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Manuscript ID : JCHR-287 Visit : 117 Page: 0 - 0

10.22034/jchr.2018.544058

Article Type: Original Research

Equilibrium and Kinetic Studies of Direct Red 81 Biosorption onto Modified Silk Maze as an Economical Biosorbent

Subject Areas : Journal of Chemical Health Risks

Mohammad Momen Heravi 1 , Pouran Ardalan 2 , Alireza Vafaie 3

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2 -
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Received: 2014-04-20 Accepted : 2018-10-29 Published : 2018-10-29

Keywords: Biosorption, Direct red 81, Thermodynamic study, Kinetic models, Ultrasonic irradiation,

Abstract :

In this study, the potential of biosorbent obtained from silk maze, was investigated for the batch biosorption of Direct red 81 (DR 81) in aqueous solution. The effects of temperature, biosorbent amount, contact time, initial dye concentration and ultrasonic irradiation were also evaluated. Furthermore, experimental equilibrium and kinetics data were fitted by Langmuir and Freundlich isotherms and pseudo-first-order and pseudo-second-order kinetic models, respectively. Kinetic experiments revealed that the biosorption of DR 81 onto modified silk maze can be described with a pseudo second-order model while the equilibrium isotherm data were well described by the Freundlich model. The negative thermodynamic values of ΔHoand ΔGoshowed that the biosorption is an endothermic process and occurs spontaneously in the nature.The results presented that this waste material may be a suitable biosorbent for removal of industrial effluents due to its low cost and high efficiency.

