Photocatalytic removal of cefazolin from aqueous solution by AC prepared from mango seed+ZnO under UV irradiation

issue 2 Pub Date : 2018-08-07 DOI:10.30955/gnj.002588

M. Samarghandi, A. Rahmani, G. Asgari, Ghobad Ahmadidoost, A. Dargahi

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引用次数: 40

Abstract

Presence of antibiotics in the environment specially in aqueous environments is considered a major warning about health and environment. Thus, this study aims the efficiency of coupled process of Activated Carbon (AC) prepared from mango seed+ZnO under UV irradiation as an advanced oxidation process in removing cefazolin antibiotic from aqueous solutions. This experimental study was carried out in a discontinuous reaction chamber with volume of one liter. In this process, the effect of initial pH parameters of the environment (3– 9), initial concentration of cefazolin (20 – 200 mg/L), concentration of modified, photocatalyzer (20 – 100 mg/L) and reaction time (10 – 60 min) were studied. The pilot used consisted of a low pressure mercury lamp with a 55-watt beam radiation power inside the steel chamber. The kinetic of the process was studied based on pseudo first order kinetics. Results showed that the highest removal efficiency of cefazolin antibiotics in the reaction of UV/AC + ZnO, at optimal conditions of pH= 3, contact time of 60 min, initial concentration of 100 mg/L and modified photocatalyzer of 0.1 g/L was equal to 96%. The kinetic model determined for the process followed kinetic model of pseudo- first order kinetics with high correlation of (R2 = 0.99). Results of present study revealed that photocatalyzer process of nanoparticles oxidation on synthetic activated carbon can be effectively used as an advanced oxidation reaction to remove cefazolin and similar pollutants.

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芒果籽+ZnO制备AC光催化去除水溶液中头孢唑啉的研究

抗生素在环境中的存在，特别是在水环境中，被认为是对健康和环境的重大警告。因此，本研究旨在考察紫外辐照下芒果籽+氧化锌制备活性炭(AC)作为高级氧化工艺对头孢唑林抗生素的去除效果。本实验研究在容积为1升的不连续反应室中进行。考察了初始环境pH(3 ~ 9)、头孢唑啉初始浓度(20 ~ 200 mg/L)、改性剂浓度、光催化剂浓度(20 ~ 100 mg/L)、反应时间(10 ~ 60 min)等因素对反应的影响。飞行员使用的是一盏低压汞灯，在钢腔内具有55瓦的光束辐射功率。基于准一级动力学研究了该过程的动力学。结果表明，在pH= 3、接触时间为60 min、初始浓度为100 mg/L、改性光催化剂用量为0.1 g/L的条件下，头孢唑啉类抗生素在UV/AC + ZnO反应中去除率最高，达到96%。确定的动力学模型为准一级动力学模型，相关系数为(R2 = 0.99)。研究结果表明，纳米颗粒在合成活性炭上的光催化氧化工艺可以有效地作为一种高级氧化反应去除头孢唑啉等污染物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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issue 2

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