DETERMINATION OF THE PERFORMANCE OF THE ELECTROCOAGULATION PROCESS IN THE TREATMENT OF WASTEWATER FROM THE CERAMIC INDUSTRY

Esra Fındık; Merve Sözder

doi:10.18038/estubtda.1547245

Research Article

DETERMINATION OF THE PERFORMANCE OF THE ELECTROCOAGULATION PROCESS IN THE TREATMENT OF WASTEWATER FROM THE CERAMIC INDUSTRY

Year 2025, Volume: 26 Issue: 1, 14 - 27, 25.03.2025

Esra Fındık , Merve Sözder

https://doi.org/10.18038/estubtda.1547245

Abstract

The ceramic industry produces wastewater containing organic and inorganic pollutants. Traditional treatment methods are costly and complex. Electrocoagulation technology provides an effective treatment by precipitating pollutants through electrochemical reactions. In this thesis, wastewater samples taken from a ceramic factory in Kütahya were treated using the electrocoagulation method. The study considered current densities (1mA/cm², 2mA/cm², 4mA/cm², 10mA/cm²), electrode types (Iron, Aluminum, Iron-Aluminum), and different experiment durations (15 min, 30 min, 45 min, 60 min, 75 min), analyzing turbidity, suspended solids (SS), chemical oxygen demand (COD), and heavy metals. The results of measurements were compared with the Water Pollution Control Regulation (WPCR), showing that the treated wastewater met discharge criteria. When examining the effect of current density and electrode type on treatability, the best removal was found to be at 4 mA/cm² with an iron electrode. Parameters exceeding discharge limits in raw wastewater, such as suspended solids (SS), were reduced by 98.5% at 4 mA/cm² using the iron electrode. The Chemical Oxygen Demand (COD) was diminished by 85.7% at 4 mA/cm² with the iron electrode. For turbidity removal, a 99.94% success rate was achieved using the iron-aluminum electrode at 4 mA/cm². Heavy metal analyses for Zn, Pb, and Cd showed concentrations below WPCR discharge limits. However, in further processed wastewater, the best Pb removal was observed with the iron electrode at 4 mA/cm², and the best Cd removal was achieved with the aluminum electrode at 1 mA/cm². The data obtained were from laboratory-scale experiments, and it is recommended that the method be tested in pilot and full-scale systems. This will permit an evaluation of the efficacy and suitability of the method in actual, real-world contexts.

Keywords

SS Removal, Turbidity Removal, Electrocoagulation, COD Removal, Ceramics Industry

Project Number

TÜBİTAK 2209A_2023/2_1919B012318613

References

[1] Namal ÖÖ. Investigation of processes used in the treatment of textile industry wastewaters. Nevşehir J Sci Technol. 2017;6:388-396. doi:10.17100/nevbiltek.322169
[2] Houssini NS, Essadki A, Elqars E. Removal of reactive blue and disperse red dyes from synthetic textile effluent by electrocoagulation process using Al-Al and Fe-Fe electrodes: Parametric optimization by response surface methodology. Desalination Water Treat. 2021;223:363-379. doi:10.5004/dwt.2021.27111
[3] Sümer G. Production technology in the ceramic industry. J Min Sci Mining J. 1976;59(1):37-43. doi:10.30797/madencilik.705498
[4] Akarsu C, Taner F, Ayol A. Treatment of leachate using the electrooxidation process. In: ISEM2014, Adıyaman; 2014.
[5] Özyonar F, Karagözoğlu B. Treatment of textile wastewater by electrocoagulation process. Erciyes Univ J Inst Sci Technol. 2012;28(1):29-37.
[6] Emir G. Treatment of ceramic industry wastewater by electrocoagulation method. Master's thesis, Anadolu University, Turkey; 2015.
[7] Carvalho HP, Huang J, Zhao M, et al. Improvement of methylene blue removal by electrocoagulation/banana peel adsorption coupling in a batch system. Alexandria Eng J. 2015;54(3):777-786.
[8] Camcıoğlu Ş. Treatment of paper industry wastewater by electrochemical method. Doctoral dissertation, Ankara University, Turkey; 2016.
[9] Öztürk D. Treatment of marble industry wastewater by electrocoagulation method. Master's thesis, Anadolu University, Turkey; 2018.
[10] Özden M, Tekbaş M, Çalışkan Y, Bektas N. Decolourisation of disperse brown dye solution by electrocoagulation process with Al and Fe electrodes. Gazi Univ J Sci. 2019;32(1):104-114.
[11] Kasaplar M. Application of electrocoagulation process in the treatment of automotive industry wastewater. Master's thesis, Bursa Uludağ University, Turkey; 2019.
[12] Öztürk H. Removal of phenol by electrooxidation−electrocoagulation hybrid process: Reaction kinetics and determination of metabolites. Master's thesis, Kocaeli University, Institute of Science; 2019.
[13] Salah A, Bensmaili A. Decolourization of disperse blue 3 dye by electrocoagulation process using Al and Fe electrodes – Application of the artificial neural network model. Iran J Chem Chem Eng. 2022;41(4):1-11.
[14] Kurtoglu Akkaya G, Üçgül İ. Treatment of textile wastewater by electrocoagulation using direct solar energy. Black Sea J Sci. 2023;13(2):504-516. doi:10.31466/kfbd.1227078

DETERMINATION OF THE PERFORMANCE OF THE ELECTROCOAGULATION PROCESS IN THE TREATMENT OF WASTEWATER FROM THE CERAMIC INDUSTRY

