UV–VIS photocatalytic degradation of nitrobenzene from water using heavy metal doped titania

The photocatalytic degradation of nitrobenzene (NB) under UV–VIS irradiation with un-doped TiO2 and various heavy metals doped TiO2 powders were studied for aerated solutions. The dopant type (Fe, Co, Ni) and its concentration (0.5–5wt.% TiO2) influence on pollutant degradation efficiency were inves...

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2015, 21(1), , pp.677-682
Main Authors: Nitoi, Ines, Oancea, Petruta, Raileanu, Malina, Crisan, Maria, Constantin, Lucian, Cristea, Ionut
Format: Article
Language:English
Subjects:
Catalysts
Degradation
Doped TiO2 catalyst
Heavy metals
Iron
Irradiation
Mathematical models
Nitrobenzene degradation
Nitrobenzenes
Photocatalysis
Pollutants
Titanium dioxide
화학공학
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Summary:The photocatalytic degradation of nitrobenzene (NB) under UV–VIS irradiation with un-doped TiO2 and various heavy metals doped TiO2 powders were studied for aerated solutions. The dopant type (Fe, Co, Ni) and its concentration (0.5–5wt.% TiO2) influence on pollutant degradation efficiency were investigated. The photocatalyst with lowest Fe content (0.5wt.%) showed a considerable better behaviour in respect to pollutant degradation than catalyst with higher Fe content and Co and Ni doped titania catalysts. The experiments were carried out for solutions with (0.37–8.45)×10−4M NB initial content, using 50–250mg/L catalyst dose, at various pHs (4–10) and irradiation time between 30 and 240min. The kinetics of NB degradation and organic nitrogen mineralization was assessed and pseudo-first order rate constants were calculated. For optimum working conditions (0.5wt.% Fe doped-TiO2 loading of 250mg/L, 2.52×10−4M pollutant initial concentration, pH=7 and 240min irradiation time) NB removal and organic nitrogen mineralization efficiencies were 99% and 85%, respectively. It was also demonstrated that degradation process occurs on catalyst surface, so experimental results are in accordance with Langmuir–Hinshalwood model.
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2014.03.036