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Year 2023, Volume: 13 Issue: 1, 192 - 199, 01.03.2023

Murat Çelik Ekrem Aydın Aytekin Celik Engin Gürtekin

https://doi.org/10.21597/jist.1157037
Cited By: 1

Abstract

References

  • Alalm, M. G., Tawfik, A. & Ookawara, S. (2015). Degradation of four pharmaceuticals by solar photo-Fenton process: kinetics and costs estimation. Journal of Environmental Chemical Engineering, 3(1), 46-51.
  • Aydın, E., Şahin, M., Taşkan, E., Hasar, H. & Erdem, M. (2016). Chlortetracycline removal by using hydrogen based membrane biofilm reactor. Journal of Hazardous Materials, 320, 88-95.
  • Cahino, A. M., de Andrade, M. M. A., de Araújo, E. S., Silva, E. L., Cunha, C. D. O. & Rocha, E. M. R. (2018). Degradation of tetracycline by solar photo‐Fenton: Optimization and application in pilot photoreactor. Environmental Quality Management, 28(1), 101-106.
  • Çelik, A., Casey, E. ve Hasar, H. (2018). Degradation of oxytetracycline under autotrophic nitrifying conditions in a membrane aerated biofilm reactor and community fingerprinting. Journal of Hazardous Materials, 356, 26-33.
  • De la Cruz, N., Giménez, J., Esplugas, S., Grandjean, D., De Alencastro, L. F. & Pulgarin, C. (2012). Degradation of 32 emergent contaminants by UV and neutral photo-fenton in domestic wastewater effluent previously treated by activated sludge. Water Research, 46(6), 1947-1957.
  • Daghrir, R. & Drogui, P. (2013). Tetracycline antibiotics in the environment: a review. Environmental Chemistry Letter, 11(3), 209-227.
  • Dalgic, G., Turkdogan, I. F., Yetilmezsoy, K. & Kocak, E. (2017). Treatment of real paracetamol wastewater by Fenton process. Chemical Industry and Chemical Engineering Quarterly, 23(2), 177-186.
  • Elmolla, E. S. & Chaudhuri, M. (2009). Degradation of the antibiotics amoxicillin, ampicillin and cloxacillin in aqueous solution by the photo-Fenton process. Journal of Hazardous Materials, 172, 1476-1481.
  • Gürtekin, E. ve Şekerdağ, N. (2008). An advanced oxidation process: Fenton process. Pamukkale University Journal of Engineering Sciences, 14(3), 229-236.
  • Gürtekin,, E., Çelik, M., Aydın, E. ve Çelik, A. (2022). Degradation and mineralization of tetracycline by Fenton process. Environmental Research and Technology, 5(2), 181-187.
  • Hakika, D. C., Sarto, S., Mindaryani, A. & Hidayat, M. (2019). Decreasing COD in sugarcane vinasse using the fenton reaction: The effect of processing parameters. Catalysts, 9(11), 881.
  • Hammad Khan, M., Jung, H. S., Lee, W. & Jung, J. Y. (2013). Chlortetracycline degradation by photocatalytic ozonation in the aqueous phase: mineralization and the effects on biodegradability. Environmental Technology, 34(4), 495-502. Han, C. H., Park, H. D., Kim, S. B., Yargeau, V., Choi, J. W., Lee, S. H. & Park, J. A. (2020). Oxidation of tetracycline and oxytetracycline for the photo-Fenton process: Their transformation products and toxicity assessment. Water Research, 172, 115514.
  • Li, Z. J., Qi, W. N., Feng, Y., Liu, Y. W., Ebrahim, S. & Long, J. (2019). Degradation mechanisms of oxytetracycline in the environment. Journal of Integrative Agriculture, 18(9), 1953-1960.
  • Lima Santos, L. R., de Souza Moreira, C. P., Quinino Dutra, R. C., de Sousa Ribeiro Vasconcelos, O. M., Magalhães Starling, S. M. & Gomes Mol, M. P. (2021). Degradation of the pharmaceutical captopril via Fenton process. Environmental Engineering and Management Journal, 20(11), 1739-1744.
  • Liu, Y., He, X., Duan, X., Fu, Y. & Dionysiou, D. D. (2015). Photochemical degradation of oxytetracycline: influence of pH and role of carbonate radical. Chemical Engineering Journal, 276, 113-121.
  • Liu, Y., He, X., Duan, X., Fu, Y., Fatta-Kassinos, D. & Dionysiou, D. D. (2016). Significant role of UV and carbonate radical on the degradation of oxytetracycline in UV-AOPs: kinetics and mechanism. Water Research, 95, 195-204.
  • Liu, Y., Wang, C., Sui, Z. & Zou, D. (2018). Degradation of chlortetracycline using nano micro-electrolysis materials with loading copper. Separation and Purification Technology, 203, 29-35.
  • Ma, Y. S., Sung, C. F. & Lin, J. G. (2010). Degradation of carbofuran in aqueous solution by ultrasound and Fenton processes: effect of system parameters and kinetic study. Journal of Hazardous Materials, 178(1-3), 320-325.
  • Mousavi, S. A., Farrokhi, F., Kianirad, N. & Falahi, F. (2018). Degradation of aniline from aqueous solution by Fenton process: modeling and optimization. Desalination and Water Treatment, 125, 68-74.
  • Odabasi, S. U. ve Buyukgungor, H. (2017). Investigation and evaluation of degradability of ibuprofen from wastewater by using fenton process. European Journal of Engineering and Natural Sciences, 2(1), 114-119.
  • Sun, S. P., Guo, H. Q., Ke, Q., Sun, J. H., Shi, S. H., Zhang, M. & Zhou, Q. (2009). Degradation of antibiotic ciprofloxacin hydrochloride by photo-Fenton oxidation process. Environmental Engineering Science, 26(4), 753-759.
  • Şefika,, K. ve Yeliz, A. (2019). Evaluation of color and COD removal by Fenton and photo-Fenton processes from industrial paper wastewater. Journal of the Institute of Science and Technology, 9(3), 1539-1550. Vasseghian, Y., Almomani, F., Moradi, M. & Dragoi, E. N. (2022). Decontamination of toxic Malathion pesticide in aqueous solutions by Fenton-based processes: Degradation pathway, toxicity assessment and health risk assessment. Journal of Hazardous Materials, 423, 127016.
  • Verma, M. & Haritash, A. K. (2019). Degradation of amoxicillin by Fenton and Fenton-integrated hybrid oxidation processes. Journal of Environmental Chemical Engineering, 7(1), 102886.
  • Wang, J., Zhou, B., Ge, R., Song, T. S., Yu, J. & Xie, J. (2018). Degradation characterization and pathway analysis of chlortetracycline and oxytetracycline in a microbial fuel cell. RSC Advances, 8, 28613-28624.
  • Yang, J.F., Zhou, S. B., Xiao, A. G., Li, W. J. & Ying, G. G. (2014). Chemical oxidation of sulfadiazine by the Fenton process: kinetics, pathways, toxicity evaluation. Journal of Environmental Science and Health, Part B, 49(12), 909-916.

