Research Article
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EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL

Year 2021, Volume: 33 Issue: 1, 1 - 14, 18.11.2021

Abstract

Decolorization and degradation of textile dye wastewater by means of high energitic rays are readly applied, which are affected by some factors influence such as pH, dye concentration, toxicity, COD, BOD5 and absorbed dose. Cationic/basic dye of Astrazon Blue FGRL was treated using ionizing radiation and degree of decolorization in air and O2 saturated and H2O2 condition were discussed. The biodegradability (BOD5/COD) of the dye solutions was enhanced by 1, 3, and 3 kGy absorbed dose for air saturated, O2 saturated and 2.6 mmol L-1 H2O2 solutions, respectively. However, optimum irradiation conditions for complete mineralization and decoloration of Astrazon Blue FGRL solutions were found to be 2 kGy pH 8 for air, 7 kGy pH 5 for O2 saturated, 7 kGy pH 5 for 2.6 mmol L-1 H2O2 solutions, respectively. After irradiaiton at optimum conditions, the biorefractory organic compounds of Astrazon Blue FGRL were converted into smaller and biodegradable compounds by radiation technology.

Supporting Institution

Türkiye Atom Enerjisi Kurumu, International Atomic Energy Agency

Project Number

TAEK-A2.H5.F8, IAEA-CRP 23791

References

  • Aleboyeh, A., H. Aleboyeh, and Y. Moussa. 2003. “Critical effect of hydrogen peroxide in photochemical oxidative decolorization of dyes: acid orange 8, acid blue 74 and methyl orange.” Dyes and Pigments 57:67-75.
  • Bural, C.B., G.N. Demirer, Ö. Kantoğlu, and F.B. Dilek. 2010. “Treatment of Opium Alkaloid Containing Wastewater in Sequencing Batch Reactor (SBR) - Effect of Gamma Irradiation.” Radiation Physics and Chemistry 79:519-526.
  • Emmi, S.S., and E. Takacs. 2008. Radiation Chemistry, from Basics to Applications in Material and Life Sciences. France:EDP Sciences.
  • Garcia-Montano, J., F. Torrades, J.A. Garcia-Hortal, X. Domenech, and J. Peral. 2006. “Combining photo-Fenton process with aerobic sequencing batch reactor for commercial hetero-bireactive dye removal.” Applied Catalyst B Environmental 67:86–92.
  • Getoff, N. 1998. Environmental Applications of Ionizing Radiation. NewYork:Wiley.
  • Getoff, N. 1999. “Radiation Chemistry and The Environment.” Radiation Physics and Chemistry 54:377–384.
  • Getoff, N. 2002. “Factors influencing the efficiency of radiation-induced degradation of water pollutants.” Radiation Physics and Chemistry 65:437–446.
  • Hao, O.J., H. Kim, and P.C. Chiang. 2000. “Decoloration of wastewater.” Critical Review Environmental Science and Technology 30(4):449-506.
  • Kantoğlu, Ö. 2017. “Decoloration and Mineralization of Aqueous Solution of Cationic (Basic) Dye Astrazon Black FDL By Using Gamma Rays.” Radiochimica Acta 105(3):241.
  • Kim, T.H., J.K. Lee, and M.J. Lee. 2007. “Biodegradability enhancement of textile wastewater by electron beam irradiation.” Radiation Physics and Chemistry 76:1037–1041.
  • Krapfenbauer, K., H. Wolfger, N. Getoff, I. Hamblett, and S. Navaratnam. 2000. “Pulse radiolysis and chemical analysis of azo dyes in aqueous solution I. p-Phenylazoaniline.” Radiation Physics and Chemistry 58:21–27.
