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Journal of Environmental Science and Health, Part B
Pesticides, Food Contaminants, and Agricultural Wastes
Volume 46, 2011 - Issue 2
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ARTICLES

Removal of 2-chlorophenol from water using rice-straw derived ash

Rung R. Chang Department of Soil and Environmental Sciences, National Chung-Hsing University Taichung, Taiwan
,
Shan L. Wang Department of Soil and Environmental Sciences, National Chung-Hsing University Taichung, Taiwan
,
Yu M. Tzou Department of Soil and Environmental Sciences, National Chung-Hsing University Taichung, Taiwan
,
Yue M. Chen Department of Agricultural Chemistry, National Taiwan University Taipei, Taiwan
&
Ming K. Wang Department of Agricultural Chemistry, National Taiwan University Taipei, Taiwan
Pages 128-136 | Received 12 Aug 2010, Published online: 13 Feb 2011

References

  • Boyd , S. A. , Mikesell , M. D. and Lee , J. F. 1989 . “ Chlorophenols in soils ” . In Reactions and movement of organic chemicals in soils , Edited by: Boyd , S. A. and Lee , J. F. 209 – 228 . Madison, WI : Soil Sci. Soc. Amer. .
  • Czaplicka , M. 2004 . Sources and transformation of chlorophenols in the natural environments . Sci. Total Environ. , 322 : 21 – 39 .
  • Dabrowski , A. , Podkoscielny , P. , Hubicki , Z. and Barczak , M. 2005 . Adsorption of phenolic compounds by activated carbon - a critical review . Chemosphere , 58 : 1049 – 1070 .
  • Czaplicka , M. 2006 . Photo-degradation of chlorophenols in the aqueous solution . J. Hazard. Mater. , 134 : 45 – 59 .
  • Chuang , Y. H. , Tzou , Y. M. , Wang , M. K. , Liu , C. H. and Chiang , P. N. 2008 . Removal of 2-chlorophenol from aqueous solution by Mg/Al layered double hydroxide (LDH) and modified LDH . Indus. Engin. Chem. Res. , 47 : 3813 – 3819 .
  • Akhtar , M. , Bhanger , M. I. , Iqbal , S. and Hasany , S. M. 2006 . Sorption potential of rice husk for the removal of 2,4-dichlorophenol from aqueous solutions: Kinetic and thermodynamic investigations . J. Hazard. Mater. , 128 : 44 – 52 .
  • Kuleyin , A. 2007 . Removal of phenol and 4-chlorophenol by surfactant-modified natural zeolite . J. Hazard. Mater. , 144 : 307 – 315 .
  • Dominguez-Vargas , J. R. , Navaro-Rodriguez , J. A. , de Heredia , J. B. and Cuerda Correa , E. M. 2009 . Removal of chlorophenols in aqueous solution by carbon black low-cost adsorbents . Equilibrium study and influence of operation conditions. J. Hazard. Mater. , 169 : 302 – 308 .
  • Tseng , R. L. , Wu , F. C. and Juang , R. S. 2003 . Liquid-phase adsorption of dyes and phenols using pinewood-based activated carbons . Carbon , 41 : 487 – 495 .
  • Aktas , O. and Cecen , F. 2007 . Adsorption, desorption and bioregeneration in the treatment of 2-chlorophenol with activated carbon . J. Hazard. Mater. , 141 : 769 – 777 .
  • Hameed , B. H. , Tan , I.A.W. and Ahmad , A. L. 2008 . Adsorption isotherm, kinetic modeling and mechanism of 2,4,6-trichlorophenol on coconut husk-based activated carbon . Chem. Engin. J. , 144 : 235 – 244 .
  • Mohan , D. and Pittman , C. U. 2006 . Activated carbons and low cost adsorbents for remediation of tri- and hexavalent chromium from water . J. Hazard. Mater. , 137 : 762 – 811 .
  • Baklanova , O. N. , Plaksin , G. V. , Drozdov , V. A. , Duplyakin , V. K. , Chesnokov , N. V. and Kuznetsov , B. N. 2003 . Preparation of microporous sorbents from cedar nutshells and hydrolytic lignin . Carbon , 41 : 1793 – 1800 .
  • Su , W. , Zhou , L. and Zhou , Y. P. 2003 . Preparation of microporous activated carbon from coconut shells without activating agents . Carbon , 41 : 861 – 863 .
  • Ahmedna , M. , Marshall , W. E. and Rao , R. M. 2000 . Production of granular activated carbons from select agricultural by-products and evaluation of their physical, chemical and adsorption properties . Biores. Technol. , 71 : 113 – 123 .
  • Barraclough , D. , Kearney , T. and Croxford , A. 2005 . Bound residues: environmental solution or future problems? Environ . Pollut. , 133 : 85 – 90 .
  • Mandal , K. G. , Misra , A. K. , Hati , K. M. , Bandyopadhyay , K. K. , Ghosh , P. K. and Mohanty , M. 2004 . Rice residue-management options and effects on soil properties and crop productivity . Food Agric. Environ. , 2 : 224 – 231 .