Degradation of Oxytetracycline and Chlortetracycline by Fenton Process

Year 2023, Volume: 13 Issue: 1, 192 - 199, 01.03.2023

Murat Çelik Ekrem Aydın Aytekin Celik Engin Gürtekin

https://doi.org/10.21597/jist.1157037
Cited By: 1

Abstract

In this study, degradation of oxytetracycline (OTC) and chlortetracycline (CTC) was investigated by Fenton process. In experimental studies conducted for this purpose, different values of pH, Fe2+ concentration, H2O2 concentration and reaction time were tested as important parameters for the Fenton process and optimum conditions for OTC and CTC removal were determined. For both antibiotics, the optimum values of the parameters in the Fenton process were the same, and these values were found to be 3 for pH, 20 mg/L for Fe2+ concentration, 25 mg/L for H2O2 concentration, 5 min for reaction time. Under these optimum conditions, OTC degradation was 100%, CTC degradation was 99.68%, chemical oxygen demand (COD) removal efficiency for oxytetracycline (O-COD) was 89.6%, COD removal efficiency for chlortetracycline (C-COD) was 88.5%. These results show that the Fenton process is an effective method that can be used for OTC and CTC degradation.

Keywords

Degradation Fenton process Oxytetracycline Chlortetracycline

References

  • Alalm, M. G., Tawfik, A. & Ookawara, S. (2015). Degradation of four pharmaceuticals by solar photo-Fenton process: kinetics and costs estimation. Journal of Environmental Chemical Engineering, 3(1), 46-51.
  • Aydın, E., Şahin, M., Taşkan, E., Hasar, H. & Erdem, M. (2016). Chlortetracycline removal by using hydrogen based membrane biofilm reactor. Journal of Hazardous Materials, 320, 88-95.
  • Cahino, A. M., de Andrade, M. M. A., de Araújo, E. S., Silva, E. L., Cunha, C. D. O. & Rocha, E. M. R. (2018). Degradation of tetracycline by solar photo‐Fenton: Optimization and application in pilot photoreactor. Environmental Quality Management, 28(1), 101-106.
  • Çelik, A., Casey, E. ve Hasar, H. (2018). Degradation of oxytetracycline under autotrophic nitrifying conditions in a membrane aerated biofilm reactor and community fingerprinting. Journal of Hazardous Materials, 356, 26-33.
  • De la Cruz, N., Giménez, J., Esplugas, S., Grandjean, D., De Alencastro, L. F. & Pulgarin, C. (2012). Degradation of 32 emergent contaminants by UV and neutral photo-fenton in domestic wastewater effluent previously treated by activated sludge. Water Research, 46(6), 1947-1957.
  • Daghrir, R. & Drogui, P. (2013). Tetracycline antibiotics in the environment: a review. Environmental Chemistry Letter, 11(3), 209-227.
  • Dalgic, G., Turkdogan, I. F., Yetilmezsoy, K. & Kocak, E. (2017). Treatment of real paracetamol wastewater by Fenton process. Chemical Industry and Chemical Engineering Quarterly, 23(2), 177-186.
  • Elmolla, E. S. & Chaudhuri, M. (2009). Degradation of the antibiotics amoxicillin, ampicillin and cloxacillin in aqueous solution by the photo-Fenton process. Journal of Hazardous Materials, 172, 1476-1481.
  • Gürtekin, E. ve Şekerdağ, N. (2008). An advanced oxidation process: Fenton process. Pamukkale University Journal of Engineering Sciences, 14(3), 229-236.
  • Gürtekin,, E., Çelik, M., Aydın, E. ve Çelik, A. (2022). Degradation and mineralization of tetracycline by Fenton process. Environmental Research and Technology, 5(2), 181-187.
  • Hakika, D. C., Sarto, S., Mindaryani, A. & Hidayat, M. (2019). Decreasing COD in sugarcane vinasse using the fenton reaction: The effect of processing parameters. Catalysts, 9(11), 881.
