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Desalination and Water Treatment Volume 52, 2014 - Issue 31-33
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Articles

Chromium removal using poly(4-vinylpyridinium)-modified treated clay salts

Kamel Ismet BenabadjiFaculty of Sciences, Department of Chemistry, Laboratoire d’Application des Electrolytes et des Polyelectrolytes Organiques (LAEPO), University of Tlemcen, B.P. 119, Tlemcen, 13000, Algeria, Tel./Fax: +213 43286308
&
Ali MansriFaculty of Sciences, Department of Chemistry, Laboratoire d’Application des Electrolytes et des Polyelectrolytes Organiques (LAEPO), University of Tlemcen, B.P. 119, Tlemcen, 13000, Algeria, Tel./Fax: +213 43286308Correspondence[email protected]
[email protected]
Pages 5931-5941 | Received 16 Jul 2012, Accepted 30 May 2013, Published online: 01 Aug 2013

References

  • V. Pascal, D. Laetitia, L. Joël, S. Marc, P. Serge, New concept to remove heavy metals from liquid waste based on electrochemical pH-switchable immobilized ligands. Appl. Surf. Sci. 253 (2007) 3263–3269.
  • A. Benhammou, A. Yaacoubi, L. Nibou, B. Tanouti, Chromium(VI) adsorption from aqueous solution onto Moroccan Al pillared and cationic surfactant stevensite. J. Hazard. Mater. 140 (2007) 104–109.
  • Y. Li, B. Gao, T. Wu, D. Sun, X. Li, B. Wang, F. Lu, Hexavalent chromium removal from aqueous solution by on aluminum magnesium mixed hydroxide. Water Res. 43 (2009) 3067–3075.
  • J. Yao, L. Tian, Y.X. Wang, A. Djah, F. Wang, H.L. Chen, C.L. Su, R.S. Zhuang, Y. Zhou, M.M.F. Choi, E. Bramanti, Microcalorimetric study the toxic effect of hexavalent chromium on microbial activity of Wuhan brown sandy soil: An in vitro approach. Ecotoxicol. Environ. Saf. 69 (2008) 289–295.
  • L.M. Barrera, F.M.G. Jimenez, A.O. Moreno, E.C. Urbina, Isolation, identification and characterization of a Hypocreatawa strain with high Cr(VI) reduction potential. Biochem. Eng. J. 40 (2008) 284–292.
  • N. Ahalya, T.V. Ramachandra, R.D. Kanamadi, Biosorption of heavy metals. Res. J. Chem. Environ. 7 (2003) 71–78.
  • S.J. Park, Y.S.J. Jang, Pore structure and surface properties of chemically modified activated carbons for adsorption mechanism and rate of Cr(VI). Colloid Interface Sci. 249 (2002) 458–463.
  • K. Srinivasan, N. Balasubramanian, T.V. Ramakrishan, Studies on chromium removal by rise husk carbon. Ind. J. Environ. Health 30 (40) (1988) 376–387.
  • J. Fang, Z. Gu, D. Gang, C. Liu, E.S. Ilton, B. Deng, Cr(VI) removal from aqueous solution by activated carbon coated with quaternized poly(4-vinylpyridine). Environ. Sci. Technol. 41 (13) (2007) 4748–4753.
  • H. Hasar, Y. Cuci, Removal of Cr(VI), Cd(II), and Cu(II) by activated carbon prepared from almond husk. Environ. Technol. 21 (12) (2000) 1337–1342.
  • N.R. Bishnoi, M. Bajaj, N. Sharma, A. Gupta, Adsorption of Cr(VI) on activated rice husk carbon and activated alumina. Bioresour. Technol. 91 (3) (2004) 305–307.
  • C. Selomulya, V. Meeyoo, R. Amal, Mechanisms of Cr(VI) removal from water by various types of activated carbons. J. Chem. Technol. Biotechnol. 74 (2) (1998) 111–122.
  • D. Sidlauskiene, R. Klimaviciute, A. Zemaitaitis, Adsorption of hexavalent chromium on cationic starches with different degree of crosslinking. J. Appl. Polym. Sci. 107 (2008) 3469–3475.