References:
  1. Hessel C., Allegre C., Maisseu M., Charbit F., MoulinP., 2007. Guidelines and legislation for dye house effluentsJournal of Environmental Management. 83, 171-180.
  2. Phalakornkule C., Polgumhang S., Tongdaung W., Karakat B., Nuyut T., 2009. Electrocoagulation of blue reactive, red disperse and mixed dyes, and application in treating textile effluent.Journal of Environmental Management. 91(4), 918-926.
  3. Saeed A., Sharif M., Iqbal M., 2010. Application potential of grapefruit peel as dye sorbent: kinetics, equilibrium and mechanism of crystal violet adsorption.Journal of Hazardous Materials. 179, 564-572.
  4. Uddin M. T., Rukanuzzaman M., Khan M. R., Islam M. A., 2009. Jackfruit (Artocarpusheterophyllus) leaf powder: An effective adsorbent for removal of methylene blue from aqueous solutions. Journal of Environmental Management. 90(2), 3443-3449.
  5. Mona S., Kaushik A., Kaushik C. P., 2011. Biosorption of reactive dye by waste biomass of Nostoclinckia.International Biodeterioation and Biodegradation. 2011. 37 (10), 1581- 1594.
  6. Khataee A. R., Dehghan G., 2011. Optimization of biological treatment of a dye solution by macroalgaeCladophora sp. using response surface methodology.Journal of the Taiwan Institute of Chemical Engineers. 42, 26-33.
  7. Soon A. N., Hameed B. H., 2011. Heterogeneous catalytic treatment of synthetic dyes in aqueous media using Fenton and photo-assisted Fenton process.Desalination. 269, 1-16.
  8. Zhu M. X., Lee L., Wang H., Wang Z., 2007. Removal of an anionic dye by adsorption/precipitation processes using alkaline white mud. Journal of Hazardous Materials149, 735- 741.
  9. Eren Z., Acar F. N., 2006. Adsorption of Reactive Black 5 from an aqueous solution: equilibrium and kinetic studies. Desalination. 194, 1-10.
  10. Sengil A., Ozacar M., 2009. The decolorization of C.I. Reactive black 5 in aqueous solution by electrocoagulation using sacrificial iron electrodes.Journal of Hazardous Materials. 161(2), 1369-1376.
  11. Barron-Zambrano J., Szygula A., Ruiz M., Sastre A M., Guibal E., 2010. Biosorption of Reactive Black 5 from aqueous solutions by chitosan: column studies. Journal of EnvironmentalManagment. 91, 2669-2675.
  12. Aksu Z., 2001. Biosorption of reactive dyes by dried activated sludge: equilibrium and kinetic modeling. Biochemical Engineering Journal. 7, 79-84.
  13. Regan B., Schwartz D. T., 1995. Efficient photo-hole injection from adsorbed cyanine dyes into electrodeposited Copper (I) Thiocyanate thin films. Chemistry of Materials. 7. 1349- 1354.
  14. Nataraj S. K. Hosamani K. M., Aminabhavi T. M, 2009. Nanofiltration and reverse osmosis thin film composite membrane module for the removal of dye and salts from the simulated mixtures. Desalination. 249 (1), 12-17.
  15. Eiteman M., 1998. Evaluation of membrane filtration and ozonation processes for treatment of reactive-dye wastewater. Journal of Environmental Engineering. 124 (3). 272- 277.
  16. Kaushik P., Malik A., 2009. Fungal dye decolourization:Recent advances and future potential dye. Environment International.35, 127- 141.
  17. Chen K. C, Wu I Y., Liou D. J, Hwang, S. C., 2003. Decolorization of the textile dyes by newly isolated bacterial strains. Journal of Biotechnology.101(1), 57- 68.
  18. Nemr A. E., Abdelwahab O., Sikaily A. E., KhaledA., 2008. Removal of direct blue-86 from aqueous solution by new activated carbon developed from orange peel.Journal of Hazardous Materials. 161, 102-110.
  19. Geoffrey Michael G., 2008. Biosorption: critical review of scientific rationale, environmental importanceand significance for pollution treatment, Published online in Wiley Interscience.
  20. Ahalya N., Ramachandra T. V., Kanamadi, R. D., 2003. Biosorption of Heavy Metals, Res. Journal ofChemal Environment, 7, 71- 78.
  21. Ansari R., Mosayebzadeh Z., 2010. Removal of basic dye methylene blue from aqueous solutions using sawdust and sawdust coated with polypyrrole. Journal of Iranian Chemical Society.7, 339- 350.
  22. Schiewer S., Wong M. H., 2000. Ionic strength effects in biosorption of metals by marine algae. Chemosphere. 41(1), 271- 282.
  23. Namasivayam C., Prabha D., Kumutha M., 1998. Removal of Direct Red and Acid Brilliant Blue by Adsorption on to Banana Pith.Bioresource Technology. 64 (1), 77-79.
  24. McKay G., Porter J. F., Prasad G. R., 1999. The Removal of Dye Colours from Aqueous Solutions by Adsorption on Low-cost Materials.Water Air Soil Poll. 114. (3), 423-438.
  25. Hameed B., 2009. Evaluation of papaya seeds as a novel non-conventional low cost adsorbent for removal of methylene blue. Journal of Hazardous Materials.162, 939- 944.
  26. Annadurai, G., Juang, R., Lee, D., 2002. Use of cellulose-based wastes for adsorption of dyes from aqueous solutions.Journal of Hazardous Materials.Journal of Hazardous Materials. 92 (3), 263-271.
  27. Cengiz S., CavasL. L., 2008. Removal of methylene blue by invasive marine seaweed: Caulerparacemosa var. cylindracea. BioresourceTechnology. 99(7), 2357-2367.
  28. Marungrueng K., Pavasant P., 2006. Removal of basic dye (Astrazon Blue FGRL) using macroalgaCaulerpalentillifera.Journal ofEnvironmental Management. 78, 268-274.
  29. Marungrueng K., Pavasant P., 2007. High performance biosorpbent (Caulerpalentillifera) for basic dye removal.Bioresource Technology. 98, 1567- 1572.
  30. Pavasant P., Apiratikul R., Sungkhum V., Suthiparinyanont P., Wattanachira S., Marhaba T. F., 2006. Biosorption of Cu2+, Cd2+, Pb2+, and Zn2+ using dried marine green macroalgaCaulerpalentillifera.Bioresource Technology. 97, 2321-2329.
  31. Ncibi M. C., MahjoubB.,Seffen M., 2007. Kinetic and equilibrium studies of methylene blue biosorption by Posidoniaoceanica (L.) fibres. Journal of Hazardous Materials.139, 280- 285.
