RU2361077C1 - Method of combined development of ore - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method refers to mining and is intended for underground leaching of metals out of ore and anthropogenic mineral formations. The method of combined development of ore consists in extraction of rich ore and in leaching metals from the rest part of ore at site of its bedding. Extraction of rich ore is executed according to procedure chamber-massif. Primary chambers are formed with geological parametres less, than these of massifs. Backfilling of chambers is performed with hardening mixture, while space formed at successive extraction of massifs is filled with disintegrated ("dry") filling consisting of sorting tails and/or of tails of concentrating of rich ore and mine-run material produced at driving of preparing and breakoff working. The rest of mine-run material is exploded; while leaching of metals out of mine-run material and backfilling materials is performed in two stages: with mine water saturated with air oxygen and with supply of thionic bacteria strains into them at the first stage and with supply of solutions of basic activated leaching reagents at the second stage.

EFFECT: upgraded efficiency of process.

Description

The method relates to the mining industry and is intended for underground leaching of metals from ores and man-made mineral formations.

There is a method of underground leaching of gold from ores and placers, including drilling and casing of injection and pumping wells, supply of leaching solutions and pumping of productive solutions (see Processing and enrichment of minerals of placer deposits / G.A. Andreeva, S.Ya. Goryushkina, V. .P. Nebera. - M.: Nedra, 1993, p. 235-237).

The disadvantage of this method is the relatively low metal recovery.

The closest in technical essence and the achieved result is a combined underground mining method, including the extraction of conditioned ores in the traditional way (with explosive breaking and ore extraction), processing of mined ores on the surface with subsequent placement of processing tailings on it and underground leaching of metals from the substandard subsoil ore, including explosive preparation of ores for it in the contours of the chambers and irrigation with a leach solution, collecting solutions in the bottom (base) of the chambers and repeat their feeding to the upper part until sufficient metal concentrations are achieved for sorption or precipitation (see Construction and reconstruction of underground leaching mines. M., Nedra, 1987, pp. 53-110).

The disadvantages of the method are low efficiency due to the long duration of the leaching process, the loss of metals from industrial waste placed on the surface, and the substandard ore remaining in the bowels subjected to explosive-seismic effects, pollution of underground and surface waters.

The technical result of the invention is to increase the efficiency of the process by reducing the time of leaching and increasing the extraction of metals and improving the environmental situation.

The essence of the invention lies in the fact that the method of combined development of ores, including the extraction of rich ore and leaching of metals from the remaining part of the ore at the place of occurrence, is characterized in that the extraction of rich ore is carried out according to the camera-whole scheme, and the primary chambers formed are formed with geometric parameters smaller than the pillars, the cameras are laid with a hardening mixture, and the space formed by the subsequent excavation of the pillars is filled with a disintegrated ("dry") bookmark consisting of sort tails sludge and / or enrichment of rich ore and ordinary ore obtained during the excavation of preparatory and rifted workings, after which the remaining ordinary ore is blasted, and the leaching of metals from ordinary ore and bookmark materials is carried out in two stages: in the first, by mine water saturated with atmospheric oxygen with the supply of strains of thionic bacteria into them, and on the second - with solutions of the main activated leaching reagents.

Leaching in two stages allows to minimize the cost of preparing leaching reagents and to reduce the loss of valuable metals due to the formation of the corresponding complexes in the first and second stages of leaching. In addition, from an environmental point of view, the surface areas used for waste disposal are reduced, respectively, the scale of migration of heavy metals from them is reduced. The rock mass in shock-hazardous areas and zones of movement maintains a stable state, i.e. increased mining safety.

The method is as follows.

During the development of gold deposits of the sulfide-quartz formation of the stockwork and vein morphostructural types, enriched (more than 5 g / t of gold), ordinary (1.2-3 g / t) and transition zones are distinguished.

Initially, enriched zones are processed according to the camera-whole scheme.

The formed primary chambers are formed with geometrical parameters when working out the stockwork in the plan of 10 × 10 m, when working out the veins 2x5 m (ores from transitional zones are included or excluded from the circuit of the chambers, depending on whether or not the relative uniformity of the location of future artificial pillars from the bookmark is provided) they are laid with a hardening mixture, after the initial strength has been set, the inter-chamber pillars of rich ore are worked out, and the free space formed is filled with a disintegrated (“dry”) laying, rich tails sorting and processing of rich ore and ordinary ore obtained during the sinking of ore preparation and threaded workings. Dry laying partially reduces the load on the supporting pillars and at the same time does not pollute the environment with heavy metals on the surface. In addition, since it contains residual amounts of valuable metals, it can serve as a source of their production on site (without additional movement) by leaching.

At the second stage of field development, the remaining ordinary ore is blasted sectionally and metals are leached out of it in two stages: at the first stage, by mine waters saturated with atmospheric oxygen with initial acidification with sulfuric acid (up to pH 3) and the supply of thionic bacteria strains to them, metals leach out , easily forming sulfate complexes, and on the second - with solutions containing complexing agents and oxidizing agents, the remaining metals are leached.

After that, leaching of metals from the bookmark materials (“dry”) is carried out according to a similar scheme. At the same time, to reduce costs, appropriate solutions used at the 2nd stage are used as leaching solutions, reinforced after sorption extraction of metals from them.

Leaching first with thionic bacteria, and then with reinforced leaching solutions, allows copper and zinc to be extracted at the place of occurrence with minimal cost, while simultaneously producing industrially valuable metals from rich ores.

Compared with traditional underground leaching, where there is a long preparatory period (up to six months) when the metal is not extracted, respectively, capital investments are not paid off, in the proposed method, the final product is obtained immediately after extraction. It saves costly stuffing material, since a combined bookmark is used, which also reduces the cost of production.

Claims (1)

A method for the combined development of ores, including the extraction of rich ore and leaching of metals from the remaining part of the ore at the place of its occurrence, characterized in that the extraction of rich ore is carried out according to the chamber-pillar scheme, and the primary chambers formed are formed with geometric parameters smaller than those of the pillars, they are produced laying the chambers with a hardening mixture, and the space formed by the subsequent excavation of the pillars is filled with a disintegrated (“dry”) bookmark consisting of sorting and / or rich ore dressing tails and a number of ore obtained during the excavation of preparatory and rifted workings, after which the remaining ordinary ore is blown up, and the leaching of metals from ordinary ore and bookmark materials is carried out in two stages - at the first mine water saturated with atmospheric oxygen with the supply of strains of thionic bacteria, and on the second - with solutions of the main activated leaching reagents.