RU2554605C9 - Method for prevention and control of sudden zonal coal and gas emissions - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to a method for prevention and control of sudden zonal emissions of coal and gas from coal beds. A method for prevention and control of sudden zonal coal and gas emissions, according to which a mining area is divided into mining zones (5) by distribution of defects and corrugations in a deposit so that boundaries of mining zones (5) are located as far as possible in axial parts of defects or corrugations. Direction of maximum stress is determined in soil along horizontal direction in mining zone (5) by a conventional test method of stress in soil. With that, when an adjacent angle between the measured direction of maximum stress in soil along the horizontal direction and along the direction of strike of a coal bed is less than 45°, inlet ventilation opening (4) and ventilation opening (3) for a backward jet is located for the mining zone along the coal bed inclination and then strike entry driving is performed. Then the inlet ventilation opening (1) and ventilation opening (2) for the backward jet is located for a working face along the direction of strike of a coal bed and then strike entry driving is performed so that there can be performed mining operations in the working face (6) located along the direction of strike of a coal bed. When an adjacent angle between the measured direction of maximum stress in soil along the horizontal direction and along the direction of strike of a coal bed is more than 45°, inlet ventilation opening (4) and ventilation opening (3) for a backward jet is located for the mining zone along the direction of strike of a coal bed and then strike entry driving is performed. Then the inlet ventilation opening (1) and ventilation opening (2) for the backward jet is located for a working face along the coal bed inclination and then strike entry driving is performed so that there can be performed mining operations in working face (6) located along the coal bed inclination.

EFFECT: simplifying the method, obtaining a favourable effect of prevention of sudden emissions and reducing concentration of stress in a working face.

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Description

FIELD OF THE INVENTION

[1] The present invention relates to a method for preventing and controlling sudden zonal emissions of coal and gas, which is particularly suitable for preventing and controlling sudden zonal emissions of coal and gas for coal seams exposed to sudden emissions of coal and gas.

BACKGROUND

[2] In China, there is a great need for energy. In the energy structure, coal occupies more than 70%. To meet the demand of national production, a large number of coal seams must be developed, subject to sudden emissions of coal and gas. Coal and gas emissions can lead to huge losses and loss of property. Currently, in order to prevent accidents associated with sudden emissions of coal and gas, basically two methods are used, i.e. a method for protecting a developed formation and a method for preliminary zonal drainage. Although the method of protecting the developed formation has a large protective and preventive effect, it can be applied only in a group of coal seams, in addition, if the distance between the protected formation and the protected formation is outside the protection range, the effect of reducing the pressure of the protected formation is insufficient; therefore, the effect of preventing sudden release is unsatisfactory. Due to the fact that the air permeability of most coal seams in China is poor, the pre-drainage method does not provide a satisfactory level of emission prevention and cannot timely and effectively eliminate the risk of sudden zonal emissions of coal and gas. The urgent task of the invention is to achieve prevention and control of the danger of sudden zonal emissions of coal and gas in cases in which the method of protection of the developed formation and the method of preliminary

zoned drainage cannot effectively prevent the danger of sudden coal and gas emissions.

SUMMARY OF THE INVENTION

The technical task of the invention

[3] The purpose of the present invention is to provide a method for preventing and controlling sudden zonal emissions of coal and gas, which is simple, but at the same time provides a favorable effect of preventing sudden emissions and reduces stress concentration in the face.

Technical solution

[4] The present invention provides a method for preventing and controlling sudden zonal emissions of coal and gas, according to which:

[5] a. divide the mining area into mining zones by distributing defects and folds in the deposit so that the boundaries of the mining zones are located, as far as possible, in the axial parts of the defects or folds;

[6] b. determine the direction of maximum stress in the soil along the horizontal direction in the mining zone in the traditional way by testing the stress in the soil;

[7] moreover, when the adjacent angle between the measured direction of the maximum stress in the soil along the horizontal direction and the direction of the strike of the coal seam is less than 45 °, an inlet ventilation outlet and a ventilation outlet for the reverse jet for the mining zone along the inclination of the coal seam are arranged, and then driving drift, and have the inlet ventilation outlet and ventilation outlet for the reverse jet for slaughter along the strike direction of the coal seam, and ATEM perform tunneling roadway so as to conduct mining operations in the mine located

along the direction of strike of the coal seam;

[8] when the adjacent angle between the measured direction of the maximum stress in the soil along the horizontal direction and the direction of the coal seam strike is greater than 45 °, an inlet ventilation opening and a ventilation outlet for the reverse jet for the mining zone along the coal seam strike direction are located, and then excavation is performed drift, and have an inlet ventilation opening and a ventilation opening for a reverse jet for slaughter along the inclination of the coal seam and then fected tunneling roadway so as to carry out mining operations in the mine, located along the slope of the coal seam.

Useful Results

[9] Studies show that the stress field in the soil is a stabilized unstable field that has a large difference on a large scale, but is relatively stable on a small scale. In the present invention, the mining area is divided into mining areas so that the boundaries of the mining areas are located in the axial parts of the defects or folds, so that each mining area is in the same rock pack, and the stress field in the soil is relatively stable, and the horizontal field of maximum stress in the ground essentially runs in the same direction within the same mining zone. Since mining is carried out in the face mainly along the direction of the strike of the coal seam or the inclination of the coal seam, the drift can be parallel to the direction of maximum stress in the soil along the horizontal direction by optimizing the direction of mining in coal seams. Therefore, the concentration of stress in the soil at the end of the drift along the coal seam can be reduced, and the risk of a sudden release of coal and gas during the drift of the drift can be generally reduced. Based on the optimization of the model of the entire field and mining system, the method according to the present invention reduces the risk of sudden emissions of coal and gas in the field in general, the present invention is widely used and allows to obtain a significant result.

