论文信息 - Photocatalytic degradation of a textile azo dye, Sirius Gelb GC on TiO2 or Ag-TiO2 particles in the absence and presence of UV irradiation: the effects of some inorganic anions on the photocatalysis

Photocatalytic degradation of a textile azo dye, Sirius Gelb GC on TiO2 or Ag-TiO2 particles in the absence and presence of UV irradiation: the effects of some inorganic anions on the photocatalysis

Abstract The aqueous phase photocatalytic degradation of Sirius Gelb GC used in the textile industry, was investigated. In order to optimize the working pH, three different dye solutions were prepared at pH 3.5; 7.0 and 11.0. One hundred cubic centimeter portions of the solution were irradiated with a low pressure UV lamb in the absence and presence of catalysts TiO2 or Ag loaded-TiO2. In all conditions, the samples withdrawn from the reactor were centrifuged and separated from the catalyst and degradation percentages were calculated from the measurement of the residual dye concentrations, spectrophotometrically. The optimum pH, which provides the best degradation ratio was found to be 3.5 for the dye. At the same pH, it was found that silver loaded catalyst is more effective than neat TiO2 catalyst. The silver loading dramatically reduced the irradiation time from 20 min to 8 min for Sirius Gelb GC. However, the catalytical behavior of the both the catalysts was also investigated in heavy salt media such as simulated wastewater and in a river fluent. Pooled standard deviation (Spooled) of the repeated measurements in all conditions is 0.615 for N=47 and 38 degrees of freedom. Confidence limit of the method is 98.8±0.2 in 95% confidence level.

[1] S. Martin,et al. Environmental Applications of Semiconductor Photocatalysis , 1995 .

[2] André M. Braun,et al. Photochemical processes for water treatment , 1993 .

[3] R. Peters,et al. Chemical Oxidation Technologies: Ultraviolet Light/Hydrogen Peroxide, Fenton's Reagent, and Titanium Dioxide-Assisted Photocatalysis , 1993 .

[4] J. Yates,et al. Photocatalysis on TiO2 Surfaces: Principles, Mechanisms, and Selected Results , 1995 .

[5] P. Kamat. PHOTOCHEMISTRY ON NONREACTIVE AND REACTIVE (SEMICONDUCTOR) SURFACES , 1993 .

[6] G. Low,et al. Effects of common inorganic anions on rates of photocatalytic oxidation of organic carbon over illuminated titanium dioxide , 1990 .

[7] Akira Fujishima,et al. Titanium dioxide photocatalysis , 2000 .

[8] D. Goswami. A Review of Engineering Developments of Aqueous Phase Solar Photocatalytic Detoxification and Disinfection Processes , 1997 .

[9] Jincai Zhao,et al. Photoassisted Degradation of Dye Pollutants. 3. Degradation of the Cationic Dye Rhodamine B in Aqueous Anionic Surfactant/TiO2 Dispersions under Visible Light Irradiation: Evidence for the Need of Substrate Adsorption on TiO2 Particles , 1998 .

[10] M. M. Kondo,et al. Photodegradation of chloroform and urea using Ag-loaded titanium dioxide as catalyst , 1991 .