Removal of azo red-60 dye by advanced oxidation process O3/UV from textile wastewaters using Box-Behnken design

Azo red-60 dye is a type of azo dyes with complex structure, carcinogenicity and mutagenic properties that are tolerable in the environment and is discharged through the sewage of textile industries. Advanced oxidation techniques have been used to remove resistant organic compounds. Experimental design and optimization were performed by the design of experiment software using Box-Behnken Design, and its optimal conditions were determined. The effects of these parameters were tested, and the dye removal process includes the presence of ozone gas and UV (125 w) as well as the different pH values (5-10) and reaction times (10-60 min), at an initial concentration (25-100 mg/L) were investigated. The ANOVA results with a confidence level of 99 %, high regression, and fitting values were obtained between the experimental degradation data of azo red-60 and the RSM predicted model. The optimum removal efficiency of 100 % was obtained at conditions of an initial con-centration dye of 100 mg/L and a reaction time of 60 min and pH 7.5 in the presence of ozone gas flow, and UV rays. Thus, the present study indicated by the O3/UV hybrid process with advantages such as performance and high speed can be an efficacious method for removing azo red-60 and wastewater treatment in various industries.

Automated summary

This study used advanced oxidation techniques to determine the optimal conditions for removing azo red-60 dye. The results showed that the O3/UV hybrid process had excellent performance and high speed in wastewater treatment for removing azo red-60.