Jutaporn Chanathaworn, Jutarut Pornpunyapat, and Juntima Chungsiriporn

pp. 97 - 105

Abstract

The present study deals with a decolorization development of malachite green (MG) dyeing wastewater using TiO₂
thin films coated glass tube media in photoreactor. The TiO₂
 photocatalyst was synthesized by three methods: TTIP sol-gel,
TiO₂
 powder-modified sol, and TiO₂
 powder suspension coating on raschig ring glass tube media and was investigated
crystallinity phase by SEM, XRD, and AFM. Degradation kinetics of the dyeing wastewater by photocatalytic was carried
out under UV light irradiation. The Langmuir first-order model provided the best fit to the experimental data. The catalyst
prepared by powder suspension technique and coated on glass tube had given the highest of decolorization kinetics and
efficiency. Continuous photoreactor packed with the TiO₂
 coating media was designed and proven to be the high effectiveness for MG dyeing degradation and stable throughout the recyclability test. The light intensity, dye solution flow rate, and
TiO₂
 loading were the most important parameters that response to decolorization efficiency. The optimum condition of photo
decolorization of MG dye solution can be obtained from RSM model. Effectiveness of the synthesized TiO₂
 thin films using
suspension technique and the continuous photoreactor design were obtained with a great potential to be proven for wastewater treatment at industrial scale.