Araştırma Makalesi
Yıl 2023,
Cilt: 27 Sayı: 3, 512 - 522, 30.06.2023
Öz
Kaynakça
- S. Y. Güvenç, “Optimization of COD removal from leachate nanofiltration concentrate using H2O2/Fe+2/heat–Activated persulfate oxidation processes”, Process Safety and Environmental Protection vol. 126 pp. 7, 2019.
- R. Lafi, L. Gzara, R. H. Lajimi, A. Hafiane, “Treatment of textile wastewater by a hybrid ultrafiltration/electrodialysis process”, Chemical Engineering & Processing: Process Intensification, vol. 132, pp. 105113, 2018.
- S. C. Azimi, F. Shirini, A. Pendashteh, “Evaluation of cod and turbidity removal from woodchips wastewater using biologically sequenced batch reactor”, Process Safety and Environmental Protection, vol. 128, pp. 211-227, 2019.
- N. Abedinzadeh, M. Shariat, S. M. Monavari, A. Pendashteh, “Evaluation of color and COD removal by Fenton from biologically (SBR) pre-treated pulp and paper wastewater”, Process Safety and Environmental Protection vol. 116, pp. 82-91, 2018.
- E. Neyens, J. Baeyens, “A review of classic Fenton’s peroxidation as an advanced oxidation technique”, Journal of Hazardous Materials, vol. B98 pp. 33–50, 2003.
- P. Asaithambi, R. Govindarajan, M. B. Yesuf, E. Alemayehun, “Removal of color, COD and determination of power consumption from landfill leachate wastewater using an electrochemical advanced oxidation processes”, Separation and Purification Technology, vol. 233, pp. 115935, 2020.
- G. Meng, N. Jiang, Y. Wang, H. Zhang, Y. Tang, Y. Lv, J. Bai, “Treatment of coking wastewater in a heterogeneous electro-Fenton system: Optimization of treatment parameters, characterization, and removal mechanism”, Journal of Water Process Engineering, vol. 45, pp. 102482, 2022.
- D. E. G. Trigueros, L. Braun, C. L. Hinterholz, “Environmental and economic feasibility of the treatment of dairy industry wastewater by photo-Fenton and electrocoagulation process: Multicriteria optimization by desirability function”, Journal of Photochemistry and Photobiology, A: Chemistry vol. 427, pp. 113820, 2022.
- E. Can-Güven, “Advanced treatment of dye manufacturing wastewater by electrocoagulation and electro-Fenton processes: Effect on COD fractions, energy consumption, and sludge analysis”, Journal of Environmental Management, vol. 300, 113784, 2021.
- W. P. Ting, M. C. Lu, Y. H. Huang, “The reactor design and comparison of Fenton, electro-Fenton and photoelectron-Fenton processes for mineralization of benzene sulfonic acid (BSA)”, Journal of Hazardous Materials., vol. 156, pp. 421-427, 2008.
- A. Babuponnusami, K. Muthukumar, “Advanced oxidation of phenol: A comparison between Fenton, electro-Fenton, sono-electro-Fenton and photo-electro-Fenton processes”, Chemical Engineering Journal, vol. 183, pp. 1-9, 2012.
- American Public Health Association (APHA), Standard Methods for the Examination of Waste and Wastewater (19th ed.), Washington, 2005.
- S. G. Çetinkaya, M. H. Morcali, S. Akarsu, C.A. Ziba, M. Dolaz, “Comparison of classic Fenton with ultrasound Fenton processes on industrial textile wastewater”, Sustainable Environment Research, vol. 28, pp. 165-170, 2018.
- Oliveira, R., Almeida, M. F., Santos, L., Madeira, L.M., “Experimental design of 2, 4- dichlorophenol oxidation by Fenton’s reaction”, Industrial Engineering Chemistry Research, Vol. 45, pp. 1266–1276, 2006.
- Torrades, F., Garcia-Montano, J., “Using central composite experimental design to optimize the degradation of real dye wastewater by Fenton and photo-Fenton reactions”, Dyes Pigments, vol. 100, pp. 184–189, 2014.
