Physical and numerical model of electrocoagulation process with aluminum electrodes for phosphate removal

Pub Date : 2022-01-01 DOI:10.37190/epe220305
I. Halkijevic, G. Lončar, H. Posavčić, D. Vouk
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Abstract

The efficiency of the electrocoagulation process for the removal of phosphate ions 34 (PO -P) − has been analyzed using a batch full-scale reactor with aluminum electrodes. The effects of the flow rate through the reactor applied current density, and reactor volume were the focus of the study. The initial 34 (PO -P) − concentration was reduced by 90% after 90 min of reactor operation time. Additionally, a three-dimensional numerical model for 34 PO -P − removal via the electrocoagulation process is devel-oped that includes the processes of phosphate adsorption and desorption on coagulated/flocculated particles, along with particles settling. Numerical model parametrization relies on the results from the experiments.
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铝电极电絮凝除磷过程的物理和数值模型
采用铝电极,对电絮凝法去除磷离子34 (PO -P)−的效率进行了分析。研究的重点是通过反应器的流量、外加电流密度和反应器体积的影响。反应器运行90 min后,初始34 (PO -P)−浓度降低90%。此外,开发了电絮凝法去除34 PO -P−的三维数值模型,该模型包括磷酸盐在混凝/絮凝颗粒上的吸附和解吸过程以及颗粒沉降过程。数值模型参数化依赖于实验结果。
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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