Institut national de la recherche scientifique, Centre Eau, Terre et Environnement, 490 rue de la Couronne, Québec, Qc, Canada.
J Hazard Mater. 2012 Jan 15;199-200:15-24. doi: 10.1016/j.jhazmat.2011.10.022. Epub 2011 Oct 31.
Ti/TiO(2) electrode was prepared by means of the Pulsed Laser Deposition method and used in a photoelectrocatalytic oxidation (PECO) process in order to degrade chlortetracycline (CTC). The deposited TiO(2) coatings were found to be of rutile structure. High treatment efficiency of CTC was achieved by the PECO process compared to the conventional electrochemical oxidation, direct photolysis and photocatalysis processes. Several factors such as current intensity, treatment time, UV lamp position and initial concentration of CTC were investigated. Using a 2(4) factorial matrix, the best performance for CTC degradation (74.3% of removal) was obtained at a current intensity of 0.5A during 120 min of treatment time and when the UV lamp was immersed in the solution in the presence of 25 mg L(-1) of CTC. The current intensity and treatment time were the main parameters influencing the degradation rate of CTC. Subsequently, a central composite design methodology has been investigated to determine the optimal experimental parameters for CTC degradation. The PECO process applied under optimal conditions (at current intensity of 0.39 A during 120 min with internal position of the UV lamp) is able to oxidize around 74.2 ± 0.57%, of CTC.
采用脉冲激光沉积法制备 Ti/TiO(2)电极,并将其用于光催化氧化(PECO)过程中,以降解土霉素(CTC)。沉积的 TiO(2)涂层被发现为金红石结构。与传统电化学氧化、直接光解和光催化过程相比,PECO 过程实现了 CTC 的高效处理。研究了电流强度、处理时间、UV 灯位置和 CTC 初始浓度等几个因素。使用 2(4)析因矩阵,在电流强度为 0.5A 下处理 120 分钟,并在 25mgL(-1)的 CTC 存在下将 UV 灯浸入溶液中,获得了 CTC 降解的最佳性能(去除率为 74.3%)。电流强度和处理时间是影响 CTC 降解速率的主要参数。随后,研究了中心复合设计方法,以确定 CTC 降解的最佳实验参数。在最佳条件下(电流强度为 0.39A,处理时间为 120 分钟,UV 灯的内部位置)应用 PECO 过程能够氧化约 74.2±0.57%的 CTC。
