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  • Adsorption and degradation of model volatile organic compounds by a combined titania-montmorillonite-silica photocatalyst.

Adsorption and degradation of model volatile organic compounds by a combined titania-montmorillonite-silica photocatalyst.

Journal of hazardous materials (2011-04-20)
Jiangyao Chen, Guiying Li, Zhigui He, Taicheng An
ABSTRACT

A series of adsorptive photocatalysts, combined titania-montmorillonite-silica were synthesized. The resultant photocatalysts consisted of more and more spherically agglomerated TiO(2) particles with increasing of TiO(2) content, and anatase was the only crystalline phase with nano-scale TiO(2) particles. With increasing of the cation exchange capacity to TiO(2) molar ratio, specific surface area and pore volume increased very slightly. In a fluidized bed photocatalytic reactor by choosing toluene, ethyl acetate and ethanethiol as model pollutants, all catalysts had relatively high adsorption capacities and preferred to adsorb higher polarity pollutants. Langmuir isotherm model better described equilibrium data compared to Freundlich model. Competitive adsorptions were observed for the mixed pollutants on the catalysts, leading to decrease adsorption capacity for each pollutant. The combined titania-montmorillonite-silica photocatalyst exhibited excellent photocatalytic removal ability to model pollutants of various components. Almost 100% of degradation efficiency was achieved within 120 min for each pollutant with about 500 ppb initial concentration, though the efficiencies of multi-component compounds slightly decreased. All photocatalytic reactions followed the Langmuir-Hinshelwood model. Degradation rate constants of multi-component systems were lower than those for single systems, following the order of toluene<ethyl acetate<ethanethiol, and increased with the increase of adsorption capacities for different pollutants of various components.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Sodium ethanethiolate, technical, ~90% (RT)
Sigma-Aldrich
Sodium ethanethiolate, technical grade, 80%
Sigma-Aldrich
Ethanethiol, ≥97%
Sigma-Aldrich
Ethanethiol, 97%