References

  1. C. Dilek, H.O. Ozbelge, N. Bicak, L. Yilmaz, Removal of boron from aqueous solutions by continuous polymer-enhanced ultrafiltration with polyvinyl alcohol, Sep. Sci. Technol., 37 (2002) 1257–1271.
  2. A. Ben Fradj, S. Ben Hamouda, H. Ouni, R. Lafi, L. Gzara, A. Hafiane, Removal of methylene blue from aqueous solutions by poly(acrylic acid) and poly(ammonium acrylate) assisted ultrafiltration, Sep. Purif. Technol., 133 (2014) 76–81.
  3. R. Molinari, S. Gallo, P. Argurio, Metal ions removal from wastewater or washing water from contaminated soil by ultrafiltration-complexation, Water Res., 38 (2004) 593–600.
  4. P. Cañizares, Á. Pérez, R. Camarillo, Recovery of heavy metals by means of ultrafiltration with water-soluble polymers: calculation of design parameters, Desalination, 144 (2002) 279–285.
  5. M. Schulte-Bockholt, M. Schuster, Removal enrichment and recovery of Ni(II), Zn(II) and phosphate from phosphation rinsing waters with liquid-phase polymer-based retention technique, Sep. Purif. Technol., 63 (2008) 172–178.
  6. R.S. Juang, C.H. Chiou, Ultrafiltration rejection of dissolved ions using various weakly basic water-soluble polymers, J. Membr. Sci., 177 (2000) 207–214.
  7. M.K. Aroua, F.M. Zuki, N.M. Sulaiman, Removal of chromium ions from aqueous solutions by polymer-enhanced ultrafiltration, J. Hazard. Mater., 147 (2007) 752–75.
  8. J. Llanos, Á. Pérez, P. Cañizares, Copper recovery by polymer enhanced ultrafiltration (PEUF) and electrochemical regeneration, J. Membr. Sci., 323 (2008) 28–36.
  9. J. Labanda, M.S. Khaidar, J. Llorens, Feasibility study on the recovery of chromium (III) by polymer enhanced ultrafiltration, Desalination, 249 (2009) 577–581.
  10. M. Palencia, B.L. Rivas, E. Pereira, A. Hernández, P. Prádanos, Study of polymer-metal ion-membrane interactions in liquidphase polymer-based retention (LPR) by continuous diafiltration, J. Membr. Sci., 336 (2009) 128–139.
  11. P. Cañizares, Á. Pérez, R. Camarillo, R. Mazarro, Simultaneous recovery of cadmium and lead from aqueous effluents by a semicontinuous laboratory-scale polymer enhanced ultrafiltration process, J. Membr. Sci., 320 (2008) 520–527.
  12. I. Korus, M. Rumińska, The UV spectrophotometric studies of Cu(II) ions separation by ultrafiltration enhanced with poly(sodium acrylate), Desal. Wat. Treat., 57 (2016) 1436–1442.
  13. I. Korus, K. Loska, Removal of Cr(III) and Cr(VI) ions from aqueous solutions by means of polyelectrolyte-enhanced ultrafiltration, Desalination, 247 (2009) 390–395.
  14. J.X. Zeng, H.Q. Ye, N.D. Huang, J.F. Liu, L.F. Zheng, Selective separation of Hg(II) and Cd(II) from aqueous solutions by complexation-ultrafiltration process, Chemosphere, 76 (2009) 706–710.
  15. D.J. Ennigrou, M. Ben Sik Ali, M. Dhahbi, Copper and zinc removal from aqueous solutions by polyacrylic acid assistedultrafiltration, Desalination, 343 (2014) 82–87.
  16. Y.R. Qiu, L.J. Mao, Removal of heavy metal ions from aqueous solution by ultrafiltration assisted with copolymer of maleic acid and acrylic acid, Desalination, 329 (2013) 78–85.
  17. B.L. Rivas, E. Pereira, R. Cid, K.E. Geckeler, Polyelectrolyteassisted removal of metal ions with ultrafiltration, J. Appl. Polym. Sci., 95 (2005) 1091–1099.
  18. I. Moreno-Villoslada, B.L. Rivas, Retention of metal ions in ultrafiltration of mixtures of divalent metal ions and watersoluble polymers at constant ionic strength based on Freundlich and Langmuir isotherms, J. Membr. Sci., 215 (2003) 195–202.
  19. I. Korus, Galvanic wastewater treatment by means of anionic polymer enhanced ultrafiltration, Ecol. Chem. Eng. S, 19 (2012) 19–27.
  20. M.A. Barakat, E. Schmidt, Polymer-enhanced ultrafiltration process for heavy metals removal from industrial wastewater, Desalination, 256 (2010) 90–93.
  21. K. Trivunac, S. Stevanovic, Effects of operating parameters on efficiency of cadmium and zinc removal by the complexationfiltration process, Desalination, 198 (2006) 282–287.
  22. P. Cañizares, Á. Pérez, J. Llanos, G. Rubio, Preliminary design and optimisation of a PEUF process for Cr(VI) removal, Desalination, 223 (2008) 229–237.
  23. B.L. Rivas, M. del C. Aguirre, E. Pereira, Retention properties of arsenate anions of water-soluble polymers by a liquid-phase polymer-based retention technique, J. Appl. Polym. Sci., 102 (2006) 2677–2684.
  24. X.T. Sun, L.R. Yang, H.F. Xing, J.M. Zhao, X.P. Li, Y.B. Huang, H.Z. Liu, Synthesis of polyethylenimine-functionalized poly(glycidyl methacrylate) magnetic microspheres and their excellent Cr(VI) ion removal properties, Chem. Eng. J., 234 (2013) 338–345.
  25. I. Korus, S. Kaboczyk-Kuc, Application of PEUF to competitive separation of Cu(II) and Cr(VI) from aqueous solutions containing chloride or sulphate ions, Desal. Wat. Treat., 64 (2017) 437–446.
  26. I. Korus, P. Dawczak, E. Kępska, Competitive separation of heavy metals from binary solutions by polymer enhanced ultrafiltration, Desal. Wat. Treat., 117 (2018) 108–117.
  27. C.R. Tavares, M. Vieira, J.C.C. Petrus, E.C. Bortoletto, F. Ceravollo, Ultrafiltration/complexation process for metal removal from pulp and paper industry wastewater, Desalination, 144 (2002) 261–265.
  28. A. Tabatabai, J.F. Scamehorn, S.D. Christian, Economic feasibility study of polyelectrolyte-enhanced ultrafiltration (PEUF) for water softening, J. Membr. Sci., 100 (1995) 193–207.