RU2423607C2 - Procedure for downhole leaching metals from ore, alluvial deposits and anthropogenic mineral formations - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: procedure consists in supply of primary leaching solutions into treated object through system of evacuation downholes, in preparation of secondary active leaching solutions out of them directly in region of contact with treated object and in evacuation of productive solutions through system of evacuation downholes with successive extraction of valuable components from solutions. Intermediate solutions of two kinds are prepared out of primary leaching solutions before their pumping into downholes. Alkali solutions containing sodium hypochlorite are prepared in the electro-chemical reactor, while acid solutions containing hydrogen chloride and/or hydrogen peroxide with presence of hydroxyl-radicals in composition are prepared in the photo-electro-chemical reactor. Intermediate solutions are supplied into upper and lower parts of near-filter zone and/or with cyclic change of their supply into the upper part of the near-filter zone.

EFFECT: raised efficiency of leaching.

3 cl

Description

The invention relates to the technology of underground leaching of precious metals, such as gold and silver, from disintegrated, porous ores or sands of deep placers at the place of their occurrence or from man-made mineral formations (tailings and special dumps) and can be used in mining ore deposits, including the number of deep-seated, by pumping reagent solutions into the formation through a system of injection wells and pumping productive solutions through a system of pumping wells with processing them by known methods.

Known hydrometallurgical method of leaching gold and silver in an alkaline medium (pH = 8-13) with a solution containing 12% chloride and 1% sodium hypochlorite. After the cementation of gold and silver with zinc, hypochlorite is regenerated by electrolysis and the solution is returned to leach (see US patent No. 4342592, 1982).

The leach solution composition recommended in the patent cannot be used for underground leaching for environmental reasons due to the high chloride content.

A known method of leaching of metals, in particular gold and silver, carried out in two stages. In the first leaching stage, a chlorine solution is used, and the chlorine supply is controlled so that the pumped solution has a pH of at least 3. Excess active chlorine in the productive solution is restored before it is processed, and the solution is processed using one of the known methods - sorption, cementation or electrolysis. In the second stage, the development of the formation is continued with a sodium thiosulfate solution. At the same time, the unreacted active chlorine is restored and the water is neutralized, which ensures environmental requirements for the formation waters of the ore-containing horizon (see RF patent No. 2074958, IPC E21B 43/28, publ. 10.03.97).

The disadvantage of this method is the insufficiently effective use of active chlorine due to its recovery in the second stage of leaching with sodium thiosulfate and low metal recovery due to its loss with working solutions and loss of chlorine activity as solutions are removed from the injection wells.

Closest to the claimed is a method of underground leaching of gold-bearing ores, including the supply of primary leaching solutions to the processed object through a system of injection wells, the production of secondary active leaching solutions from them directly in the area of contact with the processed object and pumping productive solutions through a system of pumping wells with subsequent extraction from valuable components (see RF patent No. 2049228, IPC E21B 43/28, publ. 11/27/1995).

The disadvantage of this method is the lack of efficiency of leaching of metals.

The technical result of the proposed method is to increase the leaching efficiency by reducing the loss of reagents and increasing the recovery of the useful component.

The result is achieved by the fact that the method of downhole leaching of metals from ores, placers and technogenic mineral formations, including the supply of primary leaching solutions to the treated object through a system of injection wells, the production of secondary active leaching solutions from them directly in the area of contact with the processed object and pumping productive solutions through a system of pumping wells with subsequent extraction of valuable components from them, characterized in that from the primary leaching plants thieves, before injecting them into the wells, prepare two types of intermediate solutions, in the electrochemical reactor - alkaline, containing sodium hypochlorite, and in the photoelectrochemical reactor - acid, containing hydrogen chloride and / or hydrogen peroxides containing hydroxyl radicals, while supplying intermediate solutions are carried out in the upper and lower part of the filter zone and / or with a cyclic change in their supply to the upper part of the filter zone.

