The oxidative degradation of Caffeine in UV/Fe(II)/persulfate system—Reaction kinetics and decay pathways

In this study, the degradation of caffeine was investigated by UV/Fe2+/persulfate (PS) process. Caffeine (CAF) degradation in sole‐UV, UV/Fe2+, UV/PS, and Fe2+/PS systems was also conducted to examine the contribution of isolated processes to CAF degradation. The effects of pH levels, the concentrat...

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Bibliographic Details
Published in:Water environment research 2021-04, Vol.93 (4), p.559-569
Main Authors: Rao, Yongfang, Long, Huimin, Hao, Jingchen
Format: Article
Language:English
Subjects:
Anions
Caffeine
Chloride ions
Decay
decay pathways
Degradation
Demethylation
Ferrous Compounds
Ferrous ions
Free radicals
Hydroxyl radicals
Hydroxylation
Imidazole
Intermediates
Ions
Iron
Kinetics
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Oxidation
Oxidation-Reduction
Oxidative Stress
Pyrimidines
Reaction kinetics
Solid phase methods
sulfate radicals
Sulfates
Ultraviolet radiation
Water Pollutants, Chemical - analysis
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Summary:In this study, the degradation of caffeine was investigated by UV/Fe2+/persulfate (PS) process. Caffeine (CAF) degradation in sole‐UV, UV/Fe2+, UV/PS, and Fe2+/PS systems was also conducted to examine the contribution of isolated processes to CAF degradation. The effects of pH levels, the concentration of Fe2+ and PS, inorganic anions, and initial concentration of CAF on the performance of UV/Fe2+/PS process were evaluated. Radical competitive reactions indicated both hydroxyl radicals and sulfate radicals played important roles in CAF degradation in UV/Fe2+/PS system. Nine intermediates, among which three were detected for the first time, were identified by ultra‐performance liquid chromatography/electrospray‐time‐of‐flight mass spectrometry (UPLC/ESI‐TOF‐MS) and SPME (solid‐phase microextraction)/GC/MS. The possible degradation pathways of CAF were proposed, among which demethylation, hydroxylation, the oxidation of olefinic double bond, and the cleavage of pyrimidine ring and imidazole ring were involved in the degradation of CAF in UV/Fe2+/PS system. Practitioner points Caffeine degradation by UV/Fe2+/PS process was investigated. Caffeine degradation did not follow a simple pseudo‐first order kinetics Chloride ions promoted CAF degradation. The anions NO3−, SO42−, and H2PO4− exerted a negative influence on caffeine degradation. Nine intermediates were detected, and decay pathways were proposed. UV‐promoted Fe(II)/Fe(III) redox cycle and CAF degradation pathways.
ISSN:1061-4303
1554-7531
DOI:10.1002/wer.1458