  • Hammad Khan, M., Jung, H. S., Lee, W. & Jung, J. Y. (2013). Chlortetracycline degradation by photocatalytic ozonation in the aqueous phase: mineralization and the effects on biodegradability. Environmental Technology, 34(4), 495-502. Han, C. H., Park, H. D., Kim, S. B., Yargeau, V., Choi, J. W., Lee, S. H. & Park, J. A. (2020). Oxidation of tetracycline and oxytetracycline for the photo-Fenton process: Their transformation products and toxicity assessment. Water Research, 172, 115514.
  • Li, Z. J., Qi, W. N., Feng, Y., Liu, Y. W., Ebrahim, S. & Long, J. (2019). Degradation mechanisms of oxytetracycline in the environment. Journal of Integrative Agriculture, 18(9), 1953-1960.
  • Lima Santos, L. R., de Souza Moreira, C. P., Quinino Dutra, R. C., de Sousa Ribeiro Vasconcelos, O. M., Magalhães Starling, S. M. & Gomes Mol, M. P. (2021). Degradation of the pharmaceutical captopril via Fenton process. Environmental Engineering and Management Journal, 20(11), 1739-1744.
  • Liu, Y., He, X., Duan, X., Fu, Y. & Dionysiou, D. D. (2015). Photochemical degradation of oxytetracycline: influence of pH and role of carbonate radical. Chemical Engineering Journal, 276, 113-121.
  • Liu, Y., He, X., Duan, X., Fu, Y., Fatta-Kassinos, D. & Dionysiou, D. D. (2016). Significant role of UV and carbonate radical on the degradation of oxytetracycline in UV-AOPs: kinetics and mechanism. Water Research, 95, 195-204.
  • Liu, Y., Wang, C., Sui, Z. & Zou, D. (2018). Degradation of chlortetracycline using nano micro-electrolysis materials with loading copper. Separation and Purification Technology, 203, 29-35.
  • Ma, Y. S., Sung, C. F. & Lin, J. G. (2010). Degradation of carbofuran in aqueous solution by ultrasound and Fenton processes: effect of system parameters and kinetic study. Journal of Hazardous Materials, 178(1-3), 320-325.
  • Mousavi, S. A., Farrokhi, F., Kianirad, N. & Falahi, F. (2018). Degradation of aniline from aqueous solution by Fenton process: modeling and optimization. Desalination and Water Treatment, 125, 68-74.
  • Odabasi, S. U. ve Buyukgungor, H. (2017). Investigation and evaluation of degradability of ibuprofen from wastewater by using fenton process. European Journal of Engineering and Natural Sciences, 2(1), 114-119.
  • Sun, S. P., Guo, H. Q., Ke, Q., Sun, J. H., Shi, S. H., Zhang, M. & Zhou, Q. (2009). Degradation of antibiotic ciprofloxacin hydrochloride by photo-Fenton oxidation process. Environmental Engineering Science, 26(4), 753-759.
  • Şefika,, K. ve Yeliz, A. (2019). Evaluation of color and COD removal by Fenton and photo-Fenton processes from industrial paper wastewater. Journal of the Institute of Science and Technology, 9(3), 1539-1550. Vasseghian, Y., Almomani, F., Moradi, M. & Dragoi, E. N. (2022). Decontamination of toxic Malathion pesticide in aqueous solutions by Fenton-based processes: Degradation pathway, toxicity assessment and health risk assessment. Journal of Hazardous Materials, 423, 127016.
  • Verma, M. & Haritash, A. K. (2019). Degradation of amoxicillin by Fenton and Fenton-integrated hybrid oxidation processes. Journal of Environmental Chemical Engineering, 7(1), 102886.
  • Wang, J., Zhou, B., Ge, R., Song, T. S., Yu, J. & Xie, J. (2018). Degradation characterization and pathway analysis of chlortetracycline and oxytetracycline in a microbial fuel cell. RSC Advances, 8, 28613-28624.
  • Yang, J.F., Zhou, S. B., Xiao, A. G., Li, W. J. & Ying, G. G. (2014). Chemical oxidation of sulfadiazine by the Fenton process: kinetics, pathways, toxicity evaluation. Journal of Environmental Science and Health, Part B, 49(12), 909-916.
There are 25 citations in total.

