RU2168366C1 - Method of sands separation - Google Patents

Abstract

FIELD: mining industry, particularly, separation of placer sands containing heavy minerals, including fine particles of gold, platinum, monazite and others. SUBSTANCE: method includes formation of catching bed from magnetic particles sizing, at least, 0.25 mcm withdrawn from pulp before its supply to trough, supply of pulp in form of slurry with sand and treatment with magnetic field from below. EFFECT: higher efficiency of recovery of gold fine particles. 7 cl

Description

 The invention relates to the mining industry, in particular to the enrichment of alluvial sand containing heavy minerals, including fine gold, platinum, monazite, and others. There is a method of enrichment at the gateway, which includes supplying sand containing magnetic and non-magnetic heavy components with a slightly inclined stream over a magnetic field , which creates a yarn-like structure for trapping heavy minerals (RU 2125489 C1, 03B 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 creating a trapping bed from magnetic particles, feeding pulp in the form of a slurry with sand and exposing it to a magnetic field from below, which is the closest analogue, i.e. prototype (RU 2067844 C1, B 03 C 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 degrades the enrichment of heavy particles and magnetic minerals.

 The present invention improves the efficiency of the extraction of fine gold by controlling the formation of a trapping bed. In addition, gold recovery is significantly increased at the fine-tuning stage by ensuring easy concentrate concentrate.

 This is achieved by the fact that in the method of sand enrichment, including creating a trap bed from magnetic particles, feeding pulp in the form of a slurry with sand to the gutter and exposing it to a magnetic field from below, the magnetic particles are removed from the pulp before it is fed, from which to create a trapping bed use particles with a particle size of at least 0.25 mm, magnetic particles are added to the pulp to create a trapping bed in a dosed scoop along the length and width gradually over the period before the concentrate is taken. In this case, the pulp is de-slurred before being fed to the gutter, and the sand is sized. Sand can be screened for fineness of at least 1 mm. As magnetic particles to create a trapping bed using magnetic particles extracted from the pulp of the original power.

 Removing magnetic particles from the pulp before feeding it to the gutter improves the enrichment process by unloading the heavy schlich complex and eliminating clogging of the bed’s collecting capacity with magnetic fine particles and sludge. Creating a trapping bed from magnetic particles of a given size increases gold recovery by optimizing the voidness and graininess of the trapping bed depending on the size of the gold and significantly facilitates further refinement of the concentrate by selectively removing magnetic particles by screening (removal of magnetic particles from the concentrate by magnetic separation leads to significant loss of gold by trapping magnetic particles).

 Desulphurization of the pulp improves the deposition of gold by eliminating the clogging of the catching capacity of the bed in deposits with a high content of clay and clay particles.

 Removing sand with a grain size of +1 mm by screening will improve the quality of nutrition by removing waste rock (gold with a grain size of +1 mm is effectively extracted by traditional gravity enrichment methods).

 The selection of magnetic particles for a trap bed measuring +0.25 mm contributes to the efficient extraction of fine and fine gold (-0.25 mm). Moreover, magnetic minerals and magnetic particles extracted from the feed pulp can be used as magnetic particles.

 Coating the gutter with magnetic particles uniformly in length and width allows efficient use of the entire area of the gutter bottom. The growth of the catching bed by adding magnetic particles to the pulp by gradual dosing along the length and width of the gutter during the period before the concentrate is taken ensures reliable fixation of gold grains detained in the unevenness of the bed and constant maintenance of the bed's catching ability.

 Consider the extraction of fine gold from ephelle sands after fine filling sluices. The ethereal sands (stock pulp) are magnetically separated by known and reliable methods. The magnetic fraction is screened in a 0.25 mm class. The dump magnetic fraction (-0.25 mm) is stored separately to determine the gold content and possible processing. The plus class, designed to charge the gateway, is stored in a separate container or special dump. Part of it is poured evenly along the gutter in a magnetic field, without leaving bald patches. Magnetic particles under the influence of a magnetic field are located along the lines of force and create a loose catching bed like fur or pile.

 The non-magnetic fraction of epelic sands is screened according to a class of at least 1 mm, since fine-filling sluices effectively extract gold larger than 1 mm.

