References

  1. E. Olkowska, M. Ruman, Ż. Polkowska, Occurrence of surface active agents in the environment, J Anal. Methods Chem., 2014 (2014) 1–15.
  2. B. Baleux, P. Caumette, Biodegradation of some cationic surfactants, Water Res., 11 (1977) 833–841.
  3. G. Domagk, A new class of disinfectants, Dtsch. Med. Wochenschr., 61 (1935) 829–832.
  4. Â.S. Inácio, N.S. Domingues, A. Nunes, P.T. Martins, M.J. Moreno, L.M. Estronca, R. Fernandes, A.J.M. Moreno, M.J. Borrego, J.P. Gomes, W.L.C. Vaz and O.V. Vieira, Quaternary ammonium surfactant structure determines selective toxicity towards bacteria: mechanisms of action and clinical implications in antibacterial prophylaxis, J. Antimicrob. Chemother., 71 (2015) 641–654.
  5. M. Vaughan, R. van Egmond, The use of the zebrafish (Danio rerio) embryo for the acute toxicity testing of surfactants, as a possible alternative to the acute fish test, ATLA-Altern. Lab. Anim., 38 (2010) 231–238.
  6. Y. Wang, Y. Zhang, X. Li, M. Sun, Z. Wei, Y. Wang, A. Gao, D. Chen, X. Zhao, X. Fenga, Exploring the effects of different types of surfactants on zebrafish embryos and larvae, Sci. Rep., 5 (2015) 1–10.
  7. A. Dhouib, N. Hdiji, I. Hassaïri, S. Sayadi, Large scale application of membrane bioreactor technology for the treatment and reuse of an anionic surfactant wastewater, Process Biochem., 40 (2005) 2715–2720.
  8. R. Tosik, S. Wiktorowski, K. Janio, Neutralization of laundry wastes by coagulation, Environ. Sci. Res. Ser., 51 (1996) 251–258.
  9. M.A. Aboulhassan, S. Souabi, A. Yaacoubi, M. Baudu, Removal of surfactant from industrial wastewaters by coagulation flocculation process, Int. J. Environ. Sci. Technol., 3 (2006) 327–332,
  10. P. Bautista, A.F. Mohedano, M.A. Gilarranz, J.A. Casas, J.J Rodriguez, Application of Fenton oxidation to cosmetic wastewaters treatment, J. Hazard. Mater., 143 (2007) 128–134.
  11. J. Rivera-Utrilla, M.I. Bautista-Toledo, M. Sánchez-Polo, J.D. Méndez-Diáz, Removal of surfactant dodecylbenzenesulfonate by consecutive use of ozonation and biodegradation, Eng. Life Sci., 12 (2012) 113–116.
  12. O.V. Makarchuk, T.A. Dontsova, Removal of anionic surfactants from wastewater by magnetic mineral sorbents, J. Water Security, 2 (2016) 1–9.
  13. S. Boonyasuwat, S. Chavadej, P. Malakul, J.F. Scamehorn, Anionic and cationic surfactant recovery from water using a multistage foam fractionator, Chem. Eng. J., 93 (2003) 241–252.
  14. G. Akay, R.J. Wakeman, Ultrafiltration and microfiltration of surfactant dispersions – an evaluation of published research, Chem. Eng. Res. Des., 71 (1993) 411–420.
  15. B. Goers, J. Mey, G. Wozny, Optimised product and water recovery from batch-production rinsing waters, Waste Manage., 20 (2000) 651–658.
  16. K. Majewska-Nowak, Fouling of hydrophilic ultrafiltration membranes applied to water recovery from dye and surfactant solutions, Environ. Prot. Eng., 31 (2005) 229–241.
  17. B. Van der Bruggen, G. Cornelis, C. Vandecasteele, I. Devreese, Fouling of nanofiltration and ultrafiltration membranes applied for wastewater regeneration in the textile industry, Desalination, 175 (2005) 111–119.
  18. K. Boussu, C. Kindts, C. Vandecasteele, B. Van der Bruggen, Surfactant fouling of nanofiltration membranes: measurements and mechanisms, ChemPhysChem, 8 (2007) 1836–1845.