- X. Su, X. Li, L. Ma, J. Fan, “Formation and transformation of schwertmannite in the classic Fenton process”, Journal of Environmental Sciences, vol. 82, pp. 145-154, 2019.
- E. Brillas, E. Mur, J. Casado, “Iron (II) catalysis of the mineralization of aniline using a Carbon‐PTFE O 2‐Fed cathode”, Journal of the Electrochemical Society, vol. 143, no. 3, pp. L49-L53, 1996.
- J. Casado, “Towards industrial implementation of Electro-Fenton and derived technologies for wastewater treatment: A review”, Journal of Environmental Chemical Engineering vol. 7, pp. 102823, 2019.
- M. H. Zhang, H. Dong, L. Zhao, De-xi Wang, Di Meng, “A review on Fenton process for organic wastewater treatment based on optimization perspective”, Science of the Total Environment, vol. 670, pp. 110–121, 2019.
- M. Muruganandham, M. Swaminathan, “Decolourisation of Reactive Orange 4 by Fenton and photo-Fenton oxidation technology”, Dyes and Pigments, vol. 63, pp. 315-321, 2004.
- F. J. Rivas, F. J. Beltran, J. Frades, P. Buxeda, “Oxidation of p-hydroxybenzoic acid by Fenton's reagent”, Water Research vol. 35, pp. 387–396, 2001.
- X. H. Li, S. Chen, I. Angelidaki, Y. F. Zhang, “Bio-electro-Fenton processes for wastewater treatment: advances and prospects”, Chemical Engineering Journal, vol. 354, pp. 492–506, 2008.
- N. Borràs, R. Oliver, C. Arias, E. Brillas, “Degradation of atrazine by electrochemical advanced oxidation processes using a boron-doped diamond anode”, Journal of Physical Chemistry A, 114, pp. 6613–6621, 2010.
- Hu, C. J., Huang, D. L., Zeng, G. M., Cheng, M., Gong, X. M., Wang, R. Z., Xue, W. J., Hu, Z. X., Liu, Y. N., “The combination of Fenton process and phanerochaete chrysosporium for the removal of bisphenol A in river sediments: mechanism related to extracellular enzyme, organic acid and iron”, Chemical Engineering Journal No. 338, pp. 432–439, 2018.
- N. Kang, D. S. Lee, J. Yoon, “Kinetic modeling of Fenton oxidation of phenol and monochlorophenols”, Chemosphere, vol. 47, pp. 915-924, 2002.
- H. Kusic, N. Koprivanac, A. L. Bozic, I. Selanec, “Photo-assisted Fenton type processes for the degradation of phenol: A kinetic study”, Journal of Hazardous Materials, no. B136, pp. 632-644, 2006.
- E. Brillas, I Sires, M. A. Oturan, “Electro-Fenton Process and Related Electrochemical Technologies Based on Fenton’s Reaction Chemistry”, Chemistry, vol. 109 no. 12, pp. 6570-6631, 2009.
- S. Chon, Y. H. Huang, S. N. Lee, G. H. Huang, “Treatment of high strength hexaminecontaining wastewater by electro-Fenton method”, Water Research, no. 33, pp. 751-759, 1999.
- Y. Li, H. Cheng, “Chemical kinetic modeling of organic pollutant degradation in Fenton and solar photo-Fenton processes”, Journal of the Taiwan Institute of Chemical Engineers, no. 123, pp. 175-184, 2021.
Application of Classical Fenton Process and Advanced Photo Electro Fenton Process for the Degradation of COD from Wood Processing Wastewater: A Comparative Study
Öz
In this study, Chemical Oxygen Demand (COD) removal efficiency from wood processing wastewaters by Fenton Process (FP) and Photo Electro Fenton Process (PEFP) were examined. Important operating parameters such as pH, Fe+2 concentration/(amper for PEFP), H2O2 concentration and reaction time were optimized. Optimum operation conditions of the FP were pH 3.5, 1.4 gr/L Fe2+ concentration and 50 gr/L H2O2 concentration and 150 min. reaction time while they were pH 3.00, 9.99 mA/cm2 current density and 70 gr/L H2O2 concentration and 150 min reaction time in PEFP. At the optimum conditions, COD removal efficiency of FP and PEFP was 91% and 99%, respectively. Sludge production of FP was 20% higher than PEFP at the optimum conditions.