  • Thy , P. , Jenkins , B. M. , Grundvig , S. , Shiraki , R. and Lesher , C. E. 2006 . High temperature elemental losses and mineralogical changes in common biomass ashes . Fuel , 85 : 783 – 795 .
  • Wang , S. L. , Tzou , Y. M. , Lu , Y. H. and Sheng , G. 2007 . Removal of 3-chlorophenol from water using rice-straw-based carbon, J . Hazard. Mater. , 147 : 313 – 318 .
  • Yang , Y. N. and Sheng , G. Y. 2003 . Enhanced pesticide sorption by soils containing particulate matter from crop residue burns . Environ. Sci. Technol. , 37 : 3635 – 3639 .
  • Hiller , E. , Fargasova , A. , Zemanova , L. and Bartal , M. 2007 . Influence of wheat ash on the MCPA immobilization in agricultural soils . Bullet. Environ. Contam. Toxicol. , 79 : 478 – 481 .
  • Qiu , Y. , Cheng , H. , Xu , C. and Sheng , G. D. 2008 . Surface characteristics of crop-residue-derived black carbon and lead(II) adsorption . Water Res. , 42 : 567 – 574 .
  • Hsu , N. H. , Wang , S. L. , Liao , Y. H. , Huang , S. T. , Tzou , Y. M. and Huang , Y. M. 2009 . Removal of hexavalent chromium from acidic aqueous solutions using rice straw-derived carbon . J. Hazard. Mater. , 171 : 1066 – 1070 .
  • Schmidt , M.W.I. and Noack , A. 2000 . Black carbon in soils and sediments: Analysis, distribution, implications and current challenges . Glob. Biogeochem. Cycle , 14 : 777 – 793 .
  • Preston , C. M. and Schmidt , M.W.I. 2006 . Black (pyrogenic) carbon: a synthesis of current knowledge and uncertainties with special consideration of boreal regions . Biogeosci. , 3 : 397 – 420 .
  • Sun , C. and Berg , J. C. 2003 . A review of the different techniques for solid surface acid - base characterization . Adv. Coll. Interf. Sci. , 105 : 151 – 175 .
  • Gregg , S. J. and Sing , K.S. W. 1982 . “ Adsorption ” . In Surface Area and Porosity , Edited by: Gregg , S. J. and Sing , K.S. W. 85 – 104 . New York : Academic Press .
  • Liou , T. H. 2004 . Evolution of chemistry and morphology during the carbonization and combustion of rice husk . Carbon , 42 : 785 – 794 .
  • Mahvi , A. H. , Maleki , A. and Eslamis , A. 2004 . Potential of rice husk ash for phenol removal in aqueous system . Am. J. App. Sci , 1 : 311 – 326 .
  • Gonzalez-Perez , J. A. , Gonzalez-Vila , F. J. , Almendros , G. and Knicker , H. 2004 . The effect of fire on soil organic matter - a review . Environ. Intern. , 30 : 855 – 870 .
  • Chun , Y. , Sheng , G. , Chiou , C. T. and Xing , B. 2004 . Compositions and sorptive properties of crop residue-derived chars . Environ. Sci. Technol. , 38 : 4649 – 4655 .
  • Boehm , H. P. 2002 . Surface oxides on carbon and their analysis: A critical assessment . Carbon , 40 : 145 – 149 .
  • Barton , S. S. , Evans , M.J.B. , Halliop , E. and MacDonald , J.A.F. 1997 . Acidic and basic sites on the surface of porous carbon . Carbon , 35 : 1361 – 1366 .
  • Zielke , R. C. and Pinnavaia , T. J. 1988 . Modified clays for the adsorption of environmental toxicants: binding of chlorophenols to pillared, delaminated, and hydroxyl-interlayered smectites . Clays Clay Miner. , 36 : 403 – 408 .
  • Coughlin , R. W. and Ezra , F. S. 1968 . Role of surface acidity in the adsorption of organic pollutants on the surface of carbon . Environ. Sci. Technol. , 2 : 291 – 297 .
  • Salame , I. I. and Bandosz , T. J. 2003 . Role of surface chemistry in adsorption of phenol on activated carbons . J. Coll. Interf. Sci. , 264 : 307 – 312 .
  • Moreno-Castilla , C. 2004 . Adsorption of organic molecules from aqueous solutions on carbon materials . Carbon , 42 : 83 – 94 .
  • Zhu , D. Q. and Pignatello , J. J. 2005 . Characterization of aromatic compound sorptive interactions with black carbon (charcoal) assisted by graphite as a model . Environ. Sci. Technol , 39 : 2033 – 2041 .
  • Stavropoulos , G. G. , Samaras , P. and Sakellaropoulos , G. P. 2008 . Effect of activated carbons modification on porosity, surface structure and phenol adsorption . J. Hazard. Mater. , 151 : 414 – 421 .
  • Franz , M. , Arafat , H. A. and Pinto , N. H. 2000 . Effect of chemical surface heterogeneity on the adsorption mechanism of dissolved aromatics on activated carbon . Carbon , 38 : 1807 – 1819 .

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