Mn–Fe3O4 heterogeneous Fenton catalytic oxidation: mechanism and performance in sauce-flavored liquor wastewater degradation
Benfu Luo, Jie Yu, Yujing Yan, Weiwei Huang, Jinyin Li, Yuhang Liu, Xi Yang, Xiang Zhou, Haiyan Ning

TL;DR
This study explores how Mn–Fe3O4 catalysts improve wastewater treatment by efficiently breaking down organic pollutants using a Fenton oxidation process.
Contribution
The study introduces a novel Mn–Fe3O4 catalyst that enhances COD removal and provides insights into its catalytic mechanism.
Findings
The Mn–Fe3O4 system improved COD removal by 26% compared to conventional Fenton methods.
The catalyst showed stability and magnetic recoverability, making it suitable for reuse.
The system followed second-order kinetics and produced more hydroxyl radicals for efficient pollutant degradation.
Abstract
This study aims to investigate the mechanism of synthesized Mn–Fe3O4 catalysts in the deep degradation of COD in sauce-flavored liquor wastewater by heterogeneous Fenton oxidation. Additionally, the study evaluates the impact of operational factors, including pH, catalyst composition, and dosage on the COD removal rate. The physicochemical characteristics of Mn–Fe3O4 catalysts were comprehensively analyzed using scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS). The oxidation mechanism of the Mn–Fe3O4 heterogeneous Fenton system was elucidated through gas chromatography–mass spectrometry (GC-MS) analysis, kinetic modeling, and radical quenching experiments involving tert-butanol (TBA) and benzoquinone (BQ). The results demonstrated that the Mn–Fe3O4-based system enhanced COD removal by 26%…
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Taxonomy
TopicsAdvanced oxidation water treatment · Catalytic Processes in Materials Science · Industrial Gas Emission Control
