RU2678344C1 - Method of combined development of gold deposits from placer deposits and technological mineral formations - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to the technology of development of gold-bearing placers and can be used in the development of natural placer deposits mainly with fine, fine and dispersed gold and man-made mineral formations. Method of combined development of gold deposits from alluvial and technogenic mineral formations includes the opening of the deposit with the subsequent advanced clearing recess of balance sands and the formation of workings with local extraction of gold-bearing mineral mass with a high content of valuable components, drilling injection wells between workings, supplying primary activated gold leaching solutions through them into the remaining low-producing formation, the production of productive solutions from them by standing in a low-productive formation, the collection of productive solutions through drainage, the subsequent extraction of gold to the sorbent. After the discovery of a deposit, gravitational processing of balance sands is carried out. After the first stage of gravitational processing part of the balance sands and the formation of workings tailings washing balance sands with fine fractions of underexploited fine and lamellar gold and the tails of placer gravitational processing are placed in a hydroinsulated central generation zone, along the perimeter of which a separating hydroinsulated dam with a drainage window of sorption cassettes is formed, which mates with a hydroinsulated section of the stock of the mother liquors. In parallel with the subsequent stage of gravitational processing of part of the balance sand, the solutions with active oxidizing agents for placer minerals are pumped into injection wells drilled to the low-productive formation bed, and then, after a technological pause, solutions containing gold leaching reagents. Productive solutions are collected from a low-productive formation through their drainage in the direction of the nearest workings to the intermediate zone located in front of the dividing hydro-insulated dam and having hydro-insulated bridges and a hydro-insulated bottom. After the accumulation of productive solutions above the level of the upper edge of the separating hydro-insulated dam, the supply of productive solutions to the hydro-insulated central production zone with leaching tails of washing balance sands and tails of placer gravitational treatment is carried out, passing through the drainage window of the sorption cassettes, the waterproofing section of the stock of the mother liquor to the external sorption columns associated with the capacity of the primary activated gold leaching solutions. Capacity of solutions with active oxidizing agents is associated with injection wells and a hydroinsulated central generation area.EFFECT: increase technological and environmental efficiency of development.1 cl, 2 dwg

Description

The invention relates to a technology for the development of gold-bearing placers and can be used in the development of natural placer deposits, mainly with thin, fine and dispersed gold, and man-made mineral formations.

A known method of developing placers, including peat removal and sand extraction, is carried out by means of mechanization by washing extracted sand on industrial instruments [1].

The disadvantage of this method is the low metal recovery due to its losses, both at the stage of excavation of gold-bearing sands of placers, and at the stage of washing.

A well-known environmentally friendly method of underground leaching of precious metals, mainly gold and silver, from ores at the place of their occurrence [2], including the sequential injection of reagent solutions into the formation through a system of injection wells and pumping productive solutions through a system of pumping wells with subsequent processing of the productive solution by sorption , cementation or electrolysis, leaching are carried out in two stages, moreover, a chlorine solution is used in the first stage, and a well leaching method is known ools from deep-lying placers and man-made mineral formations [3], which includes supplying activated leaching solutions to the reservoir through injection systems with subsequent extraction of gold, including methods [4-5], including supplying primary leaching solutions to the processed object through the system injection wells, production of secondary active leaching solutions from them directly in the area of contact with the treated object and pumping of productive solutions through the opening system wells with subsequent extraction of valuable components from them, and - a method [6] of geotechnological development of deposits, including increasing the fracture of the array by explosive cultivation, feeding the leach solution to the array, waterproofing its surface, removing the productive solution and supplying it with a useful component and restoring it properties of the solution itself, after which the reconstituted solution is again fed into the array through the well.

The analyzed methods do not solve the complex problem of the full development of placers, including low-productive areas of the field.

Closest to the claimed method is a method of heap-hole leaching of gold from man-made mineral formations or sands of shallow-lying placers, including drilling injection wells, supplying activated leach solutions through them to the reservoir, collecting productive solutions, subsequent sorption extraction of gold from productive solutions, previously in leachable material the formation of drainage workings by local extraction of gold-bearing mineral mass from s with a high content of n-silty clay fractions and / or commercially valuable components, drilling stored pressure between the drain wells workings. The mineral mass extracted during the formation of drainage openings is subjected to agglomeration with a leaching solution and cement and stored on the surface of zones with drilled wells, after which concentrated solutions of leaching reagents are pumped into the remaining unexposed gold-bearing mineral mass and anthropogenic formation or placer sands through the injection system gold diffusion leaching with these solutions, after which they irrigate the mineral mass through the surface stored pressure through well water or dilute solutions produce drainage productive solutions formed through drainage generation and sorption extraction of gold from the pregnant solution [7].

