通过零价铁芬顿氧化法处理制糖业废水

Ceren Orak
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引用次数: 0

摘要

制糖业是废水产生的重要来源,这主要是由于其大量用水。如何处理和回用这些废水已成为亟待解决的问题。本研究使用零价铁(ZVI)通过芬顿氧化法处理制糖业废水。研究重点是评估关键反应参数(即 pH 值、ZVI 量、[H2O2]0)对去除 TOC 的影响。研究确定了芬顿氧化过程的最佳反应条件,即 pH 值为 3.5、ZVI 为 2 克/升、H2O2 为 4 毫摩尔,从而使 TOC 的去除率接近 65%。动力学研究表明,观察到的反应符合二阶动力学反应模型。此外,该观察反应的活化能被测定为 49.14 kJ/mol。这些研究结果表明,利用 ZVI 进行芬顿氧化有望成为处理制糖业废水的一种有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Treatment of Sugar Industry Wastewater via Fenton Oxidation with Zero-Valent Iron
The sugar industry is a significant contributor to wastewater production, primarily due to its substantial water usage. The treatment and reuse of this wastewater have become pressing concerns. In the present study, sugar industry wastewater was treated via Fenton oxidation using zero-valent iron (ZVI). The study focused on assessing the impact of key reaction parameters, namely pH, ZVI amount, [H2O2]0 on the removal of TOC. Optimal reaction conditions for the Fenton oxidation process were identified, with a pH of 3.5, 2 g/L of ZVI, and 4 mM of H2O2, resulting in nearly 65% of TOC removal. The kinetic study revealed that the observed reaction adhered to a second-order kinetic reaction model. Furthermore, the activation energy for this observed reaction was determined as 49.14 kJ/mol. These findings suggest that Fenton oxidation, utilizing ZVI, holds promise as an effective method for treating wastewater originating from the sugar industry.
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