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Oxidative degradation of sulfathiazole by Fenton and photo-Fenton reactions
This article presents experimental results on 47 μmol L−1 sulfathiazole (STZ) degradation by Fenton and photo-Fenton reactions using multivariate analysis. The optimal experimental conditions for reactions were obtained by Response Surface Methodology (RSM). In the case of the Fenton reactions there were 192 μmol L−1 ferrous ions (Fe(II)) and 1856 μmol L−1 hydrogen peroxide (H2O2), as compared with 157 μmol L−1 (Fe(II)) and 1219 μmol L−1 (H2O2) for photo-Fenton reactions. Under these conditions, around 90% of STZ degradation were achieved after 8 minutes treatment by Fenton and photo-Fenton reactions, respectively. Moreover, a marked difference was observed in the total organic carbon (TOC) removal after 60-min treatment, achieving 30% and 75% for the Fenton and photo-Fenton reactions, respectively. Acetic, maleic, succinic and oxamic acids could be identified as main Fenton oxidation intermediates. A similar pattern was found in the case of photo-Fenton reaction, including the presence of oxalic acid and ammonia at short periods of irradiation with UV-A. The calculated values of Average Oxidation State (AOS) corroborate the formation of oxidized products from the initial steps of the reaction.
Oxidative degradation of sulfathiazole by Fenton and photo-Fenton reactions
This article presents experimental results on 47 μmol L−1 sulfathiazole (STZ) degradation by Fenton and photo-Fenton reactions using multivariate analysis. The optimal experimental conditions for reactions were obtained by Response Surface Methodology (RSM). In the case of the Fenton reactions there were 192 μmol L−1 ferrous ions (Fe(II)) and 1856 μmol L−1 hydrogen peroxide (H2O2), as compared with 157 μmol L−1 (Fe(II)) and 1219 μmol L−1 (H2O2) for photo-Fenton reactions. Under these conditions, around 90% of STZ degradation were achieved after 8 minutes treatment by Fenton and photo-Fenton reactions, respectively. Moreover, a marked difference was observed in the total organic carbon (TOC) removal after 60-min treatment, achieving 30% and 75% for the Fenton and photo-Fenton reactions, respectively. Acetic, maleic, succinic and oxamic acids could be identified as main Fenton oxidation intermediates. A similar pattern was found in the case of photo-Fenton reaction, including the presence of oxalic acid and ammonia at short periods of irradiation with UV-A. The calculated values of Average Oxidation State (AOS) corroborate the formation of oxidized products from the initial steps of the reaction.
Oxidative degradation of sulfathiazole by Fenton and photo-Fenton reactions
Velásquez, Marizú (Autor:in) / Santander, I. Paola (Autor:in) / Contreras, David R. (Autor:in) / Yáñez, Jorge (Autor:in) / Zaror, Claudio (Autor:in) / Salazar, Ricardo A. (Autor:in) / Pérez-Moya, Montserrat (Autor:in) / Mansilla, Héctor D. (Autor:in)
Journal of Environmental Science and Health, Part A ; 49 ; 661-670
12.05.2014
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Antibiotics , Fenton , photo-Fenton , RSM , sulfathiazole
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