SU1216332A1 - Method of mining mineral deposits by underground leaching - Google Patents

Description

The invention relates to the mining industry and is primarily used in the mining of minerals by the method of underground mining.

The purpose of the invention is to reduce: no loss of the useful component by its increased extraction from the granular and fine-grained ore material.

The drawing shows the chamber, as well as the air injection wells, the zone of intense fracturing and the contours of the mineralized areas under its bottom, a vertical section.

The proposed method is carried out as follows.

The ore deposit is opened by collecting drainage openings 1, and then the ore 2 is beaten off and stored. Before feeding the leaching solutions into the chamber 2 in the underlying rocks, 3 boreholes 4, the mouth of which are equipped with packers 5 and connected to the main pipeline 6 of compressed air. The wells 4 are drilled parallel or at some angle to the bottom of the chamber {. Block} at a distance g defined by the zone of intense fracturing. The zone of intense fracturing is formed mainly as a result of blasting operations during the storage of ore in the chamber and its dimensions are determined by calculation or experimental means. A leach solution with different irrigation densities is fed to chamber 2 with the mazaged ore. The leach solutions wet the ore that has been magnetized in the chamber and, at the same time, its fraction under the influence of its own gravity, being moistened with solutions, moves to the lower part of the chamber and accumulate in the space between the large pieces of ore.

one

one

layer thickness of approximately ° j °

honeycomb camera. Ore fines formed by explosive pa6oTaXs

usually contain at least

2

- stocks of useful component in

block „

However, extracting these stocks by viscivating encounters difficulties

associated with the fact that sulphide mines present in the ore, as well as organic residues

rock materials reduce the magnitude;, of the redox potential in the ore fine mass, thereby preventing the useful component from being converted into a productive solution both in acidic and especially in carbonate leaching schemes. On the other hand, a part of the useful component that has passed into the solution enters as part of the joint in the cavity of the fracture zone under the bottom of the chamber. In these cavities, the fractured zones for these reasons also decrease.

the magnitude of the redox potential; which leads to the formation of poorly soluble compounds of the useful component, i.e. falling it out of mortar onto walls

kah cracks.

The increase in the redox potential both in the mass of fine and fine-grained ores accumulated in the lower part of the chamber, and in the zone of intense cracking formed in the bedrock of its rocks, occurs due to the oxygen of the air pumped through the wells drilled

under the bottom of the chamber (block), under

pressure 5 sufficient for bubbling the mass of fine and fine fraction ores into air bubbles. Between periods. Air supply with

By holding the air-product boundary TxsHim, the solution increases the pressure of compressed air and displaces the productive solution from the lower part of the gassed

block height equal to 1/3 i / 2 of its height.

Claims (1)

METHOD FOR DEVELOPING MINERAL MINERAL DEPOSITS FOR UNDERGROUND LEACHING, including opening a mineral deposit, breaking and storing ore mass, supplying leaching solutions, collecting productive solutions, drilling under a block by means of air supply from the well and the block to keep them out of the air and air productive solution, characterized in that, in order to reduce the loss of the useful component by increasing its extraction from fine-grained and fine-grained ore mate rial, the compressed air from the boundary air retention - productive solution under zamagazinirovannym unit is carried out batchwise, alternating with periods of the periods indicated You are a _β stamping productive solution from the bottom of $ zamagazirovannogo unit at a height equal to 1 / 3-1 / 2 of its height, with this displacement of the productive solution is carried out by increasing the pressure of compressed air. B 4 3 ϊ216332