Synergistic effects of permanganate and chlorination on the degradation of Benzophenone-3: Kinetics, mechanisms and toxicity evaluation

[Display omitted] •KMnO4 and NaClO were combined for the synergistic degradation of BP-3.•NaClO enhanced the generation of high-valence Mn species for BP-3 removal.•KMnO4 oxidized Cl- released from NaClO into Cl2 to promote BP-3 degradation.•Six main reaction mechanisms were observed in KMnO4/NaClO...

Full description

Saved in:
Bibliographic Details
Published in:Separation and purification technology 2023-10, Vol.322, p.124194, Article 124194
Main Authors: Wu, Nannan, Cao, Wanming, Qu, Ruijuan, Wang, Zunyao, Allam, Ahmed A., Ajarem, Jamaan S., Altoom, Naif G., ahmed dar, Afzal, Zhu, Feng, Huo, Zongli
Format: Article
Language:English
Subjects:
Environmental toxicity
Permanganate
Reaction mechanisms
Sodium hypochlorite
Synergistic degradation
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •KMnO4 and NaClO were combined for the synergistic degradation of BP-3.•NaClO enhanced the generation of high-valence Mn species for BP-3 removal.•KMnO4 oxidized Cl- released from NaClO into Cl2 to promote BP-3 degradation.•Six main reaction mechanisms were observed in KMnO4/NaClO oxidation system.•KMnO4/NaClO system largely reduced the ecological risk compared with NaClO alone. To obtain utilization efficiency of low permanganate (KMnO4), it is available to combine with other chemical agents. This work found the synergistic effects of adding KMnO4 and sodium hypochlorite (NaClO) simultaneously on the efficient degradation of benzophenone-3 (BP-3). The synergy factors of the combined method were increased with increasing concentrations of KMnO4 and NaClO. Neutral and alkaline conditions were more favorable for BP-3 removal. Methyl phenyl sulfoxide (PMSO) was used as the probe to detect high-valence Mn species (e.g., Mn(VI), Mn(V)). Results indicated that the reactivity of KMnO4 was improved by NaClO by increasing the content of high-valence Mn species. Cl- converted from NaClO was oxidized by KMnO4 to generate Cl2, also promoting the degradation of BP-3. The oxidative mechanisms of BP-3 in the system of KMnO4 coupling with NaClO (KMnO4/NaClO) mainly included oxidative ring-opening, carboxylation, Bayer-Villiger oxidation, electrophilic chlorination, hydroxylated reactions and cleavage, but oxidative ring-opening products were detected only in the combined system. Due to the reduced dosage of chlorine and the decreased toxicity in the combined process, KMnO4/NaClO decreased the environmental risk of the reaction process largely. Comprehensively analyzing the degradation efficiency and environmental risk in treatment of BP-3 by the combined process, KMnO4/NaClO oxidation is a promising technology for water treatment.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2023.124194