RU2687715C1 - Method of combined development of gold deposits - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to the technology of combined development of gold placers with predominantly thin, fine and dispersed gold. Method of combined development of placer gold deposits includes preliminary placement and fractionation of the mineral component in an accumulation cell with hydro-insulated walls and bottom, with precipitation, treatment with the reagent solution and metal recovery by heap and sorption leaching. After waterproofing the walls and the bottom of the accumulation cell in its central part, dams and stack are placed successively in the course of drainage, arranged in series with the inclusion of a dam from the sandy fraction of sands washing tails, a stack of schlich minerals and a gravel component dam. After that, the aleurite fraction of tailings is cyclically fed into the accumulation cell in the form of a water-mineral mixture with small, lamellar gold and fine particles of magnetite, hematite, goethite, limonite and quartz, which are not fully extracted on the washing device, with the preliminary implementation of the quenching of the flow rate by local turbulence on the removable magnetic rods installed in front of the entrance to the accumulation cell, subsequent decantation of the water-mineral mixture and filtration through dams and a stack of residual most fine colloidal particles. After oxidation of the main part of schlich minerals in the stack of schlich minerals with oxygen of the air and opening of dispersed gold in it, an activated solution of the leaching agent for gold is fed into the stack of schlich minerals by means of the reagent preparation system. After drainage through the gravel dam component, the primary productive solution is accumulated in the distant part of the accumulation cell, mixed with pulp sediment formed after decanting the water-mineral mixture at the entrance to the accumulation cell and transported by a pumping system, and gold is recovered by leaching with an activated reagent solution. When the productive solution in the liquid phase reaches a specified threshold value of gold, it is fed to the electrosorption columns in order to extract dissolved gold from it to the sorbent in suspension.EFFECT: increasing the leaching efficiency, as well as reducing the loss of gold.1 cl, 2 dwg

Description

The invention relates to the technology of combined development of placer deposits and can be used in the development of placer deposits, mainly with thin, fine and dispersed gold.

A combined method of heap leaching of gold from refractory sulfide ores is known, including the construction of an impermeable base, the filling of an ore stack, the installation of leach irrigation systems and the collection of production solutions, the oxidation of sulfide mineralization and subsequent ore cyanidation [1].

There is a method of extracting dispersed gold from refractory ores and technogenic mineral raw materials, including agglomeration of the gold-bearing mineral mass of the raw material by adding a bonding material to it, forming a stack, leaching gold by feeding a reagent leaching gold into the stack, collecting working solutions, followed by separating gold from it [2].

The disadvantage of these methods is the complexity of the oxidation of ore in the stack due to the inevitable decrease in the content of the oxidant as a result of its degassing when the solution moves from the surface of the stack to its base.

Method of re-development of placer deposits, including dumping in the developed space of an efel dump and subsequent dumping on its surface of a pebble dump with the use of rock mass, extracted during mining of the whole placer, and subsequent excavation of the dump material with extraction of gold particles. Before reworking the blade, gold particle sizes are enlarged, while before dumping the pebble blade in the nearplot portion of the drop blade, a slop pond is formed, for which a waterproof, for example clay, material is created around the perimeter of the drop blade [3].

The disadvantage of this method is the limited scope, due to the complexity of ensuring uniform integration of gold particles in the dump.

There is a method of heap leaching of gold from refractory sulfide ores, including the construction of an impermeable base at the work site, crushing, screening ore, mixing the ore with a binder, granulating the ore to produce pellets and forming a pile, installing irrigation systems leaching and collecting production solutions, characterized by that pyrite cinders are introduced into the ore prior to stacking or during its formation, followed by leaching of gold with cyanide solutions [4].

The disadvantage of this method is the limited field of use, due to the negative effect of iron, passing into the solution during the oxidation of pyrite ogarkov on the extraction of gold contained in other minerals.