The disadvantage of this method is the low technological and environmental efficiency of its application, due to the full-scale application of leaching in areas of productive and low-productive formations of the field, i.e. with a high and low content of valuable components, increasing the duration of the process and environmental load due to the widespread use of chemicals in the leaching process.

The technical result of the proposed method is to increase the technological and environmental efficiency of field development by combining the development system and the development of mass transfer processes.

The technical result is achieved due to the fact that in the method for the combined development of gold deposits from placers and man-made mineral formations, including opening a deposit with subsequent advanced treatment excavation of the balance sands and forming workings with local extraction of gold-bearing mineral mass with a high content of valuable components, drilling injection wells between workings, supply through them, to the remaining low-productive layer, of primary activated gold leaching solutions, production of productive solutions from them by standing in a low-productivity formation, collection of productive solutions by drainage, subsequent extraction of gold into a sorbent, after the first stage of gravitational processing of part of the balance sands and formation of workings, tailings for washing balance sands with fine fractions of unreduced fine and lamellar gold and tails schlich gravity treatment is placed in the waterproofed central zone of development, along the perimeter of which is formed and a dividing waterproofing dam with a drainage window of sorption cassettes, mating with a waterproofing section of the mother liquor accumulator, in this case, along with the subsequent stage of gravitational processing of part of the balance sands, solutions with active oxidizing agents for sludge minerals are fed into injection wells drilled to the low-productivity reservoir density then, after a technological pause - solutions containing gold leaching reagents, while collecting productive overs from the low-productivity reservoir by draining them in the direction of the nearest workings to the intermediate zone located in front of the dividing waterproofing dam and having waterproofed lintels and a waterproofing bottom, and after the accumulation of productive solutions above the level of the upper edge of the dividing waterproofing dam, productive solutions enter the waterproofed central working zone with leachable tailings of washing of the balance sands and tailings of gravity gravity treatment, passing through the drainage window of sorption cassettes, a waterproofing section of the mother liquor storage tank to external sorption columns associated with the capacity of the primary activated gold leaching solutions, the capacity of solutions with active oxidizing agents being connected to injection wells and a waterproofed central production zone.

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

In FIG. 1 is a diagram of a site for the combined development of an alluvial gold deposit; in FIG. 2 is a section AA in FIG. 1 selected production fragment with a dividing waterproofing dam and a waterproofing central zone.

After the discovery of the deposit, gravity processing is carried out using equipment 1 for washing the balance sands 2 and finishing equipment 3 of the concentrating section 4. By means of an advanced cleaning excavation of the balance sands 2, workings 5 are formed with local extraction of the gold-bearing mineral mass with a high content of valuable components. Between the workings 5 injection wells 6 are formed, passing to the raft 7 through the low-productivity formation 8. Gold is extracted to the sorbent in external sorption columns 9. Tails for washing 10 balance sands 2 with fine fractions of under-extracted fine and plate gold and tails of gravity treatment 11 are placed in hydroisolated central zone 12 of the production of 5. Along the perimeter 13 of the development of 5 formed a dividing waterproofing dam 14 with a drainage window 15 sorption cassettes 16, mating with roizolirovannoy storage section 17 of the mother liquors. Excavations 5 have an intermediate zone 18 located in front of the dividing waterproofing dam 14 and having waterproofed lintels 19 and a waterproofing bottom 20. Drainage is carried out in the direction of 21 closest excavations 5 to the intermediate zone 18. The dividing waterproofing dam 14 has an upper edge 22, above which level 23 rises productive solution. External sorption columns 9 are associated with a capacity of 24 primary activated gold leaching solutions. The capacity of 25 solutions with active oxidizing agents is associated with injection wells 6 and a hydroisolated central zone 12 of mine 5. To exclude drainage of groundwater into mine 5, drainage ditches 27 are made along the boundaries of blocks 26.

The method of combined development of gold deposits from placers and man-made mineral formations is as follows.