  19. Iqbal, K.J. Kim, J.S. Yang, K. Baek, J.W. Yang, Removal of arsenic from groundwater by micellar-enhanced ultrafiltration (MEUF), Chemosphere, 66 (2007) 970–976.
  20. I. Kowalska, A. Klimonda, Purification and concentration of surfactant solutions using tubular nanofiltration modules, Desal. Wat. Treat., 128 (2018) 222–227.
  21. M. Dudziak, M. Gryta, Nanofiltration of fermentation solutions - Unfavourable phenomena and membranecleaning, Proc. ECOpole, 7 (2013) 561. (in Polish)
  22. C. Labbez, P. Fievet, A. Szymczyk, A. Vidonne, A. Foissy, J. Pagetti, Retention of mineral salts by a polyamide nanofiltration membrane, Sep. Purif. Technol., 30 (2003) 47–55.
  23. A. Efligenir, S. Déon, P. Fievet, C. Druart, N. Morin-Crini, G. Crini, Decontamination of polluted discharge waters from surface treatment industries by pressue-driven membranes: removal performances and environmental impact, Chem. Eng. J., 258 (2014) 309–319.
  24. N. Hilal, H. Al-Zoubi, N.A. Darwish, A.W. Mohammad, Characterisation of nanofiltration membranes using atomic force microscopy, Desalination, 177 (2005) 187–199.
  25. E. Kudlek, M. Dudziak, J. Bohdziewicz, Influence of water matrix on the retention of pharmaceutical compounds by nanofiltration (in polish), Proc. ECOpole, 10 (2016) 677–684.
  26. P. Mikulášek, J. Cuhorka, Removal of heavy metal ions from aqueous solutions by nanofiltration, Chem. Eng. Trans., 47 (2016) 379–384.
  27. J.P. Robinson, E.S. Tarleton, C.R. Millington, A. Nijmeijer, Solvent flux through dense polymeric nanofiltration membranes, J. Membr. Sci., 230 (2004) 29–37.
  28. A. Urbanowska, M. Kabsch-Korbutowicz, Influence of operating conditions on performance of ceramic membrane used for water treatment, Chem. Papers, 68 (2014) 190–196.
  29. L. Shi, Y. Lei, J. Huang, Y. Shi, K. Yi, H. Zhou, Ultrafiltration of oil-in-water emulsions using ceramic membrane: roles played by stabilized surfactants, Colloids Surf. A, 583 (2019) 123948.
  30. H. Sutterlin, R. Alexy, K. Kummerer, The toxicity of the quaternary ammonium compound benzalkonium chloride alone and in mixtures with other anionic compounds to bacteria in test systems with Vibrio fischeri and Pseudomonas putida, Ecotoxicol. Environ. Saf., 71 (2008) 498–505.
  31. C. Korzenowski, M.B.O. Martins, A.M. Bernardes, J.Z. Ferreira, E.C.N.F. Duarte, M.N. De Pinho, Removal of anionic surfactants by nanofiltration, Desal. Wat. Treat., 44 (2012) 269–275.
  32. B. White, S. Banerjee, S. O’Brien, N.J. Turro, I.P. Herman, Zetapotential measurements of surfactant-wrapped individual single-walled carbon nanotubes, J. Phys. Chem. C, 111 (2007) 13684–13690.
  33. K. Boussu, C. Vandecasteele, B. Van der Bruggen, Study of the characteristics and the performance of self-madenanoporous polyethersulfone membranes, Polymer, 47 (2006) 3464–3476.
  34. M. Mullett, R. Fornarelli, D. Ralph Nanofiltration of Mine Water: Impact of feed pH and membrane charge on resource recovery and water discharge, Membranes, 4 (2014) 163–180.
  35. K. Boussu, J. De Baerdemaeker, C. Dauwe, M. Weber, K.G. Lynn, D. Depla, S. Aldea, I.F.J. Vankelecom, C. Vandecasteele, B. Van der Bruggen, Physico-chemical characterization of nanofiltration membranes, ChemPhysChem, 8 (2007) 370–379.