SU883514A1 - Method for degassing mined space of coal bed - Google Patents

Description

The invention relates to the mining industry and can be used for the degassing of worked out spaces of coal seams.

A known method of degassing working. the secret space of the site by wells drilled from the surface. The essence of this method is that wells are drilled from the surface in such a way that they cross the developed layer and penetrate the soil by 3-5 m.

The location of the well is chosen so that after the drilling and casing of the well, the place where it intersects with the reservoir being developed is in the coal mass at a distance of more than 30 m in front of the lava fl].

A disadvantage of this method yavlyayut- ²⁰ camping relative limitations of its use in the depth of the coal seam 400-500 m, the laboriousness and difficulty of operation in winter conditions.

There is also known a method of degassing a mined-out space of a coal seam and a collapse dome formed as a coal seam is mined, including passing a gezenka from a mine in the rock mass, contouring the mined section of the coal seam along the strike of the coal seam, forming a drill chamber from the gezenok in the coal seam, passing from the drilling chamber using drilling equipment containing a drill rod and becoming stackable perforated drill pipes, a degassing well along the expansion of the coal seam at the height of the dome of rock caving, degassing and treatment mining operations [2].

The disadvantage of this method is that the wells go towards the face and therefore they are quickly extinguished, which leads to the necessity of passing a new chamber and re-installation of drilling equipment. In addition, the gas suction ability of collapsed rock wells decreases as the lava moves.

The purpose of the invention is to increase the efficiency and profitability of mining operations on the degassing of the worked out space and the collapse dome of rocks with the simultaneous advancement of the face due to the long-term maintenance of degassing wells, as well as eliminating the need for re-installation of drilling equipment.

This goal is achieved by the fact that the gozenk pass to the height of the rock caving dome before conducting / treatment work, the degassing well follows the movement of the working face, increasing its length according to the magnitude of the movement of the working face, while the length of the degassing well along the coal seam stretches from its mouths are limited by the contour of the collapsed rocks of the mined-out space from the side of the working face, in addition, long-term maintenance of degassing wells produce, leaving the drill rod and become a stackable perforated drill pipe in the well during the whole time of extraction works.

At the same time, perforation of drill pipes is carried out with the largest total area of all perforation holes of 100-200% of the cross section of the drill pipe at the bottom of the drill pipe and decrease it as the drill pipe increases.

On Fig, 1 presents a diagram of the implementation of the method; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a section BB in FIG. 1 ', in FIG. 4 - drilling

883514 4 becoming 12 perforated drill pipes for gas evacuation. The drill rod 13 is made of pipe 14, on the surface of which there are through holes 15 connecting the internal cavity of the pipe with the environment. The pipe 14 of the rod 13 is connected by a composition 12 for the evacuation of gas. The rod also has a spiral 16 and a drilling tool 17.

The method is as follows.

From the working out 8 pass the gesenki 7. The gesenck 7 pass to the height of the collapse dome. 3 of the upper part of the gozenka form a drilling chamber 6, in which the drilling rig 9 is mounted. Parallel to the coal seam '3, at the height of the collapse dome, drill a hole 10 along the collapsed rocks 11. Moreover, the drilling tool does not reach the face of the lava by 10-30 m and is located all the time at the boundary of the contour of inverted rocks, i.e. in bulk from the face of the lava. The drill rod 13 is made on the pipe 14 and has a hole 15 on the cylindrical surface. Using a suction device through the holes 15 in the pipe, the pipe and becoming 12 for evacuating gas, the entire mass of collapsed rocks is degassed along the entire length of the wellbore. As the working face moves, the drill rod with the help of a drilling rig moves after ^3S face by the amount of face removal and during cleaning operations is located on the edge of the block towards the face of the lava. The bar works as follows. Separate links of the rod are connected to the stav, then a well is drilled, in which the stav remains for the entire duration of the lava operation. After supplying the drill stand to the desired value, the stand is washed, freeing the surface of the pipe from drilling alkali, then the pipe 14 of the rod 13 is connected to the stand 12 to evacuate the rod.

The scheme includes a ventilation drift 1, a conveyor drift 2, a mining bed 3, a face (lava) 4, a preparatory mine, a cutting furnace 5 ^ drilling chamber 6., gozenka 7, a mine that contours the coal seam along the strike of coal seam 8, located near a split furnace 5, a drilling rig 9, a drill rod 10, collapsed rocks 11, gas and degass.

Implementation of the proposed method will increase the degree of degassing 50 of the worked out space, and this, in turn, creates an improvement in the working conditions of mining workers.