Anahtar Kelimeler
Wood processing wastewater Fenton process photo electro Fenton process
Kaynakça
- S. Y. Güvenç, “Optimization of COD removal from leachate nanofiltration concentrate using H2O2/Fe+2/heat–Activated persulfate oxidation processes”, Process Safety and Environmental Protection vol. 126 pp. 7, 2019.
- R. Lafi, L. Gzara, R. H. Lajimi, A. Hafiane, “Treatment of textile wastewater by a hybrid ultrafiltration/electrodialysis process”, Chemical Engineering & Processing: Process Intensification, vol. 132, pp. 105113, 2018.
- S. C. Azimi, F. Shirini, A. Pendashteh, “Evaluation of cod and turbidity removal from woodchips wastewater using biologically sequenced batch reactor”, Process Safety and Environmental Protection, vol. 128, pp. 211-227, 2019.
- N. Abedinzadeh, M. Shariat, S. M. Monavari, A. Pendashteh, “Evaluation of color and COD removal by Fenton from biologically (SBR) pre-treated pulp and paper wastewater”, Process Safety and Environmental Protection vol. 116, pp. 82-91, 2018.
- E. Neyens, J. Baeyens, “A review of classic Fenton’s peroxidation as an advanced oxidation technique”, Journal of Hazardous Materials, vol. B98 pp. 33–50, 2003.
- P. Asaithambi, R. Govindarajan, M. B. Yesuf, E. Alemayehun, “Removal of color, COD and determination of power consumption from landfill leachate wastewater using an electrochemical advanced oxidation processes”, Separation and Purification Technology, vol. 233, pp. 115935, 2020.
- G. Meng, N. Jiang, Y. Wang, H. Zhang, Y. Tang, Y. Lv, J. Bai, “Treatment of coking wastewater in a heterogeneous electro-Fenton system: Optimization of treatment parameters, characterization, and removal mechanism”, Journal of Water Process Engineering, vol. 45, pp. 102482, 2022.
- D. E. G. Trigueros, L. Braun, C. L. Hinterholz, “Environmental and economic feasibility of the treatment of dairy industry wastewater by photo-Fenton and electrocoagulation process: Multicriteria optimization by desirability function”, Journal of Photochemistry and Photobiology, A: Chemistry vol. 427, pp. 113820, 2022.
- E. Can-Güven, “Advanced treatment of dye manufacturing wastewater by electrocoagulation and electro-Fenton processes: Effect on COD fractions, energy consumption, and sludge analysis”, Journal of Environmental Management, vol. 300, 113784, 2021.
- W. P. Ting, M. C. Lu, Y. H. Huang, “The reactor design and comparison of Fenton, electro-Fenton and photoelectron-Fenton processes for mineralization of benzene sulfonic acid (BSA)”, Journal of Hazardous Materials., vol. 156, pp. 421-427, 2008.
- A. Babuponnusami, K. Muthukumar, “Advanced oxidation of phenol: A comparison between Fenton, electro-Fenton, sono-electro-Fenton and photo-electro-Fenton processes”, Chemical Engineering Journal, vol. 183, pp. 1-9, 2012.
- American Public Health Association (APHA), Standard Methods for the Examination of Waste and Wastewater (19th ed.), Washington, 2005.
- S. G. Çetinkaya, M. H. Morcali, S. Akarsu, C.A. Ziba, M. Dolaz, “Comparison of classic Fenton with ultrasound Fenton processes on industrial textile wastewater”, Sustainable Environment Research, vol. 28, pp. 165-170, 2018.
- Oliveira, R., Almeida, M. F., Santos, L., Madeira, L.M., “Experimental design of 2, 4- dichlorophenol oxidation by Fenton’s reaction”, Industrial Engineering Chemistry Research, Vol. 45, pp. 1266–1276, 2006.
