SU1097807A1 - Method of coal stratum degassing - Google Patents

Abstract

A method for degrading a coal bed, including drilling wells into the reservoir and injecting a working medium into them to break up the reservoir, is characterized by the fact that, in order to increase efficiency by ensuring the breakdown of the reservoir at a lower pressure of the working medium, the wells are located at a distance of equal to the length of the reference pressure zone. S co v | CX) about

Description

1109

The invention relates to mining and can be used in the degassing of coal and reducing its outburst hazard.

There is a known method of degassing and coal seam, which includes drilling wells into the reservoir and injecting a working medium into them to dismember the reservoir, the injection being carried out with an increase in pace until the injection pressure stabilizes, the cotsfey is within (0.12-0.25) H l

The disadvantage of this method is the need to create and high pressure during the injection of the working medium into the blade, which requires the use of high-air installations and reliable sealing.

The purpose of the invention is to improve efficiency by providing a breakdown of the reservoir under pressure and working medium.

This goal is achieved by the fact that, according to the method of coal seam degassing, including the drilling of wells into and the injection of a working medium in them to divide the formation of a well, the wells are located at a distance from the clearing hole equal to the length of the reference pressure zone.

Figure 1 shows the layout of a well; Fig. 2 is a graph of the distribution of formation strains in the zone of influence of the cleaning operation.

Example. Hydrodissection of a 1.5 m coal seam was made at a depth of 1000 m. The theoretical pressure of the hydraulic dissection is. Nor is P (0.12-0.25) f W (0.12-0.25) 0.025 MN / m-GOOO m 2.5-6.25 Sha, In the area adjacent to the boundary of the reference pressure zone, unloading averages 20%. Then H () - 25 MPa

 20 MPa. And the hydraulic dissection pressure is P (0.12-0.25) -20 MPa 2.4-5.0 MPa.

To conduct hydraulic dissection of the borehole 1 (FIG. 1) of the reservoir

a depth of 1000 m. Then a casing string is installed in the well. The injection of the working medium starts from the moment when the mining face 2 approaches it to a distance of 1.1 L (where L is the size of the reference pressure zone 3, which is equal to 100 m under these conditions). With the approach of the cleaning bottom 2 to the well 1 at a distance of 100 m, the pressure reaches 4.8 MPa and the hydraulic fracturing of the coal seam occurs.

When implementing the proposed method, the pressure of the hydraulic dissection is reduced. In addition, the area of the reservoir is subjected to hydrodissection is known in advance with high confidence.

When processing a face, there is an unloading zone at the boundary with the pressure zone. When the lava moves, the host layer first rises (zone 1), then in pressure zone 2 lowering and after excavation of the coal face in zone 3 deformation of the elastic recovery.

The rise in zone 1 is 2-3 cm. Considering the elastic deformation properties of the host rocks, in terms of stress, this is about 5 MPa. Thus, in zone 1, the discharge pressure from the rock pressure of 20% of the TI level is realized, which favorably affects the hydraulic fracturing of the formation, since the limiting pressure is also reduced by 20%. Apart from this, zone 1 separates the roof and soil from the coal seam, which is caused by high tangential stresses, which improves the regime of hydrodisintegration and increases the area of its effective action by 30%.

When using this method of degassing, the pressure of hydraulic dissection is reduced by 20%, the efficiency of the introduction of the working medium is increased, and the degree of degassing increases.

Claims (1)

METHOD OF COAL DEVELOPMENT OF COAL FORMING, including drilling wells into the formation and injecting the working medium into them to separate the formation, characterized in that, in order to increase economy by separating the formation at reduced pressure of the working medium, the wells are located at a distance from the working face equal to length of reference pressure zone. 1 1097807