Wastewater Treatment of Oil Refineries by Using of UV-Assisted Fenton Process
Subject Areas :
Environment Pullotion (water and wastewater)
Hadi Shayegh
1
,
Hamid Kazemi Esfe
2
,
Hossein Hosseini
3
1 - M.Sc., Chemical Engineering-Process Engineering, Islamic Azad university of Abadan, Abadan, Iran.
2 - Assistant Professor, Chemical Engineering, Islamic Azad University, Mahshahr Unit, Mahshahr, Iran. *(Corresponding Author)
3 - Assistant Professor, Department of Chemical Engineering, Islamic Azad University, Abadan Branch, Abadan, Iran.
Received: 2018-07-28
Accepted : 2019-08-07
Published : 2021-07-23
Keywords:
Fenton Process,
COD,
BOD,
Wastewater treatment,
Ultra Violet,
Abstract :
Background and Objective: The removal of heavy hydrocarbons and biological wastewater is generally difficult. Finding a suitable way to eliminate or reduce these factors is one of the goals of this research.Materials and Methodology: Although there are special processes for removing or reducing the hydrocarbon and biological load of water, but in industrial wastewater containing hydrocarbon, the evaluation of advanced oxidation processes can reduce not only the burden of the wastewater but also reduce the Biological bad effects. Therefore, in the present study, an experimental study of COD, BOD and O & G reduction using Fenton reaction with ultra-violet irridiation has been investigated.Results: A sample of industrial waste from one of the refineries was prepared. According to the results, the optimal conditions for COD removal was observed as follow: irradiation time 30 minutes, pH=3, temperature=35°C, water content=85 ml of oxygen dissolved in water than 250 ml of wastewater and COD removal was observed up to 45.44%. The optimal conditions for removing O&G were: 23 min, pH=3, temperature 35°C, dissolved oxygen content of 85 ml, compared to 250 ml of wastewater. Also O&G was eliminated to 89.8%. The optimal conditions for removing BOD were: the irradiation time is 20 minutes, pH=4, the temperature is 25°C, the soluble oxygen content is 65 ml, compared to 250 ml of the wastewater and the removal of BOD was observed to be 49.82%.Discussion and Conclusion: Laboratory study of COD, BOD and O&G reduction in wastewater was investigated by using Fenton reaction with ultraviolet irridiation. It was found that the Fenton method with ultraviolet irridiation is a suitable method for the removal or reduction of COD, BOD and O&G in refinery wastewater.
References:
Dehghani, S., Jonidi jafari, A., Farzadkia, M., Gholami, M., Investigation of the efficiency of Fenton’s advanced oxidation process in sulfadiazine antibiotic removal from aqueous solutions. Arak Medical University Journal , Vol.15, pp.19-29.(In Persian)
Sheng, H., Cho,, 1997. Fenton process for treatment of desizing wastewater. Water Research, Vol.31, pp. 2050-2056.
Bum, G., Dong, S., Namgoo, K., Jeyong, , 1999. Characteristics of p-chlorophenol oxidation by Fenton's reagent. Water Research,Vol.33, pp.2110-2118.
Yun, W., Kyung-Yub, H., 2000. Effects of reaction conditions on the oxidation efficiency in the Fenton process, Water Research, 34, pp.2786-2790.
Benitez, F., Acero, J., Real, F., Rubio, F., Leal, A., 2001. The role of hydroxyl radicals for the decomposition of p-hydroxy phenylacetic acid in aqueous solutions. Water Research, Vol.35, pp.1338-1343.
Rivas, , Beltrán, F., Frades, J., Buxeda, P., 2001. Oxidation of p-hydroxybenzoic acid by Fenton's reagent. Water Research, Vol.35, pp.387-396.
Bayat Beed Koupeh, R., Ebrahimi, M., Keyvani,, 2012. Removal of Acid red 206 Dye in Pollutant Water by ZnFe2O4/Bentonite as a Nanophotocatalyst in Batch Reactor Using Taguachi Method. Journal of Water & Wastewater, Vol.24, pp.128-136. (In Persian)
ISO 5815-1:2003, 2003. Water Quality, Determination of Biochemical Oxygen Demand after N Days (BODn), Part 1: Dilution and Seeding Method with Allylthiourea Addition. See Information in: https://www.iso.org/standard/31090.html
ISO 5815-2:2003, 2003. Water Quality, Determination of Biochemical Oxygen Demand after N Days (BODn), Part 2: Method for Undiluted Samples. See Information in: https://www.iso.org/standard/31091.html
Al-Harbawi, F.Q., Mohammed, M.H., Yakoob, N.A., 2013. Use of Fenton's Reagent for Removal of Organics from Ibn Al-Atheer Hospital Wastewater in Mosul City. College of Engineering- Environmental Department, Vol.21, pp.127-135.
Biglari, H., Joneidi Jafari, A., Kord Mostafapour, F., Bazrafshan, E., Removal of Dissolved Organic Carbon from aqueous solution by Fenton Oxidation Process. Journal of Birjand University of Medical Sciences, Vol.19, pp.70-80. (In Persian)
Mousavi, S.A., Mahvi, A.H., Mesdaghinia, A., 2009. Fenton Oxidation Efficiency in Removal of Detergents from Water. Water & Wastewater, Vol.4, pp.16-23. Persian
Younesi, H., Mahdad, F., Bahramifar, N., Hadavifar, M., 2017. Optimization of Compost Leachate Treatment Using Advanced Oxidation Process H2O2/UV. Modares Civil Engineering Journal,17, pp.247-258. In Persian
Yousef, N., A.Shaban, S., A.Ibrahim, F., S.Mahmoud, A., 2016. Degradation of methyl orange using Fenton catalytic reaction. Egyption Journal of petroleum, Vol.25, pp.317-321.
