Biosorption of Copper, Zinc and Nickel From Multi-Ion Solutions

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The biosorption of Cu(II), Zn(II) and Ni(II) by microscopic green algae Chlorella kessleri was investigated using batch experiments. Biosorption studies with single and multi ion solutions were carried out to study the effect of several ions on the biosorption of selected metal. The influence of zinc and nickel on copper biosorption, copper and nickel on zinc biosorption and zinc and copper on nickel biosorption were investigated. The Langmuir and Freundlich model were used to describe the adsorption equilibrium of studied metals on Chlorella kessleri biomass. Based on the experimental results it was found that the presence of copper increased the biosorption capacity of zinc from 48.6 mg/g to 96.8 mg/g and nickel from 29.3 mg/g to 62.7 mg/g, respectively. However, the presence of nickel decreased the biosorption capacity of zinc from 48.6 mg/g to 31.7 mg/g.

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  • ABU AL-RUB F.A. EL-NAAS M.H. BENYAHIA F. ASHOUR I.: Biosorption of nickel on blank alginate beads free and immobilized algal cells. Process Biochem. 39 2004 1767-1773.

  • AKAR T. ZERRIN K.: Enhanced biosorption of nickel (II) ions by silica-gelimmobilized waste biomass: Biosorption characteristics in batch and dynamic flow mode. J. Hazard. Mater. 163 2009 1134-1141.

  • ANNA W. ROMAN G.: Biosorption of heavy metals from aqueous solutions onto peanut shell as a low-cost biosorbent. Desalination 265 2011 126-134.

  • CHUBAR N. CARVALHO J.R. CORREIA M.J.N.: Cork biomass as biosorbent for Cu(II) Zn(II) and Ni(II). Colloid Surface Physicochem. Eng. Aspects 230 2004 57-65.

  • CHUNPING Y. MIN L.: Biosorption of zinc(II) from aqueous solution by dried activated sludge. J. Environ. Sci. 22 2010 675-680.

  • FAN H.J. YANG H.S. TSAI Y.S. FURUYA E.: Prediction of individual Freundlich isotherms from binary and ternary phenolic compounds mixtures. Chemosphere 71 2008 886-893.

  • HORVÁTHOVÁ H. KADUKOVÁ J.: Effect of nickel on copper and zinc biosorption. Acta Metallurg. Slovaca 14 2008 78-82.

  • KADUKOVÁ J. VIRČÍKOVÁ E.: Mineral Biotechnology III Biosorption of metals from solution 1st Edition VŠB-TU Ostrava 2003. ISBN 80-248-0244-9.

  • MAREŠOVÁ J. PIPÍŠKA M. ROZLOŽNÍK M. HORNÍK M. REMENÁROVÁ L. AUGUSTÍN J.: Cobalt and strontium sorption by moss biosorbent: Modeling of single and bingy metal systems. Desalination 266 2011 134-141.

  • MOHAPATRA H. GUPTA R.: Concurrent sorption of Zn(II) Cu(II) and Co(II) by Oscillatoria angustissima as a function of pH in binary and ternary metal solutions. Bioresour. Technol. 96 2005 1387-1398.

  • PIPÍŠKA M. HORNÍK M. REMENÁROVÁ L. AUGUSTÍN J. LESNÝ J: Biosorption of Cadmium Cobalt and Zinc by Moss Rhytidiadelphus squarrosus in the Single and Binary Component Systems. Acta Chim. Slov. 57 2010 163-172.

  • REMENÁROVÁ l. PIPÍŠKA M. HORNÍK M. ROZLOŽNÍK M. AUGUSTÍN J. LESNÝ J.: Biosorption of cadmium and zinc by activated sludge from single and binary solutions: Mechanism equilibrium and experimental design study J.Taiwan Inst. Chem. Eng. 43 2012 433-443.

  • ROMERA E. GONZÁLEZ F. BALLESTER F. A. BLÁZQUEZ M.L. MUOZ J.A.: Biosorption of heavy metals by Fucus spiralis. Bioresour. Technol. 99 2008 4684-4693.

  • SAG Y. ARDA Y.: Mono and multi-component biosorption of heavy metal ions on Rhizopus arrhizus in a CFST. Process Biochem. 35 2000 787-799.

  • TIEN C.J.: Biosorption of metal ions by freshwater algae with different surface characteristics. Process Biochem. 38 2002 605-613.

  • VILLAESCUSA I. FIOL N. MARTINEZ M. MIRALLES N. et al.: Removal of copper and nickel ions from aqueous solutions by grape stalks wastes. Water Res. 38 2004 992-10.

  • WANG X. YONG Q.: Equilibrium sorption isotherms for Cu2+ on rice bran. Process Biochem. 40 2005 677-680.

  • WEI - CHEN K. CHIEH - CHEN H.: Biosorption of nickel chromium and zinc by MerP- expressing recombinant Escherichia coli. J. Hazard. Mater. 158 2008 100 - 106.

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