Comparative study of nitrophenol removal from Karoon Petrochemical by electro-fenton and electro-persulfate process
Subject Areas :
1 - (Ph.D in Applied Chemistry)Department of Chemistry, Tehran Payame Noor University, Tehran, Iran.
Keywords: Petrochemical wastewater, Electro Fenton, Electro Pessulphate, 4-Nitophenol,
Abstract :
In this study, the degradation of 4-nitrophenol in aqueous environments was studied by Electro Fenton and Electro Persulphate in electrochemical batch reactor equipped with four iron electrodes and a direct power source. The results showed that the removal of 4-nitrophenole in Electro-Persulphate and electro Fentone were 99.2% and 94% at optimum operation condition including operational pH at 3, the initial concentration of 4-nitrophenol at 100 mg / l, hydrogen peroxide and persulphate at 0.5 mM, with the density of 0.1 A/dm2 and 60 min of reaction. The research results showed that the processes of electro-persulfate and electro-fenton had the same elimination efficiency in acidic media for 4-nitrophenol removal and, in general the combination of electrochemical with persulfate and hydrogen peroxide for electrical production of iron and activation of persulfate and hydrogen peroxide had more ability compared to separate use. The removal percent of COD in real wastewater samples with the initial COD of 5000 mg/l were 82 and 86% in ElectroFenton and Electro-persulfate processes, respectively.
[1] Shokri, A.; Russ J Appl Chem. 88, 2038−2043, 2015.
[2] Shokri, A.; Mahanpoor, K.; Soodbar, D.; J Environ Chem Eng 4, 585–598, 2016.
[3] Kermani, M.; Gholami, M.; Gholizodeh, A.; Farzadkia, M.; Iranian Journal of Health and Environment, 5(1), 107− 120, 2012.
[4] Shokri,A.; Mahanpoor, K.; Soodbar, D.; Fresen Environ Bull 25, 500-508, 2015.
[5] Shokri, A., “Industrial wastewater treatment by classical and advanced oxidation processes”, Amirkabir University of Technology Press, Tehran, 2019.
[6] Shokri, A.; Russ. J. Appl. Chem. 90, 452−457, 2017.
[7] Malakootian, M.; Asadi, M.; Mahvi, A.; Iranian Journal of Health and Environment, 5(4), 433− 444, 2013.
[8] Khataee, A.; Polish Journal of Chemical Technology 11(4), 38− 45, 2009.
[9] Li, S.X.; Hu, W.; Procedia Environmental Sciences 10, 1078− 1084, 2011.
[10] Ghauch, A.; Ayoub, G.; Naim, S.; Chemical Engineering Journal 228(0), 1168− 1181, 2013.
[11] Ghauch, A.; Tuqan, A.M.; Chemical Engineering Journal 183(0), 162− 171, 2012.
[12] Xu, X.R.; Li, X.Z.; Separation and Purification Technology 72(1), 105− 111, 2010.
[13] Oh, S.Y.; Kang, S.G.; Chiu, P.C.; Science of the Total Environment 408(16), 3464− 3468, 2010.
[14] Wu, J.; Zhang H.; Quin, J.; Journal of Hazardous Materials 215-216(0), 138− 145, 2010.
[15] Shokri, A.; Water Treat 111, 173–182, 2018.
[16] Wang, C.T.; Chou, W.L.; Chang, M.; Kuo, Y.; Desalination 253(1), 129− 134, 2010.
[17] Nidheesh, P.V.; Gandhimathi, R.; Desalination, 299(0), 1− 15, 2010.
[18] Shemer, H.; Linden, K.G.; Journal of Hazardous Materials, 136(3), 553− 559, 2006.
[19] Masomboon, N.; Ratanatamskul, C.; Lu, M.; Journal of Hazardous Materials 176(1− 3), 92− 98, 2010.
[20] Zhou, L.; Zheng, W.; Journal of Hazardous Materials 263, 2(0), 422− 430, 2013.
[21] Khataee, A.; Polish Journal of Chemical Technology 11(4), 38− 45, 2009.
[22] Rao, Y.F.; Qu, L.; Yang, H.; Chu, W.; Journal of Hazardous Materials 268, 23− 32, 2014.
[23] Li, C.W.; Chen, Y.M.; Chiou, Y.C.; Lin, C.K.; Journal of Hazardous Materials 144(1-2), 570− 576, 2007.
[24] Daneshvar, N.; Aber, S.;Vatanpour, V.; Rasoulifard, M.H.; Journal of Electroanalytical Chemistry 615(2), 165− 174, 2008.