According to the results of testing the drilling material, the balance sands 2 and low-producing strata are contoured 8. Drain ditches 27 are drawn along the boundaries of the blocks 26 of the field, the fields are opened with the subsequent advanced cleaning excavation of the balance sands 2 and formation of workings 5 with local extraction of gold-bearing mineral mass with a high content of valuable components. After the discovery of the field, gravity processing is performed using equipment 1 for washing the balance sands 2 and finishing equipment 3 of the concentrating section 4. Between the workings 5, injection wells 6 are drilled and, through them, into the remaining low-productivity formation 8, primary activated gold leaching solutions are drilled. Carry out diffusion leaching in low-productivity formation 8 with the formation of productive solutions by aging, collecting productive solutions by drainage and subsequent extraction of gold on the sorbent. After the first stage of gravitational processing of part of the balance sands 2 and the formation of mine workings 5, the flushing tails 10 of the balance sands 2 with thin fractions of under-extracted fine and lamellar gold and the tails of the gravity gravity treatment 11 are placed in the hydroinsulated central zone 12 of mine 5, along the perimeter 13 of which a dividing waterproofing dam is formed 14 with a drainage window 15 of sorption cassettes 16, mating with the waterproofing section of the reservoir 17 of the mother liquor. After decantation of a fine fraction of the flushing tailings 10 of the balance sands 2, water is pumped from the mine 5. In parallel with the next stage of gravitational processing of part of the balance sands 2, solutions with active oxidizing agents for schlich minerals are fed into injection wells 6 drilled to the raft 7 of low-productivity formation 8. After a technological break, 6 solutions containing gold leaching reagents are fed into injection wells. Drainage from a low productivity formation 8 of productive solutions is carried out in the direction of 21 closest workings 5 to the intermediate zone 18, located in front of the dividing waterproofing dam 14 and having waterproofed lintels 19 and waterproofing bottom 20. After the accumulation of productive solutions above level 23 of the upper edge 22 of the dividing waterproofing dam 14 is carried out the entry of productive solutions into the waterproofed central zone 12 of mine 5 with leachable flushing tailings 10 balance sands 2 and tailings of gravity gravity treatment 11. Productive solutions then enter through the drainage window 15 of the sorption cassettes 16 into the waterproofing section of the reservoir 17. The resulting primary mother liquors with a relatively high gold content are fed to external sorption columns 9 associated with a tank of 24 primary activated gold leaches solutions. From the tanks 24 and 25, the prepared solutions are dosed to the injection wells 6 and the waterproofed central zone 12 of the mine 5. The secondary solutions with active oxidizing agents and product solutions are periodically taken from the mine workings 5, and they are analyzed, respectively, at the first stage for divalent iron and manganese, in the second stage - for gold. If the specified threshold values of these components in the corresponding solutions are not exceeded, bypassing the external sorption columns 9, they are re-pumped into the low-productivity formation 8 to achieve the required degree of oxidative preparation of the mineral mass and gold recovery from it.

An example of a specific implementation of the method. The Kruchin low-grade gold placer, Trans-Baikal Territory, with a sand bed thickness of 1-1.5 m and a bed depth of 3.5 to 4.3 m, is represented mainly by sand and gravel with a clay-mica fraction of no more than 10% by weight . Gold is represented by small (up to 0.5 mm) and thin (0.1-0.25 mm) lamellar and less often isometric particles, as well as encapsulated and dispersed forms included in the lattice of magnetite and other schlich minerals by submicron and nanoscale particles. The distribution of gold in the reservoir is extremely uneven: areas with a content of more than 2 g / m ³ border areas with a content of less than 200 mg / m ³ . The gold content in the sludge fraction is from 1.3 to 17.5 g / t.

