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Desalination and Water Treatment Volume 52, 2014 - Issue 7-9
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Articles

Biosorption of phenol by dried biomass

H. CherifiLaboratoire des Phénomènes de Transferts, Université des Sciences et de la Technologie Houari Boumedien, Bab Ezzouar, BP 32 EL Alia, 16111, Algiers, Algeria.Correspondence[email protected]
,
F. BentaharLaboratoire des Phénomènes de Transferts, Université des Sciences et de la Technologie Houari Boumedien, Bab Ezzouar, BP 32 EL Alia, 16111, Algiers, Algeria.
&
S. HaniniLaboratoire des Biomatériaux et des Phénomènes de Transferts, Université de Médéa, 26000, Médéa, Algeria.
Pages 1699-1704 | Received 05 Dec 2011, Accepted 13 May 2013, Published online: 17 Jun 2013

References

  • R. Perrich, Activated Carbon Adsorption for Wastewater Treatment. CRC Press, Boca Raton, FL, 1981.
  • Z. Aksu, J. Yener, A comparative adsorption/biosorption study of mono-chlorinated phenols onto various sorbents. Waste Manage. 21 (2001) 695–702.
  • A. Dabrowski, P. Podkoscielny, M. Hubicki, M. Barczak, Adsorption of phenolic compounds by activated carbon—a critical review. Chemosphere 58 (2005) 1049–1070.
  • A. Namane, A. Hellal, The dynamic adsorption characteristics of phenol by granular activated carbon. J. Hazard. Mater. 137 (2006) 618–625.
  • G. Dursun, H. Çiçek, A.Y. Dursun, Adsorption of phenol from aqueous solution by using carbonised beet pulp. J. Hazard. Mater. B 125 (2005) 175–182.
  • H. Cherifi, S. Hanini, F. Bentahar, Adsorption of phenol from wastewater using vegetal cords as a new adsorbent. Desalination 244 (2009) 177–187.
  • A.Y. Dursun, O. Tepe, Internal mass transfer effect on biodegradation of phenol by Ca-alginate immobilized Ralstonia eutropha. J. Hazard. Mater. 126 (2005) 105–111.
  • N. Calace, E. Nardi, B.M. Petronio, M. Pietroletti, Adsorption of phenols by paper mill sludges. Environ. Pollut. 118 (2002) 315–319.
  • O. Tepe, A.Y. Dursun, Combined effects of external mass transfer and biodegradation rates on removal of phenol by immobilized Ralstonia eutropha in a packed bed reactor. J. Hazard. Mater. 151 (2008) 9–16.
  • J.F. Patterson, Industrial Wastewater Treatment Technology. second ed. ed. Butterworths, London, 1985.
  • O. Hamdaoui, E. Naffrechoux, Modeling of adsorption isotherms of phenol and chlorophenols onto granular activated carbon: Part I. Two-parameter models and equations allowing determination of thermodynamic parameters. J. Hazard. Mater. 147 (2007) 381–394.
  • E. Ayranci, O. Duman, Adsorption behaviors of some phenolic compounds onto high specific area activated carbon cloth. J. Hazard. Mater. 124 (2005) 125–132.
  • G.G. Stavropoulos, P. Samaras, G.P. Sakellaropoulos, Effect of activated carbons modification on porosity, surface structure and phenol adsorption. J. Hazard. Mater. 151 (2008) 414–421.
  • C. Hua, R. Zhang, L. Li, X. Zheng, Adsorption of phenol from aqueous solutions using activated carbon prepared from crofton weed. Desalin. Water Treat. 37 (2012) 230–237.
  • Y.S. Ho, G. McKay, Kinetic model for lead(II) sorption on to peat. Adsorpt. Sci. Technol. 16 (1998) 243–255.
  • A. Boushew, X. Shen, R.G.J. Edyvean, Removal of coloured organic matter by adsorption onto low-cost waste materials. Water Res. 31 (1997) 2084–2092.
  • I.A. Rahman, B. Saad, S. Shaidan, E.S. Sya Rizal, Adsorption characteristics of malachite green on activated carbon derived from rice husks produced by chemical–thermal process. Bioresour. Technol. 96 (2005) 1578–1583.