The method also differs in that prior to the supply of leaching solutions, a plug composition containing activated, sorption-containing clay minerals is fed into the treated object, after the leaching process is completed, the composition is liquefied, pumped out and subjected to sorption (vat or cuvette) leaching on the surface.

The method also differs in that before the main leaching solutions are fed through pumping wells, acidified water is supplied saturated with air or oxygen passed through ultraviolet sources.

The method is as follows.

Drilling and casing of injection and pumping wells are carried out. In this case, the casing of the injection wells is made by two pipes, the outer of which is shorter and is separated from the end part from the inner pipe by a waterproofing plastic sleeve. The frontal parts of the outer and inner tubes are perforated and wrapped in a net or narrow slits are cut. Prior to feeding gravel backfill into the filtration part of the well and installing an inner pipe with a perforated side part, an injection pipe of smaller diameter with an unobtrusive end is temporarily placed inside, through which a plugging clay solution is supplied in a mode that ensures its movement in the bottom part of the ore formation (or sand layer ), which provides for the grouting of soil rocks of the formation (or raft).

After that, the clay feed pipes are removed and the injection pipes with frontal perforation are mounted instead of them. When developing deposits with host rocks and ore containing significant amounts of carbonate and sulfide minerals, acidified water saturated with air or oxygen passed through ultraviolet sources is supplied through the pumping wells before the main leaching solutions are fed.

Next, gravel is sprayed in the filter zone and an alkaline solution of sodium hypochlorite prepared in an electrochemical membraneless reactor is fed into the internal pipes of the injection wells, and an acidified solution of hydrogen chloride and / or hydrogen peroxides, including hydroxyl radicals, prepared in a photoelectrochemical reactor, is supplied to the external pipes. In the case of using two types of acidic solutions, they are fed in a cyclic mode, alternating the supply of a solution of hydrogen chloride and hydrogen peroxides. When solutions are gradually mixed as they move in the reservoir (the solution of the upper part of the formation gradually penetrates the lower part under the influence of gravity), sodium hypochlorite and hydrogen chloride and / or hydrogen peroxides will form with the formation of active hypochlorous acid, which quickly reacts with gold with the release of complex anions Au (Cl) ₄ ^- . Thus, reactive hypochlorous acid is formed at a considerable distance from injection wells and, accordingly, reacts more intensively with gold than metastable hypochlorous acid, which appears in a previously prepared working solution as a result of hydration reactions of sodium hypochlorite or molecular chlorine with acidified water.

An example of a specific use of the method.

A deep-lying (more than 12 m downstream) gold placer, with a sand layer thickness of 3-3.5 m, represented mainly by fine (up to 0.5 mm) and dispersed (included in the lattice of magnetite and other schlich minerals) metal deposits.

The filtration coefficient in the sand is 1.5 m / day.

Initially, injection wells are drilled through a 25 × 25 m network and pumping wells along the centers of pumping well cells. The injection wells are cased with plastic pipes with a diameter of 150 mm until the sand is buried 1 m deep into the formation. Before feeding the gravel backfill into the filtration part of the wells and installing internal pipes with a perforated side part inside the external pipes of the injection wells, injection pipes with a diameter of 100 mm with a blank end are temporarily placed through which, in contact with the raft, a plugging clay solution (T: W = 1.1: 1) is supplied with the simultaneous supply of compressed air through the collector to grout cracks in the raft. The filing of the plugging clay solution is also carried out through pumping wells to equip them with filters. After the completion of the grouting, the clay feed pipes are removed and the injection inner pipes replaced and mounted instead. Internal injection plastic pipes with a diameter of 100 mm are set to 3-3.5 m (to the raft) before deepening into the soil of the sand formation. The outer pipes are separated in the end-face part from the inner pipes by waterproofing plastic bushings with holes for the diameter of the inner pipes. The front parts of the external and internal pipes are perforated and covered in several layers with a plastic mesh with a mesh of 0.5 mm. When developing placer sites with sands containing significant amounts of carbonate and sulfide minerals identified by testing the drilling material, water, acidified to pH = 4-5 with hydrochloric acid, is saturated with air passed through an ultraviolet source before the main leaching solutions are fed through pumping wells radiation - lamps DRT-240, placed in casings with a mirrored inner surface. This ensures the preliminary oxidation of sulfides and the formation of hydrocarbonate-chloride solutions that transfer calcium and magnesium into the liquid phase, i.e. preventing colmatization.

