Abstract
Photocatalytic degradation of Direct Blue 15 (DB15), an azo dye, was studied using a swirl-flow monolithic reactor under UV irradiation. The degradation reactions were carried out to investigate effects of initial dye concentration, catalyst loading, and light intensity at an optimal pH. The experiments were designed and mathematically modelled by CCD-RSM (central composite design-response surface methodology) approach. It was found that the selected parameters significantly affect DB15 degradation. In terms of the linear term, catalyst loading and light intensity had a synergistic effect, while dye concentration registered the opposite effect. Strong interaction was observed between catalyst loading and both light intensity and initial dye concentration compared with the interaction of light intensity and initial dye concentration. Based on the experimental results, a quadratic model was developed to predict the percentage removal of DB15. The predicted values of the model were in good agreement with the experimental values (R2 = 0.987), indicating the model fits well for the parameter space for which experiments were performed. According to diagnostic plots, the model credibility was valid because its residuals were distributed normally and exhibited a random pattern based on their examination versus the predicted values. The results revealed that the initial dye concentration and catalyst concentration have a significant effect on the mineralization time.
Highlights
Various organic dyes exist in the wastewater effluent of many industrial plants: Textile, food, beverage, and paper industries [1,2,3]
The objective of this study was to evaluate the photocatalytic degradation of a diazo dye direct blue 15 and determine influence of different parameters on the dye degradation
The findings of this study revealed that the optimal value of pH is about 4 for Direct Blue 15 (DB15)
Summary
Various organic dyes exist in the wastewater effluent of many industrial plants: Textile, food, beverage, and paper industries [1,2,3]. With a wide range of colors and chemical structures, azo dyes represent the main group of various synthetic dyes [1,9,10]. From the view of application, the azo dyes constitute approximately between 50% and 70% of the total synthetic dye market worldwide [8,10,11,14,15]. This group of dyes is considered the largest category of synthetic and colored dyes [1,16]
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