Year 2025, Volume: 26 Issue: 1, 14 - 27, 25.03.2025

Esra Fındık , Merve Sözder

https://doi.org/10.18038/estubtda.1547245

Abstract

The ceramic industry produces wastewater containing organic and inorganic pollutants. Traditional treatment methods are costly and complex. Electrocoagulation technology provides an effective treatment by precipitating pollutants through electrochemical reactions. In this thesis, wastewater samples taken from a ceramic factory in Kütahya were treated using the electrocoagulation method. The study considered current densities (1mA/cm², 2mA/cm², 4mA/cm², 10mA/cm²), electrode types (Iron, Aluminum, Iron-Aluminum), and different experiment durations (15 min, 30 min, 45 min, 60 min, 75 min), analyzing turbidity, suspended solids (SS), chemical oxygen demand (COD), and heavy metals. The results of measurements were compared with the Water Pollution Control Regulation (WPCR), showing that the treated wastewater met discharge criteria. When examining the effect of current density and electrode type on treatability, the best removal was found to be at 4 mA/cm² with an iron electrode. Parameters exceeding discharge limits in raw wastewater, such as suspended solids (SS), were reduced by 98.5% at 4 mA/cm² using the iron electrode. The Chemical Oxygen Demand (COD) was diminished by 85.7% at 4 mA/cm² with the iron electrode. For turbidity removal, a 99.94% success rate was achieved using the iron-aluminum electrode at 4 mA/cm². Heavy metal analyses for Zn, Pb, and Cd showed concentrations below WPCR discharge limits. However, in further processed wastewater, the best Pb removal was observed with the iron electrode at 4 mA/cm², and the best Cd removal was achieved with the aluminum electrode at 1 mA/cm². The data obtained were from laboratory-scale experiments, and it is recommended that the method be tested in pilot and full-scale systems. This will permit an evaluation of the efficacy and suitability of the method in actual, real-world contexts.

Keywords

SS Removal, Turbidity Removal, Electrocoagulation, COD Removal, Ceramics Industry

Project Number

TÜBİTAK 2209A_2023/2_1919B012318613

References

[1] Namal ÖÖ. Investigation of processes used in the treatment of textile industry wastewaters. Nevşehir J Sci Technol. 2017;6:388-396. doi:10.17100/nevbiltek.322169
[2] Houssini NS, Essadki A, Elqars E. Removal of reactive blue and disperse red dyes from synthetic textile effluent by electrocoagulation process using Al-Al and Fe-Fe electrodes: Parametric optimization by response surface methodology. Desalination Water Treat. 2021;223:363-379. doi:10.5004/dwt.2021.27111
[3] Sümer G. Production technology in the ceramic industry. J Min Sci Mining J. 1976;59(1):37-43. doi:10.30797/madencilik.705498
[4] Akarsu C, Taner F, Ayol A. Treatment of leachate using the electrooxidation process. In: ISEM2014, Adıyaman; 2014.
[5] Özyonar F, Karagözoğlu B. Treatment of textile wastewater by electrocoagulation process. Erciyes Univ J Inst Sci Technol. 2012;28(1):29-37.
[6] Emir G. Treatment of ceramic industry wastewater by electrocoagulation method. Master's thesis, Anadolu University, Turkey; 2015.
[7] Carvalho HP, Huang J, Zhao M, et al. Improvement of methylene blue removal by electrocoagulation/banana peel adsorption coupling in a batch system. Alexandria Eng J. 2015;54(3):777-786.
[8] Camcıoğlu Ş. Treatment of paper industry wastewater by electrochemical method. Doctoral dissertation, Ankara University, Turkey; 2016.
[9] Öztürk D. Treatment of marble industry wastewater by electrocoagulation method. Master's thesis, Anadolu University, Turkey; 2018.
[10] Özden M, Tekbaş M, Çalışkan Y, Bektas N. Decolourisation of disperse brown dye solution by electrocoagulation process with Al and Fe electrodes. Gazi Univ J Sci. 2019;32(1):104-114.
[11] Kasaplar M. Application of electrocoagulation process in the treatment of automotive industry wastewater. Master's thesis, Bursa Uludağ University, Turkey; 2019.
[12] Öztürk H. Removal of phenol by electrooxidation−electrocoagulation hybrid process: Reaction kinetics and determination of metabolites. Master's thesis, Kocaeli University, Institute of Science; 2019.
[13] Salah A, Bensmaili A. Decolourization of disperse blue 3 dye by electrocoagulation process using Al and Fe electrodes – Application of the artificial neural network model. Iran J Chem Chem Eng. 2022;41(4):1-11.
[14] Kurtoglu Akkaya G, Üçgül İ. Treatment of textile wastewater by electrocoagulation using direct solar energy. Black Sea J Sci. 2023;13(2):504-516. doi:10.31466/kfbd.1227078

There are 14 citations in total.

Details

Primary Language	English
Subjects	Environmental Pollution and Prevention
Journal Section	Articles
Authors	Esra Fındık 0000-0002-4867-9572 Merve Sözder 0009-0006-4252-3573
Project Number	TÜBİTAK 2209A_2023/2_1919B012318613
Publication Date	March 25, 2025
Submission Date	September 10, 2024
Acceptance Date	February 7, 2025
Published in Issue	Year 2025 Volume: 26 Issue: 1

Cite

AMA	Fındık E, Sözder M. DETERMINATION OF THE PERFORMANCE OF THE ELECTROCOAGULATION PROCESS IN THE TREATMENT OF WASTEWATER FROM THE CERAMIC INDUSTRY. Estuscience - Se. March 2025;26(1):14-27. doi:10.18038/estubtda.1547245