RU2168555C2 - Method of device for leaching rich gold-bearing concentrates - Google Patents

Abstract

FIELD: hydrometallurgy of noble metals; extraction of gold from rich gold-bearing concentrates by leaching in cyanide solutions. SUBSTANCE: oxygen in highly dispersed state is fed to pulp circulating apparatus in the amount of 10 to 25 l per gram of gold of starting concentrate. The process is started at delivery of oxygen in the amount of 2.5 to 4 l per cubic meter of solution per hour; concentrate is leached for 10 to 12 hours, after which flow rate of oxygen is increased to 5 - 10 l/cu.m and leaching is continued for 12-24 hours. Degree of gold extraction is equal to 95 - 97%. Leaching device has housing, solution inlet and outlet branch pipes, starting material loading and discharge branch pipes and circulating pump; device is additionally provided with oxygen supply branch pipe fitted on solution inlet branch pipe before circulating pump. EFFECT: increased rate of dissolving and degree of extraction of gold in processing gold- bearing concentrate in cyanide solution in air atmosphere. 3 cl, 2 dwg, 1 tbl, 3 ex

Description

 The group of inventions relates to the field of hydrometallurgy of precious metals and can be used, in particular, for the extraction of gold from rich concentrates by leaching in cyanide solutions.

 A method of leaching gold in the presence of air and oxygen is known. The work "Metallurgy of precious metals", ed. 2, under the general editorship of L.V. Chugaev, p. 102-103, 1987. In this paper, the mechanism of the dissolution of gold in cyanide solutions in the atmosphere of air or oxygen is described, the optimal concentrations of cyanide and oxygen in these processes are determined. Variants of leaching under pressure of air or oxygen are considered, a conclusion is made on the diffusion control of a chemical reaction with oxygen in soluble form.

 A device for carrying out hydrometallurgical processes such as patchouk, cone, percolator is known. As a prototype, a device was taken (patent RU N 2062806 from 04.20.94, 06.27.96 Bull. N 18), including a housing, nozzles for input and output of the solution, nozzles for loading and discharging the processed material.

 The disadvantages of the method and device include the high costs associated with the oxygenation of the solutions during the process in an oxygen atmosphere and a low degree of extraction during leaching in the atmosphere.

 The objective is to increase the dissolution rate and the degree of gold recovery in the cyanidation of rich gold-bearing concentrates.

This is achieved by the fact that when processing a rich gold-containing concentrate with a cyanide solution in an air atmosphere in an apparatus with pulp circulation, oxygen is supplied in a finely divided state in the amount of 10-25 liters per 1 g of gold of the initial concentrate, and the process is started when oxygen is supplied 2.5-4 l per 1 m ^{3 of} solution per hour, and leaching is completed when oxygen is supplied 5-10 l per 1 m ^{3 of} solution per hour.

 This is also achieved by the fact that the device including the housing, the inlet and outlet nozzles of the solution, the nozzles for loading and discharging the material to be processed, the circulation pump, is characterized in that the solution inlet pipe is provided with an additional oxygen supply pipe installed in front of the circulation pump.

To identify the range of concentrations of cyanide and dissolved oxygen in the chemical process of gold dissolution, in which the reactants would have increased reactivity, the state diagram of the Au - CN - O ₂ - H ₂ O system was experimentally constructed (The first scientific and technical conference dedicated to the opening of the mining institute. h. 1, ChGTU, Chita, pp. 39-43, 1998), shown in FIG. 1. In this diagram, below the AC curve, there is a range of gold dissolution rates in cyanide solutions, which are realized at atmospheric pressure and at oxygen concentrations in the solution from 0 to 44 mg / l, that is, until the solution is saturated with oxygen at a partial pressure of 1 atmosphere . The region of increased reactivity of the mixture of reagents compared to the rate of dissolution of gold in the atmosphere of air in the diagram is indicated by hatching. These data are consistent with the data of the prototype (p. 89), so point A on the diagram characterizes the maximum dissolution rate of gold in a cyanide solution saturated with oxygen at its partial pressure of 1 atm. and a cyanide concentration of 6 mol / L. The implementation of such a process in industrial conditions is associated with high costs for the process of oxygenation and for this reason is not used in devices with pulp circulation. Point B in the diagram indicates the maximum dissolution rate of gold when the solution is saturated with oxygen from atmospheric air. This leaching option has found practical application due to the lack of oxygen costs. Technological solutions with such a content of reagents in them at which the rate of dissolution of gold would be high and the cost of using pure oxygen would be minimal are of practical importance. The shaded part of the diagram corresponds to this region, in which the oxygen concentration in the solution does not exceed 25-30 mg / L. The diagram shows that in the case of a decrease in the concentration of cyanide in the solution from 1.9 mol / L to 1.32 mol / L, but with an increase in the concentration of soluble oxygen in the solution from 8 to 25 mg / L, the rate of gold dissolution increases by 2 times ( points B and K in the diagram). If we take into account that point B on the diagram corresponds to the rate of dissolution of gold in a cyanide solution and in the atmosphere of air, then the effectiveness of the limited oxygenation of cyanide solutions becomes obvious.

The practice of operating semi-industrial plants has shown that, after dissolving 50% of the gold contained in the concentrates, the extraction of this noble metal in the solution drops sharply. Based on the reactivity diagram of the Au - CN ^- O ₂ - H ₂ O system, it is recommended that under these conditions, the gold dissolution process be optimized by increasing the concentration of dissolved oxygen by supplying finely dispersed oxygen to the pulp, namely: in the first 10-12 hours of leaching when primarily free and dissolves readily available gold, oxygen supply carried out with a minimum expenditure of 2.5-4 l / ^m3 • h (the dissolved oxygen concentration reached about 10-12 mg / l), and in the final stage vyschel Chivanov increase oxygen flow of 5-10 l / ^m3 • h (concentration of dissolved oxygen in the solution increases up to 20-25 mg / l). An increase in the oxygen concentration in the solution above 25 mg / L leads to a sharp increase in the oxygen consumption for the oxygenation process and a slight increase in the rate of gold dissolution and its extraction.

