We synthesized Fe-coated vermiculite (Fe-CV) for the removal of Cr(VI) and investigated the mechanism of Cr(VI) adsorption onto Fe-CV. Fe-CV was synthesized at different Fe molar concentration to vermiculite ratio, i.e., 1, 2, 5, 8, 10 mol-Fe/kg. Fe-CV synthesized at 8 mol-Fe/kg was found to be most effective for the removal of Cr(VI) and further experiments were performed under batch condition using the Fe-CV. Kinetic sorption test and model analysis showed that observed data were well suited to pseudo second-order model, indicating that chemisorption dominates the process of Cr(VI) adsorption to Fe-CV. Equilibrium test demonstrated that Freundlich model well describes Cr(VI) adsorption to Fe-CV and the maximum Cr(VI) adsorption capacity of Fe-CV was 6.86 mg/g. Cr(VI) removal was the highest at pH 2 and decreased with increasing pH due to electrostatic repulsion between Cr(VI) and Fe-CV at higher pH. The effect of competing anions on Cr(VI) adsorption follows the order: PO₄^3->Co₃^2->So₄^2->NO₃^-. The removal percentage of Cr(VI) was increased but the adsorbed amount of Cr(VI) per unit mass of Fe-CV was decreased as the increase of the dosage amount of Fe-CV. Finally, Fe-CV is an effective adsorbent for the removal of Cr(VI) and the results of this study are helpful for understanding the mechanism of Cr(VI) removal by Fe-CV.

1 강구, "해양오염퇴적물 내 인산염 용출차단을 위한 피복소재로서의 몬모릴로나이트 적용" 대한환경공학회 36 (36): 554-560, 2014

2 "in the presence of major groundwater ions" 21 (21): 589-594,

3 Edzwald, J., "Water quality & treatment: A handbook on drinking Water" American Water Works Association 2011

4 Janet, L, "Water Encyclopedia: Domestic, Municipal, and Industrial Water Supply and Waste Disposal" Wiley/Interscience 2005

5 Sposito, G., "The Chemistry of Soils" Oxford Univ. Press 1989

6 Krishna, B.S, "Surfactant-modified clay as adsorbent for chromate" 20 (20): 65-71, 2001

7 Fendorf, S. E, "Surface reactions of chromium in soils and waters" 67 (67): 55-71, 1995

8 Davis, J.A, "Surface ionization and complexation at the oxide/water interface II. Surface properties of amorphous iron oxyhydroxide and adsorption of metal ions" 67 (67): 90-107, 1978

9 Bai, R.S, "Studies on chromium(VI)adsorption–desorption using immobilized fungal biomass" 87 (87): 17-26, 2003

10 Bailey, R.P, "Sorption onto and recovery of Cr (VI) using iron-oxide-coated sand" 26 (26): 1239-1244, 1992

11 Li, Z., "Sorption of Chromate and PCE by Surfactant-Modified Clay Minerals" 15 (15): 237-245, 2009

12 Li, Z., "Retention of inorganic oxyanions by organo-kaolinite" 35 (35): 3771-3776, 2001

13 Erdem, M, "Removal of hexavalent chromium by using heat-activated bauxite" 17 (17): 1045-1052, 2004

14 Kozlowski, C.A., "Removal of chromium(VI)from aqueous solutions by polymer inclusion membranes" 36 : 4870-4876, 2002

15 Li, Z, "Removal of anionic contaminats using surfactant modified palygorskite and sepiolite" 51 (51): 445-451, 2003

16 Kratochvil, D, "Removal of Trivalent and Hexavalent Chromium by Seaweed Biosorbent" 32 (32): 2693-2698, 1998

17 Panday, K.K, "Removal of Cr(V1) from aqueous solutions by adsorption on fly ash-wollastonite" 34 (34): 367-374, 1984

18 Jones, K.L, "Protein and humic acid adsorption onto hydrophilic membrane surfaces : effects of pH and ionic strength" 165 (165): 31-46, 2000

19 Ozaki, H, "Performance of an ultra-low pressure reverse osmosis membrane(ULPROM)for separating heavy metal : effects of interference parameters" 144 : 287-294, 2002

20 Li, Z, "Organo-Illite as a Low Permeability Sorbent to Retard Migration of Anionic Contaminants" 128 (128): 583-587, 2002

21 Roundhill, D.M., "Methods and techniques for the selective extraction and recovery of oxoanions" 31 : 60-67, 2002

22 Roundhill, D.M, "Methods and techniques for the selective extraction and recovery of oxoanions" 31 : 60-67, 2002

23 Petruzzelli, D., "Ion exchange process for chromium removal and recovery from tannery wastes" 34 : 2612-2617, 1995

24 Ghosh, G., "Hexavalent chromium ion removal through micellar enhanced ultrafiltration" 119 (119): 45-53, 2006

25 Krishnani, K.K., "Heavy metals remediation of water using plants and lignocellulosic agrowastes" 188 : 59-84, 2006

26 Li, C, "Fabrication of copper coated polymer foam and their application for hexavalent chromium removal" 88 : 24-30, 2015

27 Majdan, M, "Equilibrium, FTIR, scanning electron microscopy and small wide angle X-ray scattering studies of chromates adsorption on modified bentonite" 740 : 203-211, 2005

28 Sparks, D. L., "Environmental soil chemistry" Academic press 1995

29 Griffin, R.A, "Effect of pH on adsorption of chromium from landfill‐leachate by clay minerals" 12 (12): 431-449, 1977

30 Lee, C.G, "Determination of bacterial mass recovery in iron-coated sand : Influence of ionic strength" 43 (43): 1108-1114, 2008

31 Miretzky, M., "Cr(VI)and Cr(III) removal from aqueous solution by raw and modified lignocellulosic materials: A review" 180 (180): 1-19, 2010

32 Zachara, J.M, "Chromate adsorption on amorphous iron oxyhydroxide in the presence of major groundwater ions" 21 (21): 589-594, 1987

33 Zachara, J.M, "Chromate adsorption on amorphous iron oxyhydroxide"

34 Richard, F.C., "Aqueous geochemistry of chromium : A review" 25 (25): 807-816, 1991

35 Liu, W, "Adsorptive removal of Cr (VI) by Fe-modified activated carbon prepared from Trapa natans husk" 162 (162): 677-684, 2010

36 Gupta, V.K, "Adsorption studies on the removal of hexavalent chromium from aqueous solution using a low cost fertilizer industry waste material" 342 (342): 135-141, 2009

37 Bajda, T., "Adsorption of chromate from aqueous solutions by HDTMA-modified clinoptilolite, glauconite and montmorillonite" 86 : 169-173, 2013

38 Tel, H, "Adsorption characteristics and separation of Cr(III)and Cr(VI)on hydrous titanium(IV)oxide" 112 (112): 225-231, 2004

39 Mohan, Dinesh, "Activated carbons and low cost adsorbents for remediation of tri-and hexavalent chromium from water" 137 : 762-811, 2006

40 Deng, Y, "Accumulation and remobilization of aqueous chromium(VI)at iron oxide surfaces : Application of a thin-film continuous flow-through reactor" 21 (21): 141-151, 1996

41 임재우, "6가 크롬 처리를 위한 알루미늄 산화물을 함유한 재생 분말 폐기물의 적용" 대한환경공학회 31 (31): 179-185, 2009