Bath Smelting Of Residues From Pressure Leaching Of Zinc-Lead-Copper Sulphide Concentrates

Bath smelting options for recovering valuable metals from jarositic residues containing 22-28% lead and 16-30% sulphur obtained from pressure leaching zinc-lead-copper bulk concentrates were investigated using thermochemical computations and crucible-scale experiments. Direct fuming of lead and zinc from a slaglmatte bath at 1250-300°C was demonstrated successfully. Up to 93% of the lead was recovered in the fume and steady-state recoveries of zinc were predicted in the range 82-95% under these conditions. The energy required for the fuming reactions was supplied by partial combustion of the fuel, added as char, with air. An important feature of the process is that the recoveries to the fume are not significantly affected by changing: the fuel:air ratio over a wide range. Thermodynamic computations, confirmed by experimental results also showed that the presence of a matte phase is not essential for high recovery of lead and zinc to the fume. Operating conditions which produced a matte ensured that about 70% of the silver and 80-90% of the copper were recovered into that phase. Approximately 98% of the arsenic in the residue was fumed. In the absence of matte the slags contained high arsenic levels (260-330 ppm) but low arsenic (20-60 ppm) levels were achieved when matte was produced.