期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 465, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jhazmat.2023.132967
关键词
Electrochemical ozone production (EOP); Heterojunction Ni-Sb-SnO2 anode; Cu-TEPA; Decomplexation; Cu recovery
A self-catalytic decomplexation scheme is developed using an electrochemical ozone production system to achieve efficient decomplexation and recovery of heavy metal complexes in wastewater. The results show that this method has good technological feasibility for different types of heavy metal complex wastewater.
Heavy metal complexes from the industrial wastewater induce risks for the humans and ecosystems, yet are valuable metal resources. For energy saving and emission reduction goals, the simultaneous decomplexation and recovery of metal resources is the ideal disposal of wastewater with heavy metal complexes. Herein, a self -catalytic decomplexation scheme is developed via an electrochemical ozone production (EOP) system to ach-ieve efficient decomplexation and Cu recovery. The EOP system could achieve 94.36% decomplexation of Cu-TEPA, which is a typical complex in catalyst industrial wastewater, and 86.52% recovery of Cu within 60 min at a current density of 10 mA/cm2. The O3 and center dot OH generated at the anode would first attack Cu-TEPA to produce Cu-organic nitrogen intermediates, which further catalyze O3 to generate center dot OH, thus self-enhancing the decomposition process in the EOP system. The released Cu2+ was gradually reduced to Cu+ and finally deposited as Cu2O and Cu to the stainless steel cathode. The technological feasibility was confirmed with other Cu -complexes such as Cu-EDTA and Cu-citrate, and the actual Cu-TEPA-containing industrial wastewater. The results provide new insights regarding the application of EOP in the simultaneous treatment of heavy metal complex wastewater and resource recovery.
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