RU1794188C - Method for working of mineral deposits - Google Patents

Abstract

Usage: it is used in the development of deposits of rare and non-ferrous metal ores to increase development efficiency by increasing the extraction rate of ores in preparation for their leaching. SUMMARY OF THE INVENTION: local drilling destruction of the zones enriched with a useful component around the well is carried out, the destroyed material is moved to a preformed chamber with a waterproofing coating and hot electrolysis cathode water is supplied to it with subsequent pumping of the enriched solution to the surface, while remaining after leaching the material is fed as a bookmark into a previously formed mined space. 1 ill. with/

Description

The invention relates to the mining industry and can be used in the development of deposits of rare and non-ferrous metal ores.

A known method of developing mineral deposits, including preliminary explosive destruction of ores and their further leaching in tanks (Polkin S.I. et al. Techniques for bacterial leaching of non-ferrous and rare metals. M: Nedra, 1982, 162-166).

The main disadvantage of this method is the low productivity due to the limited amount of ore processed.

Closest to the proposed method is the development of mineral deposits, including contouring of ore zones, drilling wells, preparing ores for leaching by their destruction through boreholes, forming underground chambers, moving the destroyed rocks, forming the worked out space, filling it with a bed, leaching the destroyed ore and issuing an enriched solution to the surface isovskiy G.D. and others. Heap and underground leaching of metals. M .: Nedra, 1982, p. 39-42).

The disadvantage of this method is the increased complexity of the production process and the high consumption of reagent.

The purpose of the invention is to increase the efficiency of field development by increasing the rate of extraction of useful components.

The goal is achieved in that in a method for developing mineral deposits, including contouring of ore zones, drilling wells,

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the preparation of ores for leaching by their destruction through wells, the formation of underground chambers, the movement of destroyed rocks, the formation of a mined space, filling it with a bookmark, the leaching of destroyed ore and the delivery of an enriched solution to the surface, the formation of an underground chamber is carried out by drilling ore destruction around a drilled well, on the walls of an underground the chambers are applied a waterproofing coating, the movement of the destroyed ore is carried out in a waterproofing underground chamber, the leaching is destroyed oh ore is performed in the flashing feed chamber underground hot cathodic electrolysis of water, and filling gob manufac t the remaining material after leaching the ore.

Thus, we can conclude that this technical solution meets the criterion of novelty.

Together, these technological solutions make it possible to fully achieve the goal.

In the study of the proposed solution for compliance with the criterion, significant differences were found that the specified set of distinctive features / is necessary to achieve the goal, in the current state of technology for the development of mineral deposits was not found.

The drawing shows a vertical section of the developed section of the field.

The method is as follows

Initially, using the exploration wells, ore bodies 1 and 2 are zoned. Then, well 3 is drilled from the surface along the enriched sections of the ore body to its upper boundary. From the upper boundary of ore body 1, for all its power, drilling is carried out with a special reamer, similar to that used for rebels, which makes it possible to form in the selected section of ore body 1 an underground chamber 4 of circular cross section with a diameter of 3 m over the entire thickness of the ore body a particle size of 0.5 to 2 mm, which allows it to be transported and leached efficiently. The drilled ore mass during the sinking of the first chamber 4 is fed to the surface for its further vat leaching. Further, the chamber 4 is waterproofed, for example, by spraying hydrophobic substances onto its walls, in order to carry out a further leaching process. Next, the process of drilling wells 3 to the boundary of the ore body 2 is performed, followed by its expansion throughout the power of the ore body 2 with the formation of chamber 5 (the process of forming chamber 5 is similar to the process

for camera 4). The drilled ore mass obtained by drilling the chamber 5 is fed into the waterproofing chamber 4, and hot electrolysis cathode water having

increased pH without the presence of anions. After leaching, the enriched solution is absorbed to the surface. The process of mining ore bodies 1 and 2 along the strike continues according to the same technology in directions from the center of the ore bodies, with a gradual decrease in conditions until they are completely worked out. The remaining non-enriched solid mass remaining after leaching from the chamber 4 is bypassed with compressed air into

chamber 5 for bookmarking it. The ore mass from the remaining, further processed, chambers 6-9 is successively fed for leaching into a chamber 4, which is reused. Cutting chambers b and 8

is performed using well 10, and the chambers 7 and 9 are cut using a well 11 drilled from the surface (the processes are similar to those for chambers 4 and 5).

An example of a specific use of the method.

Tyrnyauz deposit of tungsten-molybdenum ores. Ore bodies are represented by stockworks with dimensions of

20 m and a thickness of 10 m. Drilling is carried out using a Robbins-type machine (well diameter 150 mm), which allows you to drill wells with an extension of up to 3 m. - Inside the well 3

install two pipelines; one is designed to supply the leach solution and compressed air to the chamber 4, the other is to suck, after leaching, the enriched solution to the surface (using an airlift) for further supply to the sorption columns for collecting metal. The volume of one underground chamber is 30 m3, the drilled ore mass is leached by an attack to the chamber

using hot (70 ° C) electrolysis cathode water for 1-2 hours. The walls of the chambers are waterproofed by spraying a polymer resin 3-5 mm thick.

Formula s A method for developing mineral deposits, including contouring of ore zones, drilling of wells, preparation of ores for leaching by their destruction through boreholes, formation of underground chambers, movement of destroyed ores, formation the developed space, filling it with a bookmark, leaching the destroyed ore and delivering the enriched solution to the surface, characterized in that, in order to increase the efficiency of field development by increasing the intensity

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the extraction of useful components, the formation of the underground chamber is carried out by drilling ore destruction around the drilled well, the waterproofing coating is applied to the walls of the underground chamber, the destroyed ore is transported to the underground waterproofing chamber, the destroyed ore is leached in the underground waterproofing chamber by feeding hot cathode electrolysis water, and the filling of the worked-out space is done by the material remaining after the ore is leached,