References

  1. J. Kriš, V. Dubová, Trends in Economical Treatment of Water, in Proc. New Trends in Water Management, Trenčín, 2005, pp. 20–25
  2. M.S. Burger, S.S. Mercer, G.D. Shupe, G.A. Gagnon, Manganese removal during bench-scale biofiltration, Water Res., 42 (2008) 4733–4742.
  3. I. Skoczko, E. Szatylowicz, Studies on the efficiency of groundwater treatment process with adsorption on activated alumina, J. Ecol. Eng., 18 (2017) 211–218.
  4. D. Barloková, J. Ilavský, Iron and manganese removal from small water resources, Polish J. Environ. Stud., 19 (2009) 1117–1122.
  5. M. Granops, Effective methods of iron and manganese removal from the water in water treatment stations in urban areas, Sci. Rev. Environ. Eng. Protect., 14 (2005) 153–160.
  6. N. Tufenkji, M. Elimelech, Correlation equation for predicting single-collector efficiency in physicochemical filtration in saturated porous media, Environ. Sci. Technol., 38 (2004) 529–536.
  7. S. Chatuverdi, N.D. Pragnesh, Removal of iron for safe drinking water, Desalination, 303 (2012) 1–11.
  8. J. Kaleta, D. Papciak, A. Puszarkiewicz, Natural and modified minerals in groundwater treatment, Miner. Mater. Manage., 25 (2009) 51–63.
  9. A.M. Anielak, M. Arendacz, Iron and manganese removal effects using zeolites, Annu. Set Environ. Protect., 9 (2007) 9–18.
  10. V.A. Pacini, A.M. Ingallinella, G. Sanguinetti, Removal of iron and manganese using biological roughing up flow filtration technology, Water Res., 39 (2005) 4463–4475.
  11. A. Sperlich, A. Werner, A. Genz, G. Amy, E. Worch, M. Jekel, Breakthrough behavior of granular ferric hydroxide (GFH) fixed-bed adsorption filters: modeling and experimental approaches, Water Res., 39 (2005) 1190–1198.
  12. J.S. Duranceau, V.M. Trupiano, Evaluation of oxidized media filtration for removing sulfides from groundwater, Desal. Wat. Treat., 28 (2011) 366–377.
  13. E. Pogorni, M. Rzaca, Investigation of the effects of salinity and temperature on the removal of iron from water by aeration, filtration, and coagulation, Pol. J. Environ. Stud., 23 (2014) 2157–2161.
  14. I. Skoczko, J. Piekutin, K. Ignatowicz, Efficiency of manganese removal from water in selected filter beds, Desal. Wat. Treat., 57 (2016) 1611–1619.
  15. A. García-Mendietaa, M. Solache-Ríosa, M.T. Olguína, Evaluation of the sorption properties of a Mexican clinoptiloliterich tuff for iron, manganese and iron–manganese systems, Microporous Mesoporous Mater., 118 (2009) 489–495.
  16. P.H. Jacobs, T.D. Waite, The role of aqueous iron (II) and manganese (II) in sub-aqueous active barrier systems containing natural clinoptilolite, Chemosphere, 54 (2004) 313–324.
  17. M. Rožić, S. Cerjan-Stefanović, S. Kurajica, V. Vančina, E. Hodžić, Ammoniacal nitrogen removal from water by treatment with clays and zeolites, Water Res., 34 (2000) 3675–3681.
  18. M.R. Carter, E.G. Gregorich, Soil sampling and methods of analysis, 2nd ed., Taylor & Francis Publication, NW, 2008, pp. 1013–1088.
  19. M.K. Doula, Removal of Mn2+ ions from drinking water by using clinoptilolite and clinoptilolite-Fe oxide system, Water Res., 40 (2006) 3167–3176.
  20. J. Jez-Walkowiak, Filtration materials in water treatment, Water Wastewater Syst., 11 (2006) 50–52.
  21. A. Funes, J. de Vicente, L. Cruz-Pizarro, I. de Vicente, The influence of pH on manganese removal by magnetic microparticles in solution, Water Res., 53 (2014) 110–122.
  22. D.A. Fungaro, M. Bruno, L.C. Grosche, Adsorption and kinetic studies of methylene blue on zeolite synthesized from fly ash, Desal. Wat. Treat., 2 (2009) 231–239.
  23. The European Drinking Water Directive (DWD), Council Directive 98/83/EC.
  24. Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000: The Water Framework Directive.