Brief Description of the Drawings

[10] In FIG. 1 shows a layout diagram of the face in the mining zone if the adjacent angle between the direction of maximum stress in the soil along the horizontal direction and the direction of strike of the coal seam is less than 45 °.

[11] In FIG. Figure 2 shows the layout diagram of the face in the mining zone if the adjacent angle between the direction of maximum stress in the soil along the horizontal direction and the direction of the strike of the coal seam is more than 45 °.

[12] In the drawings:

1 - input ventilation output for slaughter,

2 - ventilation output for the reverse jet for slaughter,

3 - ventilation output for the reverse stream for the mining zone,

4 - input ventilation output for the mining zone,

5 - mining area,

6 - face.

Detailed Description of Embodiments

[13] Hereinafter, the present invention will be described in detail in the form of embodiments of the invention with reference to the accompanying drawings.

[14] According to the method for preventing and controlling sudden zonal emissions of coal and gas according to the present invention, the mining area is initially divided into mining zones 5 by distributing defects and folds in the mine based on the conditions of the coal seam in the mine so that the boundaries of zones 5 mining operations are located, as far as possible, in the axial parts, in which there are many defects and folds. The axial part of the largest defect or fold among defects and folds is selected as the boundary of the mining zone in order to avoid any defects or folds that can greatly change the field

ground stress in the mining zone. Thus, each mining zone is controllably located in the same rock pack to ensure that the horizontal field of maximum stress in the soil passes in the same direction in the mining zone.

The direction of maximum stress in the soil along the horizontal direction, located within the zone of 5 mining operations, is determined by the traditional method of testing stress in the soil, so that the stress in the soil is reduced, hydraulic pressure crack, or sound emission, etc .; since the direction of mining in the face in mining zone 5 is mainly along the direction of the strike of the coal seam or its inclination, the main ventilation openings for the coal seam, such as the inlet ventilation opening 1 for the bottom and the ventilation opening 2 for the reverse jet for the bottom, are installed along the main direction of mining in the face 6. Different axial adjacent angles between the direction of maximum stress in the soil along the horizontal direction, and the drift leads to different conditions for the concentration of stress in the soil at the end of the drift, and, consequently, to different situations of sudden emissions of coal and gas.

[15] To reduce the risk of sudden emissions of coal and gas, when the adjacent angle between the measured direction of the maximum stress in the soil along the horizontal direction and the direction of the coal seam stretch is less than 45 °, the inlet ventilation outlet 4 and the ventilation outlet 3 for the reverse jet for the mining zone are located along the slope of the coal seam, and drift is carried out; then the input ventilation mine 1 and the ventilation mine 2 for the reverse jet for the face are installed along the strike direction of the coal seam, drift is carried out, so that mining is carried out in the face 6 along the strike direction of the coal seam; if the adjacent angle between the direction of the maximum stress in the soil along the horizontal direction and the direction of the coal seam strike is greater than 45 °, the inlet ventilation 4 and the ventilation outlet 3 for the reverse jet for the mining zone are placed along the coal seam strike direction and then drift, then the inlet ventilation outlet 1 and the ventilation outlet 2 for the reverse jet for the face are placed along the inclination of the coal seam, and then They drive the drift, so that mining is carried out in the face 6 along the inclination of the coal seam.

[16] Since the inlet ventilation 4 and the ventilation 3 for the reverse jet for the mining zone are usually drifted through the rock, there is no danger of a sudden release of coal and gas; since the inlet ventilation outlet 1 and the ventilation outlet 2 for the backward jet for slaughter are usually drifts in the coal seam, the goal of alleviating the risk of sudden emissions of coal and gas during tunneling operations in the face, carried out during coal mining and mining, can be achieved by installing these drifts parallel to the direction of maximum stress in the soil along the horizontal direction

Claims (1)

1. A method of preventing and controlling sudden zonal emissions of coal and gas, according to which:
a. divide the mining area into zones (5) of mining operations by distributing defects and folds in the field so that the boundaries of the zones (5) of mining operations are located, as far as possible, in the axial parts of the defects or folds;
b. determine the direction of maximum stress in the soil along the horizontal direction in the zone (5) of mining operations in the traditional way of testing stress in the soil;
moreover, when the adjacent angle between the measured direction of the maximum stress in the soil along the horizontal direction and the strike direction of the coal seam is less than 45 °, an inlet ventilation (4) and a ventilation (3) for the reverse jet for the mining zone along the inclination of the coal seam are located, and then the drift is drilled and the inlet ventilation opening (1) and the ventilation opening (2) are arranged for the reverse jet for slaughter along the strike direction of the coal that, and then drift, so as to conduct mining operations in the face (6), located along the direction of strike of the coal seam; but
when the adjacent angle between the measured direction of the maximum stress in the soil along the horizontal direction and the direction of the coal seam strike is greater than 45 °, the inlet ventilation (4) and the ventilation (3) for the reverse jet for the mining zone along the coal seam strike direction are located, and then drift is carried out and the inlet ventilation opening (1) and the ventilation opening (2) are arranged for the reverse jet for slaughter along the inclination of the coal seam, and thereby drifting is carried out, so as to conduct mining operations in the face (6), located along the inclination of the coal seam.

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