Authors | _ |
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Journal | Environmental Resources Research |
Page number | 0-0 |
Paper Type | Full Paper |
Journal Type | Typographic |
Journal Country | Iran, Islamic Republic Of |
Journal Index | isc |
Abstract
The escalating challenge of industrial dye pollution in wastewater necessitates the exploration of effective treatment methodologies. This study introduces a novel approach combining microwave irradiation with the Fenton oxidation process, showcasing a significant leap in the removal of Reactive Yellow 145 pollutants. By systematically manipulating variables such as Reactive Yellow 145 concentration, catalyst presence, and reaction environment pH, the investigation reveals a substantial increase in the degradation efficiency of complex dye molecules. The synergy between microwave energy and chemical oxidants under optimal conditions results in a remarkable reduction of both color and chemical oxygen demand (COD) levels, with the process achieving over 95% dye elimination and 82% COD reduction within 7 minutes. The analysis of UV-Vis spectroscopy before and after treatment showed that the microwave-enhanced Fenton process efficiently decomposed dye molecules, with a notably faster decomposition rate observed for azo and hydrazine groups compared to aromatic structures. This study not only underlines the potential of microwave-assisted Fenton processes in addressing persistent wastewater contaminants but also sets the groundwork for future research in scalable, environmentally friendly wastewater treatment solutions.
tags: Industrial Dye Pollution; Reactive Yellow 145; Oxidation; Wastewater Remediation; Environmental Sustainability