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Application of copper sulfate based fenton-like catalyst in degradation of quinoline
Zhaojie Jiao,Haifeng Gong,Ye Peng,Guilin Zhou,Xianming Zhang,Xu Gao,Yunqi Liu 대한환경공학회 2022 Environmental Engineering Research Vol.27 No.5
In the practical application of water treatment, the Fenton reaction usually works at a lower pH. To overcome the above shortcomings, a Fenton-like reaction system with copper sulfate as a catalyst was proposed. In this paper, quinoline was used as the target pollutant and the effects of catalyst dosage, H₂O₂ dosage, reaction temperature, and initial concentration of quinoline and pH on the removal effect were investigated, and the evolution in pH and hydroxyl radical concentration during reaction, as well as the possible catalytic mechanism and degradation pathway were clarified. The results show that under a catalyst dosage of 0.4 g・L<SUP>-1</SUP>, a H₂O₂ dosage of 196 mmol・L<SUP>-1</SUP>, a quinoline concentration of 100 mg・L<SUP>-1</SUP> and a temperature of 75°C, the removal of quinoline and total organic carbon (TOC) reaches 99.5% and 87.2% in 65 min, respectively. Furthermore, the copper sulfate-driven homogeneous Fenton system exhibits a superior adaptability to pH in the range of 3.8 to 8.8. In the degradation of quinoline, ·OH radicals may attack the nitrogen ring and the benzene ring in sequence. The work provides a technical support for the treatment of organic wastewater, and shows promising in practical applications.
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Zhaojie Jiao,Xianming Zhang,Haifeng Gong,Donglin He,Hong Yin,Yunqi Liu,Xu Gao 한국공업화학회 2022 Journal of Industrial and Engineering Chemistry Vol.105 No.-
This study aimed to treat toxic and refractory organic wastewater, and to address the limitations ofFenton method in treating organic wastewater, that the active components are easy to lose and usuallyoperate at the pH value of 2 3. In the present study, CuCe oxide catalyst was produced through citricacid-assisted complexation. Besides, the structural stability and catalytic wet peroxide oxidation (CWPO)performance of the catalyst after 5 times of application were delved into by characterization. The effectsof catalyst dosage and pH on quinoline removal were ascertained, while the reusability of the catalystwas explored. Moreover, the variations of pH, hydroxyl radical concentration and UV–Vis spectra inthe reaction system were analyzed. The possible degradation pathway and the catalytic mechanism werealso discussed. As suggested from the results, the catalyst exhibited high catalytic activity, structural stabilityand pH adaptability; it also had high CWPO performance for quinoline at the pH from 3.8 to 10.5,and the pH value need not be regulated. Under optimal conditions, 98.1% of quinoline and 86.1% of totalorganic carbon (TOC) were removed. In the CWPO process of quinoline, the OH attacked the nitrogen ringand the benzene ring in sequence.
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