Decomposition of pharmaceutical micropollutant – diclofenac by photocatalytic nanopowder mixtures in aqueous media: effect of optimization parameters, identification of intermediates and economic considerations
2020
Novakovic, Mladenka | Strbac, Goran | Petrovic, Maja | Strbac, Dragana | Mihajlovic, Ivana
This study evaluates application of three different nanopowder mixtures for decomposition of diclofenac (DCF), one of frequently detected pharmaceutical in wastewater. Analyzed three photocatalytic mixtures ZnO/SnO₂, ZnO/TiO₂ and ZnO/In₂O₃ are for the first time used for diclofenac degradation. A set of experiments were performed in order to investigate influence of catalyst concentration (0.10–0.60 mg mL⁻¹), initial concentration of diclofenac (0.002–0.010 mg mL⁻¹) and pH value (5–9). The increase in the catalyst concentration leads to a decrease in the degradation rate constant, which is the most pronounced in the ZnO/TiO₂ and ranges from 0.47 (6) min⁻¹ to 0.25 (3) min⁻¹. The influence of pH on efficacy shows completely different effects: ZnO/In₂O₃ is most effective in alkaline environments, ZnO/TiO₂ in neutral environments, while ZnO/SnO₂ efficiency is good in both alkaline and acidic environments. Initial concentrations of diclofenac showed a complex effect on the degradation rate. The four dominant intermediates were detected by LC MS/MS technique. In case of all three nanomaterials, intensive degradation was achieved in first 30 minutes. The economical analysis of photocatalytic treatment was provided where the preparation of nanomaterials does not demand high costs and with the highest diclofenac concentration, total operation costs are the lowest (77.14 US$/kWh).
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