Bench-scale reactor for Cefadroxil oxidation and elimination of its antibiotic activity using electro-generated active chlorine

化学 水解 头孢羟氨苄 无机化学 核化学 色谱法 有机化学 抗生素 生物化学 头孢菌素
作者
Angie V. Moreno-Palacios,Ricardo E. Palma‐Goyes,Jorge Vázquez-Arenas,Ricardo A. Torres-Palma
出处
期刊:Journal of environmental chemical engineering [Elsevier BV]
卷期号:7 (3): 103173-103173 被引量:40
标识
DOI:10.1016/j.jece.2019.103173
摘要

The Cefadroxil (CFDX) degradation and its associated antibiotic activity (AA) are analyzed on Sb2O3 doped Ti/RuO2-ZrO2 anodes electro-generating active chlorine (Cl2-active). The influence of the following parameters: (i) current density (ii) CFDX concentration (iii) volumetric flow and (iv) initial pH is evaluated in a filter-press FM01-LC reactor to account for controlling factors of the system. The CFDX removal is improved when HClO predominate in solution due to its higher oxidation potential, co-assisted with the presence of Cl2 (pH = 2), while the CFDX molecule undergoes a slight acid hydrolysis. The contaminant destruction is controlled by the kinetics arising between the active chlorine species adsorbed on the electrode surface (HClOads) and the pollutant, since the increase of flow rate in the reactor does not improve the abatement whatsoever. The total CFDX concentration and its antibiotic activity can be eliminated after 15 min using electro-generated active chlorine at the following operating conditions: 0.05 mol L−1 NaCl, natural pH (5.5), 3 mA cm−2 and 4 L min−1. The energy consumption is considerably influenced by the cell voltage and the presence of active chlorine and H+ concentrations. An important biodegradability degree of the final byproducts is produced by active chlorine species, while only two intermediates of cefadroxil oxidation (CFDX-I-1 and CFDX-I-2) are detected after 2 h of treatment using high-performance liquid chromatography (HPLC).

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