SU1145160A1 - Method of degassing top-worked wide seam - Google Patents

Abstract

A DEGASING METHOD FOR SUPPLYING THICKNESS, including drilling wells, injecting fluid into them, hydraulic fracturing of enclosing rocks and gas suction, characterized in that, in order to increase the efficiency of degassing of the worked out crush, imitate a layer of hard rocks through more complete extraction of gas from the worked rocks through control their unloading, the wells are conducted to the middle of the shielding layer of hard rock, the moment of unloading of the overflows is determined, and the fracturing begins at the time of the fall of the stresses in the overburden, which is below the natural level, the distance between the wells takes on the equal step of breaking the rocks of the main roof. 4 SP O)

Description

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The invention relates to the mining industry and can be used for the degassing of rocks during their development.

There is a known method for degassing the overgrown thickness, which includes carrying wells from the mine workings to the intersection of a contiguous coal seam or gas-bearing rocks, injecting a liquid at a different rate into the well, connecting them to the degassing stage and sucking gas ij.

The deficiency of this method is the impossibility of carrying out hydraulic dissection of the strata of rocks, including hard formations, as well as low productivity of the wells due to their filling with water and silting.

There is a method of degassing over-developed rocks, including drilling wells from the surface, well casing with a pipe-cement column, its perforation, hydraulic fracturing of rocks, water extraction, connection of wells to the degassing system and gas suction 2 J,

The disadvantage of this method is the low efficiency of the degradation of over-worked rocks containing layers of hard rocks, which have a shielding effect on the discharge.

The purpose of the invention is to increase the efficiency of the degassing of the overburden, including a layer of hard rock.

This goal is achieved by the fact that, according to the method of degassing of the accumulated mass, including the drilling of wells, the injection of fluid into them, the hydraulic fracturing of the enclosing

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rocks and gas suction, wells are carried out to the middle of the screening layer of hard rocks, determine the moment of discharge of the 5 rocks under development, and hydraulic fracturing begins at the time of stress drop in the developed pipeline below the natural level, while the distance between the wells takes an equal step

10 collapse of the rocks of the main roof. The drawing shows a general flow chart of the method.

From the mountain run, 1 time 5 batches of the reservoir are drilled in the well 2 of the fracture to the intersection of the middle of the thick layer of hard rock 3, which has a screening effect on the discharge. The distance between the wellbore is assumed to be equal to the collapse of the rocks of the main roof (igSp),

borehole 2 fracturing or surrounded by pipes with cement filling the annulus, or

25 a sealing packer is inserted into it.

The fracturing of the hard rock layer begins at the moment when the stress in it drops below the natural level, which allows the use of energy

JQ is the working pressure of the fracturing medium simultaneously with the bending energy of the layer of rock at the time of unloading. The time of unloading is determined by the intersection I by the boundary of the unloading zone 4 of the middle of the hard rock layer 3 in the alignment Co with the well 2 of the fracture. The location of the Xp unloading zone in the layer of hard rocks is found experimentally or according to the table, depending on the distance, normal from the soil of the developed plate to the middle of the layer of hard rocks M. And the pitch of the main roof.

Claims (1)

METHOD FOR DEGASING THE SPECIFIED THICKNESS, including drilling wells, injecting fluids in them, hydraulic fracturing of the enclosing rocks and gas suction, characterized in that in order to increase the degassing efficiency of the produced stratum having a hard rock layer, by more fully extracting gas from the produced rocks by controlling the process their unloading, wells are carried out until the middle of the shielding layer of hard rocks, the moment of unloading of the produced rocks is determined, and hydraulic fracturing begins at the moment of a drop in stresses in the overwork thickness below the natural level, while the distance between the wells is taken equal to the step of the collapse of the rocks of the main roof. 0919NG ^{, g} P5>