Kinetic study for photocatalytic degradation of Direct Red 23 in UV-LED/nano-TiO2/S2O82- process: Dependence of degradation kinetic on operational parameters

Mohammadhossein Rasoulifard; Mostafa Fazli; Mohammadreza Eskandarian

Journal of Industrial and Engineering Chemistry, Vol.20, No.5, 3695-3702, September, 2014

DOI10.1016/j.jiec.2013.12.068 Export Citation

Kinetic study for photocatalytic degradation of Direct Red 23 in UV-LED/nano-TiO2/S2O82- process: Dependence of degradation kinetic on operational parameters

Mohammadhossein Rasoulifard^†, Mostafa Fazli^{1, †}, and Mohammadreza Eskandarian¹

Laboratory of Water & Wastewater Treatment, Department of Chemistry, Faculty of Sciences, University of Zanjan, Zanjan, Iran
¹Department of Applied Chemistry, Faculty of Chemistry, University of Semnan, Semnan, Iran

E-mail:,

Present work involves the prospects of the kinetic study for photocatalytic degradation of Direct Red 23 using UV-LED/nano-TiO2/S2O82- procedure. Advantageously usages of UV-LEDs as illumination sources were collected to the advanced oxidation process in presence of immobilized nano-TiO2. Additionally, kinetic approach for various parameters in different conditions for decolorization has been studied. Results demonstrated that kinetic model of UV-LED/nano-TiO2/S2O82- process can effectively degrade DR23 dye with optimum conditions. A new kinetic model was suggested on the basis of intrinsic element reactions. The proposed kinetic model fairly resembled that dye decolorization was followed by the first order reaction.

Keywords:Kinetic study;Photodegradation;Photocatalysis;UV-LED;Direct Red 23

[References]

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Galinado C, Jacques P, Kalt A, Chemosphere, 45, 997 (2001)
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Meshko V, Markovska L, Mincheva M, Rodrigues AE, Water Res., 35, 3357 (2001)
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Sanches S, Crespo MTB, Pereira VJ, Water Res., 44, 1809 (2010)
Autin O, Romelot C, Rust L, Hart J, Jarvis P, MacAdam J, Parsons SA, Jefferson B, Chemosphere, 92, 745 (2013)
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Upadhya S, Ollis DF, J. Phys. Chem. B, 101(14), 2625 (1997)
Sczechowski JG, Koval CA, Noble RD, J. Photochem. Photobiol. A-Chem., 74, 273 (1993)
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Dutta S, Parsons SA, Bhattacharjee C, Jarvis P, Datta S, Bandyopadhyay S, Chem. Eng. J., 155(3), 674 (2009)
Brosillon S, Lhomme L, Vallet C, Bouzaza A, Wolbert D, Appl. Catal. B: Environ., 78(3-4), 232 (2008)
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[Referenced By]

[1] Purkait MK, Kumar VD, Maity D, Chem. Eng. J., 151(1-3), 275 (2009)

[2] Galinado C, Jacques P, Kalt A, Chemosphere, 45, 997 (2001)

[3] Tang Z, An H, Chemosphere, 31, 4157 (1995)

[4] Meshko V, Markovska L, Mincheva M, Rodrigues AE, Water Res., 35, 3357 (2001)

[5] Kuo WS, Ho PH, Chemosphere, 45, 77 (2001)

[6] Pereira VJ, Weinberg HS, Linden KG, Singer PC, Environ. Sci. Technol., 41, 1682 (2007)

[7] Chelme-Ayala P, El-Din MG, Smith DW, Water Res., 44, 2221 (2010)

[8] Sanches S, Crespo MTB, Pereira VJ, Water Res., 44, 1809 (2010)

[9] Autin O, Romelot C, Rust L, Hart J, Jarvis P, MacAdam J, Parsons SA, Jefferson B, Chemosphere, 92, 745 (2013)

[10] Wurtele MA, Kolbe T, Lipsz M, Kulberg A, Weyers M, Kneissl M, Jekel M, Water Res., 45, 1481 (2011)

[11] Hazime R, Nguyen QH, Ferronato C, Salvador A, Jaber F, Chovelon JM, Appl. Catal. B: Environ., 144, 286 (2014)

[12] Natarajan TS, Thomas M, Natarajan K, Bajaj HC, Tayade RJ, Chem. Eng. J., 169(1-3), 126 (2011)

[13] Chen HW, Ku Y, Wu CY, J. Chem. Technol. Biotechnol., 82(7), 626 (2007)

[14] Bak J, Ladefoged SD, Tvede M, Begovic T, Gregersen A, Biofouling, 26, 31 (2010)

[15] Shie JL, Lee CH, Chiou CS, Chang CT, Chang CC, Chang CY, J. Hazard. Mater., 155(1-2), 164 (2008)

[16] Tayade RJ, Natarajan TS, Bajaj HC, Ind. Eng. Chem. Res., 48(23), 10262 (2009)

[17] Vilhunen S, Puton J, Virkutyte J, Sillanpaa M, Environ. Technol., 32, 865 (2011)

[18] Chatterley C, Linden KG, J. Water Health, 8, 479 (2010)

[19] Ibrahim MAS, Commercial evaluation of UV.LED in water treatment applications, in: M.Sc. Thesis, Cranfield University, UK, 2012.

[20] Buechler KJ, Noble RD, Koval CA, Jacoby WA, Ind. Eng. Chem. Res., 38(3), 892 (1999)

[21] Stewart G, Fox AM, Res. Chem. Intermed., 21, 933 (1995)

[22] Upadhya S, Ollis DF, J. Phys. Chem. B, 101(14), 2625 (1997)

[23] Sczechowski JG, Koval CA, Noble RD, J. Photochem. Photobiol. A-Chem., 74, 273 (1993)

[24] Tokode OI, Prabhu R, Lawton LA, Robertson PKJ, J. Catal., 290, 138 (2012)

[25] Dutta S, Parsons SA, Bhattacharjee C, Jarvis P, Datta S, Bandyopadhyay S, Chem. Eng. J., 155(3), 674 (2009)

[26] Brosillon S, Lhomme L, Vallet C, Bouzaza A, Wolbert D, Appl. Catal. B: Environ., 78(3-4), 232 (2008)

[27] Emeline AV, Ryabchuk V, Serpone N, J. Photochem. Photobiol. A-Chem., 133, 89 (2000)

[28] De Heredia JB, Torregrosa J, Dominguez JR, Peres JA, J. Hazard. Mater., 83(3), 255 (2001)

[29] Khataee AR, Fathinia M, Aber S, Chem. Eng. Res. Des., 89(10A), 2110 (2011)

[30] Saien J, Soleymani AR, Sun JH, Desalination, 279(1-3), 298 (2011)

[31] Huang K, Chen FQ, Lu DW, Appl. Catal. A: Gen., 219(1-2), 61 (2001)

[32] ErdemGunay M, EmrahNikerel I, ToksoyOner E, Kirdar B, Yildirim R, Biochem. Eng. J., 42, 329 (2008)

[33] Bas D, Dudak FC, Boyaci IH, J. Food Eng., 79(4), 1152 (2007)

[34] Zarei M, Khataee AR, Ordikhani-Seyedlar R, Fathinia M, Electrochim. Acta, 55(24), 7259 (2010)