REFERENCES
- Bednar, A. J.; Garbarino, J. R.; Ranville, J. F.; Wildeman, T. R. (2005) Effects of iron on arsenic speciation and redox chemistry in acid mine water. J. Geochem. Explor., 85(2): 55 –62.
- Keegan, T. J.; Farago, M. E.; Thornton, I.; Hong, B.; Colvile, R. N.; Pesch, B.; Jakubis, P.; Nieuwenhuijsen, M. J. (2006) Dispersion of As and selected heavy metals around a coal-burning power station in central Slovakia. Sci. Total Environ., 358(1-3): 61 –71.
- Daus, B.; von Tümplinga, W.; Wennrich, R.; Weiss, H. (2007) Removal of hexafluoroarsenate from waters. Chemosphere, 68(2): 253 –258.
- Karim, Md. M. (2000) Arsenic in groundwater and health problems in Bangladesh. Water Research, 34(1): 304 –310.
- Chowdhury, U. K.; Biswas, B. K.; Chowdhury, T. R.; Samanta, G.; Mandal, B. K.; Basu, G.C.; Chanda, C. R.; Lodh, D.; Saha, K.C.; Mukherjee, S. K.; Roy, S.; Kabir, S.; Quamruzzaman, Q.; Chakraborti, D. (2000) Groundwater arsenic contamination in Bangladesh and West Bengal, India. Environ. Health Perspect., 108(5): 393 –397.
- Aposhian, A. H. (1997) Enzymatic methylation of arsenic of arsenic species and other approaches to arsenic toxicity. Annu. Rev. Pharmacol. Toxicol., 37: 397 –419.
- Vahter, M. (2002) Mechanisms of arsenic biotransformation. Toxicology, 181–182: 211 –217.
- M.F. Hughes, (2002) Arsenic toxicity and potential mechanisms of action. Toxicology Letters, 133(1): 1 –16.
- WHO (2004) Guidelines for Drinking-Water Quality, 3rd ed., Vol. 1; WHO Geneva.
- Han, B. (2002) Arsenic removal from drinking water by flocculation and microfiltration. Desalination, 145: 293 –298.
- Gregor, J. (2001) Arsenic removal during conventional aluminium-based drinking-water treatment. Water Research, 35(7): 1659 –1664.
- Wickramasinghe, S. R.; B. Han, J. Zimbron, Z. Shen, M. N. Karim, (2004) Arsenic removal by coagulation and filtration: A comparison of groundwaters from the United States and Bangladesh. Desalination, 169(3): 231 –244.
- Sarkar, S.; Blaney, L. M.; Gupta, A.; Ghosh, D.; Sengupta, A. K. (2007) Use of ArsenXnp, a hybrid anion exchanger, for arsenic removal in remote villages in the Indian subcontinent. React. Funct. Polym., 67(12): 1599 –1611.
- Sarkar, S.; Blaney, L. M.; Gupta, A.; Ghosh, D.; Sengupta, A. K. (2008) Arsenic removal from groundwater and its safe containment in a rural environment: Validation of a sustainable approach. Environ. Sci. Technol. 42(12): 4268 –4273.
- Korngold, E.; Belayev, N.; Aronov, L. (2001) Removal of arsenic from drinking water by anion exchangers. Desalination, 141(1): 81 –84.
- Matejka, Z.; Parschova, H.; Jelinek, L.; Mistova, E.; Houserova, P.; P. Ruszova, P. (2003) Selective removal of As, Sb, Se and Be from water streams; Screening of uptake-mechanisms and sorbent-types. J. Ion Exch., 14(S): 237 –240.
- Dambies, L.; Salinaro, R.; Alexandratos, S. D. (2004) Immobilized N-Methyl-d-glucamine as an arsenate-selective resin. Environ. Sci. Technol., 38(22): 6139 –6146.
- Driehaus, W.; Jeckel, M. (1998) Granular ferric hydroxide: a new adsorbent for the removal of arsenic from natural water. J. Water Supply Res. Technol.-Aqua, 47(1): 30 –35.
- Driehaus, W. (2000) Arsenic Removal from Drinking Water: The GEH® Process. AWWA Inorganic Contaminants Workshop, Albuquerque, NM, USA, February 28–29, 2000.
