RU2263152C1 - Method of extraction of gold at hydromechanized mining of sands of clay placers and oxide-bearing nodular ores of weathering crust - Google Patents

Abstract

FIELD: gravitational concentration of ores.

SUBSTANCE: proposed method includes washing, disintegration, delivery of pulp through pulp-feed line to deep flooding sluice box, gravitational concentration in deep flooding sluice boxes, screening, gravitational concentration of shallow flooding sluice boxes, cleaning-up of concentrate from entrapping surfaces and final concentration of concentrate. In the course of delivery of pulp to deep flooding sluice box, it is subjected to electric explosion treatment and activation for breaking clay pellets and pieces of oxide-bearing nodular ore and opening the mineral grain. Breaking clay pellets and pieces of oxide-bearing nodular ore and opening mineral grain is effected by action of impact waves created by electric explosion treatment and activation. In the course of breaking clay pellets and pieces of oxide-bearing nodular ore activation of medium is performed, coagulation of mineral grains is intensified at gravitational concentration and flocculation of clay particles is carried out.

EFFECT: increased extraction of gold.

3 cl, 2 ex

Description

The invention relates to the hydromechanized development of alluvial deposits with a high content of clay fraction and boulderous oxidized ores of weathering crust.

There is a known method of gold extraction during gravitational enrichment of metal-bearing sands of placer deposits, including washing, gravitational enrichment in sluices of deep and shallow filling, a rinse of concentrate from trapping surfaces and refinement to sludge metal (Shokhin V.N., Lopatin A.G. Gravity methods of enrichment. M .: Nedra, 1980, p. 280-308).

However, this method does not provide an increase in the efficiency of gold extraction from clay pellets and boulder oxidized ores of weathering crust during hydromechanical mining.

The closest in combination of essential features is the method of extracting fine grains of a useful component in the development of clay sands and boulder oxidized ore of the weathering crust, including washing, disintegration, feeding pulp through a slurry pipeline to a deep filling sluice, gravity enrichment in deep filling sluices, screening, gravity in locks of small filling, rinsing of concentrate from catching surfaces of deep and small filling, as well as finishing to schlichog metal, wherein the pulp before serving gateway deep filling in the hopper is subjected gidrovashgerda electroexplosive processing and activation (27.10.2003 RU patent 2214867 C1).

However, this method does not sufficiently provide an increase in the efficiency of gold extraction during hydromechanical development of clay sands and boulder oxidized weathering crusts due to insufficiently high softening of clay reels and pieces of boulder oxidized ore and small opening of mineral grains by direct and reflected shock waves from the walls of the bunker .

The main objective of the invention is to increase the extraction of metal during the hydromechanical development of clay placers and boulder oxidized ores of weathering crust by destroying clay reels and pieces of boulder oxidized ore and the disclosure of mineral grains during the transportation of pulp in the slurry pipeline, due to electric explosion processing and activation.

To solve the problem in the method of gold extraction in the hydromechanized development of clay sands and boulder oxidized ore of the weathering crust, including washing, disintegration, feeding the pulp through the slurry pipeline to the deep filling sluice, gravity enrichment in deep filling sluices, screening, gravity enrichment , rinsing the concentrate from the catching surfaces and fine-tuning the concentrate, while the pulp is subjected to electric pulp before being fed to the deep filling gateway electroexplosive treatment and activation to destroy clay pellets and pieces of boulder oxidized ore and the disclosure of mineral grains, moreover, electric explosive processing and activation of the pulp is subjected to deep filling in the slurry pipeline, while the destruction of clay pellets and pieces of boulder oxidized ore and the disclosure of mineral grains the action of shock waves created by electric explosive processing and activation, as well as in the process of destruction of clay pellets and pieces of boulder oxidized ores activate the medium, enhance the coagulation of mineral grains during gravitational enrichment and flocculation of clay particles.

Clay pellets and pieces of boulder oxidized ore of weathering crust appear in the pulp after erosion and disintegration of clay sands of placers and boulder oxidized ore of weathering crust on a perforator table. The maximum size of the clay pellet is set by the size of the perforation hole. The composition of clay pellets is polymineral. Basically they consist of hard-washed red-brown and light gray clays. Clastic material consisting of loose and earthy iron hydroxides, fragments of dense brown iron ore, weathered ferruginous limestone, hornfels, quartz, limonite, dyke rocks and free gold cemented with these clays.

