RU2007483C1 - Method of electrochemical leaching of polymetallic raw - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: molybdenum leaching is carried out in the presence of sulfur-oxidizing or heterotrophic bacteria at the currant density 0.5-1.0A/cm². EFFECT: improved method of leaching. 2 tbl

Description

 The invention relates to non-ferrous metallurgy and can be used in the field of tank leaching of polymetallic molybdenum-containing refractory raw materials.

Known methods for processing low-grade molybdenum-containing raw materials, which include chloride sublimation of molybdenum compounds with chloroagents, used an electrooxidative method for extracting molybdenum from sulfide ores.
For processing ores containing oxidized molybdenum, leaching is carried out with sulfuric acid in the presence of sulfur dioxide (US Pat. US N 3307936).

The disadvantages of these methods include:
- low rate of extraction of metals from ore;
- toxicity of the reagents used, and, therefore, environmentally unclean technology;
- the inability to control the processing of polymetallic raw materials due to the lack of selectivity of metal extraction with these reagents under the applied modes.

 The closest in technical essence and the achieved result is a method of percolation leaching of copper pyrite ore by bacteria when voltage is applied, used in NRB and SFRY.

The disadvantages of the method include:
- insufficient metal extraction rate;
- the impossibility of extracting molybdenum by this type of bacteria: (there is no selectivity of the process);
- high power consumption.

 The purpose of the invention is to increase the extraction of molybdenum.

This goal is achieved by the fact that in the known method, leaching is carried out at a current density of 0.5-1.0 A / cm ² .

 No solutions with similar features were found in the scientific and technical literature and patent documentation, which indicates that the technical solution meets the criterion of "Significant differences".

The essence of the method is as follows. The polymetallic molybdenum-containing refractory raw material subjected to leaching is supplied with a bacterial solution and the pulp is electrochemically treated at a current density of 0.5-1.0 A / cm ² at room temperature.

A decrease in current density of less than 0.5 A / cm ² leads to a decrease in the percentage of metal extraction into the leach solution. An increase in the current density of more than 1.0 A / cm ^{2 is} impractical, since the percentage of metal extraction into the solution remains practically unchanged, and the energy consumption increases.

 PRI me R 1 (prototype).

Experiments were conducted on the extraction of metals from polymetallic molybdenum-containing raw materials in the presence of Th bacteria. ferrooxidans during this electrochemical treatment of pulp with a current density of 0.5 A / cm ² for 3 hours. The solutions were analyzed by atomic absorption method. The results are shown in table. 1.

 As follows from the table. 1, the proposed bioelectric method mainly leaches copper and iron (while the extraction of molybdenum is small).

EXAMPLE 2. Experiments were carried out to extract metals from refractory molybdenum-containing raw materials in the presence of bacteria such as Candida lipolytica or sulfur-oxidizing Thiobacillus novellus by electrochemical treatment of pulp with a current density of 0.5-1.0 A / cm ² with stirring for 3 h. The results are shown in table. 2.

 As follows from the table. 2 bioelectric leaching of polymetallic molybdenum-containing feedstock proceeds efficiently with respect to molybdenum in the presence of bacteria of the Thiobacillus novelus type compared to the prototype, while copper and iron are practically not leached.

 In the presence of bacteria such as Candida lipolytica, a comprehensive extraction of molybdenum and copper is achieved, but the percentage of extraction of molybdenum is lower than in the presence of sulfur-oxidizing bacteria Thiobacillus novellus, but significantly higher than in the presence of Th. ferrooxidans.

Thus, the advantages of the proposed method for the electrochemical leaching of polymetallic molybdenum-containing raw materials in the presence of bacteria are as follows:
- the leaching method is more effective compared to the prototype:
the extraction of molybdenum increases by almost 34% in the presence of sulfur-oxidizing bacteria such as Thiobacillus novellus or by 9.5% in the presence of heterotrophic microorganisms Candida lipolytica;
- the proposed leaching method provides a comprehensive extraction of metals from polymetallic raw materials;
- reduction of energy consumption.

 Economic calculation.

 1) Molybdenum leaches more than 52 times in the presence of Candida lipolytica bacteria and 180 times in the presence of Thiobacillus novellus (compared with the prototype).

 2) The proposed method solves the issue of the integrated use of copper and molybdenum.

 3) Given the cost of molybdenum compared with copper and iron, the proposed method is more efficient. (56) Survey information "New in the technology of bacterial leaching abroad," M., 1977, Central Research Institute for Color and Methology of Economics and Information. ", Pp. 22-23.

Claims (1)

METHOD FOR ELECTROCHEMICAL LEACHING OF POLYMETALLIC RAW MATERIAL, mainly molybdenum-containing, in the presence of bacteria, characterized in that, in order to increase the degree of extraction of molybdenum, leaching is carried out in the presence of sulfur-oxidizing or heterotrophic bacteria at a current density of 0.5 - 1.0 A / cm ² .

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