RU2118567C1 - Method for separation of gold from mined ore material - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: this method is used for processing of ferrous gold-bearing ore, heavy concentrates, minerals, and ferrous waste of mining industry. According to method, at first stage of processing, practically almost entire barren rock is removed and this ensures high efficiency in extracting gold at subsequent stage of processing. Process is as follows. Primary material is disintegrated, then solution of muriatic acid is added to primary material and mixture is heated to temperature not below 60 C. At this temperature, obtained mixture is held to mature, then barren rock in the form of liquid phase is removed, and gold concentrate in the form of solid residue is washed, dried, and forwarded for separation of gold either by gravitational method or by means of bromoform or by other method depending on composition of concentrate. EFFECT: higher efficiency. 5 cl

Description

 The invention relates to the mining industry, to the enrichment of gold-containing raw materials and can be used to extract gold from ferrous ore, concentrates, minerals and other ferrous mining material.

 Known methods for extracting gold from verkbley, for example, by means of cupellation melting (see Loskutov F.M., Lead metallurgy. - L .: Metallurgy, 1965, p. 196-199). The disadvantage of this method is the inability to obtain a high concentration of gold.

Closest to the invention is a crucible smelting method (see Sampling and analysis of noble metals. - M .: Metallurgy, 1978, p. 431). The method consists in the fact that the source material is mixed with a collector, which is taken as picket (PbO) or minium (Pb ₃ O ₄ ), an additional agent consisting of soda, borax, lime and other additives is added to the mixture. The mixture is subjected to reductive melting at temperatures above 900 ^o C, during which lead with noble metals (verkbley) is collected at the bottom of the crucible, and the slag above; the slag is removed, and the verkbley is sent to kupellatsionnoy melting to obtain gold.

 The disadvantage of the prototype is the complexity of the technology due to the high temperature of the process and the use of a multicomponent mixture of expensive additives, the total amount of which exceeds the mass of the source material by 2.8 - 8.8 times, and the insufficient extraction of gold from the source material, especially bound and hidden.

 The technical result achieved by the invention is to increase the extraction of gold, especially bound and hidden, and in a significant simplification of the process.

The specified technical result is achieved due to the fact that an agent is added to the starting material, the mixture is heated and kept in a heated state, after which the gangue is removed, and gold is extracted from the residue. The invention differs from the prototype in that the mining material is pre-crushed, a solution of hydrochloric acid is taken as an additional agent, the mixture is heated to a temperature of at least 60 ^° C, and before the gold is extracted, the solid residue is washed and dried. The best result is obtained if the ratio of the mass of the starting material to the mass of concentrated hydrochloric acid in the solution is at least 1: 2.5, if the hydrochloric acid solution contains at least 45% concentrated hydrochloric acid, if the mixture is heated to a low boiling point, if the mixture is kept heated condition for at least 1 h and if the residue is washed with hot water.

As a result of such processing, bound gold and gold, hidden in the form of small inclusions in various ferrous minerals, as well as in technogenic ferrous wastes, can be extracted. This is facilitated by preliminary grinding of the material, and treatment with acid, which allows transferring almost all the waste rock into the solution, opening and making available the gold contained in the material. The process can be carried out at a temperature of 60 ^o C, but the best result is achieved with a weak boiling solution. Heating the mixture below 60 ^o C does not satisfactorily open the gold, which significantly impairs the quality of the process. Exposure of the solution in the heated state is necessary for the maximum dissolution of waste rock and the maximum opening (exposure) of gold.

 An example of a specific implementation of the invention is a method of processing a concentrate concentrate Kharginsky mine (Amur region), containing 98.4 wt. % magnetite and gold 1.968 kg / t. The source material is ground on a vibrating abrasive and placed in a container of glassy carbon. An aqueous solution containing 50% concentrated hydrochloric acid, in an amount 10 times the mass of the starting material, is added to the material. The mixture is heated to a slight boil and kept in a heated state for 1.5 hours. Then the mixture is settled, the liquid part is drained, and the solid residue is washed with hot water. After washing, the remainder, which is a non-magnetic rock, is dried and sent to gravity extraction of gold. As a result of this treatment, about 97% of the waste rock mass is removed. Gold recovery is 90.7%.

Claims (6)

1. The method of separation of gold from the mining material, which consists in the fact that the source material is mixed with an additional agent, the mixture is heated and kept in a heated state, then the waste rock is removed, and gold is recovered from the residue, characterized in that the mining material is pre-crushed, a solution of hydrochloric acid is taken as an additional agent, the mixture is heated to a temperature not lower than 60 ^o C, and before gold is extracted, the residue is washed and dried.  2. The method according to claim 1, characterized in that the ratio of the mass of the starting material and the mass of concentrated hydrochloric acid in the solution should be at least 1: 2.5.  3. The method according to claim 1, characterized in that the hydrochloric acid solution contains at least 45% concentrated hydrochloric acid.  4. The method according to claim 1, characterized in that the mixture is heated to a low boiling point.  5. The method according to claim 1, characterized in that the mixture in a heated state can withstand at least 1 hour  6. The method according to claim 1, characterized in that the residue is washed with hot water.