  • J. Bajpai, R. Shrivastava, A.K. Bajpai, Dynamic and equilibrium studies on adsorption of Cr(VI) ions onto binary biopolymeric beads of crosslinked alginate and gelatine. Colloids Surf. A 236 (2004) 81–90.
  • K.Z. Elwakeel, Removal of Cr(VI) from alkaline aqueous solutions using chemically modified magnetic chitosan resins. Desalination 250 (2010) 105–112.
  • S.P. Ramnani, S. Sabharwal, Adsorption of Cr(VI) onto radiation crosslinked chitosan and its possible application for the treatment of wastewater containing Cr(VI). React. Funct. Polym. 66 (2006) 902–909.
  • M.Y. Arica, G. Bayramoglu, Chromium biosorption from aqueous solutions using free and immobilized biomass of Lentimussajorcaju: Preparation and kinetic characterization. Colloids Surf. A 253 (2005) 203–211.
  • D. Park, Y.S. Yun, J.H. Jo, J.M. Park, Mechanism of hexavalent chromium removal by dead fungal biomass of Aspergillusniger. Water Res. 39 (2005) 533–540.
  • Y.S. Li, C.C. Liu, C.S. Chiou, Adsorption of Cr(III) from wastewater by wine processing waste sludge. J. Colloid Interface Sci. 273 (2004) 95–101.
  • K. Selcaraj, S. Manonmani, S. Pattabhi, Removal of hexavalent chromium using distillery sludge. Bioresour. Technol. 89 (2004) 207–211.
  • S. Chand, V.K. Agarwal, C. Pavankumar, Removal of hexavalent chromium from waste water by adsorption. Ind. J. Environ. Health 36 (3) (1994) 151–158.
  • M.R. Unnitah, V.P. Vinod, T.S. Anirudhan, Synthesis, characterization and application as a chromium (VI) adsorbent of mine modified polyacrylamide grafted coconut Coir Pith. Ind. Eng. Chem. Res. 43 (2004) 2247–2255.
  • M.I. Toral, J. González-Navarrete, A. Leiva, H.E. Ríos, M.D. Urzúa, Chromium retention properties of N-alkyl quaternized poly(4-vinylpyridine). Eur. Polym. J. 45 (2009) 730–737.
  • V. Neagua, S. Mikhalovsky, Removal of hexavalent chromium by new quaternized crosslinked poly(4vinylpyridines). J. Hazard. Mater. 183 (2010) 533–540.
  • C.H. Zhou, Emerging trends and challenges in synthetic clay based materials and layered double hydroxides. Appl. Clay Sci. 48 (2010) 1–4.
  • Z. Li, L. Gallus, Adsorption of dodecyltrimethylammonium and hexadecyltrimethylammonium onto kaolinite-competitive adsorption and chain length effect. Appl. Clay Sci. 35 (2007) 250–257.
  • H. He, R.L. Frost, T. Bostrom, P. Yuan, L. Duong, D. Yang, Y. Xi, J.T. Kloprogge, Changes in the morphology of organoclays with HDTMA+ surfactant loading. Appl. Clay Sci. 31 (2006) 262–271.
  • C. Willms, Z. Li, L. Allen, C.V. Evans, Desorption of cesium from kaolinite and illite using alkylammonium salts. Appl. Clay Sci. 25 (2004) 125–133.
  • A. Mansri, K.I. Benabadji, J. Desbrières, J. François, Chromium removal using modified poly(4-vinylpyridinium)clay salts. Desalination 245 (2009) 95–107.
  • J. Mering, Smectites, Encyclopedia of Soil Science, in: J.E. Gieseking (Ed.), Soil Components, Springer-Verlag, New York, NY, 1975, pp. 97–119.
  • E. Choukchou-Braham, I. Benabadji, J. François, A. Mansri, Molecular weight influence on viscosimetric parameters of poly(4-vinylpyridine) polymers. Eur. Polym. J. 39 (2003) 297–303.
  • D. Park, Y.S. Yun, J.M. Park, Studies on hexavalent chromium biosorption by chemically-treated biomass of Ecklonia sp. Chemosphere 60 (2005) 1356–1364.
  • S. Lagergren, About the theory of so-called adsorption of soluble substances. Kungliga Svenska Vetenskapsakademiens, Handlingar 24 (1898) 1–39.
