SU1164404A1 - Method of underground leaching of low-permeability ore strata - Google Patents

Abstract

1. METHOD OF UNDERGROUND EXPLANATION OF PLASTIC WEAKLY ORDERING ORES, including opening the ore deposit with mine workings, drilling explosive wells, breaking the rock mass into the compensatory space, jointly mining the ore mass and adjacent to the core area and the core area of the ore mass and adjacent to the core area and the core area of the ore body and the area of the core area and the area of the core area and the area of the ore body area and the core area and the area of the ore body area and the core area and the area of the ore zone and the core area. .;.; At b6§ eiblcGi lay the crystalline rocks of the roof or the soil, supply the extracting solutions and drain the production solutions, characterized in that, in order to reduce the loss of the useful component by reducing the collation of the pore space, the storage of the ore mass and the adjacent crystalline rocks are carried out in vertical layers by successive cutting of ores and adjacent rocks, and leaching solutions are delivered perpendicular to the layers of amagated rock mass. 2. The method of claim 1, about l and h with the fact that it is mapped (the mountain mass mass is divided into sections, besides, the boundaries of the sections are established along the layers of crystalline rocks, and the drainage of the productive solutions is carried out through the layers of crystalline rocks at the boundaries of the sections. Od 4ik 4iii

Description

The invention relates to the mining industry and is mainly used in the development of underground gelation of low-permeable ores.

There is a method of mining by underground leaching of low-permeable ore bodies of horizontal and inclined bedding in mines.

The essence of the method lies in the fact that the formation of the ore deposit is opened by mine workings, explosive wells are drilled through the mineralized strata to break down in a trapped medium and store the ore. Irrigation store, i.e. leaching solutions are supplied through wells-sprinklers drilled under the roof of the chamber (block) directly in the mazagirovannoy ore and cased with perforated pipes. The collection of productive solutions is performed at the bottom of the chamber into the solution receptacles 1,

However, the known method cannot be applied for leaching of clay ore deposits, as fast colmatage of the pore space occurs in the presence of clay inclusions, thereby reducing the filtration properties of the aerated and leached ores. At the same time, the loss of metal in the subsoil due to a decrease in the filtration properties of leached ores, as well as an increased consumption of high-viscosity solutions due to the duration of the chamber (block) mining time, is noted.

The closest in technical essence and the achieved result to the invention is the method of leaching of layer-like low-permeable ores, including opening the ore deposit with mine workings, drilling blast holes, breaking the rock mass into the compensation space, jointly storing the ore mass and adjacent crystalline rocks of the roof or soil adjacent to the ore deposit , supply of gelling solutions and drainage of productive solutions 2.

The disadvantage of this method is due to significant losses of the useful component due to low filtration properties due to increased clogging of the pore space.

The purpose of the invention is to reduce the loss of the useful component by reducing the clogging of the pore space.

This goal is achieved by the fact that according to the method of leaching ores, including the opening of ore deposits with mine workings, drilling of explosive wells, blasting mining. masses for compensation space, joint storage of the ore mass and crystalline roof or soil rocks adjacent to the ore deposit, supply of leach solutions and drainage of productive solutions, max ore gasification and adjacent crystalline rocks are carried out by sequential separation of ores and adjacent rocks and the leaching solutions are fed perpendicularly to the layers of a gasified rock mass.

In addition, the gassed rock mass is divided into sections,

5 wherein the boundaries of the sections are established along the layers of crystalline rocks, and the drainage of the productive solutions is carried out along the layers of crystalline rocks at the boundaries of the sections.

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The drawing shows a plan of a block with a mountainized layer of rock mass according to the invention.

The method of in-situ leaching of low-permeable ores of a layered ore is as follows.

five

Layered low-permeable ore deposits open around the perimeter of the block mine workings. The ore and crystalline rocks of the roof and (or) soil are drilled with explosive wells in the contours of the power of storing. The wells are filled with explosives and exploded with retardation, storing 1 ore in layers and 2 crystalline rocks in layers. In the mines 3, after the storage of ores and crystalline rocks, solution-proof bulkheads 4 are erected, in which pipelines 5 and 6 are laid. Leach solutions serve

0 to the block with the mountain mass stored in layers through pipelines 5, and the collection and drainage of productive solutions are carried out through pipelines 6 Leach solutions from: feed-:

The 5 pipelines 5 move perpendicular to the layers 1 and 2 of ores and crystalline rocks in directions 7,

to the drainage systems of pipelines 6 in directions 8. The filtration rate of leaching solutions through ore 1 and rock 2 layers is adjusted by changing the resistance of the drainage system. Explosive wells are not charged with explosives for the entire length, leaving sections 9 uncharged to leave the pillars 10. Pillars 10 are left to save the workings 11 throughout the entire life of the block, which are necessary for feeding into the leaching and drainage unit from the productive block solutions. The mountain mass, zapped in a block in layers, is leached in one of the flow modes of the reagent.

Proposed underground leaching method for low permeable ores

with the storage of layers of ore and adjacent criss-like rocks of the roof and / or soil expands the area of application of the method, adopted as a prototype, which allows to work efficiently with underground seekers; baking clay ores.

The application of the proposed method makes it possible to increase the filtration properties of the aerated rock mass, to reduce the clogging of the pore space of the rock mass to be recovered, to increase the completeness of the extraction of the useful component, which corresponds to more rational use of the subsoil, while reducing the time required for the block to be processed and the consistency of extracting solutions. The method is simple.

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Claims (2)

1. METHOD FOR UNDERGROUND LEACHING OF LAYER-BASED WEAK-PERMEABLE ORES, including opening of ore deposits by mine workings, drilling of blast holes, mining. masses to the compensation space, joint storing of the ore mass and crystalline roof or soil adjacent to the ore deposit, the supply of leaching solutions and the drainage of the productive solutions, characterized in that, in order to reduce the loss of the useful component by reducing the pore space - the ore mass and adjacent crystalline rocks are nested with vertical layers by successive breaking of ores and adjacent rocks, and the leaching solutions are supplied vlyayut perpendicular to the layers zamagazinirovannoy mountain 'weight. 2. The method according to claim 1, with the fact that the stratified rock mass is divided into sections, and the boundaries of the sections are set according to the layers of crystalline rocks, a ^! drainage of productive solutions is carried out along the layers of crystalline rocks at the boundaries of the sections. SU, "1164404> 1 1164404 2