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Manuscript ID : JCHR-97 Visit : 115 Page: 0 - 0

10.22034/jchr.2018.544011

Article Type: Original Research

Kinetic and Thermodynamic Studies on Biosorption of Direct Red 81 from Aqueous Solutions by Chamomilla Plant

Subject Areas : Journal of Chemical Health Risks

M. Momen Heravi 1 , A. Kodabande 2 , M. R. Bozorgmehr 3 , T. Ardalan 4 , P. Ardalan 5

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Received: 2013-02-11 Accepted : 2018-10-29 Published : 2012-12-01

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Abstract :

References:
  1. Zanoni, M.V.B., P.A. Carneiro, 2001. O descarte
  2. dos corantes têxteis. Ciência Hoj., 29, 61ââ‚‌“64.
  3. Chang, J., C. Chou, Y. Lin , P. Lin, J. Ho,TL. Hu,
  4. Kinetic characteristics of bacterial azo-dye
  5. decolorization by pseudomonas luteola. Water Res,
  6. , 2841ââ‚‌“50.
  7. Chung, KT., GE. Fulk, M. Egan, 1978. Reduction
  8. of azo dyes in intestinal anerobes. Appl. Environ.
  9. Microbiol, 35, 558ââ‚‌“62.
  10. Brown D., HR. Hitz, L. Schefer, 1981. The
  11. assessment of the possible inhibitory effect of
  12. dyestuffs on aerobic wastewater bacteria: experience
  13. with screening test. Chemosphere, 10, 245ââ‚‌“61.
  14. Meehan C., IM. Banat , G. McMullan, P. Nigam, F.
  15. Smyth, R Marchant, 2000. Decolorization of Remazol
  16. Black-B using a thermotolerant yeast Kluyveromyces
  17. marxianus IMB3. Environ. Int , 26, 75ââ‚‌“79.
  18. Kapoor, A., T. Viraraghavan, R.D. Cullimore, 1999.
  19. removal of heavy metals using the fungus Aspergillus
  20. niger. Bioresour. Technol, 70, 95ââ‚‌“104.
  21. Bartinick-Garcia, S, 1968. Cell wall chemistry,
  22. morphogenesis and taxonomy of fungi. Annu. Rev.
  23. Microbiol., 22, 98ââ‚‌“108.
  24. Ambrósio, S.T., G.M, Campos-Takaki, 2004.
  25. Decolorization of reactive azo dyes by
  26. Cunninghamella elegans UCP 542 under co-metabolic
  27. conditions. Bioresour. Technol., 91, 69ââ‚‌“75.
  28. Fu, Y., T. Viraraghavan, 2002. Dye biosorption
  29. sites in Aspergillus niger. Bioresour. Technol., 82,
  30. ââ‚‌“145.
  31. Kunz, A., P. Peralta-Zamora, S.G. Moraes, N. Durán, 2002. Novas tendências no tratamento de efluentes têxteis. Quim. Nova, 25, 78ââ‚‌“82.
  32. Rajendran, R., S. Sundaran., K. Maheswari, 2011. Aerobic biodecolorization of mixture of azo dye containing textile effluent using adaptated microbial strains. J. Environ. Sci. Technol, 4, 568ââ‚‌“578.
  33. Dakiky, M., M. Khamis, A. Manassra, M. Mereb, 2002. Selective adsorption of chromium (VI) in industrial wastewater using low-cost abundantly available adsorbents. Adv. Environ. Res., 4, 533-540
  34. Hossein Mahvi, A., D. Naghipour, F. Vaezi , SH, Nazmara, 2005. Teawaste as an adsorbent for heavy metal removal from industrial wastewaters. Am. J. App. Sci., 1, 372-375
  35. Espinola, A., R. Adamian, L. Gomes, 1999. An innovative technology: natural coconut fibre as adsorptive medium in industrial wastewater cleanup. Proceedings of the TMS Fall Extraction and Processing Conference, 2057-2066.
  36. Chubar, Natalia., J. Carvalho, M. J. Neiva Correa, 2003. Cork Biomass as biosorbent for Cu (II), Zn (II) and Ni (II). Colloids and Surfaces A, 3, 57-65
  37. Melo, M., S.F. ÄŽ'SOUZA, 2004. Removal of chromium by mucilaginous seeds of Ocimum Basilicu. Bioresource. Technol., 2, 151-155.
  38. Marshall, W.E., E.T. Champ Agne,1995. Agricultural byproducts as adsorbents for metal ions in laboratory prepared solutions and in manufacturing wastewater. J. Environ. Sci. Health, Part A: Environ. Sci. Eng., 2, 241-261.
  39. Teixeria, T., R. Cesar, Z. Arruda, M. Aurélio, 2004. Biosorption of heavy metals using ricemilling by-products. Characterization and application for removal of metals from aqueous solutions. Chemosphere, 7, 905-915.
  40. Iqbal, M., A. Saeed, N, Akhtar, 2002. Petiolar felt-sheath of palm: a new biosorbent for the removal of heavy metals from contaminated water. Bioresource. Technol., 2, 153-155.
  41. Saeed, A, M. Iqbal, M. Akhtar, 2002. Application of biowaste materials for the sorption of heavy metals in contaminated aqueous medium. Pak. J. Sci. Ind. Res., 3, 206-211.
  42. Aksu, Z., S.S. Çagatay, 2006. Investigation of biosorption of Gemazol Turquise Blue-G reactive dye by dried Rhizopus arrhizus in batch and continuous systems. Sep. Purif. Technol., 48 1, 24-35.
  43. Mane, V.S., I. D. Mall, V. C Srivastava, 2007. Use of Bagasse Fly Ash as an Adsorbent for the Removal of Brilliant Green Dye from Aqueous Solution. Dyes and Pigments, 73, 269-278.
  44. Ozer, A., G. Akkaya, G., M. Turabik, 2005. The biosorption of Acid Red 337 and Acid Blue 324 on Enteromorpha prolifera: The application of nonlinear regression analysis to dye biosorption. Chem. Eng. J. 112, 181-190.
  45. Crini, G., F. Peindy, C. Robert, 2007. Influence of particle size and salinity on adsorption of basic dyes by agricultural waste: dried Seagrape (Caulerpa lentillifera). Sep. Purif. Technol. 53, 97-110

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