Abstract:The combined process of “l(fā)ime neutralization-micro-electrolysis-flocculation” was used to treat lead and zinc smelting wastewater containing heavy metal ions. The influence of the experimental conditions on the removal rate of Pb²⁺, Zn²⁺, Cd²⁺, Cu²⁺ and As ions in the wastewater was also investigated. The experimental conditions included the mass ratio of Fe to C, initial pH of the infall wastewater, and hydraulic retention time for the micro-electrolysis reactions, and pH and dosage of PAM flocculant for following flocculation reactions. The morphology and compositions of the carbon and iron surface were also characterized by SEM and EDS before and after the treatment of the micro-electrolysis reaction, the reaction mechanism of Fe/C micro-electrolysis and the invalidation cause of Fe/C wadding were analyzed. The results show that the optimal conditions of the micro-electrolysis-flocculation are the mass ratio of Fe to C of 1:1.5, initial pH 2.5 and reaction time 40 min for the micro-electrolysis reactions, and pH 11 and dosage of PAM of 4×10⁻⁶ (mass fraction) for flocculation reaction, under which the combined technique has the highest removal efficiency for the heavy metal ions in this wastewater. Cd²⁺concentration in the outlet wastewater satisfies the primary standard in 《Integrated Wastewater Discharge Standard》(GB8978-1996) in China, and the concentrations of Pb²⁺, Zn²⁺, Cu²⁺ and As ions satisfy the Ⅲ surface water standard of《Environmental Quality Standard for Surface Water》(GB 3838-2002) in China.

Key words: heavy metal; lead; zinc; arsenic; micro-electrolysis; flocculation; smelting wastewater