RU2598668C1 - Method of dressing gold-containing products - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: invention relates to dressing minerals and can be used in gold mining and non-ferrous metallurgy in dressing products containing free particles of gold, silver, platinum. Method of dressing gold-containing products involves feeding initial supply and water into the operation of hydraulic classification in a hydraulic cyclone, extraction of discharge and sands, return of sands into the operation of hydraulic classification, stop of initial supply feeding after a preset time interval, feeding water and sands of the hydrocyclone into the operation of hydraulic classification to reach in the sands a given degree of concentration of noble metals, production of the dressed product in the form of sands of the hydrocyclone. Sands of the hydrocyclone after stop of initial supply feeding during circulation are subjected to screening with removal to the oversize fraction of coarse particles of waste rock.

EFFECT: provided is higher degree of concentration of noble metals in sands of the hydrocyclone due to removal from the circulating product of coarse particles of waste rock, as well as higher efficiency.

1 cl, 2 dwg, 1 tbl

Description

The invention relates to the enrichment of minerals and can be used in gold mining and non-ferrous metallurgy in the enrichment of products containing free particles of gold, silver, platinum.

A known method of enrichment, including the supply of feed and water to the operation of hydraulic classification in a hydrocyclone, the allocation of discharge and sands, the return of sand to the operation of hydraulic classification, obtaining an enriched product in the form of sand hydrocyclone [1].

The closest technical solution to the claimed one is the enrichment method, which includes the supply of initial power and water to the hydraulic classification operation in a hydrocyclone, the allocation of discharge and sands, the return of sands to the hydraulic classification operation, the cessation of the initial power supply after a predetermined time, the water and sand hydrocyclone supply to a hydraulic classification operation until the concentration of precious metals in the sands reaches a predetermined concentration, obtaining an enriched product in the form of sand jet ski in [2].

The disadvantage of these enrichment methods is the low degree of concentration of precious metals in the sands.

The present invention is aimed at increasing the concentration of precious metals in the sands of a hydrocyclone by removing large particles of waste rock from the circulating product.

The specified technical result is achieved by the fact that in the enrichment method, which includes supplying the source of food and water to the hydraulic classification operation in the hydrocyclone, separating the discharge and sands, returning the sands to the operation of the hydraulic classification, stopping the supply of the source power after a predetermined time, supplying water and sand of the hydrocyclone in the operation of hydraulic classification until the concentration of precious metals in the sand reaches a predetermined degree, obtaining an enriched product in the form of hydrocyclone sands, After stopping the supply of feed, the ski hydrocyclone is subjected to screening during the circulation process with the removal of large particles of gangue from the sands into the sieve.

In FIG. 1 shows the technological scheme of enrichment according to the proposed method; in FIG. 2 is a diagram of a circuit of apparatuses, with which you can implement the proposed method of enrichment.

The enrichment scheme includes a hydraulic classification operation, into which the initial power is supplied and a water supply is provided. The discharge obtained in the hydraulic classification is the tailings of the enrichment and is removed from the circuit. The sands of classification after screening are a circulating product and are sent to the hydraulic classification process.

The circuit diagram of the apparatus includes a hydrocyclone 1, a flow switch 2, a sump 3, a pump 4, a screen 5. The initial power supply in the form of pulp is supplied through a divider 2 to a sump 3, from which a pump 4 is fed to a hydrocyclone 1. In hydrocyclone 1, the hydraulic classification of the material is carried out with receiving plum and sand. The discharge is tailings and is removed from the process. The sands of the hydrocyclone 1 are sent to sump 3, in which they are mixed with the original feed. The feed mixture with the sands is fed by pump 4 to the hydrocyclone 1. Thus, the sand is circulated through the sump 3 and hydrocyclone 1, the material accumulates in the sump 3.

In order to maintain the specified operating conditions of the hydrocyclone by the solid content in the feed, water is supplied to the sump 3.

The supply of the original power stops after a predetermined time, which is set based on the technical capabilities of the accumulation of circulating material in the sump 3 until it is filled.

After a predetermined time of accumulation of precious metals in the circulating product, the supply of feed to the sump 3 is stopped, and the sands of the hydrocyclone are sent to the screen 5 to isolate and remove from the process the oversize product. In the process of multiple transmission of material through a hydrocyclone 1 and a screen 5, the amount of material in the sump 3 decreases, and in the sands there is an increase in the concentration of precious metals, due to the removal of rock particles into the drain and oversize product.

The process of circulation of sand through a hydrocyclone 1 stops when a predetermined degree of concentration of precious metals is reached. The circulating product remaining in the circuit is a concentrate and is sent for further processing.

The enrichment efficiency of gold-containing products is achieved by choosing the size of the hydrocyclone and pump performance, providing a given size separation of the material, in which free particles of heavy minerals are guaranteed to remain in the circulating product.

An example implementation of the method

To implement the method, the tails of the Semenov gold recovery factory were enriched. The studies were conducted in laboratory conditions on a continuous processing plant with a volumetric capacity of 1 m ³ / h. The mass fraction of solids in the tails was 30%. Mass fraction of gold in the tails of 1.2 g / t. Gold is represented by 20% free particles with a particle size of 1 to 0.02 mm, 80% is in intergrowths with sulfides.

The concentration plant included a hydrocyclone 1 with a diameter of 50 mm, a flow switch 2, a sump 3 with a capacity of 10 l, a sand pump 4, a screen 5.

The feed was continuously fed into sump 3, from which pump 4 was fed into hydrocyclone 1. In hydrocyclone 1, the hydraulic classification of the material was carried out. Heavy particles, including free particles of noble metals, were released into the sands and sent to sump 3, where they were mixed with the feed and circulated through hydrocyclone 1 and sump 3. Free particles of precious metals received from the feed were accumulated in the circulating product, while while the bulk of the rock particles were removed into the discharge of the hydrocyclone 1. After the feed was stopped, the sands of the hydrocyclone 1 were screened on a screen 5, the size of the sieve openings of which was taken based on cereals awns noble metal particles to be 2 mm. On the screen, the hydrocyclone sands were separated by size. Particles of noble metals having a particle size smaller than the size of the sieve openings fell into the under-sieve product of the screen 5. Large particles of waste rock were removed into the sieve product of the screen 5, thereby improving the quality of the under-screen product.

The feed in the sump 3 was supplied for 3 minutes. At the same time, 2 liters of material accumulated in sump 3.

After the power supply was stopped, the material accumulated in the sump 3 passed through hydrocyclone 1 and screen 5. The process was carried out for 3 min, after which the hydrocyclone sands were separated into concentrate. Enrichment products were subjected to gold assay.

The experimental results are shown in the table.

The proposed method of enrichment of gold-containing products provides higher enrichment rates of the tails of the Semenov gold recovery plant by removing large particles of waste rock from the circulating product.

1. Shokhin, V.N. Gravity enrichment methods. Textbook for high schools. 2nd ed., Revised. and add. / V.N. Shokhin, A.G. Lopatin. - M .: Nedra, 1993 .-- 350 p.

2. RF patent No. 2095145, cl. B03B 5/34, 1997.

Claims (1)

The method of enrichment of gold-containing products, including the supply of source food and water to the hydraulic classification operation in a hydrocyclone, the allocation of discharge and sands, the return of sands to the hydraulic classification operation, the termination of the supply of initial power after a specified time, the supply of water and sand of the hydrocyclone to the hydraulic classification operation until in the sands of a given degree of concentration of precious metals, obtaining an enriched product in the form of hydrocyclone sands, characterized in that rotsiklona after stopping supplying the source power is subjected during circulation screened to remove them from the screen overflow to the large particles of gangue.

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