Removal of fluoride and arsenate from aqueous solution by hydrocalumite via precipitation and anion exchange

Chemical Engineering Journal

Volumn 231, Issue , 2013, Pages 121-131

  Guo, Qinghai ^a   Tian, Jiao ^a  

^a CHINA UNIVERSITY OF GEOSCIENCES   (China)

Author keywords

Anion exchange; Arsenate; Fluoride; Hydrocalumite; PHREEQC; Solubility control

Indexed keywords

ANION EXCHANGE; ARSENATE; FLUORIDE; HYDROCALUMITE; PHREEQC;

ARSENATE MINERALS; ARSENIC; CHEMICALS REMOVAL (WATER TREATMENT); CHLORINE COMPOUNDS; GROUNDWATER; INDUSTRIAL WATER TREATMENT; NEGATIVE IONS;

FLUORINE COMPOUNDS;

EID: 84881224490     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2013.07.025     Document Type: Article

References (31)

1. Vieira A.P.G.F., Hanocock R., Eggertsson H., Everett E.T., Grynpas M.D. Tooth quality in dental fluorosis: genetic and environmental factors. Calcified Tissue Int. 2005, 76:17-25.
2. Krishnamachari K.A.V.R. Skeletal fluorosis in humans - a review of recent progress in the understanding of the disease. Prog. Food Nutr. Sci. 1986, 10:279-314.
3. Morton W.E., Dunette D.A. Health effect of environmental arsenic. Arsenic in the Environment, Part II: Human and Ecosystem Effects 1994, 17-34. Wiley and Sons, New York. J.O. Nriagu (Ed.).
4. WHO Guidelines for Drink-Water Quality 1998, World Health Organization, Geneva. second ed.
5. Wang Y.X., Shvartsev S.L., So C.L. Genesis of arsenic/fluoride-enriched soda water: a case study at Datong, northern China. Appl. Geochem. 2009, 24:641-649.
6. Houri B., Legrouri A., Barroug A., Forano C., Besse J.P. Use of the ion-exchange properties of layered double hydroxides for water purification. Collect. Czech. Chem. C 1998, 63:732-740.
7. Qian G.R., Feng L.L., Zhou J.Z., Xu Y.F., Liu J.Y., Zhang J., Xu Z.P. Solubility product (Ksp)-controlled removal of chromate and phosphate by hydrocalumite. Chem. Eng. J. 2012, 181:251-258.
8. Liu Q., Li Y.J., Zhang J., Chi Y., Ruan X.X., Liu J.Y., Qian G.R. Effective removal of zinc from aqueous solution by hydrocalumite. Chem. Eng. J. 2011, 175:33-38.
9. Zhang M., Reardon E.J. Removal of B, Cr, Mo, and Se from wastewater by incorporation into hydrocalumite and ettringite. Environ. Sci. Technol. 2003, 37:2947-2952.
10. Bothe J.V., Brown P.W. PhreeqC modeling of Friedel's salt equilibria at 23±1 °C. Cem. Concr. Res. 2004, 34:1057-1063.
11. Myneni S.C.B., Traina S.J., Logan T.J., Waychunas G.A. Oxyanion behavior in alkaline environments: sorption and desorption of arsenate in ettringite. Environ. Sci. Technol. 1997, 31:1761-1768.
12. Wagh A.S. Chemically Bonded Phosphate Ceramics: 21st Century Materials with Diverse Applications 2004, Elsevier, Amsterdam, pp. 283.
13. Guo Q.H., Reardon E.J. Fluoride removal from water by meixnerite and its calcination product. Appl. Clay Sci. 2012, 56:7-15.
14. Jimenez-Nunez M.L., Solache-Rios M., Olguin M.T. Fluoride sorption from aqueous solutions and drinking water by magnesium, cobalt, and nickel hydrotalcite-like compounds in batch and column systems. Sep. Sci. Technol. 2010, 45:786-793.
15. 3 layered double hydroxides: kinetic and equilibrium studies. Water Res. 2007, 41:1534-1542.
16. Turk T., Alp I., Deveci H. Adsorption of As(V) from water using Mg-Fe-based hydrotalcite (FeHT). J. Hazard. Mater. 2009, 171:665-670.
17. Kiso Y., Jung Y.J., Yamamoto H., Oguchi T., Kuzawa K., Yamada T., Kim S.S., Ahn K.H. The effect of co-existing solutes on arsenate removal with hydrotalcite compound. Water Sci. Technol. 2010, 61:1183-1188.
18. Dey S., Goswami S., Ghosh U.C. Hydrous ferric oxide (HFO) - a scavenger for fluoride from contaminated water. Water Air Soil Pollut. 2004, 158:311-323.
19. Dou X.M., Mohan D., Pittman C.U., Yang S. Remediating fluoride from water using hydrous zirconium oxide. Chem. Eng. J. 2012, 198:236-245.
20. Mohapatra M., Rout K., Gupta S.K., Singh P., Anand S., Mishra B.K. Facile synthesis of additive-assisted nanogoethite powder and its application for fluoride remediation. J. Nanopart. Res. 2010, 12:681-686.
21. Wu X., Zhang Y., Dou X., Yang M. Fluoride removal performance of a novel Fe-Al-Ce trimetal oxide adsorbent. Chemosphere 2007, 69:1758-1764.
22. Elizalde-Gonzalez M.P., Mattusch J., Wennrich R., Morgenstern P. Uptake of arsenite and arsenate by clinoptilolite-rich tuffs. Micropor. Mesopor. Mater. 2001, 46:277-286.
23. Goh K.H., Lim T.T., Dong Z.L. Removal of arsenate from aqueous solution by nanocrystalline Mg/Al layered double hydroxide: sorption characteristics, prospects, and challenges. Water Sci. Technol. 2010, 61:1411-1417.
24. Guo H.M., Stuben D., Berner Z. Adsorption of arsenic(III) and arsenic(V) from groundwater using natural siderite as the adsorbent. J. Colloid Interf. Sci. 2007, 315:47-53.
25. Singh D.B., Prasad G., Rupainwar D.C. Adsorption technique for the treatment of As(V)-rich effluents. Colloid Surface A 1996, 111:49-56.
26. Zhang W., Singh P., Paling E., Delides S. Arsenic removal from contaminated water by natural iron ores. Miner. Eng. 2004, 17:517-524.
27. JCPDS, Selected Powder Diffraction Data for Minerals, Swarthmore, Pennsylvania, 1974.
28. Hsu P.H. Effects of salts on the formation of bayerite versus pseudo-boehmite. Soil Sci. 1967, 103:101-110.
29. Hsu P.H., Bates T.F. Formation of X-ray amorphous and crystalline aluminum hydroxides. Mineral. Mag. 1964, 33:749-768.
30. Parthasarathy N., Buffle J., Haerdi W. Study of interaction of polymeric aluminium hydroxide with fluoride. Can. J. Chem. 1986, 64:24-29.
31. Sanjuan B., Michard G. Aluminum hydroxide solubility in aqueous-solutions containing fluoride ions at 50-°C. Geochim. Cosmochim. Acta 1987, 51:1823-1831.