Photocatalytic oxidation of gaseous perchloroethylene over TiO 2 based paint

Abstract

Abstract Perchloroethylene (PCE) is a volatile chlorinated compound persistently present in indoor air of several industrial closed facilities. Due to its environmental and human health impact, efforts have been directed in the last decades toward the degradation of this kind of air pollutants. The photocatalytic oxidation (PCO) of PCE was studied in an annular photoreactor equipped with a compound parabolic collector (CPC) and employing two different configurations of a monolithic structure of cellulose acetate coated with an active TiO 2 -based paint (9 wt.% of TiO 2 PC500) under solar radiation. The influence of the experimental conditions, namely feed flow rate ( Q feed ), initial concentration ( C PCE,feed ), relative humidity (RH) in the system, absence of oxygen and incident irradiance on the PCE conversion was evaluated. Under the best experimental conditions ( C PCE,feed = 1100 ppm, Q feed = 75 cm 3 min −1 , RH = 40% and I = 38.4 W UV m −2 in the presence of oxygen) 60% of the initial PCE concentration was converted. The results showed that depending on the configuration of the structure, photocatalytic degradation of PCE can be enhanced by approximately 58%. Results obtained at low RH suggest that Cl radical chain propagation reactions may be included in the PCO mechanism of PCE. Also, in the absence of oxygen the photoreaction can still take place.