Method for strengthening biological leaching of chalcopyrite and bornite
A technology of bioleaching and bornite, which is applied in the direction of improving process efficiency, can solve the problems of slow leaching rate and low microbial leaching rate, and achieve the effect of strengthening bioleaching
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Embodiment 1
[0027] Example 1: Acidithiobacillus ferrooxidans (CCTCCAB206207) was selected as the leaching bacteria to artificially mix chalcopyrite and bornite pure minerals.
[0028] Comparison index: After 30 days of leaching, the leaching rate of chalcopyrite alone is 30%, and that of bornite is 60%; mineral samples are ground first until the content of -0.074mm reaches more than 80%, and chalcopyrite and bornite are controlled The mass ratio is 4:1-1:4; the stirring speed of the leaching process is controlled at 100-600rpm, the pH value of the leaching process is controlled at 1.5-2.5, and the solution potential is controlled at 350-480mV (Ag / AgCl is the reference electrode ), the Cu leaching rate is higher than that of chalcopyrite alone and bornite alone, and the highest Cu leaching rate can reach more than 73%. (See figure 2 )
[0029] In summary, the present invention significantly strengthens the bioleaching of chalcopyrite and bornite.
Embodiment 2
[0030] Example 2: Acidithiobacillus caldus (CCTCCAB206240) was selected as the leaching bacteria to artificially mix chalcopyrite and bornite pure minerals.
[0031] Comparison index: After 30 days of leaching, the leaching rate of chalcopyrite alone is 23%, and that of bornite alone is 41%. The mass ratio is 5:1-1:5; the stirring speed of the leaching process is controlled at 100-600rpm, the pH value of the leaching process is controlled at 1.5-2.5, and the solution potential is controlled at 350-480mV (Ag / AgCl is the reference electrode ), the Cu leaching rate is higher than that of chalcopyrite alone and bornite alone, and the highest Cu leaching rate can reach more than 88%. (See image 3 )
[0032] In summary, the present invention obviously strengthens the bioleaching of chalcopyrite and bornite.
Embodiment 3
[0033] Example 3: Leptospirillum ferriphilum (CCTCCAB206239) was selected as the leaching bacteria to artificially mix chalcopyrite and bornite pure minerals.
[0034] Comparison index: after leaching for 30 days, the leaching rate of chalcopyrite alone is 35%, and that of bornite is 48%. Mineral samples are ground first until the content of -0.074mm reaches more than 80%, and chalcopyrite and bornite are controlled The mass ratio is 5:1-1:5; the stirring speed of the leaching process is controlled at 100-600rpm, the pH value of the leaching process is controlled at 1.5-2.5, and the solution potential is controlled at 350-480mV (Ag / AgCl is the reference electrode ), the Cu leaching rate is higher than that of chalcopyrite and bornite alone, and the highest Cu leaching rate exceeds 95%. (See Figure 4 )
[0035] In summary, the present invention significantly strengthens the bioleaching of chalcopyrite and bornite.
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