RU2609030C1 - Method of well gold leaching from deep placers - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to technology of underground gold leaching from deep alluvial deposits sands and can be used during gold-bearing placers development, mainly deep, with thin, fine and dispersed gold. Method of gold well leaching from deep placers includes supply of activated leaching solutions into productive formation through system of injection wells with subsequent extraction of gold. Prior to activated leaching solutions supply to productive formation performing deposit waters drainage through system of drain wells. Used activated leaching solutions are electrically activated concentrated cyanic solution, prepared based on carbonate one, subjected to photoelectrochemical treatment, which is supplied to formation through system of injection wells and dual purpose (injection-evacuation) wells into productive formation upper and lower parts until complete water saturation of sands. After of the main part of gold diffusion leaching performing supply of weak electrically activated cyanic solution. Productive solution is pumped out through double purpose wells and drain wells.

EFFECT: technical result is increase in leaching efficiency.

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Description

The invention relates to the technology of underground leaching of gold from sands of deep-lying placers and can be used in the development of placer deposits, mainly deep-lying, with thin, fine and dispersed gold.

A known method of underground leaching of metals, in particular gold and silver, carried out in two stages. At the first stage of leaching, 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 ЕВВ 43/28, published on March 10, 1997).

The disadvantage of this method is the low metal recovery due to its loss with working solutions, and the limitation of its use for underground leaching of gold from placer sands for environmental reasons due to possible leaks of productive solutions with a high content of sodium chloride in them.

Closest to the claimed method is a method of downhole leaching of gold from deep-lying placers and man-made mineral formations, including feeding activated leaching solutions to the reservoir through a system of injection wells, followed by extraction of gold. The leaching solutions are supplied through the injection well system by injection of the solution in separate jets. Initially, a hydrocarbonate-peroxide solution, subjected to photoelectrochemical treatment, is supplied, then, after a pause, a solution of hydrochloric acid is added with the addition of hydrogen peroxide, subjected to ultraviolet radiation before being supplied. After the solution has matured in the reservoir, until the main part of the gold passes from the mineral mass to the reservoir, perforated capsules with a sorbent equipped with electrodes are placed in the wells, voltage is applied to the electrodes to provide directional diffusion of the dissolved gold ions to the sorbent and its sorption, as well as to additionally leach the remaining in the gold ore bed, then the gold-saturated sorbent is removed and subjected to regeneration (see RF patent No. 2504648, IPC EV 43/28, publ. 01.20.14).

The disadvantage of this method is the long time of metal extraction, due to the low rate of its electrodiffusion and loss of dissolved gold due to reprecipitation in the cathode zones of clay mineral particles with sorption-active properties, as well as the limited area of use: when gold is found to be finer, its leaching is prevented by using proposed in the invention composition solutions of silver chloride.

The technical result of the proposed method is to increase the efficiency of leaching due to the intensification of mass transfer processes and reduce gold losses due to reprecipitation of gold on clay minerals and its blocking by insoluble silver chlorides.

The result is achieved in that the method of downhole leaching of gold from deep-lying placers, including feeding activated leach solutions to the reservoir through an injection well system followed by gold recovery, differs in that before the activated leaching solutions are fed into the reservoir, the formation water is drained through the drainage well system , as activated leaching solutions, an electroactivated concentrated cyanide solution is used, under prepared on the basis of hydrocarbonate, subjected to photoelectrochemical treatment, which is fed into the reservoir through a system of injection wells and dual-purpose wells (injection-pumping) into the upper and lower parts of the reservoir until the sand is completely saturated, then after diffusion leaching of the bulk of the gold, weakly concentrated electroactivated cyanide is fed solution, then pump out the productive solution through dual-use wells and drainage wells.

The method is as follows.

Drilling and equipment of technological wells are carried out - drainage, injection and dual-purpose wells (injection-pumping). Drainage wells are drilled horizontally from trenches crossed across the strike of the productive layer of sand at its boundary along the dip, and equipped with mesh or microporous filters. Equipment for injection wells is carried out by installing slotted cylindrical solution distributors on casing pipes in the upper and lower (subsoil) parts of the reservoir. Equipment for dual-use wells (injection-pumping) is carried out by installing slotted cylindrical solution distributors on casing pipes in the upper part of the reservoir, and in its lower (ground) part, a slotted filter with external gravel filling in the zone of local expansion of the well is installed.

