Effect of dissolved organic matters and inorganic ions on TiO2 photocatalysis of diclofenac: mechanistic study and degradation pathways

Effect of dissolved organic matters and inorganic ions on TiO2 photocatalysis of diclofenac: mechanistic study and degradation pathways

Diclofenac (DCF) exists extensively in sewage treatment plant effluent, and it is one of the most reported environmental pharmaceutical contaminants. In this work, the photocatalytic degradation of DCF by titanium dioxide (TiO 2 ) in pure water under visible light and the influence of humic acids (H...

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Veröffentlicht in:Environmental science and pollution research international 2020, Vol.27 (2), p.2044-2053
Hauptverfasser: Gao, Ling, Zhou, Beihai, Wang, Fei, Yuan, Rongfang, Chen, Huilun, Han, Xiaomin
Format: Artikel
Sprache:eng
Schlagworte:
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Biodegradation
Chloride ions
Contaminants
Dechlorination
Diclofenac
Dissolved organic matter
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental science
Ferrous ions
Free radicals
Humic acids
Hydroxyapatite
Hydroxyl radicals
Hydroxylation
Intermediates
Ions
Iron
Liquid chromatography
Mass spectrometry
Mass spectroscopy
Mineralization
Nonsteroidal anti-inflammatory drugs
Organic carbon
Oxidation
Pharmaceutical industry wastes
Photocatalysis
Photodegradation
Research Article
Sewage effluents
Sewage treatment plants
Singlet oxygen
Superoxide
Surgical implants
Titanium dioxide
Total organic carbon
Waste Water Technology
Wastewater treatment
Wastewater treatment plants
Water Management
Water Pollution Control
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Zusammenfassung:Diclofenac (DCF) exists extensively in sewage treatment plant effluent, and it is one of the most reported environmental pharmaceutical contaminants. In this work, the photocatalytic degradation of DCF by titanium dioxide (TiO 2 ) in pure water under visible light and the influence of humic acids (HA) (as a kind of dissolved organic matter (DOM), phosphate and ferrous ion (Fe 2+ )) were investigated. The results showed that the lower the pH was, the better the degradation effect of DCF under acidic conditions was. Different concentrations of DOM, phosphate ion, and Fe 2+ could inhibit the degradation of DCF, and the higher the concentration was, the stronger the inhibition was. Different concentrations of chloride ions had little effect on the degradation. A slight elimination (8–12.9%) of total organic carbon (TOC) was observed during the mineralization of DCF with and without DOM and inorganic ions, indicating poor mineralization during the process of photocatalytic degradation, and DOM, phosphate, and Fe 2+ had little effect on DCF mineralization. Furthermore, hydroxyl radicals, superoxide radicals, and singlet oxygen radicals were present during the photocatalytic degradation of DCF. DOM and inorganic ions could inhibit the intensity of hydroxyl radical and promote superoxide radicals (O 2 – ) and singlet oxygen ( 1 O 2 ) to varying degrees. Finally, the degradation mechanism and main products were analyzed by liquid chromatography–mass spectrometry (LC–MS), and nine possible intermediates were detected. Hydroxylation, dechlorination, cyclization, and oxidation were the main degradation mechanisms. However, DOM, phosphate, and Fe 2+ did not affect the type of intermediate products in terms of the mass-to-charge ratio. This paper mainly studied the mechanisms of different influencing factors in simulated environments to provide a theoretical basis for the degradation of DCF in wastewater treatment plants. Graphical abstract
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-019-06676-9