RU2601901C1 - Method of gold and palladium, platinum and rhenium extraction from pulp lixiviation tailings with their background content - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry. Method of gold and palladium, platinum and rhenium extraction from pulp lixiviation tailings with their background content includes gravity dressing of screened pulp tailings by means of screen with holes diameter on chute bottom front compartment of 1 mm with catching bed from magnetic wires, reinforcing rubber mats with metal masks and magnetic field source in form of permanent magnets, laid at chute bottom by opposite poles without clearance. At that, heavy magnetic minerals are parallel sifted on screen, supplied at chute bottom to form wires from magnetic minerals and concentrating gold and palladium, platinum and rhenium particles in wires pores, then, removal of gravity gold is performed and wires of magnetic minerals with gold and palladium, platinum and rhenium particles are supplied to magnetic drum with electric motor and magnetic fraction is output to tailing pond by means of scraper. Remaining sand fraction containing gold, palladium, platinum and rhenium, is supplied into fine filling sluice with chutes and gold and palladium, platinum and rhenium particles with size of less than 0.25 mm are trapped.

EFFECT: higher efficiency of gold and palladium, platinum and rhenium extraction.

1 cl, 1 dwg

Description

The invention relates to the mining industry, and in particular to a method for the extraction of gold, palladium, platinum and rhenium from the epileus pulp tails with their background content.

There is a method of sand enrichment at the gateway, including the supply of sand containing magnetic and non-magnetic heavy components with a slightly inclined stream above the magnetic field, which creates a yarn-like structure for trapping heavy minerals (RU 2125489 C1, V03B 5/70, 01/27/1999). The disadvantage of this method is the spontaneous formation of a trapping bed, which contributes to a significant reduction in trapping capacity due to clogging of free cavities with a clay-clay fraction and magnetic sludge that interfere with the fixation of fine and thin gold. A known method of sand enrichment, including the creation of a trapping bed from magnetic particles, the supply of pulp in the form of a slurry with sand and exposure to it with a magnetic field from below (RU 2067844, C1, B03C 1/04, 07.17.1996). The disadvantage of this method is the creation of a bed of magnetic particles not extracted from the original pulp. The high content of magnetic particles in the feed significantly affects the efficiency of enrichment of heavy particles and magnetic minerals.

A known method of sand enrichment, including the creation of a bed of pre-selected (not less than 0.25 mm in size) magnetic particles, characterized in that the magnetic particles are added to the pulp by metering falling asleep along the length and width of the gutter, to create a uniform trapping bed, which is the closest analogue (Pat. No. 2168366 from 02.10.2000, “Method for sand enrichment” by authors Kovlekova II, Savina ED, Andreeva VS). The disadvantage of this method is the complexity of creating a magnetic bed, and the complexity of the proposed magnetic segregation concentration of gold associated with the supply of sand to a gutter of graded size, shooting the concentrate from a magnetic catching bed after 12 hours and then coating the gutter with magnetic particles uniformly along the length and width of the dosed gutter with the goal of creating a uniform catching bed.

The present invention improves the efficiency of extraction of not only fine gold, but also creates the conditions for deliberate preliminary concentration of palladium, platinum and rhenium from their background content on the magnetic tailings of the factory. This method includes screening in a screen with a receiving hopper with a hole diameter of 1 mm, gravity enrichment of gold on the front compartment of the bottom of the gutter with a catching bed, which is reinforced with rubber mats with metal stencils, shooting gravity gold, catching a bed of pile of magnetic minerals with gold particles, palladium, platinum, rhenium, followed by separation into magnetic and sand fractions and removing the magnetic fraction using a scraper on a magnetic drum, and enriching the sand fraction n on stencils of fine-filled floodgates with gutters, bottoms with trap beds, reinforcing rubber mats with metal stencils and a magnetic field source in the form of permanent magnets, placed on the bottom of the gutters with unpaired poles without a gap, and particles of gold, palladium, platinum and rhenium smaller than 0.25 mm.

