Harnessing Electrochemical Power: Advanced Oxidation Technologies Revolutionizing Dairy Wastewater Treatment
1. Kanika Singhal, Anand Agricultural University, Student, India
2. Swati Jadeja, Anand Agricultural University, Professor, India
The dairy industry is one of the largest consumers of water and producers of wastewater, characterized by high levels of organic pollutants, nutrients, and suspended solids. Traditional wastewater treatment methods often struggle to meet the stringent environmental regulations required for dairy effluents. In recent years, electrochemical advanced oxidation processes (EAOPs) have emerged as a robust and sustainable solution to tackle the complexity of dairy wastewater. This paper reviews the latest advances in applying EAOPs in dairy wastewater treatment, focusing on their mechanisms, efficiency in removing pollutants, and potential challenges. The study also discusses how these technologies contribute to sustainable wastewater management and their future potential in addressing the global issue of dairy industry pollution.
Electrochemical advanced oxidation processes (EAOPs) Dairy wastewater Organic pollutant removal Sustainable wastewater treatment Hydroxyl radicals Green technology Wastewater reuse Environmental protection
Electrochemical advanced oxidation methods are a robust technology that may be used to treat wastewater from dairy farms. These processes provide excellent efficiency in removing pollutants and providing environmental advantages. EAOPs have the potential to become an essential technology for the sustainable management of wastewater in the dairy sector, even though there are still hurdles to be overcome. This potential is based on continuous research and innovation in electrode materials, system integration, and process optimization. To solve the worldwide problem of industrial water pollution, electrochemical oxidation processes (EAOPs) have the potential to play a significant role by harnessing the power of hydroxyl radicals and electrochemical oxidation.
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The study's design, data collection, result analysis, and manuscript preparation were entirely managed by the author.
The authors did not receive financial support from any public, commercial, or non-profit funding agencies for this research.
The research did not involve the use of any particular software or tools.
The authors disclose no conflicts of interest in relation to this work.
I am thankful for the help and expertise of all contributors to this study and manuscript, as well as the insightful feedback from anonymous reviewers.
No data sharing is applicable for this research.