High-efficiency removal of phenol and coking wastewater via photocatalysis-Fenton synergy over a Fe-g-C3N4 graphene hydrogel 3D structure

Hu Jinshan; Zhang Pengfei; Cui Jifang; An Weijia; Liu Li; Liang Yinghua; Yang Qingbin; Yang Hongjun; Cui Wenquan

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High-efficiency removal of phenol and coking wastewater via photocatalysis-Fenton synergy over a Fe-g-C3N4 graphene hydrogel 3D structure

机译：通过光催化 - FENTON Synergy通过Fe-G-C3N4石墨烯水凝胶3D结构高效除去苯酚和焦化废水

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To achieve rapid separation of electron-hole pairs and improve photocatalytic degradation activity, the Fe-g-C3N4 reduced graphene hydrogel (rGH/Fe-g-C3N4) with a 3D network structure was fabricated via the hydrothermal method. Using visible light irradiation, H2O2 was added to form a photocatalysisFenton synergy system. The results showed that the synergistic degradation rate constant of 10% rGH/Feg-C3N4 was 52% higher than that of the multiphase Fenton reaction and 1.5 times higher than that of the Fe-g-C3N4. In the seventh cycle, the catalytic efficiency was still as high as 86.9%. Based on the optimized conditions from phenol degradation, the system was further applied to coking wastewater treatment, and the degradation efficiency of TOC and COD in 60 min reached 66.3% and 68.1%, respectively. Such high and stable degradation performance was ascribed to the synergy effect of photocatalysis and Fenton. Because of the photogenerated electrons not only can promote the Fe3+/Fe2+ cycle, accelerate the decomposition of H2O2, but also can quickly transfer to graphene and directly decompose H2O2 to form center dot OH. Thus, a large amount of center dot OH were generated through the two different channels, which greatly improve the degradation efficiency. Furthermore, rGH/Fe-g-C3N4 can be regenerated using filters without the need for additional complicated processing. This work provides an effective strategy for the deep treatment of industrial wastewater. (C) 2020 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.

机译：为了实现电子 - 空穴对的快速分离并改善光催化降解活性，通过水热法制造具有3D网络结构的Fe-G-C3N4还原的石墨烯水凝胶（RGH / Fe-G-C3N4）。使用可见光照射，加入H 2 O 2以形成光电分析汾顿协同系统。结果表明，10％RGH / FEG-C3N4的协同降解率常数比多相FENTON反应高的52％，比Fe-G-C3N4高1.5倍。在第七循环中，催化效率仍高达86.9％。基于来自酚类降解的优化条件，该系统进一步应用于焦化废水处理，60分钟的TOC和COD的降解效率分别达到66.3％和68.1％。这种高稳定的降解性能归因于光催化和芬顿的协同作用。由于光发生的电子不仅可以促进Fe3 + / Fe2 +循环，加速H2O2的分解，还可以快速转移到石墨烯并直接分解H2O2形成中心点OH。因此，通过两个不同的通道产生大量的中心点OH，这大大提高了降解效率。此外，RGH / Fe-G-C3N4可以使用过滤器再生，而无需额外的复杂处理。这项工作为工业废水的深度治疗提供了有效的策略。（c）2020朝鲜工业与工程化学学会。 elsevier b.v出版。保留所有权利。

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来源
《Journal of industrial and engineering chemistry》 |2020年第2020期|共10页
作者
Hu Jinshan; Zhang Pengfei; Cui Jifang; An Weijia; Liu Li; Liang Yinghua; Yang Qingbin; Yang Hongjun; Cui Wenquan;
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作者单位

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

Tangshan Shougang Jingtang Xishan Coking Co Ltd Tangshan 063210 Peoples R China;

Tangshan Shougang Jingtang Xishan Coking Co Ltd Tangshan 063210 Peoples R China;

North China Univ Sci &

Technol Hebei Key Lab Environm Photocatalyt &

Electrocata Coll Chem Engn Tangshan 063210 Peoples R China;

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正文语种 eng
中图分类化学工业;
关键词
Fe-g-C3N4; Reduced graphene hydrogel; Photocatalysis-Fenton synergy;

机译：Fe-G-C3N4;减少石墨烯水凝胶;光催化 - 芬顿协同作用;

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专利

1. High-efficiency removal of phenol and coking wastewater via photocatalysis-Fenton synergy over a Fe-g-C3N4 graphene hydrogel 3D structure [J] . Hu Jinshan, Zhang Pengfei, Cui Jifang, Journal of industrial and engineering chemistry . 2020,第期

机译：通过光催化 - FENTON Synergy通过Fe-G-C3N4石墨烯水凝胶3D结构高效除去苯酚和焦化废水
2. Inserting AgCl@rGO into graphene hydrogel 3D structure: synergy of adsorption and photocatalysis for efficient removal of bisphenol A [J] . Fangyuan Chen, Junxiu Zhao, Weijia An, RSC Advances . 2017,第63期

机译：将AgCl @ rGO插入石墨烯水凝胶3D结构中：吸附和光催化的协同作用，可有效去除双酚A
3. Inserting AgCl@rGO into graphene hydrogel 3D structure: synergy of adsorption and photocatalysis for efficient removal of bisphenol A [J] . Fangyuan Chen, Junxiu Zhao, Weijia An, RSC Advances . 2017,第63期

机译：将AgCl @ rGO插入石墨烯水凝胶3D结构中：吸附和光催化的协同作用，可有效去除双酚A
4. Recovering Semi-Coking Wastewater by Formaldehyde-Based Phenol Extraction [C] . Yali Wang Annual International Pittsburgh Coal Conference . 2019

机译：甲醛基苯酚萃取回收半焦化废水
5. Removal of phenol from refinery wastewater by adsorption on graphene. [D] . Gaber, Dina Abdullah. 2015

机译：通过吸附在石墨烯上从炼油厂废水中去除苯酚。
6. Facile Fabrication of 3D Graphene–Silica Hydrogel Composite for Enhanced Removal of Mercury Ions [O] . Jinrong Lu, Xiaonan Wu, Yao Li, 2019

机译：简便地制备3D石墨烯-二氧化硅水凝胶复合材料以增强去除汞离子的能力
7. Inserting AgCl@rGO into graphene hydrogel 3D structure: synergy of adsorption and photocatalysis for efficient removal of bisphenol A [O] . Fangyuan Chen, Junxiu Zhao, Weijia An, 2017

机译：将AgCl @ Rgo插入石墨烯水凝胶3D结构：吸附和光催化的协同作用，以有效去除双酚A.

High-efficiency removal of phenol and coking wastewater via photocatalysis-Fenton synergy over a Fe-g-C3N4 graphene hydrogel 3D structure

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