 The specific oxygen consumption depends on the form of gold in the initial concentrate. In practice, there are cases of processing on the same mill at the same time silicate, oxidized and sulfide concentrates. The forms of finding gold, even if it is represented by one type of ore, differ in their impregnation, size, and the possibility of being in iron or manganese "shirts." In the case of gold leaching from concentrates obtained from quartz and oxidized ores, the specific oxygen consumption at a gold recovery of 95-97% was about 10-15 l / g of gold in concentrate. In the case of the processing of finely disseminated sulfide ores, the effect was observed at high specific gold consumption.

Way work
The process is carried out as follows: in an atmosphere of air, under normal conditions, the apparatus for leaching is filled with water, a gold-containing concentrate is loaded into the apparatus, the circulation pump is turned on, the required amount of concentrated sodium cyanide solution is introduced into the solution, the oxygen source is turned on, oxygen is transferred to the highly dispersed state, the flow is established oxygen with a flow rate of 2.5-4 l / m • h, leach concentrate for 10-12 hours, increase the oxygen supply to the pulp to a flow rate of 5-10 l / m ³ • h, continued They can leach the concentrate within 12-24 hours (the total duration of the process reaches 24-36 hours). Upon reaching the degree of extraction of gold 95-97% stop the leaching process.

Example 1. The volume of the solution is 4 m ³ ; the amount of concentrate processed - 2 tons; the gold content in concentrate is 50.4 g / t; cyanide concentration - 0.4%; leaching time - 36 hours. The gold content in the leach cake is 22.6 g / t. Gold recovery in solution is 55.1%.

Example 2. The conditions are the same as in example 1. The gold content in the concentrate is 115.8 g / t; oxygen supply to the pulp - 1 l / m ³ • h; gold content in cake - 31.4 g / t; gold recovery in solution - 72.0%. The specific oxygen consumption is 1.2 l / g of gold in the initial concentrate.

Example 3. The conditions are the same as in example 1. The gold content in the concentrate is 112.2 g / t; oxygen supply during the first 12 hours - 2.5 l / m ³ • h; after 12 hours, the oxygen supply was increased to 10 l / m ³ • h. The gold content in the leach cake is 3.5 g / t. Gold recovery in solution - 97.0%; specific oxygen consumption was 9 l / g of gold in the initial concentrate.

 Other examples are given in the table.

A device for leaching rich gold-bearing concentrates is shown in FIG. 2 and includes a buffer tank 1; circulation pump 2; case 3; nozzles of input 4 and output 5 of the solution; nozzles loading 6 and unloading 7 of the processed material; oxygen source with gear 8; a flow meter with a gas flow limiter 9; a pipe for supplying oxygen to the device 10
A very important factor determining the efficiency of the device is the high dispersion of oxygen supplied to the leaching. For these purposes, special devices with a stirrer, turbine or other activator can be used. In the proposed device for these purposes, a circulating pulp pump with a capacity of over 70 m ³ / h is used. The maximum amount of gas supplied according to the method does not exceed 10 liters per 1 m ^{3 of} solution per hour — this amounts to about 0.001 fractions of the circulation pump flow rate and practically does not violate the continuity of the liquid flow. A powerful turbulization of the fluid flow takes place in the pump, and the crushed particles of the solid phase present aggravate it, thus, under certain conditions, the pulp pump can be an effective reactor for uniformly dispersing and dissolving relatively small amounts of oxygen in the entire volume of the circulated solution. To exclude the possibility of accidental rupture of the continuity of the fluid flow, automatic protection against the supply of a large amount of gas is necessary. The device provides for the use of a gas flow meter with automatic limitation of oxygen consumption by shutting off the gas pipe and turning on the audible alarm. Installing an oxygen supply pipe to the solution supply pipe in front of the circulation pump is the simplest and most affordable solution to the problem of oxygenation of technological solutions. As sources of oxygen can be used cylinders or special thermoses with liquid oxygen with a capacity of 1 to 8 m ³ .

Device operation
In pulp circulation mode, the oxygen source is opened and its supply is regulated by means of a flow meter into the pipe installed in the pipe for supplying the solution in front of the circulation pulp pump.

 The method and device can be used in enterprises with a hydrometallurgical leaching cycle of gold from gold-containing materials using cones, packs, as well as for underground and heap leaching of gold. The costs of using oxygen and a device for oxygenation in the case of processing in cones do not exceed 0.5-1 rubles per 1 g of extracted gold.

Claims (2)

1. The method of leaching rich gold-bearing concentrates, comprising treating the concentrate with cyanide in an air atmosphere in a pulp circulating apparatus, characterized in that during the processing, oxygen is supplied to the pulp in a highly dispersed state in an amount of 10-25 l per 1 g of gold of the initial concentrate, start the process with oxygen supply of 2.5 - 4 l / m ³ • h, and end with oxygen supply of 5 - 10 l / m ³ • h.  2. A device for leaching rich gold-containing concentrates, including a housing, solution inlet and outlet nozzles, material feed and outlet nozzles, a circulation pump, characterized in that the solution inlet nozzle is provided with an additional oxygen supply pipe installed in front of the circulation pump.

Images