Abstract Present study demonstrates an intensive experimental study on the photo-mineralization of an antiseptic drug component, chlorhexidine digluconate in batch slurry photo reactor in presence of ultra-violet light and using titanium dioxide as catalyst. Chlorhexidine digluconate belongs to the typical class of antiseptic drug components that generally used in disinfectants, cosmetics and pharmaceutical products. This study aims to analyze the influence of operating parameters, and their interactive effect on the overall removal efficiency of the targeted drug component from waste stream, and prediction of the optimum condition for up-scaling the technique and design of the photocatalytic reactor. Response surface methodology has been used to develop a multi-variant regression model and to assess the influence of individual parameters as well as the interactive effects. Substrate to catalyst ratio, UV intensity and medium pH were chosen as independent variables to optimize the percent removal of chlorhexidine digluconate as response. Optimal conditions obtained from statistical analysis at substrate to catalyst ratio 1.25, UV intensity 87.5 μW cm −2 at pH 10.5 have shown percent removal of 67.47 with desirability factor of 0.989. Model predicted values were found in good agreement with the experimental values, and the behavior of the model equation has supported the experimental observation with minor deviation. Separate validation experiment at predicted optimal condition ascertained the high predictive ability of the model equation.

Load

Load