通过在Q235碳钢上进行等离子体电解氧化制备Fe3O4/FeAl2O4复合涂层用于类芬顿降解苯酚。

A Fe3O4/FeAl2O4 composite coating via plasma electrolytic oxidation on Q235 carbon steel for Fenton-like degradation of phenol.

作者信息

Wang Jiankang, Yao Zhongping, Yang Min, Wang Yajing, Xia Qixing, Jiang Zhaohua

机构信息

School of Chemistry and Chemical Engineering, Harbin Institute of Technology, Harbin, 150001, People's Republic of China.

State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology, Harbin, 150001, People's Republic of China.

出版信息

Environ Sci Pollut Res Int. 2016 Aug;23(15):14927-36. doi: 10.1007/s11356-016-6613-5. Epub 2016 Apr 14.

DOI:10.1007/s11356-016-6613-5

PMID:27074928

Abstract

The Fe3O4/FeAl2O4 composite coatings were successfully fabricated on Q235 carbon steel by plasma electrolytic oxidation technique and used to degrade phenol by Fenton-like system. XRD, SEM, and XPS indicated that Fe3O4 and FeAl2O4 composite coating had a hierarchical porous structure. The effects of various parameters such as pH, phenol concentration, and H2O2 dosage on catalytic activity were investigated. The results indicated that with increasing of pH and phenol content, the phenol degradation efficiency was reduced significantly. However, the degradation rate was improved with the addition of H2O2, but dropped with further increasing of H2O2. Moreover, 100 % removal efficiency with 35 mg/L phenol was obtained within 60 min at 303 K and pH 4.0 with 6.0 mmol/L H2O2 on 6-cm(2) iron oxide coating. The degradation process consisted of induction period and rapid degradation period; both of them followed pseudo-first-order reaction. Hydroxyl radicals were the mainly oxidizing species during phenol degradation by using n-butanol as hydroxyl radical scavenger. Based on Fe leaching and the reaction kinetics, a possible phenol degradation mechanism was proposed. The catalyst exhibited excellent stability.

摘要

通过等离子体电解氧化技术在Q235碳钢上成功制备了Fe3O4/FeAl2O4复合涂层，并用于类芬顿体系降解苯酚。X射线衍射（XRD）、扫描电子显微镜（SEM）和X射线光电子能谱（XPS）表明，Fe3O4和FeAl2O4复合涂层具有分级多孔结构。研究了pH值、苯酚浓度和H2O2用量等各种参数对催化活性的影响。结果表明，随着pH值和苯酚含量的增加，苯酚降解效率显著降低。然而，添加H2O2可提高降解速率，但随着H2O2进一步增加降解速率下降。此外，在303 K、pH 4.0、6.0 mmol/L H2O2条件下，6 cm2的氧化铁涂层在60分钟内对35 mg/L苯酚的去除效率达到100%。降解过程包括诱导期和快速降解期；两者均遵循准一级反应。以正丁醇作为羟基自由基清除剂，表明羟基自由基是苯酚降解过程中的主要氧化物种。基于铁浸出和反应动力学，提出了一种可能的苯酚降解机理。该催化剂表现出优异的稳定性。

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通过在Q235碳钢上进行等离子体电解氧化制备Fe3O4/FeAl2O4复合涂层用于类芬顿降解苯酚。

A Fe3O4/FeAl2O4 composite coating via plasma electrolytic oxidation on Q235 carbon steel for Fenton-like degradation of phenol.

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