Electrocoagulation using aluminum electrodes as a sustainable and economic method for the removal of kinetic hydrate inhibitor (polyvinyl pyrrolidone) from produced wastewaters

IF 2.6 Q2 WATER RESOURCES
Jawaher S. Al-Marri, Aisha B. Abouedwan, Mohammad I. Ahmad, N. Bensalah
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Abstract

Electrocoagulation is a water treatment technology capable to remove a variety of organic pollutants from water. It is advantageous compared to chemical coagulation due to the controlled dissolution of coagulants by regulating the current density and pH. In this work, the removal of kinetic hydrate inhibitor (KHI) (polyvinyl pyrrolidone, PVP) from water by electrocoagulation using Al electrodes was investigated. The effects of several experimental conditions including the nature of the supporting electrolyte, the current density, and the initial pH value on the electrochemical dissolution of aluminum was evaluated. The findings of the experiments revealed that both chemical and electrochemical dissolution play important roles in the generation of hydroxo-aluminum species. Corrosion studies demonstrated that the presence of chloride ions in water promotes aluminum dissolving via pitting corrosion, whereas the presence of phosphate ions inhibits aluminum corrosion by the deposition of a thick passive layer of aluminum hydroxide/phosphate on the metal surface. The theoretical and experimental amounts of aluminum, increase linearly with increasing specific electrical charge for Q< 2.5 Ah/L, which correlates well with Faraday's Law. The removal of KHI from 0.1M NaCl aqueous solutions by electrocoagulation using aluminum electrodes achieved high removal efficiency in terms of total organic carbon (TOC) up to 95%. TOC decay during galvanostatic electrolysis confirmed the removal of KHI molecules by Al-electrocoagulation at different current densities and pH conditions. The primary mechanism involved in eliminating KHI from water by electrocoagulation using Al electrodes includes mainly the adsorption of PVP molecules on the surface of Al(OH)3 flocs and their enmeshment inside the solid coagulants.
利用铝电极电凝作为一种可持续的经济方法,去除生产废水中的动力学水合物抑制剂(聚乙烯吡咯烷酮
电凝是一种能够去除水中各种有机污染物的水处理技术。与化学混凝法相比,电凝法的优势在于通过调节电流密度和 pH 值来控制混凝剂的溶解。在这项工作中,研究了使用铝电极通过电凝去除水中的动力学水合物抑制剂(KHI)(聚乙烯吡咯烷酮,PVP)。评估了多种实验条件(包括支撑电解质的性质、电流密度和初始 pH 值)对铝电化学溶解的影响。实验结果表明,化学溶解和电化学溶解在氢氧基铝物种的生成过程中都发挥了重要作用。腐蚀研究表明,水中氯离子的存在会通过点腐蚀促进铝的溶解,而磷酸盐离子的存在则会在金属表面沉积一层厚厚的氢氧化铝/磷酸盐被动层,从而抑制铝的腐蚀。当 Q< 2.5 Ah/L 时,铝的理论值和实验值随着比电荷的增加而线性增加,这与法拉第定律十分吻合。使用铝电极电凝去除 0.1M NaCl 水溶液中的 KHI 时,总有机碳(TOC)的去除率高达 95%。在不同的电流密度和 pH 值条件下,静电电解过程中的 TOC 衰减证实了铝电凝对 KHI 分子的去除效果。使用铝电极电凝消除水中 KHI 的主要机制包括 PVP 分子在 Al(OH)3 絮凝体表面的吸附及其在固体混凝剂内部的啮合。
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
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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