ELECTROCHEMICAL METHODS FOR INDUSTRIAL WASTEWATER TREATMENT: DEVELOPMENT OF EFFICIENT TECHNOLOGIES
Keywords:
Electrochemical methods, wastewater treatment, electroflotation, electrooxidation, electrocoagulation, industrial effluent, environmental sustainability, hybrid systems.Abstract
The treatment of industrial wastewater has become a critical environmental and economic challenge due to the increasing volume of pollutants discharged into water bodies. Among various technologies, electrochemical methods offer significant advantages due to their efficiency, versatility, and low environmental impact. These methods, including electroflotation, electrooxidation, and electrocoagulation, have gained considerable attention as sustainable solutions for wastewater treatment in industrial sectors. This article explores the development of electrochemical technologies for industrial wastewater treatment, with a focus on their application, mechanisms, advantages, and challenges in real-world scenarios.
References
1. Karimov R.A. Electrochemical methods in wastewater treatment: A review. Journal of Environmental Engineering, 2017. 15(2), 213-224.
2. Muminov A.T. Application of electrocoagulation in industrial wastewater treatment. Environmental Engineering and Management Journal, 2019. 18(5), 1129-1137.
3. Kholbekov U. X., Turgunov S. Hybrid electrochemical technologies for the treatment of industrial effluents: Current trends and future prospects. Wastewater Treatment Science, 2020. 23(1), 45-53.
4. Nurmatov I. B. Electrooxidation processes for organic pollutant removal in industrial wastewater. Chemical Engineering and Technology, 2018. 41(4), 652-660.
5. Akhmedov O. M. Electrochemical systems for industrial water treatment: An overview. Journal of Applied Chemistry, 2021. 35(3), 125-134.
1. Karimov R.A. Electrochemical methods in wastewater treatment: A review. Journal of Environmental Engineering, 2017. 15(2), 213-224.
2. Muminov A.T. Application of electrocoagulation in industrial wastewater treatment. Environmental Engineering and Management Journal, 2019. 18(5), 1129-1137.
3. Kholbekov U. X., Turgunov S. Hybrid electrochemical technologies for the treatment of industrial effluents: Current trends and future prospects. Wastewater Treatment Science, 2020. 23(1), 45-53.
4. Nurmatov I. B. Electrooxidation processes for organic pollutant removal in industrial wastewater. Chemical Engineering and Technology, 2018. 41(4), 652-660.
5. Akhmedov O. M. Electrochemical systems for industrial water treatment: An overview. Journal of Applied Chemistry, 2021. 35(3), 125-134.
