Abstract:Lead anode slime (LAS) contains amount of harmful elements As, Sb, and Te. In order to remove these three elements green and efficiently, an innovative process of “vacuum oxidation-gasification volatilization arsenic antimony tellurium” was proposed. Lead trioxide (Pb₃O₄) obtained by calcination of waste lead paste carbonation desulfurization product at 450 ℃ for 9 h was used as oxidant to remove As, Sb, and Te from LAS. The effects of vacuum oxidation temperature, oxidation time, gasification temperature and gasification time on the removal of As, Sb, and Te from LAS were investigated. The results show that the removal rates of As, Sb and Te are 96.84%, 94.21% and 99.93%, respectively, under the following conditions of mass ratio of lead anode slime to oxidant 1:1, system pressure 5-10 Pa, heating rate 30 K/min, vacuum oxidation temperature 748 K, oxidation time 90 min, vacuum gasification temperature 1123 K and gasification holding time 90 min. The elements As, Sb and Te enter the volatiles in the form of elemental and low valent oxides, and the precious metals Ag and Au do not lose in this process, which realizes the efficient removal of As, Sb and Te.

Key words: lead anode slime; As; Sb; Te; selective oxidation; removal; green and efficient process