 Then, pulp from prepared sand is fed to the gutter in the usual mode of gravity concentration at the airlock (slope, T: F, load, etc.). In this case, the light fraction, moving mainly along the upper part of the pulp, is carried into the tails. Particles of non-magnetic heavy minerals (gold, platinum, monazite, uranite, etc.), moving along the lower part, are delayed and stuck on the rough surface of the trapping bed.

 An example of a specific implementation.

 Consider the additional extraction of small gold from the ephelle tailings of a industrial device of the PHB-75 type. This type of industrial appliance has a 2-stage enrichment scheme, which ensures the supply of fine filling material to gateways of no larger than 20 mm. Magnetic particles are extracted from the epileus tails (the initial pulp) by the wet method on a drum separator (PBM-90/250). The magnetic fraction is subjected to 0.25 mm screening on a GV-06 vibrating screen (possibly on dFt arc screens from DORR Oliver or VariSieve from Krebs engineers). Depending on the material, you can apply a two-stage scheme with preliminary screening in a larger class to reduce the wear of the screening sieve and increase productivity. The dump magnetic fraction (-0.25 mm) is stored separately to determine the gold content and possible processing by hydrometallurgy. A large magnetic fraction is stored in a bunker or a dump specially equipped for reuse. This magnetic material is used as necessary to charge the gateway. In this case, charging the gateway with magnetic particles to create a loose trapping bed can be performed continuously or fractionally, providing constant "hunger" trapping capacity of the bed.

The non-magnetic fraction of epelic sand is screened on a drum scrubber with 5 or 3 mm perforation. The plus class is sent to the dump, unloading further enrichment operations: this class of fineness after sluices of small filling is empty due to the effective extraction of gold of such large size by them. The negative class is fed in the form of pulp to the gutter in the usual gravity concentration mode at the gateway: slope - 0.10-0.12, T: G - 1: (12-15), load per 1 m of width 8-12 m ³ / h, etc. At the same time, the light fraction, moving mainly along the upper part of the pulp, is carried away to the tails. Particles of non-magnetic heavy minerals (gold, platinum, monazite, uranite, etc.), moving along the lower part, are delayed and stuck on the rough surface of the trapping bed.

 To conduct the concentrate survey, the pulp supply to the gutter is stopped. The concentrate in the form of gold-containing magnetic concentrate is collected directly from the bottom with scrapers in a container. To extract fine gold (-0.25 mm), the concentrate is screened on a 0.25 mm sieve. In this case, the magnetic fraction of the concentrate, having a "predetermined" fineness of more than 0.25 mm, enters the oversize dump product. He is sent to a special dump. This operation turns the negative class into a gold-rich ultra-concentrate. Gold is easily extracted from it due to the lack of "hydraulically proportional" minerals of magnetite and other magnetic particles, which significantly worsen the lapping process on the SHOW concentration tables. After the main and cleaning concentration on the tables to obtain a marketable product, it is possible to apply dry enrichment of strongly magnetic and weakly magnetic minerals and ferrohydrostatic separation.

 When magnetic particles are removed from the initial power supply, the effect of "capture" of gold by flocculated magnetic particles is excluded due to their low concentration in the initial sands.

Claims (7)

 1. A method of enriching sand, including creating a trapping bed from magnetic particles, feeding pulp in the form of a slurry with sand and applying a magnetic field to it from below, characterized in that the magnetic particles are removed from the pulp before it is fed, from which particles are used to create a trapping bed fineness of at least 0.25 mm.  2. The method according to p. 1, characterized in that prior to the supply of pulp to the gutter, it is deoxidized.  3. The method according to claim 1, characterized in that prior to submission to the gutter, the sand is subjected to size classification.  4. The method according to claim 3, characterized in that the sand is screened for fineness of at least 1 mm.  5. The method according to claim 1, characterized in that the magnetic particles to create a trapping bed are added to the pulp gradually over the period before the concentrate is taken.  6. The method according to claim 1, characterized in that the trough is coated with magnetic particles uniformly in length and width.  7. The method according to claim 6, characterized in that the magnetic particles are added to the pulp with a metered filling along the length and width of the gutter to create a uniform catching bed.