DOI number:10.1016/j.scitotenv.2020.144630

Journal:Science of the Total Emvironment

Key Words:1O2; Biochar; Degradation; *OH

Abstract:In this study, the photogeneration of [rad]OH and 1O2 and the degradation mechanism of organic pollutants in biochar suspension under the simulated solar light irradiations were investigated. Biochar derived from rice husk with 550 °C of charring temperature (R550) was selected to degrade benzoic acid. It was found that 10 g/L of R550 could degrade 78.7% of benzoic acid within 360 min at pH 3, and the degradation efficiency was promoted to 95.2% as ultraviolet (UV) presented. By checking the production of p-hydroxybenzoic acid, UV accelerated the production of [rad]OH, which was confirmed by the enhanced degradation efficiency of 59.2% caused by the evaluated [rad]OH as UV appeared. The furfuryl alcohol loss in the R550 suspension under light irradiations testified to the production of 1O2, which contributed to 9.3% of benzoic acid degradation. Oxidization treatment using gradient concentrations of H2O2 was employed to enhance the ageing process of biochar. As the ageing processed, the biochar possessed a declined performance towards [rad]OH production from O2 activation and the radical degradation of organic pollutants. As a contrast, the evaluated content of 1O2 and enhanced non-radical degradation of organic pollutants was reached as UV presented. The further study indicated that phenolic hydroxyl groups on biochar facilitated the production of [rad]OH via the electron transfer, and quinone like structures (C=O) on biochar boosted the generation of 1O2 via the energy transfer. Moreover, upon eliminating the BA degradation, persistent free radicals were formed on biochar, which was enhanced owing to the presence of UV

Indexed by:Journal paper

Document Code:144630

Discipline:Engineering

First-Level Discipline:Environmental Science and Engineering

Document Type:J

Volume:765

ISSN No.:0048-9697

Translation or Not:no

Date of Publication:2021-04-15

Included Journals:SCI

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