  • Y.S. Ho, G. McKay, Pseudo-second order model for sorption processes. Process Biochem. 34 (1999) 451–465.
  • K.M. Parida, P.K. Satapathy, N.N. Das, Studies on Indian Ocean manganese nodules. 4. Adsorption of some bivalent heavy metal ions onto ferromanganese nodules. J. Colloid Interface Sci. 181 (1996) 456–462.
  • K.M. Parida, B. Gorai, N.N. Das, Studies on Indian Ocean manganese nodules. 3. Adsorption of aqueous selenite on ferromanganese nodules. J. Colloid Interface Sci. 187 (1997) 375–380.
  • S.M. Ahmed, Dissociation of oxide surfaces at the liquid-solid interface. Can. J. Chem. 44 (1966) 1663–1970.
  • C.P. Huang, A.R. Bowers, Use of activated carbon for chromium(VI) removal. Prog. Water Technol. 10 (1978) 45–64.
  • K.K. Jain, V.N. Singh, G.J. Prasad, Application of fly ash instead of activated carbon for oxalic-acid removal. Chem. Technol. Biotechnol. 29 (1979) 36–38.
  • B. Fritzen, J. Souza, A.G. Silva, L. Souza, A. Nome, D. Fiedler, F. Nome, Distribution of hexavalent Cr species across the clay mineral surface-water interface. J. Colloid Interface Sci. 296 (2006) 465–471.
  • P. Albino Kumar, M. Ray, S. Chakraborty, Hexavalent chromium removal from wastewater using aniline formaldehyde condensate coated silica gel. J. Hazard. Mater. 143 (2007) 24–32.
  • J. Pradhan, S. Nath Das, R. Singh Thakur, Adsorption of hexavalent chromium from aqueous solution by using activated red mud. J. Colloid Interface Sci. 217 (1999) 137–141.
  • M. Majdan, O. Maryuk, S. Pikus, E. Olszewska, R. Kwiatkowski, H. Skrzypek, Equilibrium, FTIR, scanning electron microscopy and small wide angle X-ray scattering studies of chromates adsorption on modified clay. J. Mol. Struct. 740 (2005) 203–211.
  • K. Selvaraj, S. Manonmani, S. Pattabhi, Removal of hexavalent chromium using distillery sludge. Bioresour. Technol. 89 (2003) 207–211.
  • A.P. Padilla, E.L. Tavani, Treatment of an industrial effluent by reverse osmosis. Desalination 126 (1999) 219–226.
  • S.M. Nomanbhay, K. Palanisamy, Removal of heavy metal from industrial wastewater using chitosan coated oil palm shell charcoal. Electron. J. Biotechnol. 8 (2005) 43–53.
  • A. Bingol, H. Ucun, Y. Kemal Bayhan, A. Karagunduz, A. Cakici, B. Keskinler, Removal of chromate anions from aqueous stream by a cationic surfactant-modified yeast. Bioresour. Technol. 94 (2004) 245–249.
  • M.A. Rauf, M.J. Iqbal, I. Ellahi, S.M. Hasany, Kinetic and thermodynamic aspects of ytterbium adsorption on sand. Adsorpt. Sci. Technol. 13 (1996) 97–104.
  • M. Saleem, M. Afzal, R. Qadeer, J. Hanif, Selective adsorption of uranium on activated-charcoal from electrolytic aqueous solutions. Sep. Sci. Technol. 27 (1992) 239–253.
  • C.B. Gerald, M. McEvoy, A.M. Malati, Adsorption of some divalent cations from aqueous solution on precipitated silica. J. Chem. Soc. Faraday Trans. 79 (1983) 2311–2318.
  • J. Echeverria, J. Indurain, E. Churio, J. Garrido, Simultaneous effect of pH, temperature, ionic strength, and initial concentration on the retention of Ni on illite. Colloids Surf. A 218 (2003) 175–187.
  • S.H. Lin, R.S. Juang, Heavy metal removal from water by sorption using surfactant-modified montmorillonite. J. Hazard. Mater. 92 (2002) 315–326.

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