[25] Shokri, A.; Iran j chem chem eng. 38(2), 113− 119, 2018.
[26] Long. Y.; Feng, X.; Li, N.; Suo, H.; Chen, Z.; Wang, Y.; Chemosphere 219, 1024− 1031, 2019.
[27] Kim, C.; YooKim, T.; Hwang, I.; Journal of Hazardous Materials 388, 2020, in Press.
[28] Rahmani, A.; Rezaeivahidian, H.; Almasi, M.; Shabanlo, A.; Almasi, H.; Res Chem Intermed. 42, 1441–1450, 2016.
[29] Shokri, A.; J Applied Res. Chem. 3, 67–78, 2016.
_||_[1] Shokri, A.; Russ J Appl Chem. 88, 2038−2043, 2015.
[2] Shokri, A.; Mahanpoor, K.; Soodbar, D.; J Environ Chem Eng 4, 585–598, 2016.
[3] Kermani, M.; Gholami, M.; Gholizodeh, A.; Farzadkia, M.; Iranian Journal of Health and Environment, 5(1), 107− 120, 2012.
[4] Shokri,A.; Mahanpoor, K.; Soodbar, D.; Fresen Environ Bull 25, 500-508, 2015.
[5] Shokri, A., “Industrial wastewater treatment by classical and advanced oxidation processes”, Amirkabir University of Technology Press, Tehran, 2019.
[6] Shokri, A.; Russ. J. Appl. Chem. 90, 452−457, 2017.
[7] Malakootian, M.; Asadi, M.; Mahvi, A.; Iranian Journal of Health and Environment, 5(4), 433− 444, 2013.
[8] Khataee, A.; Polish Journal of Chemical Technology 11(4), 38− 45, 2009.
[9] Li, S.X.; Hu, W.; Procedia Environmental Sciences 10, 1078− 1084, 2011.
[10] Ghauch, A.; Ayoub, G.; Naim, S.; Chemical Engineering Journal 228(0), 1168− 1181, 2013.
[11] Ghauch, A.; Tuqan, A.M.; Chemical Engineering Journal 183(0), 162− 171, 2012.
[12] Xu, X.R.; Li, X.Z.; Separation and Purification Technology 72(1), 105− 111, 2010.
[13] Oh, S.Y.; Kang, S.G.; Chiu, P.C.; Science of the Total Environment 408(16), 3464− 3468, 2010.
[14] Wu, J.; Zhang H.; Quin, J.; Journal of Hazardous Materials 215-216(0), 138− 145, 2010.
[15] Shokri, A.; Water Treat 111, 173–182, 2018.
[16] Wang, C.T.; Chou, W.L.; Chang, M.; Kuo, Y.; Desalination 253(1), 129− 134, 2010.
[17] Nidheesh, P.V.; Gandhimathi, R.; Desalination, 299(0), 1− 15, 2010.
[18] Shemer, H.; Linden, K.G.; Journal of Hazardous Materials, 136(3), 553− 559, 2006.
[19] Masomboon, N.; Ratanatamskul, C.; Lu, M.; Journal of Hazardous Materials 176(1− 3), 92− 98, 2010.
[20] Zhou, L.; Zheng, W.; Journal of Hazardous Materials 263, 2(0), 422− 430, 2013.
[21] Khataee, A.; Polish Journal of Chemical Technology 11(4), 38− 45, 2009.
[22] Rao, Y.F.; Qu, L.; Yang, H.; Chu, W.; Journal of Hazardous Materials 268, 23− 32, 2014.
[23] Li, C.W.; Chen, Y.M.; Chiou, Y.C.; Lin, C.K.; Journal of Hazardous Materials 144(1-2), 570− 576, 2007.
[24] Daneshvar, N.; Aber, S.;Vatanpour, V.; Rasoulifard, M.H.; Journal of Electroanalytical Chemistry 615(2), 165− 174, 2008.
[25] Shokri, A.; Iran j chem chem eng. 38(2), 113− 119, 2018.
[26] Long. Y.; Feng, X.; Li, N.; Suo, H.; Chen, Z.; Wang, Y.; Chemosphere 219, 1024− 1031, 2019.
[27] Kim, C.; YooKim, T.; Hwang, I.; Journal of Hazardous Materials 388, 2020, in Press.
[28] Rahmani, A.; Rezaeivahidian, H.; Almasi, M.; Shabanlo, A.; Almasi, H.; Res Chem Intermed. 42, 1441–1450, 2016.
[29] Shokri, A.; J Applied Res. Chem. 3, 67–78, 2016.
