SU1314028A1 - Method of leaching minerals from low-permeability deposits - Google Patents

Abstract

The invention relates to geotechnology and m. used in the leaching of minerals from low-permeable ore deposits. The goal is to increase the extraction of the mineral by increasing the volume of the productive deposit treated with the solution. The ore deposit is opened by at least one technological well that is drilled into the ore deposit. Then form an additional filtering screen. To do this, on the boundaries of the roof and the bottom of the ore deposit with the first rocks form cavities of the disc-shaped form. Cavities are formed using hydraulic fracturing or erosion, and cement material is pumped into them. Then an injection (pumping) column and a pumping column with filters are placed in the well. A pumped-out solution is fed into the pumped column and is injected into the zones of well-permeable host rocks. These zones are located above and below the cavity. After that, the productive solution is pumped out through a filter located inside the cavity. 1 il. with CO

Description

The invention relates to geotechnology and can be used in the leaching of minerals from low-permeable ore deposits.

The purpose of the invention is to increase the extraction of mineral resources by increasing the volume of the productive deposit treated with the solution.

The drawing shows a diagram for the implementation of the proposed method.

The implementation of the proposed method is illustrated by the example of metal leaching from a local productive low-permeable reservoir 1, the host rocks of which are represented by well-permeable rocks.

The deposit 1 is opened by borehole 2, while the well is drilled with a drill. When equipping well 2 at the boundaries of the reservoir 1, i.e. at the roof and at the soil of the reservoir 1, cavities form 3 disk-shaped. Cavity 3 is formed by using a hydraulic erosion or hydraulic fracturing, while in the cavity pumped cement material, for example, resins, cement mixtures, etc.

After that, the well is equipped with: a well 2 by placing in it an injection (injection) column 4 and an evacuation 5 with filters 6, 7 and 8, respectively. Then, a leaching solution, for example, sulfuric acid, is fed to the injection column 4, and this solution is injected into the zones of well-permeable host rocks. The said zones are located above and below the cavities 3. The productive solution is pumped out within the deposit 1 through a filter 8 located between the said cavities 3.

When pumping, the solution is filtered through the host rocks, while the filtration flow of the solution goes around from all sides of the cavity 3 and begins to flow into the reservoir 1, through which it moves to the filter 8 of the pumping column

5. At the same time, the venting solution is fed into the soil and roof of the deposit. Cavities 3 serve as screens that prevent solution from entering the

reservoir 1 in the immediate vicinity of well 2, which allows to significantly increase the area of the reservoir treated with reagent 1. At the same time, the filtration flows in the proposed

The method is quite narrowly oriented and moves along reservoir 1 without going into rocks with increased permeability.

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Claims (1)

Invention Formula The method of leaching of minerals from low-permeable deposits, including the opening of ore deposits in at least one technological well, placement of an injection and pumping column in it, equipment with filters in the roof and bottom of the deposit, feeding out (silting solution through the filter in the top of the reservoir, selection of the productive solution and creating an impervious horizontal screen that differs from in order to increase the extraction of minerals by increasing the volume of the productive deposit processed by the solution, before leaching begins to form an additional impervious horizontal screen, and anti-filtration screens create on the borders of the roof and the bottom of the ore deposit with enclosing rocks, the well is equipped with an additional filter located between the seepage screens and simultaneously with the leaching solution feed and a productive solution is taken through an additional filter. Editor E. Kopcha Compiled by M. Podol ko Tehred L. Serdyukova Proofreader S. Cherni Order 2190/34 Circulation 533 Subscription VNIZhM USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4