RU1788248C - Method for formation of spoil heap and its working - Google Patents

Abstract

Usage: in the open development of mineral deposits, mainly metal ores. SUMMARY OF THE INVENTION: The invention will improve the quality of storage rocks. A drainage layer (DS) 2 is laid at the base of the dump on the planned site 1 and an anti-filtration layer (AS) 3 is formed on the periphery. Then, the central part 4 of the dump from GP with a relatively high content of useful component (PC), which is geochemical barrier (GB) for a given PC. Above AC 3, the peripheral part 5 of the dump is formed from HP with a low PC content, and then the upper part 6. At that, GB 7 is formed between the GP parts 4, 5 and 6. The lateral surfaces of the dump cover AC 8. The surface of the dump is treated with water from sources 9. In this case, the PCs of the upper 6 and peripheral 5 parts of the blade dissolve and, upon heating of the surface of the blade, migrate inward, to part 4, through GB 7, where they are deposited. Then, the blade is separately worked off with the separation of parts 5 and 6 and the direction of part 4 for processing. 3 C.p. f-ls, 1 ill. with

Description

The invention relates to the mining industry and can be used in the development, mainly open, mineral deposits, mainly metal ores.

A method is known for jointly and separately storing rocks, including dumping a series of parallel pioneer embankments with the formation of containers between them and storing different-quality rocks in containers with shielding of the contact zones with rocks with high antifiltration characteristics.

The closest to the proposed technical essence and the achieved results is the well-known method of jointly-separate storage of rocks by beds, including dumping of drainage rocks at the base of the dump, forming a series of parallel pioneer mounds by creating containers between them and screening their side surfaces with rocks with high antifiltration indicators, filling the tanks of the first Rus with carbonate-containing rocks, and the tanks of the second Rus with substandard carbonate-containing rocks ores and water saturated with carbon dioxide.

When implementing this method, the migration of useful components in the array

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The dump is uncontrollable in nature, which complicates their concentration in a given volume and reduces the overall efficiency of the method.

The purpose of the invention is to increase the efficiency of storage and processing of rocks by concentration of useful components and their deposition in a given limited volume. A positive effect of the proposed method is to improve the quality of stored rocks during storage due to the directed migration of useful components and their localized concentration.

The goal is achieved in that when implementing the method of forming and mining the blade, including forming the base of the blade, laying different-quality rocks, shielding the side surfaces of the blade with an anti-filtration layer and treating the blade with water containing active agents, the base of the blade is formed combined, initially, a drainage layer is laid and the central part of the rock dump with a relatively high content of the useful component is formed on it, then along the periphery in the base of the dump, the antifiltration layer and form on it a peripheral, and then the upper part of the dump from rocks with a relatively low content of the useful component, which has the ability to migrate in aqueous solution, and after concentration and deposition of the useful component in the central part of the dump into warm the period, selective mining of the dump is carried out with the separation of rocks of the peripheral and upper parts of the dump, while the rocks of its central part are sent for processing.

For example, gold-bearing rocks with a predominance of limonite mineral are laid in the central part of the dump, and, for example, a mixture of gold-bearing rocks and minerals, including ferric sulfates or ferrichlorides, is laid in the peripheral and upper parts.

The upper and peripheral parts of the blade are stacked with the possibility of their sufficient heating in the warm period.

Moreover, in the warm season, the dump plays the role of a thermal hydrochemical pump, in which the outer part is warmer than the inner one, forming a kind of cold lens, resulting in a directed migration of solutions from the heated outer parts of the dump to the zone of the cold lens.

Mineral formations of the upper and peripheral parts of the dump, represented by low-grade rocks, which include useful components, dissolve in water and migrate towards the cold lens, the central part of the dump, represented by rocks with a relatively high content of useful component under the influence of a thermal hydrochemical pump serving for him as a geochemical barrier. As a result, sedimentation and the concentration of the useful component in the central part of the dump occurs - its content in the rocks of this zone reaches industrial values.

For example, when storing gold-bearing rocks, gold can dissolve and migrate with the participation of ferrisulfate or ferrichloride. The dissolution of gold contained in pyrite ores occurs under the influence of ferrous sulfate. The precipitation of gold from such solutions takes place when they reach sulfate ores, and the ferrous sulfate is converted to ferrous sulfate.

