Litcius/Paper detail

Development of a Five-Chemical-Probe Method to Determine Multiple Radicals Simultaneously in Hydroxyl and Sulfate Radical-Mediated Advanced Oxidation Processes

Wenjie Hong, Jianmin Zou, Mengzhe Zhao, Shuwen Yan, Weihua Song

2024Environmental Science & Technology85 citationsDOI

Abstract

Advanced oxidation processes (AOPs), such as hydroxyl radical (HO • )- and sulfate radical (SO 4 •– )-mediated oxidation, are attractive technologies used in water and wastewater treatments. To evaluate the treatment efficiencies of AOPs, monitoring the primary radicals (HO • and SO 4 •– ) as well as the secondary radicals generated from the reaction of HO • /SO 4 •– with water matrices is necessary. Therefore, we developed a novel chemical probe method to examine five key radicals simultaneously, including HO •, SO 4 •–, Cl •, Cl 2 •–, and CO 3 •– . Five probes, including nitrobenzene, para -chlorobenzoic acid, benzoic acid, 2,4,6-trimethylbenzoic acid, and 2,4,6-trimethylphenol, were selected in this study. Their bimolecular reaction rate constants with diverse radicals were first calibrated under the same conditions to minimize systematic errors. Three typical AOPs (UV/H 2 O 2, UV/S 2 O 8 2–, and UV/HSO 5 – ) were tested to obtain the radical steady-state concentrations. The effects of dissolved organic matter, Br –, and the probe concentration were inspected. Our results suggest that the five-probe method can accurately measure radicals in the HO • - and SO 4 •– -mediated AOPs when the concentration of Br – and DOM are less than 4.0 μM and 15 mg C L –1, respectively. Overall, the five-probe method is a practical and easily accessible method to determine multiple radicals simultaneously.

Topics & Concepts

RadicalChemistryNitrobenzeneBenzoic acidHydroxyl radicalSulfatePhotochemistryRadiolysisFree-radical reactionOrganic chemistryCatalysisAdvanced oxidation water treatmentWater Quality Monitoring and AnalysisAtmospheric chemistry and aerosols