Abstract
This work aimed at investigating the photocatalytic treatment of a synthetic wastewater using UV light (254 nm, 6 W), TiO2 catalyst and H2O2 in a batch recycle annular photoreactor. The total volume of the solution was 250 mL while the irradiated volume in the annular photoreactor with 55.8 mL. Each experiment lasted 120 min and samples were sent for Total Carbon and HPLC analysis. The stock wastewater had initial total carbon 1118 mg L-1. The effect of the presence of phenol in the wastewater on total carbon (TC) removal was also studied. It was shown that the photocatalytic treatment was effective only when initial TC was decreased to 32 mg L-1, whereas the optimum TiO2 concentration was 0.5 g L-1, leading to a TC removal up to 56%. For the same initial carbon load, the optimum H2O2 concentration was found to be 67 mg L-1 resulting in 55% TC removal. Combining, however, TiO2 and H2O2 did not lead to better performance, as 51% TC removal was observed. In contrast, when initial carbon in the wastewater was partially substituted by phenol, the combination of catalyst and hydrogen peroxide was beneficial. Specifically, when 10 ppm of phenol were added keeping the same initial TC concentration, UV/TiO2 treatment resulted in 46% TC removal and 98% phenol conversion, whereas using additionally H2O2 led to 100% phenol conversion after 45 minutes and 81% TC removal.
Highlights
Water pollution and lack of clean drinking water are among the most significant problems worldwide
This paper focuses on photochemical and photocatalytic treatment methods, which differ in the source of OH radicals, for the treatment of a synthetic organic wastewater
Increasing hydrogen peroxide concentrations resulted in higher total carbon (TC) removals achieved (Figure 4)
Summary
Water pollution and lack of clean drinking water are among the most significant problems worldwide. The disposal of wastewaters in the environment is a major concern. It is essential to make sure that disposed water is appropriately treated so that it has minimal impact on aquatic life and the environment. One of the ways to deal with such problems is to introduce wastewater treatment technologies. Wastewater treatment is the procedure that eliminates the presence of various contaminants, chemicals, and bacteria, before further water usage or discharge. There are three main steps of treating wastewater: preliminary, secondary and tertiary treatment. The preliminary and secondary treatment technologies are based on physical and chemical processes, when wastewater contains hazardous compounds, these remediation techniques are not enough. Advanced Oxidation Processes (AOPs) are among the most effective ways to deal with toxic refractory organic compounds
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