Fenton法和光Fenton法去除水溶液中的酸性红33

Q4 Medicine

Journal of Chemical Health Risks Pub Date : 2017-04-26 DOI:10.22034/JCHR.2017.544173

A. Shokri

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引用次数: 6

摘要

在本项目中，采用Fenton和photo-Fenton工艺在间歇式光反应器中对含酸性红33（AR33）的合成废水进行了脱色和矿化研究。在进行了初步优化研究（如改变pH、污染物浓度、过氧化物和铁）后，使用芬顿法和光芬顿法进行了比较评估。通过分光光度法和化学需氧量（COD）试验计算了AR33的脱色率和矿化率。光-芬顿法的降解效率（反应10min为98.5%）高于芬顿法（反应30min为97.5%）。反应60min后，光-芬顿法和芬顿法对COD的去除率分别为71%和37.5%。因此，光Fenton是AR33部分矿化最有效的过程。使用伪一阶方程评估动力学常数，以获得速率常数K。

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Removal of Acid Red 33 from Aqueous Solution by Fenton and Photo Fenton Processes

In this project decolorization and mineralization of synthetic wastewater containing acid red 33 (AR33) was investigated by Fenton and photo Fenton processes in a batch photo reactor. A comparative assessment using Fenton and photo Fenton processes was performed after initial optimization studies such as varying pH, the concentration of pollutant, peroxide and iron. The color removal and mineralization efficiency of AR33 were calculated by Spectrophotometric and chemical oxygen demand (COD) tests. The degradation efficiency in photo Fenton process (98.5% in 10 min of reaction) was higher than Fenton ones (97.5% in 30 min). After 60 min of reaction, the removal of COD in photo Fenton and Fenton processes was 71% and 37.5%, respectively. Therefore, photo Fenton was the most effective process in partial mineralization of AR33. Kinetic constants were evaluated using pseudo first order equations to obtain the rate constant, K.

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来源期刊

Journal of Chemical Health Risks Environmental Science-Health, Toxicology and Mutagenesis

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

3 weeks