Details

Primary Language English
Subjects Environmental Engineering
Journal Section Çevre Mühendisliği / Environment Engineering
Authors

Murat Çelik 0000-0002-1038-3450

Ekrem Aydın 0000-0003-1985-7701

Aytekin Celik 0000-0003-4234-1797

Engin Gürtekin 0000-0003-3075-7891

Early Pub Date February 24, 2023
Publication Date March 1, 2023
Submission Date August 5, 2022
Acceptance Date October 31, 2022
Published in Issue Year 2023 Volume: 13 Issue: 1

Cite

APA Çelik, M., Aydın, E., Celik, A., Gürtekin, E. (2023). Degradation of Oxytetracycline and Chlortetracycline by Fenton Process. Journal of the Institute of Science and Technology, 13(1), 192-199. https://doi.org/10.21597/jist.1157037
AMA Çelik M, Aydın E, Celik A, Gürtekin E. Degradation of Oxytetracycline and Chlortetracycline by Fenton Process. J. Inst. Sci. and Tech. March 2023;13(1):192-199. doi:10.21597/jist.1157037
Chicago Çelik, Murat, Ekrem Aydın, Aytekin Celik, and Engin Gürtekin. “Degradation of Oxytetracycline and Chlortetracycline by Fenton Process”. Journal of the Institute of Science and Technology 13, no. 1 (March 2023): 192-99. https://doi.org/10.21597/jist.1157037.
EndNote Çelik M, Aydın E, Celik A, Gürtekin E (March 1, 2023) Degradation of Oxytetracycline and Chlortetracycline by Fenton Process. Journal of the Institute of Science and Technology 13 1 192–199.
IEEE M. Çelik, E. Aydın, A. Celik, and E. Gürtekin, “Degradation of Oxytetracycline and Chlortetracycline by Fenton Process”, J. Inst. Sci. and Tech., vol. 13, no. 1, pp. 192–199, 2023, doi: 10.21597/jist.1157037.
ISNAD Çelik, Murat et al. “Degradation of Oxytetracycline and Chlortetracycline by Fenton Process”. Journal of the Institute of Science and Technology 13/1 (March 2023), 192-199. https://doi.org/10.21597/jist.1157037.
JAMA Çelik M, Aydın E, Celik A, Gürtekin E. Degradation of Oxytetracycline and Chlortetracycline by Fenton Process. J. Inst. Sci. and Tech. 2023;13:192–199.
MLA Çelik, Murat et al. “Degradation of Oxytetracycline and Chlortetracycline by Fenton Process”. Journal of the Institute of Science and Technology, vol. 13, no. 1, 2023, pp. 192-9, doi:10.21597/jist.1157037.
Vancouver Çelik M, Aydın E, Celik A, Gürtekin E. Degradation of Oxytetracycline and Chlortetracycline by Fenton Process. J. Inst. Sci. and Tech. 2023;13(1):192-9.

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