荧光和紫外光下高浓度甲醛水溶液的深度氧化

IF 1.3 Q4 ENVIRONMENTAL SCIENCES

Environmental Health Engineering and Management Journal Pub Date : 2021-11-15 DOI:10.34172/ehem.2021.30

F. Deniz, M. A. Mazmancı

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引用次数: 2

摘要

背景：甲醛是一种易溶于水的致癌化合物。FA可以使用先进的氧化方法从水溶液中去除。方法：在荧光和紫外光下对FA的氧化进行研究。使用过氧化氢（H2 O2）作为氧化剂。对样品的pH值和H2 O2量进行了优化。对化学需氧量（COD）、FA浓度和H2 O2消耗量进行了跟踪。结果：FA氧化时，荧光灯下样品的pH值比紫外光下更显著。在荧光灯下，当FA与H2 O2的比例为1:1时，pH为12.00时，样品的COD去除率和H2 O2还原率最高，分别为18.57%和30.90%。在pH 7.00，FA∶H2 O2比例为1:2的条件下，在紫外光下，FA和COD的去除率分别为86.41%和62.12%。观察到在UV光下在所有pH值下H2 O2都被消耗。另一方面，在荧光下，H2 O2的浓度仅在pH 12时降低。在仅含有H2 O2的对照样品中，在荧光灯下，H2 O2在pH 11.91时的还原率为92.09%，而在其他pH水平时为2-6%。在紫外光下，在不同pH值下，H2 O2还原率在33%和44%之间变化。FA的氧化适用于拟一阶动力学模型和Langmuir等温线模型。结论：在初始pH值（7.00）和FA∶H2 O2比例为1:2的条件下，紫外光下氧化效果最好。

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Advanced oxidation of high concentrations of formaldehyde in aqueous solution under fluorescent and UV light

Background: Formaldehyde (FA) is a carcinogen compound, which is soluble in water. FA can be removed from aqueous solution using advanced oxidation methods. Methods: In this study, the oxidation of FA was studied under fluorescent and UV light. Hydrogen peroxide (H2 O2 ) was used as an oxidant. The pH value and H2 O2 amount of samples were optimized. The chemical oxygen demand (COD), FA concentration, and H2 O2 consumption were followed. Results: It was observed that the pH value of the sample was more significant under fluorescent light than UV light at oxidation of FA. The highest COD removal and H2 O2 reduction were 18.57 and 30.90%, respectively, at pH 12.00, with a 1:1 ratio of FA:H2 O2 under fluorescent light. 86.41% FA and 62.12% COD removal were achieved at pH 7.00, with a 1:2 ratio of FA:H2 O2 , under UV light. It was observed that H2 O2 was consumed at all pH values under UV light. On the other hand, under fluorescent light, the concentration of H2 O2 decreased only at pH 12. In control samples containing only H2 O2 , the H2 O2 reduction was 92.09% at pH 11.91, while it was 2-6% at other pH levels under fluorescent light. The H2 O2 reduction changed between 33 and 44% at different pH values under UV light. The oxidation of FA was found to be suitable for the pseudo-first-order kinetic model and Langmuir isotherm model. Conclusion: The most effective oxidation was obtained at the original pH value (7.00) and 1:2 ratio of FA:H2 O2 under UV light.

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来源期刊

Environmental Health Engineering and Management Journal ENVIRONMENTAL SCIENCES-

CiteScore

2.40

自引率

37.50%

发文量

审稿时长

12 weeks