Abstract
The efficiency of a staged photocatalytic reactor prototype was evaluated on a semi-pilot scale with the removal of acetaminophen, for which anatase particles were synthesized by Sol-Gel and impregnated on rectangular plates of clay. X-ray diffraction and Energy Dispersive X-ray Fluorescence patterns show that the final composite is made up of Al(2)O(3) (14 %), SiO(2) (41 %), CaO (3 %) TiO(2) (34 %), and Fe(2)O(3) (7 %). The impregnation method favors the dispersion of Anatase on the surface of the adsorbent. TiO(2)-Anatase/Clay, classified as a macro-porous solid with H3-type hysteresis loops by N(2) physisorption. Adsorption processes are improved when using TiO(2)-Anatase/Clay compared to using TiO(2)-Anatase. The external mass transfer has a greater influence on the removal rate. The dimensionless parameters of the Biot number indicate there are no limitations due to the diffusive effect on the interior of the particle. The evaluation of the kinetic data under the Langmuir-Hinshelwood equation shows a decrease in efficiency as the initial concentration increases. The acetaminophen molecule shows destabilization in the structure of the aromatic ring with a visible decrease in the signals of this functional group evaluated by High-Performance Liquid Chromatography and Raman Spectroscopy.