According to the proposed method, drilling exploratory wells was carried out. According to the results of sample analysis, enriched sites with a gold content of more than 500 mg / m ³ were isolated in the presence of gravitationally enriched (over 0.25 mm in size) gold in them. The extracted sands were washed on an industrial instrument. Separated sand-clay fraction - washing tails of 10 balance sands 2 after gravity treatment with under-extracted fine and lamellar gold, obtained on the industrial device, were washed into the workings 5 through the drainage ditches. The tailings of the gravity gravity treatment 11, after shooting and extracting visible gold when they were refined at the SHOW, were accumulated and periodically loaded with a front-end loader into the workings 5. After decanting a fine fraction of the washing tailings 10 balance sands 2, water was pumped out from the workout 5. Between mine workings 5, with a relatively low gold content (less than 500 mg / m ³ ), injection wells were drilled 6. After the injection wells were cased with 8 plastic pipes, a solution with active oxidizing agents for bulk minerals was pumped into the low-productivity formation of 8 sand. The drainage of the solution with active oxidizing agents was carried out through the reservoir with a filtration coefficient of 0.5-1.2 m / day. The oxidation of magnetite was ensured, with its partial transformation into hematite and goethite, and - pyrite, with partial leaching of iron from these minerals. The alkaline component of the solution ensured a decrease in the adhesion force between clay particles and small quartz particles, which subsequently ensured access of solutions containing gold leaching reagents - cyanides to small particles of gold. The solution accumulated in the mine was reinforced with a freshly prepared concentrated solution of hydrocarbonate-peroxide composition, which after five to seven days was pumped into a low-productivity formation of 8 placer sands through injection wells 6. The end of the oxidation preparation process was recorded after 1.5 months, while the iron content in the circulating the oxidizing solution reached 1850 mg / L. Then, solutions containing gold leaching reagents — activated cyanide solution — were injected into the reservoir. The gold content in the obtained productive solutions of downhole leaching varied from 0.25 to 1.3 mg / L. The resulting productive solution of the secondary leaching solutions, with a gold content of up to 0.75 mg / l in it, was discharged through the by-pass tubes left on the side of mine 5. At a higher gold content, it was sent directly to sorption. After exiting the external sorption column 9 with coal, the mother liquor was further strengthened with cyanide to a level of 1.5 g / L. When the gold content in the productive solution of well leaching at the final stage drops to 0.15 mg / l, the flow of leach solution into the wells is stopped. After that, cuvette leaching in the pits was completed until the gold content in the tails fell 0.15 g / t. The total gold recovery from the placer using the combined development method was 85%.

The method of combined development of gold deposits from placers and technogenic mineral formations provides an increase in technological and environmental efficiency by combining a development system and the development of mass transfer processes.

Information sources

1. Shorokhov S.M. Technology and comprehensive mechanization of placer mining. M., Nedra 1973. 768 p.

2. Pat. RF №2074958. An environmentally friendly method of underground leaching of precious metals, mainly gold and silver, from ores at the place of their occurrence.

3. Pat. RF №250464. The method of downhole leaching of gold from deep-lying placers and man-made mineral formations.

4. Pat. RF №2423607. The method of downhole leaching of metals from ores, placers and man-made mineral formations.

5. Pat. RF №2609030. The method of downhole leaching of gold from deep-lying placers.

6. Pat. RF №2395683. The method of geotechnological development of deposits.

7. Pat. RF №2553811. The method of heap-hole leaching of gold from technogenic mineral formations or sand of shallow-lying placers.

Claims (1)

A method for the combined development of gold deposits from placers and man-made mineral formations, including opening a deposit with subsequent advanced treatment extraction of the balance sands and forming workings with local extraction of gold-bearing mineral mass with a high content of valuable components, drilling injection wells between the workings, supplying them to the remaining low-productivity formation primary activated gold leaching solutions, production of them productive solution in by standing in a low-productivity formation, collecting productive solutions by drainage, subsequent extraction of gold into a sorbent, characterized in that after the first stage of gravitational processing of part of the balance sands and the formation of mine workings, washing tailings of balance sands with fine fractions of under-recovered fine and lamellar gold and tails of gravity gravity processing is placed in the waterproofed central zone of development, along the perimeter of which a separating waterproofed is formed a dam with a drainage window of sorption cassettes mating with a waterproofing section of the mother liquor accumulator; in this case, along with the subsequent stage of gravitational processing of part of the balance sands, solutions with active oxidizing agents for sludge minerals are fed into injection wells drilled to the low-productivity reservoir density, and then, after the technological formation - solutions containing gold leaching reagents, while collecting productive solutions from a low productivity formation is carried out through their drainage in the direction of the nearest workings to the intermediate zone located in front of the dividing waterproofing dam and having waterproofed lintels and a waterproofing bottom, after the accumulation of productive solutions above the level of the upper edge of the dividing waterproofing dam, productive solutions are delivered to the waterproofed central working zone with leached tailings balance sands and tailings of schlich gravity treatment, passing through es drainage box sorption cassette storage section waterproofed mother liquors external sorption column associated with the capacity of activated primary leach gold solutions, the solutions with the active capacitance associated with oxidants stored pressure wells and waterproofed central zone generation.

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