Experimental study of humic acid degradation and theoretical modelling of catalytic ozonation

Turkay, Ozge; Inan, Hatice; Dimoglo, Anatoli

Experimental study of humic acid degradation and theoretical modelling of catalytic ozonation

2015

Turkay, Ozge | Inan, Hatice | Dimoglo, Anatoli

The efficiency of TiO₂ as a catalyst in the ozonation of humic acid (HA) was evaluated in a comprehensive manner. Ozonation, catalytic ozonation and adsorption experiments were conducted using both synthetic HA solution and natural water. HA degradation was evaluated in terms of DOC, VIS₄₀₀ and UV₂₅₄. It was shown that the addition of catalyst positively affects the mechanism of ozonation. An increase in HA degradation was observed for all these parameters. The impact of catalyst dose and initial pH value of HA on the efficacy of catalytic ozonation was investigated. The highest removal efficiencies were achieved with the dose of 1 g l⁻¹ of TiO₂ (Degussa P-25) and in the acidic pH region. The catalytic ozonation process was efficient also on natural water component although not at the same level as it was on synthetic water. The adsorptive feature of P-25 was considered to have a clear evidence of the catalytic ozonation mechanism. The mechanism of catalysis on the surface of metal oxides was elucidated with the help of quantum-chemical calculations. In the framework of Density Function Theory (DFT), the O₃ decomposition was calculated in the catalytic and non-catalytic processes. Donor–acceptor properties of the frontier (highest occupied and lowest unoccupied molecular orbitals, HOMO/LUMO) orbitals are discussed. Electron density distribution and reaction mechanism of superoxide particles formation, which participate in the process of HA ozonation are analyzed.

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