Next, gravel is sprayed in the filter zone.

The leaching solutions are prepared in special reactors: an alkaline solution of sodium hypochlorite is prepared from a 10% solution of sodium chloride in an electrochemical membraneless reactor, a solution of hydrogen chloride is prepared in membrane photoelectrochemical reactors by irradiating with a UV lamp like DRT-240 a mixture of catholyte and anolyte obtained from the initial 3-5% hydrochloric acid solution, and a solution containing hydrogen peroxides, including hydrogen peroxide and hydroxyl radicals, obtained from the original 0.3-0.5% solution sulfuric acid by irradiation with a UV lamp like DRT-240 of a mixture of catholyte and anolyte containing hydrogen and oxygen bubbles, respectively. The resulting solutions are used as initial solutions for the actual leaching of solutions with active hypochlorous acid formed directly in the sand formation. For this, an alkaline solution of sodium hypochlorite is fed into the main part of the formation, starting from its soil, through the internal pipes of the injection wells, and a solution of hydrogen chloride acidified with 1 g / L hydrochloric acid is fed into the external pipes. In areas with a significant (more than 0.3 g / m ³ ) content of dispersed gold, revealed by testing and assaying the material obtained by drilling wells, a solution of hydrogen chloride and a solution of hydrogen peroxides are fed into the upper part of the filter zone, alternating between 2 -3 hours. When solutions are gradually mixed as they move in the reservoir (the solution of the upper part of the formation gradually penetrates the lower part under the influence of gravity), sodium hypochlorite and hydrogen chloride will react between hydrogen chloride and hydrogen peroxides to form active hypochlorous acid, quickly reacting with both free fine gold and dispersed gold contained in pre-oxidized mineral matrices of magnetite and sulfide minerals fractions of sand. In this case, the formation of complex anions Au (Cl) ₄ ^- will occur.

At the end of the process, productive solutions are fed from pumping wells by aerial lifts to the surface in sorption columns loaded with activated carbon of the AG-3 grade, where sorption of complex Au (Cl) ₄ ^- anions occurs.

As a result of using the proposed method provides an increase in the recovery of precious metals in comparison with the known method by at least 10%.

Claims (3)

1. The method of downhole leaching of metals from ores, placers and industrial mineral formations, including the supply of primary leaching solutions to the processed object through a system of injection wells, the production of secondary active leaching solutions from them directly in the area of contact with the processed object and pumping productive solutions through the system of pumping wells with the subsequent extraction of valuable components from them, characterized in that from the primary leaching solutions, before their injection into boreholes, prepare two types of intermediate solutions, alkaline in the electrochemical reactor containing sodium hypochlorite, and acidic in the photoelectrochemical reactor containing hydrogen chloride and / or hydrogen peroxides containing hydroxyl radicals, while the intermediate solutions are fed into the upper and lower parts filter zone and / or with a cyclic change in their supply to the upper part of the filter zone. 2. The method according to claim 1, characterized in that prior to the supply of leaching solutions, a plug composition containing activated clay minerals with sorption properties is fed into the processed array, after the leaching process is completed, the composition is liquefied, pumped out and subjected to sorption leaching on the surface. 3. The method according to claim 1, characterized in that before the supply of the main leach solutions through pumping wells serves acidified water saturated with air or oxygen passed through sources of ultraviolet radiation.