, M.-I. Alcaina-Miranda, M.-I. Iborra-Clar, Nanofiltration as tertiary treatment method for removing trace pharmaceutically active compounds in wastewater from wastewater treatment plants, Wat. Res., 125 (2017) 360–373.
  35. S.H. Kang, Y.K. Chang, H.N. Chang, Recovery of ammonium lactate and removal of hardness from fermentation broth by nanofiltration, Biotechnol. Prog., 20 (2004) 764–770.
  36. S.V. Jadhav, K.V. Marathe, V.K. Rathod, A pilot scale concurrent removal of fluoride, arsenic, sulfate and nitrate by using nanofiltration: Competing ion interaction and modelling approach, J. Wat. Proc. Eng., 13 (2016) 153–167.
  37. A.H. Mahvi, M. Malakootian, A. Fatehizadeh, M.H. Ehrampoush, Nitrate removal from aqueous solutions by nanofiltration, Desal. Wat. Treat., 29 (2011) 326–330.
  38. A. Werner, A. Rieger, M. Mosch, R. Haseneder, J.-U. Repke, Nanofiltration of indium and germanium ions in aqueous solutions: Influence of pH and charge on retention and membrane flux, Sep. Purif. Technol., (2017).
  39. H.H. Kim, J.H. Kim, Y.K. Chang, Removal of potassium chloride by nanofiltration from ion-exchanged solution containing potassium clavulanate, Bioproc. Biosys. Eng., 33 (2010) 149.
  40. M. Hedayatipour, N. Jaafarzadeh, M. Ahmadmoazzam, Removal optimization of heavy metals from effluent of sludge dewatering process in oil and gas well drilling by nanofiltration, J. Env. Manag., 203 (2017) 151–156.
  41. H. Krieg, S. Modise, K. Keizer, H. Neomagus, Salt rejection in nanofiltration for single and binary salt mixtures in view of sulphate removal, Desalination, 171 (2005) 205–215.
  42. A.P.H. Association, A.W.W. Association, W.P.C. Federation, W.E. Federation, Standard methods for the examination of water and wastewater, American Public Health Association., 2005.
  43. L. Paugam, S. Taha, J. Cabon, G. Dorange, Elimination of nitrate ions in drinking waters by nanofiltration, Desalination, 152 (2003) 271–274.
  44. A. Santafé-Moros, J. Gozálvez-Zafrilla, J. Lora-Garcia, Nitrate removal from ternary ionic solutions by a tight nanofiltration membrane, Desalination, 204 (2007) 63–71.
  45. A. Torabian, G.R.N. Bihdendi, P.Z. Ranjbar, N. Razmkhah, Efficiency evaluation of textile basic dye removal from water by nanofiltration, Iran. J. Env. Health. Sci. Eng., 4 (2007) 177–180.
  46. C. Causserand, P. Aimar, J.-P. Cravedi, E. Singlande, Dichloroaniline retention by nanofiltration membranes, Wat. Res., 39 (2005) 1594–1600.
  47. T. Chaabane, S. Taha, M.T. Ahmed, R. Maachi, G. Dorange, Removal of copper from industrial effluent using a spiral wound module—film theory and hydrodynamic approach, Desalination, 200 (2006) 403–405.
  48. T. Urase, J.-i. Oh, K. Yamamoto, Effect of pH on rejection of different species of arsenic by nanofiltration, Desalination, 117 (1998) 11–18.
  49. A.E. Childress, M. Elimelech, Relating nanofiltration membrane performance to membrane charge (electrokinetic) characteristics, Env. Sci. Technol., 34 (2000) 3710–3716.
  50. H.R. Akbari, A.R. Mehrabadi, A. Torabian, Determination of nanofiltration efficiency in arsenic removal from drinking water, Iran. J. Env. Health. Sci. Eng., 7 (2010) 273–278.
  51. R. Kumar, P. Pal, Removal of phenol from coke-oven wastewater by cross-flow nanofiltration membranes, Wat. Env. Res., 85 (2013) 447–455.
  52. A. Verberne, J. Wouters, Membraanfiltratie voor de drink water be reiding: economische optimalisatie van ontwerpparameters, H2O, 26 (1993) 383–387.