In the ephemeral tailings of a factory with a rock pulp volume of 2000 m ³ / day with heavy minerals, magnetites, ilmenites, chromites, etc., being gold companions, are present in placers of the Aldan shield of the Siberian platform. They, clogging the cells of the mat and free cavities in the stencil space (30 mm class), prevent the penetration of gold particles of less than 0.25 mm into the bed and their fixation in it. The pulp ethel tails with their background content are screened in a screen with a hole of 1 mm. The pulp from the screen with a receiving hopper 1 using a valve 3 located in the trench of the airlock with a side 2, sequentially passes through the front compartment of a reinforced rubber mat with metal stencils 5 of one of the two airlocks 4, leaving gravitational gold on the mat cells. In parallel with this, heavy magnetic minerals screened on the screen on the bottom 6 with a bed of magnetic system form a pile of magnetic minerals. By the method of magnetic segregation concentration in free spaces in the pores of the pile, the process of concentration of finely dispersed particles of gold, palladium, platinum and rhenium occurs. As the rugs fill the bed with the shutter 3 closed, gravitational gold is shot. After shooting gravitational gold, a magnetic pile with small particles of gold, palladium, platinum and rhenium enters the magnetic drum 7 with an electric motor, where it is separated into a magnetic fraction and a sand fraction with gold, palladium, platinum, rhenium, the magnetic fraction is discharged to the tailings with a scraper 8 and a fraction of sand with gold, palladium, platinum and rhenium enters one of the locks 9 of fine filling, each of which has 3 gutters 10 reinforced with rubber mats with metal stencils and a magnet source field in the form of permanent magnets, placed on the bottom of the gutters with opposite poles without a gap, and they catch fine gold, palladium, platinum and rhenium, followed by removal of the concentrate (Fig. 1). Permanent magnets of specification M16 BA 190 (84 × 64 × 8 ÷ 10 mm) were selected as the source of the magnetic field. On the bottom of the gutter of magnetically conductive material, they are laid entirely with opposite poles without a gap, excluding the creation of “dead” zones. In the future, in order to reduce labor costs and improve the magnetic system, it is proposed to replace the permanent magnet with an electromagnet, providing a single continuous pulp stream to the entire technological system.

The proposed method allows you to shoot a concentrated magnetic pile, without stopping the pulp until the effects of smoothing the rough surface of the bed. Moreover, in the case of using permanent magnets, magnetic concentrates are taken 3-4 times a day, and with electromagnets even more often, 5-6 times instead of two times a day, i.e. after 12 hours, as indicated in the prototype. Under the influence of a magnetic field, heavy minerals with a particle size of 1 mm instantly begin to form a magnetic pile. As they accumulate in free, commensurate spaces of the pile, small particles (below 0.25 mm) of gold, palladium, platinum, and rhenium are captured until the bed reaches its smoothing surface and expelled from the pores of the magnetic pile. Upon reaching the appropriate level of concentration of gold, palladium, platinum, rhenium, gate 3 opens another pair of fine-filled floodgates and begins the survey of gold, palladium, platinum, rhenium from sand rugs. During the shooting, the pulp is supplied without stopping the magnetic segregation concentration in another pair of fine filling sluices, and so on 3-4 or 5-6 times during the day.

The on-board unprofitable content of gold is 0.15 g / m ³ , and the background content of palladium, platinum, rhenium at the tails of the factory is an order of magnitude lower and is: Pt - 0.0312 g / m ³ ; Pd - 0.0171 g / m ³ and Re - 0.06922 g / m ³ , which is shown by the data of chemical analysis and X-ray fluorescence spectroscopy on an SRS-3400 device, based on gold 79.376 g (19.0 ± 0.3 g / m ³ ) according to an alternative chemical analysis of the Moscow Center for Collective Use named after DI. Mendeleev (act of 05/14/2014).

To extract gold of 0.25 mm and less, after concentrating the non-magnetic sand fraction, the concentrate is fed to the concentration table (SHOW) and the Mozley S-800 separator apparatus each time. The results of field and laboratory studies have shown the industrial level of extraction of the following useful components: gold - 19.0 g / m ³ ; platinum 14.95 g / m ³ ; palladium 8.19 g / m ³ and rare earth rhenium 33.14 g / m ³ . In the quick reference "Mineral raw materials" (published by CJSC "Geoinform-Mark" - Moscow: M .: 1999. - S. 134), the absence of raw sources of rhenium in Russia is noted. The obtained research results of the invention confirm not only the availability of raw materials of rhenium in Russia and Yakutia, but also created a method for their extraction.

Claims (1)

A method for extracting gold, palladium, platinum and rhenium from the pulp ephelial tails with their background content, including gravitational enrichment of screened pulp tails by a screen with a hole diameter of 1 mm, characterized in that gravitational enrichment of screened tails is carried out on the front compartment of the bottom of the gutter with a capture a bed of magnetic pile reinforcing rubber mats with metal stencils and a source of magnetic field in the form of permanent magnets laid on the bottom of the gutter with the same name poles without a gap, at the same time heavy magnetic minerals are screened out on a screen, they are fed to the bottom of the trough with the formation of pile of magnetic minerals and concentration of gold, palladium, platinum and rhenium particles in the pores of the pile, then gravitational gold is removed, and the pile of magnetic minerals with particles of gold, palladium, platinum and rhenium are fed to a magnetic drum with an electric motor and the magnetic fraction is removed to the tailings by means of a scraper, while the remaining fraction of sand containing gold, pall diium, platinum and rhenium are fed into a fine-filled gateway with troughs having bottoms with trapping beds, reinforcing rubber mats with metal stencils and a magnetic field source in the form of permanent magnets laid on the bottom of the troughs with opposite poles without a gap, and trapping gold particles, palladium , platinum and rhenium less than 0.25 mm in size.

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