Electrocoagulation Column for the Removal of Chromium from Tannery Wastewater: Adsorption Kinetics and Sludge Recovery.

IF 2.5 4区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ChemistryOpen Pub Date : 2025-05-09 DOI:10.1002/open.202400497

Nahid M Genawi, Nafis Mahmud, Elfatih A Hassan, Muftah H El-Naas

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Abstract

Electrocoagulation is an efficient electrochemical technology used for the treatment of contaminants in wastewater with reportedly high efficiency in treating chromium-rich wastewater. In this study, the removal of chromium (III) ions from tannery wastewater by electrocoagulation is investigated at different pH, current density, and chromium concentrations. The complete removal of chromium ions is achieved at a pH of 6.5, current density of 10.0 mA cm^-2, and chromium concentration of 500 mg L^-1 in batch experiments within an hour. The results showed that the formation of coagulant species during the first 30 min facilitated the chromium removal efficiency through both electrocoagulation and adsorption at low pH of 4. When taking into account varying adsorbent mass, the acquired adsorption kinetics data demonstrates an excellent fit to the pseudo-second-order model, predicting a chromium absorption of 5000 mg g^-1 compared to the experimental uptake of 5108 mg g^-1. In contrast, the experimental and calculated uptakes for fixed adsorbent mass were 5108 and 83333 mg g^-1, respectively. The observed discrepancy in the uptake when using fixed mass confirms the advantage of considering the variable adsorbent mass for predicting the adsorption during electrocoagulation. Moreover, 97% of chromium was recovered from the generated sludge using 4% H2SO4 which can ensure the minimization of the hazardus sludge disposal.

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电絮凝塔去除制革废水中的铬：吸附动力学和污泥回收。

电絮凝是一种有效的电化学技术，用于处理废水中的污染物，据报道对富铬废水具有很高的处理效率。在本研究中，研究了在不同pH值、电流密度和铬浓度下，电絮凝法去除制革废水中的铬离子。在pH为6.5、电流密度为10.0 mA cm-2、铬浓度为500 mg L-1的条件下，批处理实验在1小时内实现了铬离子的完全去除。结果表明，在低pH值4的条件下，前30 min内混凝剂的形成有利于电絮凝和吸附去除铬的效率。当考虑到不同吸附剂质量时，获得的吸附动力学数据显示与伪二阶模型非常吻合，预测铬的吸收率为5000 mg g-1，而实验吸收率为5108 mg g-1。实验吸附量为5108 mg g-1，计算吸附量为83333 mg g-1。当使用固定质量时，观察到的吸收差异证实了考虑可变吸附剂质量来预测电絮凝过程中的吸附的优势。此外，使用4%的H2SO4可以从产生的污泥中回收97%的铬，这可以确保最大限度地减少有害污泥的处置。

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

ChemistryOpen CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

4.80

自引率

4.30%

发文量

143

审稿时长

1 months

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