Elsevier, Solar Energy, 11(85), p. 2732-2740
DOI: 10.1016/j.solener.2011.08.012
Full text: Download
The main objective of the present study was to assess the photocatalytic degradation over TiO2 of an aqueous solution containing 20mgL−1 of the antibiotic Oxytetracycline (OTC) using simulated solar radiation, seconded by a solar radiation experiment carried out in a pilot plant equipped with Compound Parabolic Collectors (CPCs) under the optimal conditions found in preliminary lab-scale experiments. These comprehended a set of 1L aqueous experiments with TiO2 loads ranging from 0.1 to 0.5gL−1 starting from different initial pH values. These experiments were carried out in a Solarbox equipped with a 1000W Xe-OP lamp. OTC degradation was followed by HPLC-DAD, while its mineralization was followed by the removal of Total Organic Carbon.Results suggested that 0.5gL−1 of TiO2 with no initial pH adjustment (pH∼4.4) was the best combination for the removal of both OTC (100% after 40min of irradiation; 7.5kJL−1 of UV dose) and TOC (>90% after 180min of irradiation; 38.3kJL−1 of UV dose). Under these conditions, the BOD5/COD ratio rose from almost 0 to nearly 0.5, showing a remarkable improvement in biodegradability, while inhibition percentage of bioluminescence of Vibrio fischeri after 15min of exposition measured by Microtox® decreased significantly from 35% down to 7%. A scheme of the OTC degradation pathway is proposed, based on the results obtained from this particular experiment.The solar photocatalytic experiment done under the same conditions was carried out in a solar pilot plant equipped with CPCs. OTC and TOC removal was followed as a function of accumulated UV energy entering the reactor. Results showed a 100% OTC and almost 80% TOC removal with 1.8kJL−1 and 11.3kJL−1 of photo treatment energy, respectively.