The closest to the claimed method is the method of cuvette-heap leaching of metals from the mineral mass, including processing the mineral mass with a solution of leaching reagent and metal extraction, processing the mineral mass with a solution of leaching reagent and metal recovery is carried out in two stages: the mineral mass is pre-positioned in cuvettes with waterproof walls and the bottom, inject a solution of the starting reagent and carry out local portioned activation of the resulting pulp with the formation of secondary reagents with periodic removal of the activated and the introduction of the non-activated part of the pulp into the activation zone, after activation the pulp is subjected to fractionation (for example, on hydrocyclones) with the release of slurry-clay and sand fractions, the sand fraction is dehydrated, the resulting slurry-clay fraction is subjected sorption or electrosorption leaching, from the sand fraction form piles and subject the material to heap leaching, while the liquid phase remaining after leaching of sand and slurry-clay fractions, strengthen and direct to heap leaching [5].

The disadvantage of this method is the long time of extraction of the metal, due to the duration of the leaching of dispersed gold enclosed in minerals carriers.

The technical result of the proposed method is to increase the efficiency of leaching due to the intensification of mass transfer processes and reduce the loss of gold.

The technical result is achieved in that in the method of combined development of alluvial gold deposits, including preliminary placement and fractionation of the mineral component in an accumulation cell with waterproofing walls and bottom, with precipitation, treatment with a reagent solution and metal release by heap and sorption leaching, after waterproofing the walls and in the central part of the accumulation cell in its central part, dams and a stack located Consequently, the dam from the sand fraction of the sands washing tails, a stack of schlichny minerals and a gravel component dam is included, after which the aleurite fraction of the tails in the form of a water-mineral mixture with small, lamellar gold and thin gold, thin gold, thin gold, plate-like gold and black gold particles with underdosing on the rinsing device of small, lamellar gold and fine gold particles with the underdeveloped on the rinsing device of small, lamellar gold and thin gold particles with the underdosing on the rinsing device of small, lamellar gold and thin gold particles with thinnestrated on the rinsing device with small, lamellar gold and fine gold particles, thin particles, lamellar gold and thin gold particles, thin gold, thin gold, plate-like gold and thin gold particles, and no part of the body. , goethite, limonite and quartz, containing dispersed gold, with preliminary implementation of the quenching of the flow rate by local turbulence on removable magnetic rods, mouth Before the entrance to the accumulation cell, the subsequent decantation of the water-mineral mixture and filtration through dams and a stack of residual most fine colloidal particles, after oxidation of the main part of the schlich minerals in the stack of schlich minerals with oxygen of the air and opening the dispersed gold in it, using the preparation system the reagent is fed to the stack of schlich minerals activated solution of the reagent for leaching gold, while after drainage through the dam the gravel component is primary productive This solution is accumulated in the distant part of the accumulation cell, mixed with pulp sediment formed after decantation of the water-mineral mixture at the entrance to the accumulation cell and transported through the pumping system, and gold is extracted by leaching with an activated reagent solution, and when a productive solution is reached in the liquid phase gold content of a given threshold value - served in the electrosorption columns for extracting dissolved gold from it to the sorbent located in being revisited state.

The possibility of forming the required sequence of actions performed by the proposed means allows to solve the problem, determines the novelty, industrial applicability and inventive level of development.

FIG. 1 - a general view of the accumulation cuvette; in fig. 2 shows section A-A in FIG. one.

The method is performed by means of an accumulation cell 1 with hydro-insulated walls 2 and bottom 3. After waterproofing in the central part 4, dams 6 and stack 7 are poured in succession in the drainage section 5. Sandy dam 8, sandstone tailings pile 9 and gravel part of the dam 10 arranged in series. In the accumulation cell 1 with the washer 11 cyclically serves the silt fraction of tailings containing dispersed gold. The flow rate 12 is quenched by local eddies 13 on removable magnetic rods 14, installed in front of the entrance 15 to the accumulation cell 1. Through the reagent preparation system 16, activated solution of gold leaching reagent is fed to the stack of schlichay minerals 9. The primary productive solution is accumulated in the distant part of the accumulation cell 17. The precipitate of the pulp is transported through the pumping system 18. The productive solution is fed to the electro-sorption columns 19 to extract gold to the sorbent 20.

