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Efficient degradation of metronidazole with dual-cathode of acetylene black-PTFE/CoFe2O4-PTFE coupling persulfate

SEPARATION AND PURIFICATION TECHNOLOGY [2022]
Yandi Rao, Aoqi Li, Yuxin Zhang, Fuxi Wang, Tianhu Zhang, Yiping Sheng, Tifeng Jiao
ABSTRACT

A composite electrochemical oxidation system combined with Electro-Fenton and persulfate (PS) was proposed to degrade metronidazole. The CoFe 2 O 4 -PTFE (CFOP) electrode was used in parallel with the acetylene black-PTFE electrode (ABP) as the dual-cathode of Electro-Fenton. Then the Electro-Fenton was coupled with PS to degrade metronidazole in wastewater synergistically. The self-produce of H 2 O 2 , in-situ circulation of Co(II)/ Co(III) and Fe(III)/ Fe(II), and activation of persulfate were simultaneously conducted. After 120 min, the removal rate of metronidazole reached 90.6% by ABP/CFOP/PS system. The influence of operation parameters (dosage of PS, initial pH, current density, temperature) on the removal of metronidazole was analyzed. The catalyst exhibited good stability and recyclability for five consecutive cycles. The radical quenching and EPR tests reveal that both OH and SO 4 − · are identified responsible for the degradation of metronidazole. The possible decomposition pathway of metronidazole was proposed by HPLC-MS analysis. The toxicity analysis indicates that heterogeneous Electro-Fenton could reduce the toxicity of metronidazole.

MATERIALS

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