  • Lebsack, M.E., A.D. Anderson, G.M. DeGraeve, and H.L. Bergman. 1981. “Comparison of bacterial luminescence and fish bioassay result for fossil -fuel process waters and phenolic constituents.” Aquatic Toxicology and Hazard Assessment 348-356.
  • Lin, S.H., and C.M. Lin. 1993. “Treatment of textile waste effluent by ozonation and chemical coagulation.” Water Research 27(12):1743–1748.
  • Nigam, P., G. Armour, I.M. Banat, D. Singh, and R. Marchant. 2000. “Physical removal of textile dyes and solid state fermentation of dye adsorbed agricultural residues.” Bioresource Technology 72(3):219–226.
  • Pak, D., and W. Chang. 1999. “Decolorizing dye wastewater with low temperature catalytic oxidation.” Water Science and Technology 40(4):115–121.
  • Paul, J., K.P. Rawat, K.S.S. Sarma, andS Sabharwal (2011) Decoloration and degradation of reactive Red -120 dye by electron beam irradiation in aqueous solution. Appl Rad Isotop 69: 982-987.
  • Poster, D., Ö. Kantoğlu, M. Chaychian, P. Neta, R. Huie, J. Silverman, and M. Al-Sheikhly. 2004. “Radiolytic degradation of chlorinated contaminants in marine sediment with food-grade surfactants.” Organohalogen Compounds 66:1267-1272.
  • Robinson, T., B. Chandran, and P. Nigam. 2002. “Effect of pretreatments of three waste residues, wheat straw, corncobs and barley husks on dye adsorption.” Bioresource Technology 85(2):119–124.
  • Roder M., L. Wojnarovits, G. Foldiak, S.S. Emmi, G. Beggiato, and M. D’Angelantonio. 1999. “Addition and elimination kinetics in HO• radical induced oxidation of phenol and cresols in acidic and alkaline solutions.” Radiation Physics and Chemistry 54:475–479.
  • Sharma, K.K., B.S.M. Rao, H. Mohan, J.P. Mittal, J. Oakes, and P. O’Neill. 2002. “Free-radical-induced oxidation and reduction of 1-arylazo-2-naphtholdyes: A radiation chemical study.” Journal of Physical Chemistry A 106:2915–2923.
  • Tchobanoglous, G., F.L. Burton, and H.D. Stensel. 2003. Wastewater Engineering: Treatment and Reuse. New York:Metcalf & Eddy, Inc., McGraw Hill.
  • US EPA. 1996. “Best management practice for pollution prevention in the textile industry, EPA/625/R-96/004”. Ohio.
  • Wang, C., A. Yediler, D. Lienert, Z. Wang, and A. Kettrup. 2002. “Toxicity evaluation of reactive dyestuffs, auxiliaries and selected effluents in textile finishing industry to luminescent bacteria Vibrio fischeri.” Chemosphere 46:339-44.
  • Wojnarovits, L., T. Palfi, E. Takacs, and S.S. Emmi. 2005. “Reactivity differences of hydroxy radicals and hydrated electrons in destructing azo dyes.” Radiation Physics and Chemistry 74:239–246.
  • Wojnarovits, L., and E. Takacs. 2008. “Irradiation treatment of azo dye containing wastewater: an overview.” Radiation Physics and Chemistry: 225–244.
  • Yesilada, O., S. Cing, and D. Asma. 2002. “Decolourization of the textile dye Astrazon Red FBL by Funalia trogii pellets.” Bioresource Technology 81(2):155–157.
  • Zollinger, H. 1991. Colour Chemistry-Synthesis, Properties and Application of Organic Dyes and Pigments. NewYork:VCH.
  • Zwart, D.D., and W. Sloof. 1983. “The Microtox as an alternative assay in the acute toxicity assessment of water pollutants. National Institute for Water Supply.” Aquatic Toxicology 4:129-138.
Year 2021, Volume: 33 Issue: 1, 1 - 14, 18.11.2021

