采用微波辐射制备的FeWO₄催化剂通过非均相光芬顿法降解水中的苋菜红偶氮染料。

Degradation of Amaranth azo dye in water by heterogeneous photo-Fenton process using FeWO4 catalyst prepared by microwave irradiation.

作者信息

da Cruz Severo Eric, Anchieta Chayene Gonçalves, Foletto Vitória Segabinazzi, Kuhn Raquel Cristine, Collazzo Gabriela Carvalho, Mazutti Marcio Antonio, Foletto Edson Luiz

机构信息

Department of Chemical Engineering, Federal University of Santa Maria, Santa Maria 97105-900, Brazil E-mail:

Pharmacy Undergraduate Course, Federal University of Santa Maria, Santa Maria 97105-900, Brazil.

出版信息

Water Sci Technol. 2016;73(1):88-94. doi: 10.2166/wst.2015.469.

DOI:10.2166/wst.2015.469

PMID:26744938

Abstract

FeWO4 particles were synthesized by a simple, rapid and facile microwave technique and their catalytic properties in heterogeneous photo-Fenton reaction were evaluated. This material was employed in the degradation of Amaranth azo dye. Individual and interactive effects of operational parameters such as pH, dye concentration and H2O2 dosage on the decolorization efficiency of Amaranth dye were evaluated by 2(3) central composite design. According to characterization techniques, a porous material and a well-crystallized phase of FeWO4 oxide were obtained. Regarding the photo-Fenton reaction assays, up to 97% color and 58% organic carbon removal were achieved in the best experimental conditions. In addition, the photo-Fenton process maintained treatment efficiency over five catalyst reuse cycles to indicate the durability of the FeWO4 catalyst. In summary, the results reveal that the synthesized FeWO4 material is a promising catalyst for wastewater treatment by heterogeneous photo-Fenton process.

摘要

通过一种简单、快速且简便的微波技术合成了FeWO4颗粒，并评估了它们在非均相光芬顿反应中的催化性能。该材料用于苋菜偶氮染料的降解。采用2(3)中心复合设计评估了pH值、染料浓度和H2O2用量等操作参数对苋菜染料脱色效率的单独和交互作用。根据表征技术，获得了一种多孔材料以及结晶良好的FeWO4氧化物相。关于光芬顿反应试验，在最佳实验条件下实现了高达97%的脱色率和58%的有机碳去除率。此外，光芬顿工艺在五个催化剂重复使用周期内保持了处理效率，表明FeWO4催化剂具有耐久性。总之，结果表明合成的FeWO4材料是一种通过非均相光芬顿工艺处理废水的有前景的催化剂。

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采用微波辐射制备的FeWO₄催化剂通过非均相光芬顿法降解水中的苋菜红偶氮染料。

Degradation of Amaranth azo dye in water by heterogeneous photo-Fenton process using FeWO4 catalyst prepared by microwave irradiation.

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