Water Science and Technology (Feb 2024)

Effective degradation of quinoline by catalytic ozonation with MnCexOy catalysts: performance and mechanism

  • Jie Zhang,
  • Zhaochang Wu,
  • Ben Dong,
  • Sijie Ge,
  • Shilong He

DOI
https://doi.org/10.2166/wst.2024.027
Journal volume & issue
Vol. 89, no. 3
pp. 823 – 837

Abstract

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Quinoline inevitably remains in the effluent of coking wastewater treatment plants due to its bio-refractory nature, which might cause unfavorable effects on human and ecological environments. In this study, MnCexOy was consciously synthesized by α-MnO2 doped with Ce3+ (Ce:Mn = 1:10) and employed as the ozonation catalyst for quinoline degradation. After that, the removal efficiency and mechanism of quinoline were systematically analyzed by characterizing the physicochemical properties of MnCexOy, investigating free radicals and monitoring the solution pH. Results indicated that the removal rate of quinoline was greatly improved by the prepared MnCexOy catalyst. Specifically, the removal efficiencies of quinoline could be 93.73, 62.57 and 43.76%, corresponding to MnCexOy, α-MnO2 and single ozonation systems, respectively. The radical scavenging tests demonstrated that •OH and •O2- were the dominant reactive oxygen species in the MnCexOy ozonation system. Meanwhile, the contribution levels of •OH and •O2- to quinoline degradation were about 42 and 35%, respectively. The abundant surface hydroxyl groups and oxygen vacancies of the MnCexOy catalyst were two important factors for decomposing molecular O3 into more •OH and •O2-. This study could provide scientific support for the application of the MnCexOy/O3 system in degrading quinoline in bio-treated coking wastewater. HIGHLIGHTS MnCexOyCe3+, MnCexOy•OH and •O2- MnCexOy were successfully synthesized by α-MnO2 doped with Ce3+.; The by abundant oxygen vacancies and surface hydroxyl groups of the MnCexOy catalyst enhanced its catalytic activity.; •OH and •O2- formation contributed to quinoline degradation in the MnCexOy ozonation system.;

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