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Experimental study on the degradation of phenol by high efficiency three-dimensional electrode
Phenolic compounds are toxic pollutants that are difficult to biodegrade. Electro-Fenton technique is one of the effective means to remove phenols. An Fe3O4-loaded carbon nanotube-modified nickel foam(Fe3O4/CNT/NF) particle electrode was prepared by the thermal solvent-coating-roasting method,which could generate both H2O2 and Fe2+ in the electrolytic system. A three-dimensional electrode electro-Fenton system was constructed with Fe3O4/CNT/NF as the particle electrode to degrade phenol,which has higher removal efficiency and lower energy consumption compared with the three-dimensional based on Fe3O4/NF and NF particle electrodes and two-dimensional electrode system. The reaction conditions were optimized,and the removal rate was 76.23% at degradation time of 60 min,plate spacing of 3.0 cm,Fe3O4/CNT/NF particles electrode dosage of 8.0 g/L,current of 350 mA,electrolyte concentration of 100 mmol/L,and initial pH of 4. The quenching test results showed that the hydroxyl radical(·OH) played a major role in the degradation process in this system. The electrode stability was excellent,and the phenol removal rate only decreased by 6.09% after six cycles.
Experimental study on the degradation of phenol by high efficiency three-dimensional electrode
Phenolic compounds are toxic pollutants that are difficult to biodegrade. Electro-Fenton technique is one of the effective means to remove phenols. An Fe3O4-loaded carbon nanotube-modified nickel foam(Fe3O4/CNT/NF) particle electrode was prepared by the thermal solvent-coating-roasting method,which could generate both H2O2 and Fe2+ in the electrolytic system. A three-dimensional electrode electro-Fenton system was constructed with Fe3O4/CNT/NF as the particle electrode to degrade phenol,which has higher removal efficiency and lower energy consumption compared with the three-dimensional based on Fe3O4/NF and NF particle electrodes and two-dimensional electrode system. The reaction conditions were optimized,and the removal rate was 76.23% at degradation time of 60 min,plate spacing of 3.0 cm,Fe3O4/CNT/NF particles electrode dosage of 8.0 g/L,current of 350 mA,electrolyte concentration of 100 mmol/L,and initial pH of 4. The quenching test results showed that the hydroxyl radical(·OH) played a major role in the degradation process in this system. The electrode stability was excellent,and the phenol removal rate only decreased by 6.09% after six cycles.
Experimental study on the degradation of phenol by high efficiency three-dimensional electrode
DONG Zeping (Autor:in) / LIU Zhenyang (Autor:in) / ZHAO Xinchen (Autor:in) / HE Zhengguang (Autor:in) / CUI Fengqi (Autor:in)
2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
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