Abstract

As a preliminary treatment for the subsequent desalinization process, a combination of heterogeneous electrocatalysis and homogeneous photolysis is developed to mineralize bio-refractory organic pollutants in the wastewater with high salinity. A response surface methodology is used to assess the individual and interactive effects of several operating parameters (initial substrate concentration, pH, current density and Na 2SO 4 concentration) on the mineralization efficiency (the total organic carbon (TOC) removal rate) of p-nitrophenol. Based on the experimental results, a semi-empirical expression is proposed, allowing to predict and optimize the 5-h TOC removal rate. Both pH and current density are found to be the most significant positive factors that affected the combined process. With respect to the individual electrocatalysis and photolysis process, a synergetic effect on TOC removal rate is found in such a combined process. The oxygen generated by the parasite reaction of electrolysis process is recognized to play a predominant role in the synergetic effect. The degradation kinetics of PNP follows a pseudo-first-order kinetics model and features a higher degradation rate coefficient in alkaline medium and in an appropriate flowrate range. Through the LC–MS analysis of degradation products, the denitration and substitution by hydroxyl radicals on aromatic ring prove to be the first step for the degradation of PNP by the combined process.

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