Abstract

Project Number

TAEK-A2.H5.F8, IAEA-CRP 23791

References

  • Aleboyeh, A., H. Aleboyeh, and Y. Moussa. 2003. “Critical effect of hydrogen peroxide in photochemical oxidative decolorization of dyes: acid orange 8, acid blue 74 and methyl orange.” Dyes and Pigments 57:67-75.
  • Bural, C.B., G.N. Demirer, Ö. Kantoğlu, and F.B. Dilek. 2010. “Treatment of Opium Alkaloid Containing Wastewater in Sequencing Batch Reactor (SBR) - Effect of Gamma Irradiation.” Radiation Physics and Chemistry 79:519-526.
  • Emmi, S.S., and E. Takacs. 2008. Radiation Chemistry, from Basics to Applications in Material and Life Sciences. France:EDP Sciences.
  • Garcia-Montano, J., F. Torrades, J.A. Garcia-Hortal, X. Domenech, and J. Peral. 2006. “Combining photo-Fenton process with aerobic sequencing batch reactor for commercial hetero-bireactive dye removal.” Applied Catalyst B Environmental 67:86–92.
  • Getoff, N. 1998. Environmental Applications of Ionizing Radiation. NewYork:Wiley.
  • Getoff, N. 1999. “Radiation Chemistry and The Environment.” Radiation Physics and Chemistry 54:377–384.
  • Getoff, N. 2002. “Factors influencing the efficiency of radiation-induced degradation of water pollutants.” Radiation Physics and Chemistry 65:437–446.
  • Hao, O.J., H. Kim, and P.C. Chiang. 2000. “Decoloration of wastewater.” Critical Review Environmental Science and Technology 30(4):449-506.
  • Kantoğlu, Ö. 2017. “Decoloration and Mineralization of Aqueous Solution of Cationic (Basic) Dye Astrazon Black FDL By Using Gamma Rays.” Radiochimica Acta 105(3):241.
  • Kim, T.H., J.K. Lee, and M.J. Lee. 2007. “Biodegradability enhancement of textile wastewater by electron beam irradiation.” Radiation Physics and Chemistry 76:1037–1041.
  • Krapfenbauer, K., H. Wolfger, N. Getoff, I. Hamblett, and S. Navaratnam. 2000. “Pulse radiolysis and chemical analysis of azo dyes in aqueous solution I. p-Phenylazoaniline.” Radiation Physics and Chemistry 58:21–27.
  • Lebsack, M.E., A.D. Anderson, G.M. DeGraeve, and H.L. Bergman. 1981. “Comparison of bacterial luminescence and fish bioassay result for fossil -fuel process waters and phenolic constituents.” Aquatic Toxicology and Hazard Assessment 348-356.
  • Lin, S.H., and C.M. Lin. 1993. “Treatment of textile waste effluent by ozonation and chemical coagulation.” Water Research 27(12):1743–1748.
  • Nigam, P., G. Armour, I.M. Banat, D. Singh, and R. Marchant. 2000. “Physical removal of textile dyes and solid state fermentation of dye adsorbed agricultural residues.” Bioresource Technology 72(3):219–226.
  • Pak, D., and W. Chang. 1999. “Decolorizing dye wastewater with low temperature catalytic oxidation.” Water Science and Technology 40(4):115–121.
  • Paul, J., K.P. Rawat, K.S.S. Sarma, andS Sabharwal (2011) Decoloration and degradation of reactive Red -120 dye by electron beam irradiation in aqueous solution. Appl Rad Isotop 69: 982-987.
  • Poster, D., Ö. Kantoğlu, M. Chaychian, P. Neta, R. Huie, J. Silverman, and M. Al-Sheikhly. 2004. “Radiolytic degradation of chlorinated contaminants in marine sediment with food-grade surfactants.” Organohalogen Compounds 66:1267-1272.
  • Robinson, T., B. Chandran, and P. Nigam. 2002. “Effect of pretreatments of three waste residues, wheat straw, corncobs and barley husks on dye adsorption.” Bioresource Technology 85(2):119–124.
  • Roder M., L. Wojnarovits, G. Foldiak, S.S. Emmi, G. Beggiato, and M. D’Angelantonio. 1999. “Addition and elimination kinetics in HO• radical induced oxidation of phenol and cresols in acidic and alkaline solutions.” Radiation Physics and Chemistry 54:475–479.
  • Sharma, K.K., B.S.M. Rao, H. Mohan, J.P. Mittal, J. Oakes, and P. O’Neill. 2002. “Free-radical-induced oxidation and reduction of 1-arylazo-2-naphtholdyes: A radiation chemical study.” Journal of Physical Chemistry A 106:2915–2923.
  • Tchobanoglous, G., F.L. Burton, and H.D. Stensel. 2003. Wastewater Engineering: Treatment and Reuse. New York:Metcalf & Eddy, Inc., McGraw Hill.
  • US EPA. 1996. “Best management practice for pollution prevention in the textile industry, EPA/625/R-96/004”. Ohio.
  • Wang, C., A. Yediler, D. Lienert, Z. Wang, and A. Kettrup. 2002. “Toxicity evaluation of reactive dyestuffs, auxiliaries and selected effluents in textile finishing industry to luminescent bacteria Vibrio fischeri.” Chemosphere 46:339-44.
  • Wojnarovits, L., T. Palfi, E. Takacs, and S.S. Emmi. 2005. “Reactivity differences of hydroxy radicals and hydrated electrons in destructing azo dyes.” Radiation Physics and Chemistry 74:239–246.
  • Wojnarovits, L., and E. Takacs. 2008. “Irradiation treatment of azo dye containing wastewater: an overview.” Radiation Physics and Chemistry: 225–244.
  • Yesilada, O., S. Cing, and D. Asma. 2002. “Decolourization of the textile dye Astrazon Red FBL by Funalia trogii pellets.” Bioresource Technology 81(2):155–157.
  • Zollinger, H. 1991. Colour Chemistry-Synthesis, Properties and Application of Organic Dyes and Pigments. NewYork:VCH.
  • Zwart, D.D., and W. Sloof. 1983. “The Microtox as an alternative assay in the acute toxicity assessment of water pollutants. National Institute for Water Supply.” Aquatic Toxicology 4:129-138.
There are 28 citations in total.