- Sherman, D. M.; Randall, S. (2003) Surface complexation of arsenic(V) to iron(III) (hydr)oxides: Structural mechanism from ab initio molecular geometries and EXAFS spectroscopy. Geochim. Cosmochim. Acta, 67 (22): 4223 –4230.
- Manceau, A. (1995) The mechanism of anion adsorption on iron oxides: Evidence for the bonding of arsenate tetrahedra on free Fe (O, OH)6 edges. Geochem. Cosmochim. Acta, 59 (17): 3647 –3653.
- Waychunas, G. A.; Rea, B. A.; Fuller., C. A.; J. A. Davis, J. A. (1993) Surface chemistry of ferrihydrite: Part 1. EXAFS studies of the geometry of coprecipitated and adsorbed arsenate. Geochim. Cosmochim. Acta, 57: 2251 –2269.
- DeMarco, M. J.; Sengupta, A. K.; Greenleaf, J. E. (2003) Arsenic removal using polymeric/inorganic hybrid sorbent.Water Research, 37: 164 –176.
- Cumbal, L.; Sengupta, A. K. (2005) Arsenic removal using polymer-supported hydrated iron(III) oxide nanoparticles: role of donnan membrane effect. Environ. Sci. Technol. 39: 6508 –6515.
- Parschova, H.; Slapakova, P.; Uzlova, A.; Jelinek, L.; Mistova, E. (2010) Comparison of inorganic and composite ferric oxide sorbents for arsenic removal. Environ. Geochem. Health, 32(4): 279 –282.
- GEH Wasserchemie GmbH & Co. KG, GEH 102, product datasheet, Edition: 2012-10, http://www.geh-wasserchemie.de/files/geh_produktdatenblatt_102_2012_2013_en.pdf ( 29.5.2014)
- Bayer AG, Lewatit MP-500, Product data-sheet, (German), Edition: 1991 –2
- Lanxess, Lewatit MonoPlus MP 64, product datasheet, Edition: 2011-10-13, http://www.lenntech.com/Data-sheets/Lewatit-MonoPlus-MP-64-L.pdf ( 29.5. 2014)
- Lanxess, Lewatit FO 36, product datasheet, Edition: 2011-10-13 http://www.lenntech.com/Data-sheets/Lewatit-FO-36-L.pdf ( 29.5.2014)
- The Purolite Company, Arsen Xnp, Product datasheet, Arsenic removal media, http://www.radata.com/pdfs/water_treatment/brochures/ARSENIC_PUROLITE.pdf ( 23.8.2013)
- Abe, M.; Kataoka, T.; Suzuki, T. (1991) New developments in ion exchange: Materials, Fundamentals and Applications - Proceedings of the International Conference on Ion Exchange, ICIE ‘91, Tokyo, Japan, 2-4 October, 1991.
- Šebesta, F.; John, J.; Motl, A. (1997) Development of Composite Ion Exchangers and their Use in Treatment of Liquid Radioactive Wastes, Waste Treatment and Immobilization Technologies Involving Inorganic Sorbents, IAEA TECDOC 947, IAEA Vienna, pp 79 –103.
- Šebesta, F. (1992) Exchanger composed from an active component and a binding organic matrix and the way of its productions. Czech Patent A.O.273 369.
- Šebesta, F. (1997) Composite adsorbers consisting of inorganic ion-exchangers and polyacrylonitrile binding matrix. I. Methods of modification of properties of inorganic ion-exchangers for application in column packed beds, J. Radioanal. Nucl. Chem., 220(1): 77 –88.
- John, J.; Šebesta, F.; Motl, A. (1999) Application of New Inorganic-Organic Composite Adsorbers with Polyacrylonitrile Binding Matrix for Separation of Radionuclides from Liquid Radioactive Wastes, Chemical Sep. Technologies and Related Methods of Nuclear Waste Management; Kluwert: Dordech; pp. 155 –168.
- Kwon, K. D.; Kubicki, J. D. (2004) Molecular orbital theory study on surface complex structures of phosphates to iron hydroxides: Calculation of vibrational frequencies and adsorption energies. Langmuir 20(21): 9249 –9254.