RU2059004C1 - Method for leaching out metals of ores - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: ore is treated by acidophilic bacteria Thiobacillus ferrooxidans and by aqueous extract of vegetable residue or of wood sawdust. The latter product is sustained in aqueous solution within at least 3 days and is acidified to pH 1. EFFECT: improves efficiency of method.

Description

 The invention relates to the leaching of metals, including gold and silver from ores, and can be used in mining and other industries.

A known method of leaching metals from ores, including processing the ore with a chelating solution [1]
The disadvantage of this method is the low leaching efficiency.

The closest in technical essence and the achieved result to the invention is a method of leaching metals from ores, comprising treating the ore with acidophilic bacteria Thiobacillus ferrooxidans and subsequent cyanidation of the residues of bacterial leaching [2]
The disadvantage of this method is the low leaching efficiency, low metal recovery and an environmentally unclean process due to the use of cyanidation.

 The purpose of the invention is to increase the efficiency of leaching by increasing the extraction of metals, including gold and silver, reducing the cost of reagents and environmental cleanliness of the process.

 This goal is achieved by the fact that in the method of leaching metals from ores, including treating the ore with acidophilic bacteria Thiobacillus ferroosidans, leaching is carried out with simultaneous or sequential treatment of ore with an aqueous extract of plant residues or sawdust, kept in an aqueous solution for at least 3 days and acidified to pH 2.0.

PRI me R. The dumps of a mining and processing enterprise were leached. The composition of the ore, wt. SiO ₂ 30.4; Al ₂ O ₃ 7.5; MgO 7.7; CaO 10.8; FeS ₂ 5.0; V ₂ O ₅ 0.96; As 0.02; Sc 0.000151; Au 0.000008; Ag 0,0009; Sn 0.003; La 0.0020; Nb 0.014; Y 0.0072.

 The leaching plant was an inclined platform with a waterproof and acid-resistant bottom. On one side of the site was a gutter for discharge of solutions, from which there are drains into sumps. Solutions from the sump were collected in a vat.

 7.5 tons of dump rock were loaded onto the site. When stacking the ore, the ore was treated with acidophilic bacteria Thiobacillus ferrooxidans and an aqueous extract of plant residues (or sawdust), kept in an aqueous solution for at least 3 days.

An aqueous extract of plant residues or sawdust was prepared as follows: 25 kg of plant residues or sawdust was poured into 500 l of water, insisted for 5 days. Then it was filtered through burlap. An aqueous extract of plant residues or sawdust was acidified to pH 2.0. Further it made ammonium sulfate [(NH _{4) 2} SO _4] 0.075 kg, potassium phosphate, 2-substituted (K ₂ HPO ₄₎ and 0.025 kg of ferrous sulfate (FeSO ^_4. 7H ₂ O) is 5 kg. All this volume was inoculated with acidophilic bacteria Thiobacillus ferroxidans. The inoculum was 20% of the required volume (500 L). Biomass was increased over 5 days.

The rock was loaded in layers (10-15 cm) with simultaneous or sequential treatment with an aqueous extract of plant residues or sawdust and acidophilic bacteria Thiobacillus ferrooxidans, regardless of their feeding sequence. The biomass of acidophilic bacteria can be expressed separately from the aqueous extract of higher carbohydrate polymers, for example, on Lethene's medium, g / l: (NH ₄ ) ₂ SO ₄ 0.15; KCl 0.05 g; Ca (NO ₃ ) ₂ 0.01; K ₂ HPO ₄ 0.02; MgSO ₄ x x7H ₂ O 0.5; FeSO ₄ ^. 7H ₂ O 15.

 During the leaching period, the ore was irrigated daily with an aqueous extract of plant residues or sawdust, acidified to a pH of 2-2.5, into which salts of nitrogen and phosphorus can be introduced. For the first 10 days, the flowing extractor hood returned again for irrigation, taking into account moisture loss. Leaching lasted 60 days.

 The leaching results are presented in the table.

 At the end of leaching, a large number of samples were taken to determine the quality of leaching of metals in various places along the stack section both vertically and horizontally. Conventionally, the stack was divided into five horizontal layers and a sample was taken from each layer. An analysis of 70 samples taken from various sections of the stack showed that solution irrigation is fairly uniform.

Over 60 days, 72.6 gold was recovered; silver 75.6; V ₂ O ₅ 61.9; scandium 48.6; tin 54.4; La 37.7; Nb 34.1; Y 39.5.

 The flow rate of the aqueous extract of plant residues or sawdust is 7-10 liters per 1 ton of ore.

 Further extraction of metals from the solution was carried out by the method of ion exchange resins or electrochemistry. It is possible to repeatedly use the aqueous extract of plant residues or sawdust (with some strengthening of the solution).

 In the process of insisting on plant residues or sawdust in an aqueous solution, cellulose-degrading bacteria develop in the medium, producing lower organic acids, which are complexing agents.

 Maintaining plant residues or sawdust in an aqueous solution for at least 3 days is necessary so that lower organic acids appear in the aqueous solution.

 The method of leaching gold and silver from sulfide ores improves the leaching efficiency due to the complexing properties of the aqueous extract from plant residues or sawdust, as well as through the formation of complexes with thiosulfate, an intermediate product of the bacterial oxidation of pyrite (sulfide minerals).

Claims (1)

 METHOD FOR LEACHING METALS FROM ORES, including treating ore with acidophilic bacteria Thiobacillus ferrooxidans, characterized in that the leaching is carried out with simultaneous or sequential treatment of ore with aqueous extraction of plant residues or wood sawdust, kept in an aqueous solution for at least 3 days and acidification.

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