RU2057592C1 - Gold and platinum group metals extraction from slick concentrates method - Google Patents

Abstract

FIELD: natural minerals dressing. SUBSTANCE: slick concentrate, using size screening procedure, is divided for two fractions: big size fraction, that after nuggets of gold are separated, goes to waste, and small size fraction, that is subjected to separation to select particles of scale form and concentration on table is sent for amalgamation. Grain-type particles after separation go to sedimentation. Mercury-bearing particles are separated from tailings of sediment and also are sent for amalgamation. Concentrate of sediment is subjected to additional concentration on table. Table concentrate is also sent for amalgamation. Intermediate products of tables and tailings of amalgamation are sent back for separation. Nugget gold and slick metal from amalgamation output are sent for refining. EFFECT: improved gold extraction process. 3 cl, 2 dwg

Description

 The invention relates to the field of enrichment, in particular to the enrichment of sands of placer deposits.

 A known method of processing sand on the dredges of the Magadan Economic Council [1] the Method consists in the fact that the concentrates are brought to a shaking table, after which the concentrate is subjected to amalgamation, and the tailings are sent to the dump. After amalgamation, fine gold is sent to a refinery, mercury into circulation, tailings to a special dump for subsequent extraction of accompanying valuable minerals, and the concentrate is returned to amalgamation. The disadvantage of this method is amalgamation on a large scale that poses a danger to the environment.

 Closest to the proposed method is the enrichment of concentrates, including the following operations: screening, enrichment of a large fraction at the airlock with the direction of the tailings of the airlock to the dump, gravity enrichment of a fine fraction with subsequent amalgamation [2] The disadvantage of this method is the loss of fine gold, especially scaly form.

 The aim of the invention is to increase the recovery of gold.

 This goal is achieved due to the fact that the method of extracting gold and platinum group metals from concentrate concentrates includes screening, gravity concentration and amalgamation. The method differs from the prototype in that after screening, nuggets are removed from the coarse fraction, and fine particles of a scaly shape are preliminarily separated by separation, which are enriched by concentration on a special sludge table, after which the industrial product is returned to the separation, and the table head is sent to amalgamation. Granular particles from the separation outlet are enriched by depositing, after which mercury-containing particles are separated from the tailings, which are sent for amalgamation, and the remaining tailings are stored in a dump. The concentrate obtained after enrichment with jigging is enriched by concentration on a sand concentration table, the head of the table is sent to amalgamation, the intermediate product together with the amalgamation tails are returned to separation, and the crude metal obtained as a result of amalgamation as well as nuggets is sent to a refinery. The dump at the exit of the deposit after separation of mercury-containing particles is sent to the extraction of related valuable minerals.

Existing technologies for concentrating concentrates do not contain operations for the separation of thin gold (platinum) of a scaly form. Meanwhile, concentrates are mainly represented by a mixture of grains of cassiterite, sphalerite, pyrite, magnetite with a grain size of 1-5 mm and a specific gravity of 5 g / cm ³ or more and particles of thin gold (platinum) (0.005-0.5 mm), often scaly. Such a mixture is extremely difficult to separate, because the particles in it have the same sedimentation. Concentrations are usually subjected to amalgamation or cyanidation to separate these particles, but since amalgamation of large volumes of material cannot be carried out for environmental reasons, and cyanidation is possible only in specially equipped factories, traditional gravitational enrichment technologies are obviously associated with the loss of fine flake gold. In the inventive method, there is a new operation for the separation of fine particles of a scaly shape by separation, which is carried out immediately after screening. This operation can be carried out, in particular, by flotation or by ferrohydrostatic separation. There is also a fairly simple and efficient hydraulic separation device developed by the authors for those purposes. The essence of this device is described in detail in an independent application for an invention. Due to the presence of this device, the inventive method becomes more mobile and can be implemented not only in large factories (if flotation or FGS separation is used), but also in mines. New in the enrichment technology is also introduced in the inventive method, the operation of separation from the tailings of sedimentation of mercury-containing particles and their direction to amalgamation. In this operation, not only particles that can get into the material from the amalgamation tails returned to the separation, but also of natural origin are emitted. These particles in placers, as a rule, are amalgamated particles of gold or platinum and are referred to as hard to catch by gravity methods. The operation of the allocation of mercury-containing particles in the present method can be implemented by using ferrohydrostatic separation or cyanidation. When implementing the method used a simple and affordable device developed by the authors for the same purposes, working on the principle of gravitational separation. The essence of this device is the subject of an independent application for an invention.

 Thus, this goal is achieved by introducing new operations into the technology and an expedient sequence of all operations of the method.

 Figure 1 presents a diagram of a method for the extraction of gold and metals of the platinum group from concentrate concentrates; figure 2 technological scheme of the enrichment of concentrates for an example of a specific implementation of the method.

 An example of a specific implementation of the method is the technology for the extraction of gold from concentrate concentrates. The concentrate concentrate is fed to the type 1 screening device GV-0.6, which divides the materials into two fractions, large (+5 mm) and fine (-5 mm). A large fraction is fed to a sluice-type self-trap 2, from the outlet of which the nuggets are sent to a refinery, and the tailings go to dump 3. The small fraction is sent to a separator 4, where fine particles of a scaly form are separated, which after enrichment on a sludge concentration table 5 of the SKS type -2.0 in the form of a table head (golden head) is fed to amalgamation 6. The intermediate product from the exit of the concentration table 5 is returned to the separator 4. Granular particles from the output of the separator 4 are subjected to three-stage enrichment full-time car MOD-3. Jigging tailings after separation of mercury-containing particles on the lock type apparatus 8 are stored in a special dump 9, which is then used to extract valuable components accompanying gold. The concentrate from the exit of the jigging machine 7 is fed to a sand concentration table 10 of the SKO-2.0 type, from the output of which the industrial product is returned to the separator 4, and the head of the table is sent to amalgamation 6. The tailings of the amalgamation are returned to the separator 4, the rough gold of the amalgam processing sand together with with nuggets sent to the refinery.

The method has the following advantages:
a high degree of extraction of gold and metals of the platinum group, including fine gold (platinum) of scaly form and bound by mercury (in the form of an amalgam);
good environmental friendliness due to the small amounts of amalgamation that can be carried out under conditions close to laboratory;
the possibility of complex enrichment of raw materials for the extraction of minerals accompanying gold (platinum).

Claims (3)

 1. METHOD FOR EXTRACTION OF GOLD AND METALS OF THE PLATINUM GROUP FROM SULFUR CONCENTRATES, including screening, enrichment of a coarse fraction at the airlock with the direction of the tailings of the airlock to the dump, gravity enrichment of a fine fraction followed by amalgamation, characterized in that it is separated from the fine fraction flake form and granular fraction, while further fine flake particles are fed to the concentration table for enrichment with the direction of the concentrate to amalgamation and return m of the product of the table for separation, the granular fraction of the separation is sent to jigging, the jigging concentrate is separated on the concentration table, while the intermediate product of the table is also returned to the separation, and the concentrate is sent to amalgamation, whose tails are also returned to the separation.  2. The method according to p. 1, characterized in that the tailings are directed to the operation of separating mercury-containing particles, while the tails of this operation are sent to the dump, and mercury-containing particles to amalgamation.  3. The method according to p. 2, characterized in that when enriching a large fraction of the screening at the gateway, nuggets are isolated and sent to refining together with the enriched amalgamation product.

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