RU2023729C1 - Method for reprocessing gold-bearing sulfide concentrates - Google Patents

Abstract

FIELD: nonferrous metallurgy, particularly, methods for extracting noble metals. SUBSTANCE: this method of reprocessing gold-bearing sulfide concentrates prescribes bacterially leaching sulfides, cyaniding cakes resulted from bacterial lixiviation, conducting bacterial lixiviation until degree of oxidation of sulfides attains level of 45 to 60 %, and subjecting bacterial lixiviation cakes to floatational concentration of sulfides prior to cyaniding with returning concentrate to bacterial lixiviation section. EFFECT: higher yield.

Description

 The invention relates to hydrometallurgy of precious metals and can be used for biohydrometallurgical extraction of precious metals from sulfide gold-bearing concentrates.

 A known method of processing sulfide gold-containing concentrates, including their oxidative firing and subsequent cyanide cinder [1].

 The disadvantages of the method include the high energy intensity of the process, the harmful effects on the environment and the increased loss of gold with cyanide tails.

The closest to the proposed method for recycling a gold-bearing sulfide concentrates, comprising the bacterial leaching of sulfide at a ratio of W: T = 5: 1, pH 1.6-2.2, temperature 28-30 ^{° C} for 96-160 hours until the degree of oxidation of 70 -100%, lime treatment of bacterial opening cake to pH 9-12 and their subsequent cyanidation [2].

 The disadvantages of the prototype include the long duration of the process of bacterial opening of sulfide minerals.

 The purpose of the invention is the intensification of the process of biohydrometallurgical processing of sulfide concentrates.

 The goal is achieved in that in a method for processing gold-containing sulfide concentrates, including bacterial leaching of sulfides and cyanidation of bacterial leaching cakes, bacterial leaching is carried out to a degree of sulfide oxidation of 45-60%, and bacterial leaching cakes are preliminarily subjected to flocculation of sulfides with a concentrate return to cyanide recovery leaching.

 The method allows for the separation of sulfides from the main oxidized mass through flotation concentration and directing the enriched product into the cycle of bacterial opening, and the flotation tailings for cyanidation by 1.3-2 times to reduce the duration of the bacterial opening of sulfide concentrates before cyanidation, as well as to remove sulfides from cyanidation cycle.

 Bacterial leaching of sulfide concentrates to the oxidation of the main fraction of sulfides, followed by flotation concentration of sulfides from the bacterial leaching cakes and returning the resulting concentrate to the leaching cycle, makes it possible to cyanize the main proportion of oxidized sulfides before the bacterial leaching of the entire mass of the concentrate is completed and to increase the degree of unoxidized sulfides from the cyanization cycle extracting gold into a cyanide solution.

 PRI me R 1. Sulfide concentrate with a mass fraction of sulfides of 15%, containing, g / t: Au 24,0; Ag 48.7, particle size 85% grade minus 0.044 mm, was subjected to bacterial leaching using Thiobacillus berraxidans bacteria.

 Leaching was carried out in an acidic medium at pH 2.0, ratio W: T = 5: 1, biomass concentration 2.0-3.0 g / l for 96 hours. The oxidation state of sulfides was 70%.

 After the bacterial opening of the concentrate, the pulp was dehydrated, the bacterial solutions were returned to circulation, and the cakes were subjected to calcareous treatment with air purging at W: T = 2: 1 before cyanidation, for 24 hours to a pH of 10.5-11.0.

 After neutralization, bacterial leaching cakes were cyanide at W: T = 2: 1, sodium cyanide concentration 1.0 g / l, pH 10.5 - 11.0 for 24 hours.

 The recovery of gold from the starting product was 96.0%, silver 83.9%.

PRI me R 2. Sulfide concentrate with a mass fraction of sulfides of 15%, containing, g / t: Au 24,0; Ag 48,7, particle size 85% passing minus 0.044 mm and subjected to bacterial leaching bacteria Thiabacillus berraxidans at ³⁰ ° C against L: S = 5: 1, pH 1.8-2.0, the concentration of biomass 2,0-3, 0 g / l Leaching was carried out for 72 hours to a degree of oxidation of sulfides of 60%.

 After microbiological oxidation of the main share of sulfides in the bacterial opening cakes, sodium hydroxide was introduced until the medium pH of 3-5 was restored to restore the flotation properties of sulfide minerals that were practically lost during bacterial treatment. Then, sulfides were recovered from the resulting product by flotation.

 Flotation concentration of sulfides was carried out with butyl xanthate at a ratio of W: T = 4: 1, pH 5.

 Under optimal flotation conditions (consumption of butyl xanthate 100 g / t of T-66 blowing agent 25 g / t, the duration of the main and control flotation for 5 minutes), a flotation concentrate with a mass fraction of sulfides of 59.4% containing, g / t: Au 26 ,5; Ag 47.1.

 The resulting flotation concentrate was returned to the bacterial leaching cycle.

 Flotation dressing tails containing, g / t: Au 22.0; Ag 47.9, cyanide at W: T = 2: 1, sodium cyanide concentration 1.0 g / l, pH 10.5-11.0 for 24 hours.

 The recovery from the starting product of gold and silver was 96.8 and 85.5%, respectively.

 PRI me R 3. Analogously to example 2, the source sulfide concentrate was subjected to bacterial leaching for 48 hours to a degree of oxidation of sulfides of 45%. Flotation concentration of sulfides from bacterial leaching cakes was carried out under conditions similar to example 2.

 Flotation concentrate with a mass fraction of sulfides of 64.0%, containing, g / t: Au 45.0; Ag 59.4, was returned to the bacterial leaching cycle.

 Containing flotation dressing tails, g / t: Au 14.5; Ag 45.5, cyanide analogously to example 2. The recovery of gold from the starting product was 96.0%, silver 84.0%.

 Thus, the proposed method allows to reduce the duration of bacterial leaching of sulfides by 1.3-2 times before cyanidation of cake of bacterial opening and thereby intensify the process of processing concentrates, and also increase the degree of extraction of precious metals in a cyanide solution due to the release of unoxidized sulfide minerals from the cyanide cycle.

 In addition, the return of the concentrate sulfides obtained in the flotation concentration process into the leaching cycle ensures the complete bacterial opening of sulfides.

Claims (1)

 METHOD FOR PROCESSING GOLD-CONTAINING SULPHIDE CONCENTRATES, including bacterial leaching of sulfides and cyanidation of bacterial leaching cakes, characterized in that bacterial leaching is carried out to a sulphide oxidation state of 45-60%, and bacterial leaching concentrates are leached for pre-leaching.