Inhibition of iron chelate degradation in liquid redox desulfurization by nanoscale MnO₂ through H₂O₂ decomposition

Abstract: BACKGROUND Significant operating costs incurred in the liquid‐phase oxidation process using iron chelate catalytic solution (e.g. LO‐CAT) due to degradation and eventual loss of the iron chelate is a serious deficiency. Hydroxyl radicals formed in the Fenton reaction of ferrous chelate with H2O2, generated during the regeneration of the ferrous chelate with air, are responsible for iron chelate degradation. Although iron chelate degradation may be slowed down or inhibited by the catalytic decomposition of H2O2… Show more

“…Additionally, the abundant generation of oxygen (O 2 ) in the MnO 2 -H 2 O 2 system creates turbulent conditions, thereby promoting better contact between MnO 2 -based composites and pollutants and enhancing the dispersion of the reactive radicals [27,28]. Owing to these advantages, the MnO 2 -H 2 O 2 system has been used in various applications in the field of environmental engineering, such as membrane cleaning, iron chelate degradation, and the removal of organic pollutants [28][29][30][31][32]. As can be gleaned from the above discussion, the oxidation of As (III) to As (V) plays a crucial role in the effective removal and detoxification of As.…”

Novel Application of MnO2–H2O2 System for Highly Efficient Arsenic Adsorption and Oxidation

“…Additionally, the abundant generation of oxygen (O 2 ) in the MnO 2 -H 2 O 2 system creates turbulent conditions, thereby promoting better contact between MnO 2 -based composites and pollutants and enhancing the dispersion of the reactive radicals [27,28]. Owing to these advantages, the MnO 2 -H 2 O 2 system has been used in various applications in the field of environmental engineering, such as membrane cleaning, iron chelate degradation, and the removal of organic pollutants [28][29][30][31][32]. As can be gleaned from the above discussion, the oxidation of As (III) to As (V) plays a crucial role in the effective removal and detoxification of As.…”

Novel Application of MnO2–H2O2 System for Highly Efficient Arsenic Adsorption and Oxidation

Sea urchin-like PdCuAu nanoclusters mediated photothermal enhanced Fenton catalysis for degradation of dye pollutants