High effective degradation of phenol with Cu/Bi-Ce/Al2O3 heterogeneous Fenton-like catalyst in a two-stage fixed-bed reactor

The two-stage fixed-bed reactor significantly enhanced the phenol degradation efficiency in the heterogeneous Fenton-like reaction. The Cu/Bi-Ce/Al2O3 catalyst, prepared by impregnation-precipitation method, exhibited favorable phenol removal, and the phenol degradation efficiency was similar to 32.6 % higher in the two-stage fixed-bed reactor than that in the one-stage fixed-bed reactor under optimal parameters. Moreover, the Cu/Bi-Ce/Al(2)O(3 )catalyst had excellent stability in the Fenton-like reaction due to the bismuth doping in the catalyst inhibiting the dissolution of copper ion. The Cu/Bi-Ce/Al(2)O(3 )catalyst also displayed efficient purification ability for phenolic municipal sewage in the two-stage fixed-bed reactor. The redox cycles of Cu2+/Cu+ and Ce4+/Ce3+ were evidenced coexist to enhance the catalyst activity. The quenching experiments demonstrated that the generated singlet oxygen and superoxide anion free radicals dominated the degradation of phenol in the heterogeneous Fenton-like reaction over the Cu/Bi-Ce/Al2O3 catalyst. This study may provide a novel heterogeneous Fentonlike/H2O2 system for degrading organic pollutants in the fixed-bed reactor.

Automated summary

The study demonstrated that the two-stage fixed-bed reactor significantly enhanced the phenol degradation efficiency in the heterogeneous Fenton-like reaction. The Cu/Bi-Ce/Al2O3 catalyst showed favorable phenol removal and stability in the reaction.