Ores containing non-conductive and poorly conducting electric current minerals are destroyed along the cleavage planes of these minerals during the electric explosion effect of the pulp preparation process (Korostovenko VV, Shepelev II, etc. A method for processing sulfide polymetallic material. AS 1696534 USSR, publ. 7.12.91, Bull. No. 45, 6 pp.).

Preliminary discharge-pulse activation of process water before the process of washing and disintegrating sand containing clay allows you to change the electrical properties of the dispersion system and thereby reduce the loss of metal with pebble and epic tailings of the washing device enrichment (Popov I.A., Korostovenko V.V. aspects of the use of discharge-pulse technology in the development of placers. // Calculation and design of structures, roads, technologies and materials, environmental problems of the region: Abstracts to treasures of the XV International scientific and technical conference - Krasnoyarsk, 1997, p.77).

Electric blasting processing and activation during the transportation of pulp in the slurry pipeline of sand of clay placers and pieces of boulder oxidized ore of the weathering crust will create a significant destructive load of direct shock waves and reflected shock waves from the surface of the circle, exposing the cumulative effects of clay explosive bumps and ores while they are in the cavity of the slurry pipeline. Moreover, the location of the electrode system of the discharge-pulse installation in the slurry pipeline allows you to create a turbulently mixed volume of pH medium, changing the electrical and ionic properties of the dispersion system and physically destroying clay reels and ore pieces against each other and the slurry pipe walls from the shock wave created by the pulp movement in the slurry tank capacity.

The process of destruction of clay pellets and pieces of ore after activation of the medium continues in the improved dispersion system further down the processing chain.

The method is as follows.

Example 1. The deposit of boulderous oxidized ores of weathering crust, including free gold, with a high clay fraction content of 80%, is mined by the open method using hydromechanical mining. Ore is fed to the perforation table of the hydroswagger by a bulldozer. The erosion of the rocks on the horizontal and inclined table of the hydro-wash is carried out by a hydraulic monitor. With the GrAU-400/20 soil pump, the pulp is fed to the PGS-50 deep filling gateway and from it into a barrel screen, while the pulp is subjected to electric explosion processing and activation before being fed to the deep filling gateway in the hydraulic bunker. A fraction of 10 mm is fed to a complex of fine filling gateways. The average gold content in the sand is 1 g / m ³ . The productivity of the mining complex is 50 m ³ / h. The use of operational time for washing sand during the day is 22 hours. Duration of the season 180 working days. Through gold recovery is 62%.

Example 2. The developed field and mining technology are similar to those in example 1.

In this case, the electric pulsation treatment and activation of the pulp is subjected to deep filling in the pulp conduit to the gateway, and the destruction of clay pellets and pieces of boulder oxidized ore and the disclosure of mineral grains are performed by the action of shock waves created by electric explosive processing and activation, and during the destruction of clay pellets and pieces boulder oxidized ores carry out the activation of the medium, enhance the coagulation of mineral grains during gravity enrichment and flocculation of clay particles.

Through recovery was 68%.

The proposed method for the treatment of fine gold in the hydromechanized development of clay sands and boulder oxidized ores of weathering crust compared with the prototype allows to increase the amount of recoverable metal for one off season by 19.8 kg.

Claims (3)

1. The method of gold extraction in the hydromechanized mining of clay sands and boulder oxidized ore of the weathering crust, including washing, disintegrating, feeding the pulp through a slurry pipeline to a deep filling sluice, gravity concentration in deep filling sluices, screening, gravity concentration in shallow filling sluices from the catching surfaces and fine-tuning of the concentrate, while the pulp is subjected to an electric explosion treatment and an asset before being fed to the deep filling gateway uu clay pellets, for breaking and pieces valunchatoy oxidated mineral ore and grain opening, characterized in that the processing and activation electroexplosive pulp is subjected during feeding to a gateway deep in the filling of pipeline. 2. The method according to claim 1, characterized in that the destruction of clay pellets and pieces of boulder oxidized ore and the disclosure of mineral grain is performed by the action of shock waves created by electric explosive processing and activation. 3. The method according to claim 1 or 2, characterized in that in the process of destruction of clay pellets and pieces of boulder oxidized ore, the medium is activated, the coagulation of mineral grains during gravity enrichment and clay particles flocculation are enhanced.