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Titania nano-coated quartz wool for the photocatalytic mineralisation of emerging organic contaminants

TitoloTitania nano-coated quartz wool for the photocatalytic mineralisation of emerging organic contaminants
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2018
AutoriSaracino, M., Pretali L., Capobianco M.L., Emmi S.S., Navacchia M.L., Bezzi Federica, Mingazzini C., Burresi Emiliano, and Zanelli A.
RivistaWater Science and Technology
Volume77
Paginazione409-416
ISSN02731223
Parole chiaveAdvanced Oxidation Processes, analysis, article, carbamazepine, carbon, Catalysis, catalyst, Chemical, chemistry, coating, contamination, Deionised waters, Deionized water, Diclofenac, Dissolution, drinking water, Emerging contaminant, Emerging organic contaminants, high performance liquid chromatography, Impurities, intermethod comparison, liquid chromatography, material coating, mineralogy, nanoparticle, Nanoparticles, octoxinol, Organic carbon, organic pollutant, organic pollution, oxidation, oxidation reduction reaction, Oxidation resistance, Oxidation-Reduction, oxybenzone, Photo catalytic degradation, Photocatalysis, Photodegradation, photolysis, Potable water, procedures, Quartz, radiation response, Scanning electron microscopy, Silicon Dioxide, sulisobenzone, Surface properties, surface property, surface water, tap water, Titanium, Titanium compounds, Titanium dioxide, titanium dioxide nanoparticle, total organic carbon, Ultraviolet photolysis, Ultraviolet radiation, Ultraviolet Rays, waste water, Wastewater treatment, wastewater treatment plant, Wastewater treatment plants, Water, water management, water pollutant, Water Pollutants, Water Purification, Water quality, Water treatment, Wool, X ray diffraction, Yarn
Abstract

Many emerging contaminants pass through conventional wastewater treatment plants, contaminating surface and drinking water. The implementation of advanced oxidation processes in existing plants for emerging contaminant remediation is one of the challenges for the enhancement of water quality in the industrialised countries. This paper reports on the production of a TiO2 nano-layer on quartz wool in a relevant amount, its characterisation by X-ray diffraction and scanning electron microscopy, and its use as a photocatalyst under ultraviolet radiation for the simultaneous mineralisation of five emerging organic contaminants (benzophenone-3, benzophenone-4, carbamazepine, diclofenac, and triton X-100) dissolved in deionised water and tap water. This treatment was compared with direct ultraviolet photolysis and with photocatalytic degradation on commercial TiO2 micropearls. The disappearance of every pollutant was measured by high performance liquid chromatography and mineralisation was assessed by the determination of total organic carbon. After 4 hours of treatment with the TiO2 nano-coated quartz wool, the mineralisation exceeds 90% in deionised water and is about 70% in tap water. This catalyst was reused for seven cycles without significant efficiency loss. © IWA Publishing 2018.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85041796014&doi=10.2166%2fwst.2017.457&partnerID=40&md5=c2bf41f0b86654723008fdbefff7e195
DOI10.2166/wst.2017.457
Citation KeySaracino2018409