Treatment of textile wastewaters by solar-driven advanced oxidation processes

摘要

Heterogeneous (TiO2/UV, TiO2/H2O2/UV) and homogenous (H2O2/UV, Fe2+/H2O2/UV) solar advanced oxidation processes (AOPs) are proposed for the treatment of recalcitrant textile wastewater at pilot-plant scale with compound parabolic collectors (CPCs). The textile wastewater presents a lilac colour, with a maximum absorbance peak at 516 nm, high pH (pH =11), moderate organic content (DOC =382 mg C L~ COD =1020 mg O2 L"1) and high conductivity (13.6 mS cm"1), associated with a high concentration of chloride (4.7 g Cl~ L"1). The DOC abatement is similar for the H2O2/UV and TiO2/UV processes, corresponding only to 30% and 36% mineralization after 190 kJuv L^1. The addition of H2O2 to TiO2/UV system increased the initial degradation rate more than seven times, leading to 90% mineralization after exposure to 100 kJuv L~'. All the processes using H2O2 contributed to an effective decolouri-sation, but the most efficient process for decolourisation and mineralization was the solar-photo-Fenton with an optimum catalyst concentration of 100 mg Fe2+ L"1, leading to 98% decolourisation and 89% mineralization after 7.2 and 49.1 kJuvL~（-1）, respectively. According to the Zahn-Wellens test, the energy dose necessary to achieve a biodegradable effluent after the solar-photo-Fenton process with 100 mg Fe2+ L*1 is 12 kJuv L~（-1）