Claims (2)

3 is quickly redeemed, which leads to the need to pass a new camera AND re-install the drilling equipment. In addition, the gas recovery capacity of the collapsed wells decreases as the lava progresses. The purpose of the invention is to increase the efficiency and cost-effectiveness of mining operations for the degassing of the open space and the dome of the collapse of rocks with simultaneous movement of the clearing hole due to the long-term maintenance of the degassing wells, as well as eliminating the need to rewire the drilling equipment. The goal is achieved by the fact that Gesenk passes to the height of the dome of the collapse of rocks prior to the start of the cleaning works, the degassing well passes through the clearing of the clearing hole, increasing its length according to the amount of clearing of the clearing face, while degassing: along the strike of the corner seam from its mouth, the wells are limited by the contour of the rounded rocks of the worked-out space from the side of the clearing slab, in addition, the long-term maintenance of the degassing a borehole is produced us t, allowed drilling shta gu nara1tsivaemyh becoming perforated and drill pipe in the borehole, over a total time of reference wat GOVERNMENTAL works. At the same time, perforation of drill pipes is produced with the largest total area of all perforation holes 100–200% of the cross-section of the drill pipe on the bottom-hole part of hundred drill pipes and 1x pipes and reduce it as the drill pipe is increased. FIG. 1 shows a scheme for carrying out the method; in fig. 2 - time cut AA in FIG. one; in fig. 3 - bit BB in FIG. in FIG. 4 - drill rod. The scheme includes a ventilation drift 1, a conveyor drift 2, the reservoir 3 being worked out, a cleaning face (lava) 4, a preparatory cleaning excavation, a split furnace 5, a drilling chamber 6 ,, gesenc 7, a contouring coal seam 8 along the coal seam 8, located near the cutting furnace 5, the drilling rig 9, the drilling rod hole 10, collapsed rocks 11,. 4 becoming 12 perforated drill pipes, l evacuation gas. The drill rod 13 is made of pipe 14, on the surface of which there are through holes 15 connecting the internal cavity of the pipe with the environment. The pipe 14 of the rod 13 is connected with a rod 12 for the evacuation of gas. The rod 13 has the same spiral 16 and the drilling tool 17. The method is carried out in the following way. Gesenca 7 passes from generation 8. Gesenk 7 passes to the height of the collapse dome. In the upper part of the gezen, a drilling chamber 6 is formed in which the drilling rig 9 is mounted. In parallel with the coal seam 3, at the height of the collapse of the drilling of the well 0 through the collapsed rocks 11. At the same time, the drilling tool does not reach the bottom by 10-30 m and is all the time at the boundary of the contour of turned rocks, i.e. pile from the side of the face of the lava. The drill rod 13 is made on pipe 14 and has an opening 15 on the cylindrical surface. Using a suction device through holes 15 in the pipe, pipe 14 and becoming 12, gas evacuation is used to degass the entire mass of rocks from the entire j4TaH well. As the drill hole moves, the rod moves with the help of the drilling machine following the drop by the amount of hole care, and during the cleaning works it is located on the edge of the dam towards the drill. The bar works as follows. The individual links of the rod are connected to the stand, then a well is drilled, in which the stand remains for the entire duration of the work of the lava. After the drilling rod has been supplied by the required amount, it is washed, freeing the surface of the pipe from the drilling alkali, then the pipe 14 of the rod 13 is connected to the rod 12 for gas evacuation and degassing is performed. The implementation of the proposed method will increase the degree of degassing of the goaf, and this, in turn, creates improved working conditions for mining workers. The invention of the method of degassing the open space of the coal seam and the dome of the collapse, which is formed as the coal seam is processed, includes the passage of gesen in the rock mass from the mine working, contours of the coal seam along the coal strip, formation from the gesenk to the coal, and formation from the gesenk to the coal. cooling from the drilling chamber with the help of drilling equipment containing the drill rod and becoming expandable perforated drill pipes, degassing well Azhiny along the coal-bed protrusion at the height of the dome of the collapse of rocks, conducting degassing and cleaning of mining operations, characterized in that, in order to increase the efficiency and profitability of mining to degassing the open space and the dome of the collapse of rocks while simultaneously moving the clearing due to the long-term maintenance of degassing wells, as well as eliminating the need to re-install the drilling equipment, the gesenk passes to the height of the dome collapse of rocks before From the beginning of the introduction of cleaning operations, the degassing well passes after the advancement of the cleaning hole, increasing its length, respectively, according to the size of the cleaning pit, while the extent of the degassing well along the coal seam from its mouth is limited by the contour of the formed rocks of the developed area In addition, the long-term maintenance of the degassing well was carried out, leaving the drill rod and becoming expandable perforated bore pipes in the toolbox. , Throughout the entire time of extraction works. 2. The way pop. }, characterized in that the perforations of drill pipes are produced with the largest total area of all holes of perforations 100-200% of the cross-section of the drill pipe on the bottom hole section of the drill pipe stand and reduce it as the drill pipe stand increases. Sources of information received in BHHMaHJie during the examination 1. Guidelines for the degassing of coal mines. M., Nedra, 1975, p. 106, p. 328. 2. Guide to the degassing of coal mines. M., Nedra, 1975, p. 105, p. 3.26 (prototype). Fig.Z 10 f w / g