Understanding the roles of Na2S and Pb(II)in the flotation of hemimorphite

The mechanisms involved in hemimorphite flotation using the Na2S-Pb(II)-xanthate process, including presulfurization using sodium sulfide, activation by lead cations and subsequent flotation using a butyl xanthate collector, were studied. X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM) coupled with energy dispersive spectrometry (EDS), and X-ray diffraction (XRD) characterization were conducted to identify the mechanism of interaction of Na2S and Pb(II) with hemimorphite particles. The results indicated that the Na2S-Pb(II)-xanthate process is an effective method for the flotation of hemimorphite, and the maximum recovery of the hemimorphite concentrate increased from 40% to 90%. Hydrosulfide ions were chemisorbed or participated on the hemimorphite ore surface, and a layer of ZnS was formed. The XRD results indicated that the ZnS layer was amorphous or poorly crystallized. PbS was generated by the interaction of Pb(II) with ZnS through an ion-exchange mechanism, which was verified by XPS, SEM-EDS and XRD. The XRD study indicated that the new PbS phase formed on the hemimorphite ore surface was well-crystallized synthetic galena with good floatability, which is critical for the potential application of hemimorphite flotation using the Na2S-Pb(II)xanthate process.