Electrocoagulation for the Removal of Copper and Zinc Ions from Water Using Iron Electrodes

Q2 Pharmacology, Toxicology and Pharmaceutics
M. K. Ahmad, Mais A. Mohammed, M. Barbooti
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引用次数: 4

Abstract

Many methods have been suggested for the removal of heavy metals from water to protect human health and the environment. Methods like precipitation and adsorption were proposed for this purpose. Electrocoagulation involves the generation of coagulant by the action of electricity on two metal electrodes (iron or aluminium) to aid the process of water decontamination. Electrodeposition cell was made with iron electrodes and application of voltage from the power supply (5-25 V) dipped in the working solution (Cu and Zn) at various concentrations (10-50 mg.mL-1) for 30-150 min. Samples were drawn and analysed by atomic absorption spectrophotometry. The work indicated efficient removal of the metal ions. The dependence of removal efficiency on the three parameters was studied. The behaviour of the two metal ions was not identical. At low initial concentration, the electrolysis voltage was very important in the removal of Zn and Cu ions. Electrolysis time is essential in the removal process and shows a polynomial dependence of removal efficiency on time. Electrolysis time of 150 min resulted in almost complete removal (94-97%) regardless of the initial concentration. Both co-precipitation and adsorption mechanisms may be involved. The removal efficiency was directly dependent on the initial metal ion concentration and electrolysis time. The process gave removal efficiency for copper that is higher than that of the zinc.
铁电极电絮凝去除水中铜和锌离子的研究
为了保护人类健康和环境,人们提出了许多去除水中重金属的方法。提出了沉淀法和吸附法等方法。电絮凝涉及通过电作用于两个金属电极(铁或铝)产生絮凝剂,以帮助水的净化过程。用铁电极制作电沉积电池,电源电压(5-25 V)在不同浓度(10-50 mg.mL-1)的工作溶液(Cu和Zn)中浸泡30-150 min,提取样品并用原子吸收分光光度法进行分析。这项工作表明金属离子的去除是有效的。研究了这三个参数对去除率的影响。这两种金属离子的行为不相同。在初始浓度较低的情况下,电解电压对Zn和Cu离子的脱除非常重要。电解时间在脱除过程中至关重要,并且脱除效率与时间呈多项式关系。无论初始浓度如何,电解时间为150分钟,几乎完全去除(94-97%)。可能涉及共沉淀和吸附机制。去除率与初始金属离子浓度和电解时间直接相关。该工艺对铜的去除率高于锌。
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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来源期刊
Open Medicinal Chemistry Journal
Open Medicinal Chemistry Journal Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
4.40
自引率
0.00%
发文量
4
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