Fernandes,C., Brito, L.B., Costa, G.G., Taveira, S.F., Cunha-Filho, M.S.S., Oliveira, G.A.R., Marreto, R.N., 2018. Removel of azo dye using Fenton and Fenton-like processes: Evaluation of process factors by Box-Behnken design and ecotoxicity tests. Chemico-Biological Intractions, Vol.291, pp.47-54.
Cetinkaya, S.G., Morcali, M.H., Akarsu, S., Ziba, C.A., Dolaz, M., 2018. Comparison of classic Fenton with ultrasound Fenton process on industrial textile waste water. Sustainable Environment Research, Vol.28, 165-170.
Verma, , Haritash, A.K., 2019. Degradation of amoxicillin by Fenton and Fenton-integrated hybrid oxidation processes. Journal of Environmental Chemical Engineering, In Press.
_||_
Dehghani, S., Jonidi jafari, A., Farzadkia, M., Gholami, M., Investigation of the efficiency of Fenton’s advanced oxidation process in sulfadiazine antibiotic removal from aqueous solutions. Arak Medical University Journal , Vol.15, pp.19-29.(In Persian)
Sheng, H., Cho,, 1997. Fenton process for treatment of desizing wastewater. Water Research, Vol.31, pp. 2050-2056.
Bum, G., Dong, S., Namgoo, K., Jeyong, , 1999. Characteristics of p-chlorophenol oxidation by Fenton's reagent. Water Research,Vol.33, pp.2110-2118.
Yun, W., Kyung-Yub, H., 2000. Effects of reaction conditions on the oxidation efficiency in the Fenton process, Water Research, 34, pp.2786-2790.
Benitez, F., Acero, J., Real, F., Rubio, F., Leal, A., 2001. The role of hydroxyl radicals for the decomposition of p-hydroxy phenylacetic acid in aqueous solutions. Water Research, Vol.35, pp.1338-1343.
Rivas, , Beltrán, F., Frades, J., Buxeda, P., 2001. Oxidation of p-hydroxybenzoic acid by Fenton's reagent. Water Research, Vol.35, pp.387-396.
Bayat Beed Koupeh, R., Ebrahimi, M., Keyvani,, 2012. Removal of Acid red 206 Dye in Pollutant Water by ZnFe2O4/Bentonite as a Nanophotocatalyst in Batch Reactor Using Taguachi Method. Journal of Water & Wastewater, Vol.24, pp.128-136. (In Persian)
ISO 5815-1:2003, 2003. Water Quality, Determination of Biochemical Oxygen Demand after N Days (BODn), Part 1: Dilution and Seeding Method with Allylthiourea Addition. See Information in: https://www.iso.org/standard/31090.html
ISO 5815-2:2003, 2003. Water Quality, Determination of Biochemical Oxygen Demand after N Days (BODn), Part 2: Method for Undiluted Samples. See Information in: https://www.iso.org/standard/31091.html
Al-Harbawi, F.Q., Mohammed, M.H., Yakoob, N.A., 2013. Use of Fenton's Reagent for Removal of Organics from Ibn Al-Atheer Hospital Wastewater in Mosul City. College of Engineering- Environmental Department, Vol.21, pp.127-135.
Biglari, H., Joneidi Jafari, A., Kord Mostafapour, F., Bazrafshan, E., Removal of Dissolved Organic Carbon from aqueous solution by Fenton Oxidation Process. Journal of Birjand University of Medical Sciences, Vol.19, pp.70-80. (In Persian)
Mousavi, S.A., Mahvi, A.H., Mesdaghinia, A., 2009. Fenton Oxidation Efficiency in Removal of Detergents from Water. Water & Wastewater, Vol.4, pp.16-23. Persian
Younesi, H., Mahdad, F., Bahramifar, N., Hadavifar, M., 2017. Optimization of Compost Leachate Treatment Using Advanced Oxidation Process H2O2/UV. Modares Civil Engineering Journal,17, pp.247-258. In Persian
Yousef, N., A.Shaban, S., A.Ibrahim, F., S.Mahmoud, A., 2016. Degradation of methyl orange using Fenton catalytic reaction. Egyption Journal of petroleum, Vol.25, pp.317-321.
Fernandes,C., Brito, L.B., Costa, G.G., Taveira, S.F., Cunha-Filho, M.S.S., Oliveira, G.A.R., Marreto, R.N., 2018. Removel of azo dye using Fenton and Fenton-like processes: Evaluation of process factors by Box-Behnken design and ecotoxicity tests. Chemico-Biological Intractions, Vol.291, pp.47-54.
Cetinkaya, S.G., Morcali, M.H., Akarsu, S., Ziba, C.A., Dolaz, M., 2018. Comparison of classic Fenton with ultrasound Fenton process on industrial textile waste water. Sustainable Environment Research, Vol.28, 165-170.
Verma, , Haritash, A.K., 2019. Degradation of amoxicillin by Fenton and Fenton-integrated hybrid oxidation processes. Journal of Environmental Chemical Engineering, In Press.
