A review of literature concerning application of natural and modified zeolites for water and wastewater purification from inorganic (ionic) and organic pollutants is presented.
1. Anielak A. 2006. Właściwości fizykochemiczne klinoptylolitu modyfikowanego ditlenkiem manganu. Przemysł Chemiczny. 2006, 85/7, pp. 487-490.
2.Armag B., OzdemirO. , Turan O., Celik M.S.,The removal of reactive azo dyes by natural and modified zeolites. Journal of Chemical Technology and Biotechnology. 2003, 78, pp. 725-732.
3. Arora M, Eddy N.K., Mumford K.A., Baba Y. , Perera J.M., Stevens G.W. Surface modification of natural zeolite by chitosan and its use for nitrate removal in cold regions. Cold Regions Science and Technology. 2010, 62, pp. 92-97.
4. Barakat M. A., New trends in removing heavy metals from industrial wastewater. Arabian J.Chem. 2011, 4, pp. 361-377.
5. Basaldella E. I., Paladino J. C., Solari M., Valle G. M., Exhausted fluid catalytic cracking catalysts as raw materials for zeolite synthesis. Applied Catalysis B: Environmental. 2006, 66, pp. 186-191.
6. Baskan M.B., Pala A., Removal of arsenic from drinking water using modified natural zeolite. Desalination . 2011, 281, pp. 396-
403.
7. Bish L.W., Ming D.W., Applications of natural zeolites in water and wastewater treatment. Natural Zeolites: Occurrence, Properties, Applications. 2001, 45, pp. 519-550.
8. Bolewski A., (Ed.) .Encyklopedia surowców mineralnych. Kraków : CPPGSMiE, 1994.
9. Chatterjee S., Lee D.S., Lee M.W., Woo S.H., Nitrate removal from aqueous solutions by cross-linked chitosan beads conditioned with sodium bisulfate. Journal of Hazardous Materials . 2009, 166, pp. 508-513.
10. Choi J.W., Lee S.Y., Lee S.H., Kim J.E., Park K.Y., Kim D.J., Hong S.W., Comparison of surface-modified adsorbents for phosphate removal from water. Water Air Soil Pollut. 2012, 223, pp. 2881-2890.
11. Chunjie L., Yang D., Deyi W., Licheng P., Hainan K., Surfactant modified zeolite as adsorbent for removal of humic acid from water. Applied Clay Science. 2011, 52, pp. 353-357.
12. Ciciszwili G.W., Andronikaszwili T.G., Kirow G.N., Filizowa L.D.,Zeolity naturalne. Warszawa : WNT, 1990.
13. Curkovic L., Cerjan-Stefanovic S., Filipian T., Metal ion exchange by natural and modified zeolites. Water Research . 1997, Vol. 31, 6, pp. 1379-1382.
14. Dong Y., Wu D., Chen X., Lin Y., Adsorption of bisphenol A from water by surfactant-modified zeolite. Journal of Colloid and Interface Science. 2010, 348, pp. 585-590.
15. Doula M. K., Simultaneous removal of Cu, Mn and Zn from drinking waterwith the use of clinoptilolite and its Fe-modified form. Water Research. 2009, 43, pp. 3659-3672.
16. Główny Inspektorat Ochrony Środowiska. 2010.Raport o stanie środowiska w Polsce w 2008 roku. Warszawa : Biblioteka Monitoringu Środowiska, 2010.
17. Guibal E., Interactions of metal ions with chitosan-based sorbents: a review. Separation and Purification Technology. 2004, 38, pp. 43-74.
18. Guidelines for Drinking-water Quality.vol.l. : World Health Organisation, 2006.
19. Jiménez-Cedillo M.J., Olguína M.T., Fall Ch., Adsorption kinetic of arsenates as water pollutant on iron, manganese and iron–manganese-modified clinoptilolite-rich tuffs. Journal of Hazardous Materials. 2009, 163, pp. 939-945.
20. Karimi M., Entezari M.H., Chamsaz M., Sorption studies of nitrate ion by a modified beet residue in the presence and absence of ultrasound. Ultrason. Sonochem. 2010, 17, pp. 711-717.
21. Levine S.N., Schindler D.W., Phosphorus, Nitrogen, and Carbon Dynamics of Experimental Lake 303 during Recovery from Eutrophication. Canadian Journal of Fisheries and Aquatic Sciences. 1989, 46, pp. 2-10.
22. Leyva-Ramos R., Jacobo-Azuara A., Diaz-Flores P.E., Guerrero-Coronado R.M., Mendoza-Barron J., Berber-Mendoza M.S., Adsorption of chromium(VI) from an aqueous solution on a surfactant-modified zeolite. Colloid Surf. A. 2008, 330, pp. 35-41.
23. Li J.F., Li Y.M., Meng Q.L.,Removal of nitrate by zero-valent iron and pillared bentonite. J. Hazard. Mater. 2010, 174, pp. 188-193.
