References

  1. I.G. Wenten, Khoiruddin, Reverse osmosis applications: prospect and challenges, Desalination, 391 (2016) 112–125.
  2. L.F. Greenlee, D.F. Lawler, B.D. Freeman, B. Marrot, P. Moulin, Reverse osmosis desalination: water sources, technology, and today’s challenges, Water Res., 43 (2009) 2317–2348.
  3. I.C. Escobar, E.M. Hoek, C.J. Gabelich, F.A. DiGiano, Y.A. Le Gouellec, P. Berube, K.J. Howe, J. Allen, K.Z. Atasi, M.M. Benjamin, P.J. Brandhuber, J. Brant, Y.-J. Chang, M. Chapman, A. Childress, W.J. Conlon, T.H. Cooke, I.A. Crossley, G.F. Crozes, P.M. Huck, S.N. Kommineni, J.G. Jacangelo, A.A. Karimi, J.-H. Kim, D.F. Lawler, Q.L. Li, L.C. Schideman, S. Sethi, J.E. Tobiason, T. Tseng, S. Veerapaneni, A.K. Zander, Committee report: recent advances and research needs in membrane fouling, J. AWWA, 97 (2005) 79–89.
  4. M. Said, S. Ebrahim, A. Gad, S. Kandil, Toward energy efficient reverse osmosis polyamide thin-film composite membrane based on diaminotoluene, Desal. Wat. Treat., 71 (2017) 261–270.
  5. W.J. Lau, A.F. Ismail, N. Misdan, M.A. Kassim, A recent progress in thin film composite membrane: a review, Desalination, 287 (2012) 190–199.
  6. P.W. Morgan, Condensation polymers: by interfacial and solution methods, Polym. Rev., 10 (1965) 19–64.
  7. P. Dydo, I. Nemś, M. Turek, Boron removal and its concentration by reverse osmosis in the presence of polyol compounds, Sep. Purif. Technol., 89 (2012) 171–180.
  8. Y. Cengeloglu, G. Arslan, A. Tor, I. Kocak, N. Dursun, Removal of boron from water by using reverse osmosis, Sep. Purif. Technol., 64 (2008) 141–146.
  9. K.L. Tu, L.D. Nghiem, A.R. Chivas, Coupling effects of feed solution pH and ionic strength on the rejection of boron by NF/RO membranes, Chem. Eng. J., 168 (2011) 700–706.
  10. N. Kabay, M. Bryjak, N. Hilal, Boron Separation Processes, Elsevier, Amsterdam, 2015.
  11. G.M. Marion, F.J. Millero, M.F. Camões, P. Spitzer, R. Feistel, C.-T.A. Chen, pH of seawater, Mar. Chem., 126 (2011) 89–96.
  12. N.N. Greenwood, A. Earnshaw, Chemistry of the Elements, 2nd ed., Butterworth-Heinemann, Oxford, 1997.
  13. J. Hu, Y. Pu, M. Ueda, X. Zhang, L. Wang, Charge-aggregate induced (CAI) reverse osmosis membrane for seawater desalination and boron removal, J. Membr. Sci., 520 (2016) 1–7.
  14. Y.-H. La, J. Diep, R. Al-Rasheed, D. Miller, L. Krupp, G.M. Geise, A. Vora, B. Davis, M. Nassar, B.D. Freeman, M. McNeil, G. Dubois, Enhanced desalination performance of polyamide bi-layer membranes prepared by sequential interfacial polymerization, J. Membr. Sci., 437 (2013) 33–39.
  15. M. Di Vincenzo, M. Barboiu, A. Tiraferri, Y.M. Legrand, Polyolfunctionalized thin-film composite membranes with improved transport properties and boron removal in reverse osmosis, J. Membr. Sci., 540 (2017) 71–77.
  16. Y.-N. Kwon, C.Y. Tang, J.O. Leckie, Change of chemical composition and hydrogen bonding behavior due to chlorination of crosslinked polyamide membranes, J. Appl. Polym. Sci., 108 (2008) 2061–2066.