Gold can be isolated in the form of films on collomorphic limonite, both as a result of coagulation of cold particles more or less long existing in solution, and as a result of the exchange decomposition reaction with the rapid formation of free gold.

The drawing shows a diagram of the blade formed during the implementation of the proposed method.

The dump includes a drainage layer 2 complicated at the planned site 1 and, at the periphery, an anti-filtration layer 3 at the base, the central part 4 of rocks with a relatively high content of useful component, acting as a geochemical barrier for this component, for example, gold-bearing limonite, peripheral 5 and the upper 6 parts of the dump from rocks with a relatively low content of useful component, for example, from a mixture of gold-bearing rocks and minerals, including ferrisulfates or fer ihloridy. In this case, a technogenic geochemical barrier 7 arises between zones 4, 5 and 6. The lateral surfaces of the dump are covered with an antifiltration layer 8. Water sources 9 are located above the dump.

The invention is carried out as follows.

Initially, the layout of section 1 for placement of the blade and

its coating with a drainage layer of 2 rocks with filtration properties, for example, sand, with a thickness of 0.5 m and at the periphery with an anti-filtration layer 3, for example, clay rocks of the same thickness. Then rocks are laid over layer 2 with a relatively high content of a useful component - gold (attributable, for example, to substandard ores), including the mineral limonite, forming the central (enriched) part of the dump 4. Its thickness, for example, is 8-10 m. The peripheral part 5 and the upper part 6 of the dump is formed from rocks with a relatively low content of a useful component — gold (and therefore related, for example, to empty rocks) containing ferrisulfates or ferrichlorides. The thickness of these layers is established from the conditions of their sufficient heating in the warm period, for example, 2-3 m. The lateral surfaces of the dump are covered with an antifiltration layer of 8 rocks treated with surface-active substances, which do not prevent the heating of parts 5 and 6 of the dump, with a thickness of 0.3-0 , 4 m. The dump is treated with water with, for example, chlorinated acids dissolved in it.

As a result of the heating of the upper 6 and peripheral 5 parts of the dump and the effect of the dump as a thermal hydrochemical pump, the useful component contained in the rocks of these parts purposefully migrates deep into the dump - towards the cold lens, approximately coinciding along the contours with the central part of the dump 4. Due to the action of the technogenic geochemical barrier 7 and the fact that the limit is a gold precipitator, the concentration of the useful component in the rocks of the central part occurs STI blade 4 and, on reaching its contents industrial values, they transition into discharge conditioned ores.

After that, a separate mining of the blade is carried out: the upper part of the blade 6 is removed, for example, by a bulldozer, the peripheral 5 is removed by an excavator with the direction of the lean components

rocks in the appropriate destination dump. Then, excavation of the central part of the blade 4, represented by standard ores, is carried out and sent to a gold recovery plant.

Claims (4)

1. The method of forming and mining the blade, including forming the base of the blade, laying different types of rock, shielding the side surfaces of the blade with an anti-filtration layer and treating the blade with water containing active agents, characterized in that, in order to increase the efficiency of storage and handling of mining rocks by concentration of useful components and their deposition in a given limited volume, the base of the blade is formed combined, while the drainage layer and the form the central part of the dump from rocks with a relatively high content of the useful component is laid on it, then the antifiltration layer is laid on the periphery and the peripheral and upper parts of the dump from rocks with a relatively low content of the useful component with the ability to migrate in water are formed on it solution, and after concentration and sedimentation of the useful component in the central part of the dump in the warm period, selective processing of the dump is carried out with the separation of rocks of the peripheral and upper parts dump it, while the rocks of its central part are sent for processing. 2. The method according to claim 1, with the inclusion of a gold-containing rock with a predominance of the mineral linonite in the central part of the dump. 3. The method according to claim 1, characterized in that mixtures of gold-bearing rocks and minerals, including ferric sulfates or ferrichlorides, are placed in the peripheral and upper parts of the blade. 4. The method according to claim 1, characterized in that the upper and peripheral parts of the blade are stacked with the possibility of heating them in the warm period.