24. Li Z. 2003., Use of surfactant-modified zeolite as fertilizer carriers to control nitrate release. Micropor. Mesopor. Mater. 2003, 61, pp. 161-168.
25. Li Z., Jeanc J.S., Jiangc W.T., Changc P.H., Chenc Ch.J., Liaob L. Removal of arsenic from water using Fe-exchanged natural zeolite. Journal of Hazardous Materials. 2011, 187, pp. 318-323.
26. Malekpoura A., Hajialigol S., Taherb M.A. 2009. Study on solid-phase extraction and flame atomic absorption spectrometry forthe selective determination of cadmium in water and plant samples withmodified clinoptilolite. Journal of Hazardous Materials . 2009, 172, pp. 229-233.
27. Malekpour A., Edrisi M., Hajialigol S., Shirzadi S.. 2011., Solid phase extraction–inductively coupled plasma spectrometry for adsorption of Co(II) and Ni(II) from radioactive wastewaters by natural and modified zeolites. J Radioanal Nucl Chem . 2011, 288, pp. 663-669.
28. Menkouchi Sahli M.A., Annouar S., Mountadar M., Soufiane A., Elmidaoui A., Nitrate removal of brackish underground water by chemical adsorption and by electrodialysis. Desalination. 2008, 227, pp. 327-333.
29. Ning P., Phosphate removal from wastewater by model-La(III) zeolite adsorbents. Journal of Environmental Science. 2008, 20, pp. 670-674.
30. Northcott K. A., Bacus J., Taya N., Komatsu Y., Perera J. M., Stevens G.W. Synthesis and characterization of hydrophobic zeolite for the treatment of hydrocarbon contaminated ground water. Journal of Hazardous Materials. Vol. 183, pp. 434-440.
31. Oliveira C.R., Rubio J., New basis for adsorption of ionic pollutants onto modified zeolites. Minerals Engineering. 2007, 20, pp. 552-558.
32. Park J.B.K., Craggs R.J., Sukias J.P.S., Removal of nitrate and phosphorus from hydroponic wastewater using a hybrid denitrification filter (HDF). Bioresour. Technol. 2009, 100, pp. 3175–3179.
33. Piaskowski K., Anielak A.M. 2000. Zeolity naturalne i ich zastosowanie w oczyszcaniu wody i ścieków. Ekologia i Technika. 2000, Vol. VIII, 2, pp. 31-41.
34. Pollard S.J.T., Fowler G.D., Sollars C.J., Perry R.,Low-cost adsorbents for waste and waste-water treatment—a review. Science of the Total Environment. 1992, 116, pp. 31-52.
35. Ranck J.M., Bowman R.S., Weeber J.L., Katz L.E. Sullivan E.J.J., Treatment of Produced Waters using a Surfactant Modified Zeolite/Vapor-Phase Bioreactor. Journal of Environmental Engeneering. 2005, 131, pp. 434-442.
36. Różycka D., Stechman M., Zeolity naturalne - możliwości zastosowań i sytuacja rynkowa. Chemik. 1997, 1.
37. Russo A,V., ToriggiaL.F. , Jacobo S.E., Natural clinoptilolite–zeolite loaded with iron for aromatic hydrocarbons removal from aqueous solutions. Journal of Materials Science . 2014, 49, pp. 614-620.
38. Schoeman J.J., Steyn A., Nitrate removal with reverse osmosis in a rural area in South Africa. Desalination. 2003, 155, pp. 15-26.
39. Shoumkova A., Zeolites for water and wastewater treatment: An overview. Australian Institute of High Energetic Materials. pp. 1-61.
40. Sprynskyy M. 2012.Heterogeniczność strukturalna oraz właściwości adsorpcyjne adsorbentów naturalnych. Toruń : Monografie Wydziału Chemii, 2012.
41. Świderska-Dąbrowska R., Schmidt R., Sikora A. 2011. Właściwości fizykochemiczne zeolitu modyfikowanego jonami żelaza. Inżynieria Ekologiczna . 2011, 24, pp. 195-204.
42. Świderska-Dąbrowska R., Schmidt R., Nowak R.,Wpływ temperatury kalcynacji zeolitu modyfikowanego jonami żelaza na jego stabilność chemiczną. Polska Inżyniera Środowiska. Lublin : Komitet Inżynierii Środowiska PAN, 2012, Vol. 1, pp. 307-317.
43. Wang S.B., Boyjoo Y., Choueib A., Zhu Z.U., Removal of dyes from aqueous solution using fly ash and red mud. Water Research. 2005, 39, pp. 129-138.
44. Wang S., Peng Y., Natural zeolites as effective adsorbents in water and wastewater treatment. Chemical Engineering Journal. 2010, 156, pp. 11-24.
45. Wingenfelder U., Nowack B., Furrer G., Schulin R.,Adsorption of Pb and Cd by amine-modified zeolite. Water Research
. 2005, 39, pp. 3287-3297.