  • Y.-S. Ho, A.E. Ofomaja, Effects of calcium competition on lead sorption by palm kernel fibre. J. Hazard. Mater. 120 (2005) 157–162.
  • T. Budinova, N. Petrov, J. Parra, V. Baloutzov, Use of an activated carbon from antibiotic waste for the removal of Hg(II) from aqueous solution. J. Environ. Manage. 88 (2008) 165–172.
  • N.S. Maurya, A.K. Mittal, P. Cornel, E. Rother, Biosorption of dyes using dead macro fungi: Effect of dye structure, ionic strength and pH. Bioresour. Technol. 97 (2006) 512–521.
  • A.H. Sulaymon, D.W. Abbood, A.H. Ali, A comparative adsorption/biosorption for the removal of phenol and lead onto granular activated carbon and dried anaerobic sludge. Desalin. Water Treat. 51 (10–12) (2013) 2055–2067.
  • N. Ertugay, Y.K. Bayhan, Biosorption of Cr (VI) from aqueous solutions by biomass of Agaricus bisporus. J. Hazard. Mater. 154 (2008) 432–439.
  • J.R. Rao, T. Viraraghavan, Biosorption of phenol from an aqueous solution by Aspergillus niger biomass. Bioresour. Technol. 85 (2002) 165–171.
  • T. Mathialagan, T. Viraraghavan, Biosorption of pentachlorophenol from aqueous solutions by a fungal biomass. Bioresour. Technol. 100 (2009) 549–558.
  • S.F. Montanher, E.A. Oliveira, M.C. Rollemberg, Removal of metal ions from aqueous solutions by sorption onto rice bran. J. Hazard. Mater. 117 (2005) 207–211.
  • J.M. Smith, Chemical Engineering Kinetics. third ed. ed. McGraw-Hill, Singapore, 1981.
  • I. Langmuir, The constitution and fundamental properties of solids and liquids. Part I. Solid. J. Am. Chem. Soc. 38 (1916) 2221–2295.
  • H.M.F. Freundlich, Uber die adsorption in lösungen. Z. Phys. Chem. 57 (1906) 385–470.
  • N. El Hannafi, M.A. Boumakhla, T. Berrama, Z. Bendjama, Elimination of phenol by adsorption on activated carbon prepared from the peach cores: Modelling and optimisation. Desalination 223 (2008) 264–268.
  • V. Srihari, A. Das, The kinetic and thermodynamic studies of phenol-sorption onto three agro-based carbons. Desalination 225 (2008) 220–234.
  • S.P. Kamble, P.A. Mangrulkar, A.K. Bansiwal, S.S. Rayalu, Adsorption of phenol and o-chlorophenol on surface altered fly ash based molecular sieves. Chem. Eng. J. 138 (2008) 73–83.
  • B.H. Hameed, A.A. Rahman, Removal of phenol from aqueous solutions by adsorption onto activated carbon prepared from biomass material. J. Hazard. Mater. 160 (2008) 576–581.
  • V. Farkas, A. Felinger, A. Hegedűsova, I. Dékány, T. Pernyeszi, Comparative study of the kinetics and equilibrium of phenol biosorption on immobilized white-rot fungus Phanerochaete chrysosporium from aqueous solution. Colloids Surf. B 103 (2013) 381–390.
  • A.Y. Dursun, C.S. Kalayci, Equilibrium, kinetic and thermodynamic studies on the adsorption of phenol onto chitin. J. Hazard. Mater. B 123 (2005) 151–157.
  • I. Vázquez, J. Rodríguez-Iglesias, E. Marañón, L. Castrillón, M. Álvarez, Removal of residual phenols from coke wastewater by adsorption. J. Hazard. Mater. 147 (2007) 395–400.
  • G. Annadurai, R.S. Juang, D.J. Lee, Microbiological degradation of phenol using mixed liquors of Pseudomonas putida and activated sludge. Waste Manage. 22 (2002) 703–710.
  • R. Aravindhan, J.R. Rao, B.U. Nair, Application of a chemically modified green macro alga as a biosorbent for phenol removal. J. Environ. Manage. 90 (2009) 1877–1883.
  • U. Thawornchaisit, K. Pakulanon, Application of dried sewage sludge as phenol biosorbent. Bioresour. Technol. 98 (2007) 140–144.

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