SU1244291A1 - Method of underground leaching of ores - Google Patents

Description

The invention relates to the mining industry and can be used in the development of minerals by the method of underground leaching.

The purpose of this invention is to reduce the leaching time, reduce the consumption of reagent, increase the degree of extraction of the useful component by ensuring a uniform and high-quality leaching process throughout the reservoir.

The drawing shows an underground leaching of ores.

The proposed method is carried out as follows.

ten

parallel to the direction of filtration of the reagent. Then, the separated layers are subjected to various effects of electric current, which is supplied through the electrodes 7, which are installed in the liquid in the injection and in the pumping wells opposite the selected layer. The power to the electrodes is supplied from an electrical current source 8. After being subjected to current (and after supplying the leaching agent 9), productive solutions are pumped out of the pumping well.

Due to the fact that electric charges move in the directions of the electric field lines, the conditional layers 5 and 6

are separated in parallel (straight lines) by lines. Reservoir 1 opens 5 filtration directions (dotted line 10), and

at least two wells: injecting 2 and: yyk1; - | (oh 3 - and before pumping out the productive solution 4 (and prior to exposure to electric current), conditional division of the productive formation is made into layers 5 and 6 with different permeability or - nasal (based on logging data)

Compiled by N. Rudenko

Tehred Y, VeresKorrektor I. Erdeyi

Circulation 548 Subscription

VNIIPI USSR State Committee

Inventions and discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5

Branch PPP "Patent, Uzhgorod, st. Project, 4

parallel to the direction of filtration of the reagent. Then, the separated layers are subjected to various effects of electric current, which is supplied through the electrodes 7, which are installed in the liquid in the injection and in the pumping wells opposite the selected layer. The power to the electrodes is supplied from an electrical current source 8. After being subjected to current (and after supplying the leaching agent 9), productive solutions are pumped out of the pumping well.

Due to the fact that electric charges move in the directions of the electric field lines, the conditional layers 5 and 6

are separated in parallel (straight lines) by the filtration direction line (dashed line 10), and

are separated in parallel (straight lines) by the filtration direction line (dashed line 10), and

The electrodes 7 are located in the pumping and injection wells at the ends of these lines, and the length of the electrodes is equal to the thickness of the selected layer. In this case, an increase in the permeability of the layer occurs precisely in the direction of filtration of the reagent (and the electric field).

Claims (4)

1. A METHOD FOR UNDERGROUND LEACHING OF ORES, including opening a productive formation by at least two wells, feeding a leaching reagent to an injection well, pumping and transporting productive solutions from a pumping well, and applying electric current to the formation before pumping out productive solutions, characterized in that, in order to reduce leaching time, reduce reagent consumption, increase the degree of useful component extraction by ensuring a uniform and high-quality leaching process Chivanov across the productive formation, before exposure to an electric current to produce a layer of a producing formation breakdown of layers with different permeability or ore content, and the effect producing electric current to each of the selected layers to achieve a constant corresponding to the maximum value in the formation. 2. The method according to π. 1, characterized in that with different permeability of the layers and the same ore content, an increase in the permeability of the layers with lower permeabilities is produced. 3. The method according to π. 1, characterized in that for different ore content of the layers and their identical permeability, the permeability of layers with large ore contents is increased until the metal concentration in the productive solution coming from this layer is proportional to the ore content of this layer. 4. The method according to π. 1, characterized in that at different permeabilities and ore contents of the layers, the permeability of the less permeable and more ore-bearing layers is increased until the metal concentration in the productive solution coming from this layer is proportional to the ore content of this layer. 1244291 A1