Through drainage wells and dual-use wells, drainage and pumping of produced water are carried out. After completion of drainage, an electroactivated concentrated cyanide solution prepared on the basis of a hydrocarbonate, previously subjected to photoelectrochemical treatment, is fed through the system of injection wells and dual-purpose wells into the upper and lower parts of the reservoir until the gold-containing sands are fully saturated. The mineral mass of the placer sand layer saturated with a leach solution is left to stand for 3-10 days to effect diffusion leaching of the bulk of the gold. During this period, pumping of ground and groundwater continues only through drainage wells. Upon completion of the diffusion leaching process, a weak electroactivated cyanide solution is supplied to the reservoir in an amount that ensures continued gold leaching in an infiltration or filtration hydrodynamic mode. Productive solution is pumped through dual-use wells and drainage wells. To monitor the progress of the leaching process and to eliminate leaks of leaching and productive solutions, observation and emergency wells are drilled in the bottom of trenches.

An example of a specific use of the method.

A deep-lying (more than 15 m downstream) gold placer with a sand layer thickness of 3.5 to 4.3 m, represented by sand and gravel deposits with predominantly small (up to 0.5 mm) and thin (0.1-0.25 mm) gold particles of various morphologies, as well as its dispersed forms (gold sorbed by clay minerals included in the lattice of magnetite and other schlich minerals).

Initially, 5 drainage trenches are drilled in the lower part of the placer across the strike of the sand formation, from the lower part of the sides of which drainage wells with a diameter of 250 mm are drilled horizontally along its strike with a pitch of 15 m, which are equipped with strainers. Then carry out drilling and equipment of the main technological wells: injection and dual-use wells (injection-pumping). The injection wells are cased with plastic pipes with a diameter of 150 mm, onto which slotted cylindrical distributors of leaching solutions, 700 mm long, are installed at the level of the upper and lower (ground) parts of the reservoir. Equipment for dual-use wells is carried out by installing slotted cylindrical solution distributors, 700 mm long, on casing pipes in the upper part of the reservoir, and a 700 mm long slotted filter with external gravel filling in the zone of local expansion of the well up to 350 is installed in its lower (ground) part mm The network of wells is 5 * 5 m. Through drainage wells and dual-use wells, pre-drainage of produced water is carried out for 3 days. After this, water is pumped out only from drainage wells. After completion of the drainage through the system of injection wells and dual-use wells, the active concentrated cyanide solution (3 g / l) prepared on the basis of a carbonate solution previously treated in a special tank is fed to the upper and lower parts of the reservoir to the full (10%) moisture saturation of the sands photoelectrochemical reactor. The carbonate solution is prepared from a 0.5% aqueous sodium carbonate solution by electrolysis, followed by irradiation of the resulting water-gas emulsion with a DRT-230 type ultraviolet lamp. An active cyanide solution is prepared by introducing a carbonate solution of sodium cyanide into a carbonate solution treated in a photoelectrochemical reactor to a concentration of 5 g / l, and then treating the resulting mixture in an electrochemical reactor at a voltage of 8 V. The mineral mass of the bulk sand saturated with the active leaching solution is left to stand in within 7 days for the diffusion leaching of the bulk of gold. At the end of this process, an electroactivated cyanide solution with a concentration of 0.02% in the amount of 20 m ³ / day for each well is supplied to the reservoir, which ensures continued gold leaching in the infiltration hydrodynamic mode. Productive solution is pumped through dual-use wells and drainage wells. After extracting gold from the productive solution, the resulting mother liquor is saturated with oxygen, added with sodium cyanide, reactivated in an electrochemical reactor and pumped into a layer of gold-bearing sands of placer. The cycles are repeated until an economically viable gold recovery level is reached. After gold leaching is completed, industrial water treated in a photoelectrochemical reactor is fed to the placer sand production layer and the resulting drainage solution is pumped out with residual cyanides partially transformed into cyanates by active oxygen formed during processing of the injected water, until the residual cyanide content is equal to the accepted MPC .

Claims (1)

A method of downhole leaching of gold from deep-lying placers, comprising supplying activated leach solutions to the reservoir through injection system followed by gold recovery, characterized in that before the activated leach solutions are fed into the reservoir, the formation water is drained through the drainage system as activated leaching wells solutions used electroactivated concentrated cyanide solution prepared on the basis of hydro carbonate, subjected to photoelectrochemical treatment, which is fed into the reservoir through a system of injection wells and dual-use wells (injection-pumping) into the upper and lower parts of the reservoir until the sand is completely saturated, then after diffusion leaching of the bulk of the gold, a weak electroactivated cyanide solution is supplied, then pumping productive solution through dual-use wells and drainage wells.