Details

Primary Language English
Subjects Metrology, Applied and Industrial Physics
Journal Section Research Article
Authors

Ömer Kantoğlu

Project Number TAEK-A2.H5.F8, IAEA-CRP 23791
Publication Date November 18, 2021
Published in Issue Year 2021 Volume: 33 Issue: 1

Cite

APA Kantoğlu, Ö. (2021). EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL. Turkish Journal of Nuclear Sciences, 33(1), 1-14.
AMA Kantoğlu Ö. EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL. Turkish Journal of Nuclear Sciences. November 2021;33(1):1-14.
Chicago Kantoğlu, Ömer. “EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL”. Turkish Journal of Nuclear Sciences 33, no. 1 (November 2021): 1-14.
EndNote Kantoğlu Ö (November 1, 2021) EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL. Turkish Journal of Nuclear Sciences 33 1 1–14.
IEEE Ö. Kantoğlu, “EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL”, Turkish Journal of Nuclear Sciences, vol. 33, no. 1, pp. 1–14, 2021.
ISNAD Kantoğlu, Ömer. “EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL”. Turkish Journal of Nuclear Sciences 33/1 (November 2021), 1-14.
JAMA Kantoğlu Ö. EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL. Turkish Journal of Nuclear Sciences. 2021;33:1–14.
MLA Kantoğlu, Ömer. “EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL”. Turkish Journal of Nuclear Sciences, vol. 33, no. 1, 2021, pp. 1-14.
Vancouver Kantoğlu Ö. EFFECTS OF HIGH ENERGITIC RADIATION ON THE REMOVAL AND DETOXIFICATION OF CATIONIC DYE ASTRAZON BLUE FGRL. Turkish Journal of Nuclear Sciences. 2021;33(1):1-14.