- Torrades, F., Garcia-Montano, J., “Using central composite experimental design to optimize the degradation of real dye wastewater by Fenton and photo-Fenton reactions”, Dyes Pigments, vol. 100, pp. 184–189, 2014.
- X. Su, X. Li, L. Ma, J. Fan, “Formation and transformation of schwertmannite in the classic Fenton process”, Journal of Environmental Sciences, vol. 82, pp. 145-154, 2019.
- E. Brillas, E. Mur, J. Casado, “Iron (II) catalysis of the mineralization of aniline using a Carbon‐PTFE O 2‐Fed cathode”, Journal of the Electrochemical Society, vol. 143, no. 3, pp. L49-L53, 1996.
- J. Casado, “Towards industrial implementation of Electro-Fenton and derived technologies for wastewater treatment: A review”, Journal of Environmental Chemical Engineering vol. 7, pp. 102823, 2019.
- M. H. Zhang, H. Dong, L. Zhao, De-xi Wang, Di Meng, “A review on Fenton process for organic wastewater treatment based on optimization perspective”, Science of the Total Environment, vol. 670, pp. 110–121, 2019.
- M. Muruganandham, M. Swaminathan, “Decolourisation of Reactive Orange 4 by Fenton and photo-Fenton oxidation technology”, Dyes and Pigments, vol. 63, pp. 315-321, 2004.
- F. J. Rivas, F. J. Beltran, J. Frades, P. Buxeda, “Oxidation of p-hydroxybenzoic acid by Fenton's reagent”, Water Research vol. 35, pp. 387–396, 2001.
- X. H. Li, S. Chen, I. Angelidaki, Y. F. Zhang, “Bio-electro-Fenton processes for wastewater treatment: advances and prospects”, Chemical Engineering Journal, vol. 354, pp. 492–506, 2008.
- N. Borràs, R. Oliver, C. Arias, E. Brillas, “Degradation of atrazine by electrochemical advanced oxidation processes using a boron-doped diamond anode”, Journal of Physical Chemistry A, 114, pp. 6613–6621, 2010.
- Hu, C. J., Huang, D. L., Zeng, G. M., Cheng, M., Gong, X. M., Wang, R. Z., Xue, W. J., Hu, Z. X., Liu, Y. N., “The combination of Fenton process and phanerochaete chrysosporium for the removal of bisphenol A in river sediments: mechanism related to extracellular enzyme, organic acid and iron”, Chemical Engineering Journal No. 338, pp. 432–439, 2018.
- N. Kang, D. S. Lee, J. Yoon, “Kinetic modeling of Fenton oxidation of phenol and monochlorophenols”, Chemosphere, vol. 47, pp. 915-924, 2002.
- H. Kusic, N. Koprivanac, A. L. Bozic, I. Selanec, “Photo-assisted Fenton type processes for the degradation of phenol: A kinetic study”, Journal of Hazardous Materials, no. B136, pp. 632-644, 2006.
- E. Brillas, I Sires, M. A. Oturan, “Electro-Fenton Process and Related Electrochemical Technologies Based on Fenton’s Reaction Chemistry”, Chemistry, vol. 109 no. 12, pp. 6570-6631, 2009.
- S. Chon, Y. H. Huang, S. N. Lee, G. H. Huang, “Treatment of high strength hexaminecontaining wastewater by electro-Fenton method”, Water Research, no. 33, pp. 751-759, 1999.
- Y. Li, H. Cheng, “Chemical kinetic modeling of organic pollutant degradation in Fenton and solar photo-Fenton processes”, Journal of the Taiwan Institute of Chemical Engineers, no. 123, pp. 175-184, 2021.
Toplam 29 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Çevre Mühendisliği |
| Bölüm | Araştırma Makalesi |
| Yazarlar | |
| Erken Görünüm Tarihi | 22 Haziran 2023 |
| Yayımlanma Tarihi | 30 Haziran 2023 |
| Gönderilme Tarihi | 9 Eylül 2022 |
| Kabul Tarihi | 20 Şubat 2023 |
| Yayımlandığı Sayı | Yıl 2023 Cilt: 27 Sayı: 3 |
Kaynak Göster
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