RU2182186C1 - Plant for extraction of gold and silver from cyanide solution - Google Patents

Abstract

FIELD: hydrometallurgy; extraction of gold and silver from ores. SUBSTANCE: proposed plant is provided with clarifying filter, deaerator and settling filter. Outlet of clarifying filter is communicated with deaerator inlet whose outlet is connected with inlet of settling filter by means of main fitted with pump. Plant is additionally provided with reservoir filled with copper-clad zinc pulp; reservoir is provided with stirrer; outlet of reservoir is communicated with deaerator outlet. EFFECT: avoidance of high-priced and toxic lead salts; enhanced efficiency of plant. 1 dwg

Description

 The invention relates to the field of hydrometallurgy and can be used to extract gold and silver from ores.

 A known installation for the extraction of gold and silver from a cyanide solution, which is a box of rectangular cross section, the inner space of which is divided into several compartments in such a way that the solution enters each compartment only from below. This is achieved by a system of transverse paired partitions, part of which reaches the bottom of the box, but does not reach its upper edge, and part starts at the upper edge, but does not reach the bottom. In each compartment, at some distance from the bottom, there are removable frames on which iron nets are stretched; a layer of zinc chips is laid on the nets.

 The solution moves in a zigzag slow continuous stream through the entire mass of chips, while noble metals are deposited on the surface of the chips, see I.N. Maslenitsky, L.V. Chugaev. Metallurgy of precious metals. Moscow, Metallurgy, 1972, p. 182-183.

 The disadvantages of this technical solution are the low content of gold and silver in the final intermediate, as well as the high consumption of zinc.

 There is also known an apparatus for extracting gold and silver from a cyanide solution, containing a clarification filter for the cyanide solution, the outlet of which is connected to the inlet of the deaerator, the outlet of which is connected to the inlet of the precipitation filter via a line equipped with a pump.

 A pulp of filter material, prepared in a container with a stirrer, as well as an initial cyanide solution containing gold and silver, is fed into the clarification filter, see I. N. Maslenitsky, L.V. Chugaev. Metallurgy of precious metals. Moscow, Metallurgy, 1972, p. 185-187.

 The clarified solution enters the deaerator, where a vacuum of 700-725 mm Hg is created. Art. The deaerator is a hollow steel cylinder having a grill at the top. Falling on top of the grate, the solution breaks up into small droplets, which contributes to the rapid release of dissolved gases under the action of vacuum, which is created by a vacuum pump.

 After the deaerator, the oxygen-free solution is mixed with leaded zinc dust and fed through the main line with a centrifugal pump to a precipitation filter, which is a tub with vacuum frames. Under the influence of rarefaction, the solution seeps through the frames, and gold and silver remain on the surface of the filter cloth.

 This technical solution is taken as a prototype of the present invention.

 Its disadvantage is the need to use very toxic and expensive salts of lead; in addition, the installation does not provide a complete separation of gold at a ratio in the initial solution of Ag / Au <2; this is due to the fact that with an insufficient concentration of silver a galvanic pair is not created, which ensures the complete release of gold.

 The technical result of the present invention is to eliminate the need for expensive and toxic salts of lead, as well as to increase the efficiency of extraction of gold and silver from a cyanide solution.

 The technical result is achieved due to the fact that the installation for extracting gold and silver from a cyanide solution containing a clarification filter, a deaerator, a precipitation filter, while the output of the clarification filter is communicated with the inlet of the deaerator, the output of which is connected via a line with a pump to the input of the precipitation filter , is additionally equipped with a tank for copper-coated zinc pulp having a stirrer, while the output of the tank is in communication with the output of the deaerator.

 The applicant has not identified sources containing information on technical solutions identical to the present invention, which allows us to conclude that it meets the criterion of "novelty."

 The implementation of the distinguishing features of the invention provides a fundamentally new effect of the device. Copper-plated zinc with metallic copper deposited on its surface causes the formation of a Cu-Zn galvanic pair. In this case, zinc interacts with water, atomic hydrogen is released from the water, which very effectively restores gold and silver from a cyanide solution (at least 99% of the initial content, i.e. almost completely).

 The applicant has not found any sources of information containing information about the impact of the claimed distinctive features on the technical result achieved as a result of their implementation. This, according to the applicant, indicates that this technical solution meets the criterion of "inventive step".

 The invention is illustrated in the drawing, which shows a schematic diagram of the installation.

The installation includes a clarification filter 1, in a specific example, a frame filter press, consisting of 84 filter chambers with a total filtration surface area of 150 m ² . The output of the clarification filter 1 by means of a pipeline is connected to the inlet of a deaerator, which in a specific example is a column 6 m high with a diameter of 2 m with horizontal gratings; the column maintains a residual air pressure of 30-50 mm RT. Art. The output of the deaerator 2 through a pipeline with a centrifugal pump 3 communicates with the input of the precipitation filter 4, which is similar in design to the clarification filter 1.

 The unit is equipped with a capacity of 5 for copper-coated zinc pulp; the tank 5 has an impeller-type mixer 6 for constant mixing of the pulp and maintaining its constant concentration throughout the volume of the tank 5; the tank 5 is connected by a pipe to the outlet of the deaerator 2.

 Installation works as follows. At the inlet of the clarification filter 1, an initial solution is supplied containing the cyanide compounds Au, Ag, as well as related elements; in addition, the initial solution contains free sodium cyanide. Also, the pulp of the filter material, in a specific example of diatomaceous earth, is fed to the entrance of the clarification filter 1. In clarification filter 1, the initial solution is released from suspended clay particles. The purified solution enters the inlet (to the upper part) of the deaerator 2 and, falling down, interacts with the gratings and breaks up into droplets. Since a sufficiently deep vacuum is maintained in deaerator 2, gases, primarily oxygen, are removed from the droplets of the solution. The solution is collected at the bottom of the deaerator 2.

 Pump 3 pumps the solution out of deaerator 2, as well as copper-clad zinc pulp from tank 5. In pump 3, the solution and pulp are intensively mixed; the resulting mixture enters the inlet of the precipitation filter 4, in which gold and silver are released (precipitation from the solution on copper-plated zinc particles). As the filter frames become clogged with particles of copper-plated zinc with gold and silver deposited on them, filter 4 is opened and the precipitate is removed. The solution flowing from the precipitation filter is fed to the leaching of gold and silver from the ore material and then again fed to the clarification filter 1.

 To implement the method used the usual simple industrial equipment, which determines the compliance of the invention with the criterion of "industrial applicability".

Claims (1)

 An apparatus for extracting gold and silver from a cyanide solution containing a clarification filter, a deaerator, a precipitation filter, wherein the output of the clarification filter is in communication with the inlet of the deaerator, the output of which is connected via a line with a pump to the inlet of the precipitation filter, characterized in that it is equipped with a container for a copper-plated zinc pulp having a stirrer, the output of the tank being in communication with the output of the deaerator.