  17. C.N. Grover, J.H. Gwynne, N. Pugh, S. Hamaia, R.W. Farndale, S.M. Best, R.E. Cameron, Crosslinking and composition influence the surface properties, mechanical stiffness and cell reactivity of collagen-based films, Acta Biomater., 8 (2012) 3080–3090.
  18. Y.-N. Kwon, R. Joksimovic, I.-C. Kim, J.O. Leckie, Effect of bromide on the chlorination of a polyamide membrane, Desalination, 280 (2011) 80–86.
  19. M. Stanley, An Introduction to Fluid Dynamics: Principles of Analysis and Design, Wiley, Hoboken, New Jersey, 1998.
  20. M.H. Joseph, Organic Chemistry, 2nd ed., Thomson Brooks Cole, Boston, MA, 2005.
  21. G. Mabilleau, I.C. Stancu, T. Honoré, G. Legeay, C. Cincu, M.F. Baslé, D. Chappard, Effects of the length of crosslink chain on poly(2-hydroxyethyl methacrylate) (pHEMA) swelling and biomechanical properties, J. Biomed. Mater. Res. Part A, 77A (2005) 35–42.
  22. R. Shimizu, T.E. Everhart, N.C. MacDonald, C.T. Hovland, Edge effect in high‐resolution scanning Auger‐electron microscopy, Appl. Phys. Lett., 33 (1978) 549–551.
  23. M. Hirose, H. Ito, Y. Kamiyama, Effect of skin layer surface structures on the flux behaviour of RO membranes, J. Membr. Sci., 121 (1996) 209–215.
  24. B. Bolto, T. Tran, M. Hoang, Z. Xie, Crosslinked poly(vinyl alcohol) membranes, Prog. Polym. Sci., 34 (2009) 969–981.
  25. G.N.B. Baroña, J. Lim, M. Choi, B. Jung, Interfacial polymerization of polyamide-aluminosilicate SWNT nanocomposite membranes for reverse osmosis, Desalination, 325 (2013) 138–147.
  26. L.Y. Hung, C.C. Hu, W.S. Hung, S.J. Lue, Probing free volume property of polyamide thin film composites with different cross-linking densities, MOJ Polym. Sci., 2 (2018) 1–4.
  27. G.-D. Kang, C.-J. Gao, W.-D. Chen, X.-M. Jie, Y.-M. Cao, Q. Yuan, Study on hypochlorite degradation of aromatic polyamide reverse osmosis membrane, J. Membr. Sci., 300 (2007) 165–171.
  28. M.D. Joshi, G. Chalumot, Y.-w. Kim, J.L. Anderson, Synthesis of glucaminium-based ionic liquids and their application in the removal of boron from water, Chem. Commun., 48 (2012) 1410–1412.
  29. O. Kaftan, M. Açıkel, A.E. Eroğlu, T. Shahwan, L. Artok, C.Y. Ni, Synthesis, characterization and application of a novel sorbent, glucamine-modified MCM-41, for the removal/ preconcentration of boron from waters, Anal. Chim. Acta, 547 (2005) 31–41.
  30. P. Dydo, M. Turek, J. Ciba, J. Trojanowska, J. Kluczka, Boron removal from landfill leachate by means of nanofiltration and reverse osmosis, Desalination, 185 (2005) 131–137.
  31. H. Koseoglu, B.I. Harman, N.O. Yigit, E. Guler, N. Kabay, M. Kitis, The effects of operating conditions on boron removal from geothermal waters by membrane processes, Desalination, 258 (2010) 72–78.
  32. E. Yavuz, Ö. Arar, M. Yüksel, Ü. Yüksel, N. Kabay, Removal of boron from geothermal water by RO system-II-effect of pH, Desalination, 310 (2013) 135–139.
  33. K.L. Tu, A.R. Chivas, L.D. Nghiem, Effects of chemical preservation on flux and solute rejection by reverse osmosis membranes, J. Membr. Sci., 472 (2014) 202–209.