The method is as follows.

By preliminary placement and fractionation of the mineral component in the accumulation cell 1 with waterproofing walls 2 and bottom 3, after waterproofing the walls 2 and bottom 3 of the accumulation cell 1 in its central part 4 successively along the course of 5 drainage pour dams 6 and a stack 7 located in series with the inclusion sand dams from the tailings washing of sands 8, a stack of schlich minerals 9 and a gravel component dam 10. In the accumulation cell 1 cyclically the aleurite fraction of tailings is served in the form of a water stream a mixture of small, lamellar gold and fine particles of magnetite, hematite, goethite, limonite and quartz containing dispersed gold with an underexposed on the flushing device 11, containing dispersed gold, with preliminary implementation of the quenching of the flow rate 12 by local twists 13 on removable magnetic rods 14 installed in front of the entrance 15 into the accumulation cuvette 1. The subsequent decantation of the water-mineral mixture and filtration through dams 6 and a stack of 7 residual most fine colloidal particles are carried out. After oxidation of the main part of schlich minerals in the stack of schlich minerals 9 with oxygen of the air and opening of dispersed gold in it, through the preparation system of reagent 16 the activated solution of the leaching agent for gold is fed into the stack of schlich minerals 9. After drainage through the gravel dam component 10, the primary productive solution is accumulated in the distant part of the accumulation cell 17, mixed with pulp sediment formed after decanting the water-mineral mixture at the inlet 15 into the accumulation cell 1 and transported through the pump system 18. Gold is extracted by leaching with activated reagent solution. When the productive solution in the liquid phase reaches a predetermined threshold gold value, it is fed to the electrosorption columns 19 to extract from the dissolved gold to the sorbent 20, which is in suspension.

This method improves technological efficiency, reduces energy consumption, increases environmental efficiency and improves sanitary and hygienic working conditions.

Information sources

1. Pat No. 2502814 of the Russian Federation. Combined method of heap leaching of gold from refractory sulfide ores.

2. Pat No. 2490345 of the Russian Federation. A method for extracting dispersed gold from refractory ores and technogenic mineral raw materials.

3. Pat №2457330 of the Russian Federation. Method of re-development of placer deposits.

4. Pat No. 2538435 of the Russian Federation. The method of extracting gold from resistant ores heap leaching.

5. Pat No. 2350665 of the Russian Federation. The method of cuvette-heap leaching of metals from the mineral mass.

Claims (1)

The method of combined development of alluvial gold deposits, including preliminary placement and fractionation of the mineral component in the accumulation cell with hydro-insulated walls and bottom, with precipitate separation, treatment with a reagent solution and metal recovery by heap and sorption leaching, characterized in that after waterproofing the walls and the bottom of the accumulation cuvette in its central part, dams and a pile located in series with the Niemi dam of sand fraction sand washing tailings pile schlich minerals and dams gravel component, and then in Accumulation cuvette cyclically fed silt fraction of tailings in a water-mineral mixture nedoizvlechennym on the flushing device small, a plate of gold and fine particles of magnetite, hematite, goethite , limonite and quartz containing dispersed gold, with the preliminary implementation of the quenching of the flow rate by local turbulence on removable magnetic rods installed in front of the entrance accumulation cuvette, subsequent decantation of the water-mineral mixture and filtration through dams and a stack of residual most fine colloid particles, while, after oxidation, the main part of the schlich minerals in the stack of schlich minerals with oxygen of the air and opening it dispersed gold, through the reagent preparation system is fed into the stack schlich minerals, an activated reagent solution for leaching gold, while after drainage through the dam the gravel component accumulates the primary productive solution in The lower part of the accumulation cuvette is mixed with pulp sediment formed after the water-mineral mixture is decanted at the entrance to the accumulation cuvette and transported by a pumping system, and gold is extracted by leaching with an activated reagent solution, and when the productive solution reaches the specified amount of gold in the liquid phase, Values - served in the electrosorption columns to extract dissolved gold from it to the sorbent, which is in suspension.

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