SU1260508A1 - Method of underground leaching - Google Patents

Description

The invention relates to geotechnological methods for the extraction of metals and can be used in non-ferrous metallurgy in the refining of old deposits (waste ores), as well as new deposits that are not economically feasible to process in the traditional way with the delivery of ore to the mountain.

A known method for preparing the rock mass for underground leaching is to drill shtrek, sample the chamber, fill the ore mass with wells from the surface around the selected chamber. Charging the lower part of the wells, which are penetrated by the ore, with explosives, followed by blasting onto the compensation volume of the produced chamber. The volume of chambers (voids) needed to create free percolation of leach solutions should be about 15%.

The disadvantages of the method are laboriousness and high cost, since in order to prepare the rock mass for underground leaching, the drift is required and the chamber is taken as a compensation space for the subsequent loosening explosion.

The closest in technical essence and the achieved result to the proposed method is an in-situ leaching, including sequential breaking of ore blocks into the compensation space of previous leached blocks and sequential leaching of ore masses as they break, and breaking down subsequent blocks at the end of the active leaching , and the compensation space is formed by sub-release of partially leached ore from repacking zone 2.

The disadvantages of this method are the long leaching time due to the slow commissioning of successive blocks due to the need to maintain the active leaching stage and the large amount of mining operations due to the operations of subsampling ore from the over-compaction zone.

The aim of the invention is to reduce the duration of leaching and reduce the volume of mining and preparation.

The goal is achieved in that, according to the in-situ leaching method, which includes sequential blasting of ore blocks into the compensation space of previous leaching blocks and sequential leaching of the ore masses in blocks as they are cleared, blocks are produced after reaching a volume of voids equal to the required volume of compensation space.

The method is carried out as follows.

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Break the mass of ore mass into blocks. In the process of leaching the first stage of blocks, they are monitored, the content of leached elements is measured, and the insoluble matter is removed. The latest data is baseline for calculating the weight loss of a leached unit and its volume, which reaches 20%. Upon reaching the required amount of compensation space,

the breaking of neighboring blocks, i.e., at certain time intervals, new sections, larger than the previous ones, are leached under leaching.

As a result of such queues, it is possible to prepare and introduce into the leaching the entire field without special mining to form a compensation space. This significantly reduces capital investment in the preparation of deposits for in-situ leaching. The initial small block can be prepared in one of the known ways: by sampling chambers, drilling shchrekov or drilling special wells of large diameter.

The proposed method of preparing mountain mass for underground leaching is not time consuming, since it does not require excavation of workings and sampling of chambers for compensation space, significantly reduces costs for preparing fields for underground leaching and pro

leaching duration.

Claims (1)

UNDERGROUND LEACHING METHOD, including sequential breaking of ore mass blocks into the compensation space of previous leached blocks and sequential leaching of ore mass in blocks as they break out, characterized in that, in order to reduce the leaching time and reduce the volume of mining, the volume of voids formed is controlled in leached blocks, and the blocks are blasted after reaching a void volume equal to the required volume of compensation space.