Degradação de etinilestradiol por meio de fotocatálise heterogênea e radiação UV
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2015-04-28
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Universidade Federal de Goiás
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Several studies point to the presence of emerging pollutants in surface water, groundwater and public water supply in many countries. Such substances are not covered by legislation and derived from effluent discharges with inadequate or no treatment. In this context, fall within the synthetic estrogens as EE2 (ethinylestradiol) that are found in the residual medium in the environment, which can have adverse effects on aquatic organisms as well as for terrestrial organisms. These hormones are absorbed by the body, suffer metabolic reactions and a quantity of them, both in its form as unmetabolised in metabolized form, it is excreted to the environment. As these substances are not easily biodegradable and have harmful pharmacological properties when used incorrectly, through contaminated water, there is growing concern about its destination, especially when taking into account the environmental risk assessment. For these reasons, the detection, elimination and investigation of the fate of these estrogens has become priority on environmental chemistry. These products are found in low concentrations (μg.L-1 and ng.L-1), but even so, can be harmful to organisms through bioaccumulation. There are still few ecotoxicological studies related to the exposure of organisms to substances considered endocrine disruptors. The aim of the study was to develop and validate an analytical method for high-performance liquid chromatography (HPLC) to identify and quantify ethinyl estradiol, the study of degradation of the same compound in a photocatalytic reactor and also the calculation of the reaction kinetics for each curve ethinyl estradiol degradation. For analytical validation experiments were performed as set forth in the RE 899 2003 ANVISA. For the degradation experiments were carried application of UV settling and also photocatalysis experiments using titanium dioxide (TiO2) in suspension. By applying a 22 factorial design pH parameters were studied and mass of the catalyst and also its interaction with regard to treatment efficiency. The reactor was operated in batch and in continuous flow, in both cases there optimization. The analytical method was effective for detection and quantification of ethinylestradiol. The photocatalytic degradation test batch procedure presented great efficiency degradation of ethinyl estradiol present in water, obtaining a mean degradation of about 99% in about 120 minutes. The factorial design has shown that the most relevant factor in relation to the degradation efficiency was the pH, although there has been the appearance of a degradation by-product when used a basic pH (8.0). A greater treatment efficiency with smaller mass of TiO2 (0.05 gL-1). The reaction order and constant speed found for the experiments were as between 1 and 2. When the system is operating in continuous flow ethinyl estradiol degradation was approximately about 84% after optimization. The study shows that photocatalysis is very efficient to ethinyl estradiol degradation in water.
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ISECKE, B. G. Degradação de etinilestradiol por meio de fotocatálise heterogênea e radiação UV. 2015. 87 f. Dissertação (Mestrado em Engenharia do Meio Ambiente) - Universidade Federal de Goiás, Goiânia, 2015.