Method for extracting lead and molybdenum from lead and molybdenum associated mineral
A technology for associated ore and galena, which is applied in the field of extracting lead and molybdenum, and can solve problems such as being unsuitable for processing low-grade ores or complex lead-molybdenum associated ore.
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Embodiment 1
[0025]
[0026] The extraction steps are as follows:
[0027] 1. Put the above-mentioned lead-molybdenum associated ore into a muffle furnace with a constant temperature of 600°C for oxidative roasting for 1 hour to obtain calcined sand containing 2.25% molybdenum, 25.41% lead, and 5.12% sulfur;
[0028] 2. Mix the calcined sand obtained in step 1 with a sodium hydroxide solution with a concentration of 30% by weight, and the weight ratio is calcined sand: NaOH=1: 1.2, place it in a reaction kettle, heat up to 130°C, and react Hours later, the slurry was filtered to obtain leachate and slag containing sodium plumbate and sodium molybdate. The concentrations of lead and molybdenum in the leaching solution are 85.82g / L and 6.63g / L respectively; the leaching residue contains 0.11% molybdenum and 0.87% lead. The leaching rates of lead and molybdenum are 98.3% and 97.5% respectively.
[0029] 3. Evaporate and concentrate the leaching solution obtained in step 2 to an alkali so...
Embodiment 2
[0031] The extraction steps are as follows:
[0032] 1. Put the above-mentioned lead-molybdenum associated ore into a muffle furnace at a constant temperature of 700°C for oxidative roasting for 0.5 hours to obtain calcined sand containing 2.04% molybdenum, 25.67% lead, and 12.69% sulfur;
[0033] 2. Mix the calcined sand obtained in step 1 with a sodium hydroxide solution with a concentration of 20% by weight, and the weight ratio is calcined sand: NaOH=1:0.6, place it in a reaction kettle, heat up to 110°C, and react Hours later, the slurry was filtered to obtain leachate and slag containing sodium plumbate and sodium molybdate. The concentrations of lead and molybdenum in the leaching solution are 100.10g / L and 8.39g / L respectively; the leaching residue contains 0.14% molybdenum and 6.42% lead. The leaching rates of lead and molybdenum are 85.29% and 95.99% respectively.
[0034] 3. Evaporate and concentrate the leaching solution obtained in step 2 to an alkali solution c...
Embodiment 3
[0036] The extraction steps are as follows:
[0037] 1. Put the above-mentioned lead-molybdenum associated ore into a muffle furnace at a constant temperature of 550°C for oxidative roasting for 2 hours to obtain calcined sand containing 2.16% molybdenum, 23.43% lead, and 5.92% sulfur;
[0038] 2. Mix the calcined sand obtained in step 1 with a sodium hydroxide solution with a concentration of 15% by weight, and the weight ratio is calcined sand: NaOH=1:1, place it in a reaction kettle, heat up to 150° C., and react 3 Hours later, the slurry was filtered to obtain leachate and slag containing sodium plumbate and sodium molybdate. The concentrations of lead and molybdenum in the leaching solution were 42.17g / L and 3.62g / L respectively; the leaching residue contained 0.11% molybdenum and 2.04% lead. The leaching rates of lead and molybdenum are 95.68% and 97.11% respectively.
[0039] 3. Evaporate and concentrate the leaching solution obtained in step 2 to an alkali solution c...
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