  32. Ncibi M. C., Mahjoub B., Seffen M., 2008. Investigation of the sorption mechanisms of metal-complexed dye onto Posidoniaoceanica (L.) fibres through kinetic modelling analysis.Bioresource Technology. 99, 5582ââ‚‌“5589.
  33. Ncibi M. C., MahjoubB., Ben Hamissa A. M., Ben Mansour R., Seffen M., 2008. Biosorption of textile metal-complexed dye from aqueous medium using Posidoniaoceanica (L.) leaf sheaths: Mathematical modelling. Desalination. 3,109- 121.
  34. Guezguez S., Dridi-Dhaouadi F., 2009. Sorption of Yellow 59 on Posidoniaoceanica, a non-conventional biosorbent:comparison with activated carbons. Industrial Crop Productions.29, 194- 204.
  35. Cengiz S., Cavas L., 2010. A promising evaluation method for dead leaves of Posidoniaoceanica (L.) in the adsorption of methyl violet. Marine Biotechnology.12 (6), 728- 736.
  36. Cavas L., Karabay Z., Alyuruk H., Do˘gan H., Demir G K., 2011. Thomas and artificial neural network models for the fixed-bed adsorption of methylene blue by a beach waste Posidoniaoceanica (L.) dead leaves.. Chemical Engineering Journal. 71, 557-562.
  37. Dural U., Cavas L., Katsaros F., Papageorgiou S., 2011. Methylene blue adsorption on activated carbon prepared from Posidoniaoceanica (L.) dead leaves. Chemical Engineering Journal. 168 (1): 77- 85.
  38. Moghadasi F., Momen Heravi M., Bozorgmehr M. R., Ardalan P., Ardalan T., 2010. Kinetic and Thermodynamic Study on the Removal of Methyl Orange from Aqueous Solution by Adsorption onto Camel Thorn Plant.Asian Journal of Chemistry. 22 (7), 5093-5100.
  39. Momen Heravi M., Kodabande A., Bozorgmehr M. R., Ardalan T., Ardalan P., 2012. Kinetic and Thermodynamic Studies on Biosorption of Direct Red 81 from Aqueous Solutions by ChamomillaPlant.Journal ofChemal Health Risks.4 (2), 37.
  40. Ma F., Yu L. Zhou L., Jin M.X. Yang J.S., Luan Y.H., Tang H.B., Fan Z.W., Yuan J.H., 2012. Enhanced adsorption removal of methyl orange and methylene blue from aqueous solution by alkali-activated multiwalled carbon nanotubes.Applied Materials and Interfaces. 4. 5749ââ‚‌“5760
  41. Arami M., LimaeeN. Y., Mahmoodi N. M., Tabrizi N. S., 2006. Equilibrium and kinetics studies for the adsorption of direct and acid dyes from aqueous solution by soy meal hull. Journal of Hazardous Materials. 135, 171ââ‚‌“179.
  42. Gupta V. K., Mittal A., Gajbe V., Mittal J., 2008. Adsorption of basic fuchsin using materials ââ‚‌“ bottom ash and deoiled soya ââ‚‌“ as adsorbents.Journal of Colloid and Interface Science. 319, 30ââ‚‌“39
  43. Azizian S., 2004. Kinetic models of sorption: a theoretical analysis. Journal of Colloid and Interface Science.276 (1), 47- 52.
  44. Ho Y. S., McKay G., 1998. Kinetic models for the sorption of dye from aqueous solution by wood. Journal of Environmental Science Health B. 76, 183- 191.
  45. SibelTunaliAkar A., SafaÖzcan B., Tamer Akar A., Adnan Özcan B., ZerrinKaynak C., 2009. Biosorption of a reactive textile dye from aqueous solutions utilizing an agro-waste, Desalination. 249, 757ââ‚‌“761.
  46. Khataee A. R., Vafaei F., Jannatkhah M., 2013. Biosorption of three textile dyes from contaminated water by filamentous green algal Spirogyra sp.: Kinetic, isotherm and thermodynamic studies, International. Biodeterioration Biodegradation.83, 33- 40.
  47. Akar T., Tosun I., Kaynak Z., Kavas E., Incirkus G., Akar ST., 2009. Assessment of the biosorption characteristics of a macro-fungus for the decolorization of Acid Red 44 (AR44) dye.Journal of Hazardous Materials.171 (1), 865- 871.
  48. Akkaya G., ÖzerA., 2005. Biosorption of Acid Red 274 (AR 274) on Dicranellavaria: Determination of equilibrium and kinetic model parameters. Process Biochemistry.40, 3559- 3568.
  49. Bai R. S., Abraham T. E., 2001. Biosorption of Cr (VI) from aqueous solution by RhizopusnigricansBioresourceTechnology.79, 73- 81.
  50. Langmuir I., 1918. Langmuir ââ‚‌œAdsorption of Gases on Plain Surfaces of Glass Mica Platinum. Journal of American Chemical Society. 40 (9), 1361- 1403.
  51. Freundlich H. M. F., 1906. Uber die adsorption in losungen. ZeitschriftfürPhysikalischeChemie..57, 385- 470.
  52. Senturk H. B., Ozdes D., DuranC., 2010. iosorption of Rhodamine 6G from aqueous solutions onto almond shell (Prunusdulcis) as a low cost biosorbent.Desalination.252 (1), 81- 87.
  53. Daneshvar E., Kousha M., A., Jokar M., Koutahzadeh N., Guibal E., 2012. Acidic dye biosorption onto marine brown macroalgae: Isotherms, kinetic and thermodynamic studies, Chemical Engineering Journal. 204, 225ââ‚‌“234.
  54. Aravindhan R., Rao J. R., Nair B. U., 2007.Removal of basic yellow dye from aqueous solution by sorption on green alga Caulerpascalpelliformis.Journal of Hazardous Materials. 142, 68ââ‚‌“76.
  55. Özcan A., Özcan A. S., 2005. Adsorption of Acid Red 57 from aqueous solutions onto surfactant-modified sepiolite.Journal of Hazardous Materials.125, 252- 259.
  56. Özcan A. S, Erdem B., Özcan A., 2005. Adsorption of Acid Blue 193 from aqueous solutions onto BTMA-bentonite.Colloid Surface A. 266 (1), 73- 81.
  57. Entezari M. H., RohaniBastami T., 2006. Sono-sorption as a new method for the removal of lead ion from aqueous solution, Journal of Hazardous Materials.137, 959- 964.
  58. Anirudhan T. S., Radhakrishnan P. G., 2008. Thermodynamic and kinetic of adsorption of cu (II) from aqueous solution on to a new cationic exchanger derived from Taman ad fruit shell.Journal of Chemical.Thermodynamic.40, 702- 709.
  59. DenizF., Karaman S., 2011. Removal of Basic Red 46 dye from aqueous solution by pine tree leaves. Chemical Engineering Journal.170, 67- 74.
  60. Oura K., Surface Science, An Introduction,1st ed., Springer: Berlin, 2003
  61. Hans, L. Surfaces and interfaces of solids, fifth ed., Springer: Verlag, 1993.

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