SU1645533A1 - Method of driving mine working through water-bearing rock - Google Patents

Description

one

(21) 4645465/03

(22) 01/03/89

(46) 04.30.91. Bup. 16 (71) Dnipropetrovsk Mining Institute named after Artem (72) I.A. Sadovenko (53) 624.191.4 (088.8) (56) USSR Author's Certificate No. 1033751, cl. E 21 D 1/12, 1981.

USSR author's certificate № 1262042, st. E 21 D 1/12, 1985.

(54) METHOD OF PASSAGE OF AQUARIUS BREEDS OF MINING EXPLOSION

(57) The invention relates to the mining industry and can be used in the excavation of mines. The purpose of the invention is to increase the efficiency of compression of rocks while reducing energy consumption. The crossing of aquifers 2 is carried out by drilling a well I, forming cavities 3 through a horizontal plane 3 by hydraulic fracturing, injecting a plugging mixture in field 3, and driving production through impermeable 4 and aquifers 2. At the same time, the pressure of the injection is stabilized by an equal to half of the ultimate strength of the aquifer under uniaxial compression. 2 Il.

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FIELD OF THE INVENTION The invention relates to the mining industry, in particular to mining construction,; and can be used in mining.

The aim of the invention is to improve the efficiency of penetration due to the greatest reduction at reduced energy costs.

FIG. 1 shows a schematic diagram of the implementation of the method, compression of aquifers; in fig. 2 - the same, the moment of the deepening of excavation in waterproof rocks.

The method according to the invention includes drilling a well 1, forming a horizontal fracture plane through the main hydraulic fracturing in the roof and an additional aquifer 2 soil in the soil, compressing the rocks 2 by forcing the cement mixture under pressure in the cavity 3, stabilized by an amount equal to half the strength limit of the rocks 2 on uniaxial compression.

The method can be implemented as follows.

Before drilling the production of a drill hole 1. The depth of well 1 is chosen such that it crosses the soil of the aquifer stratum 2, then through the drilled well 1 the hydraulic fracturing of rocks in the form of cavities 3 in the roof and the soil of resistant aquifers 2 is completed. In the cavity 3, a hardening plug-in mixture is injected, and the injection is stopped at a stabilized pressure equal to half the strength of the aquifers 2 for uniaxial compression. At the same time, the aquifers 2 are compressed by this pressure, and the response of the compression forces is perceived by the above-and-below water-resistant rocks 4, for example, due to their elastic deflection.

After the cement mixture hardens, the excavation of the mine 5, which takes place before the aquifers 2 are opened, with the simultaneous erection of permanent load-carrying lining b. When aquifers are opened, 2 of them take a sample and determine the magnitude of the decrease in permeability by testing with simultaneous uniaxial

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with a load equal to twice the pressure of the cement mix (i.e., equal to the uniaxial compression strength of the rocks). Then, according to the current standards, the hydrostatic pressure reduction value is calculated taking into account the reduction value of the aquifer obtained from tests.

After that, the shaft 5 is carried out until its bottom is buried 7 for two radii into waterproof rocks 4 with temporary support 8 erected. Breed contour 9 is elastically deformed under the pressure of compressed aquifers 2, since this does not prevent the buried face 7.

Elastic deformations of the rock contour 9 lead to the maximum possible decrease in the permeability of aquifers 2, since they are deformed by twice the pressure achieved when plugging cavities 3,

In proportion to the reduced permeability of aquifers 2, the water inflow into production 5 and the hydrostatic pressure on the load-carrying roof support 6, which is raised from top to bottom in aquifers 2 drained by hydraulic depression 2 after the bottom hole 7 in the impermeable rocks 4 to two trunk radii, decrease.

Claims (1)

Invention Formula The method of excavating aquifers by mining, including the formation of cavities in the top of aquifers, their preliminary compression, carrying out development in the zone of compacted rocks and its penetration into waterproof rocks, characterized in that, in order to increase the efficiency of penetration due to the greatest reduction at lower energy costs, an additional cavity is formed in the soil of the excavation; in this case, both cavities are formed by means of a hydraheath in a horizontal plane, and the reduction of aquifers is performed by means of in the cavity of the cement mixture, the pressure of which is stabilized equal to half the ultimate strength of the aquifer for uniaxial compression. at 2