UA13401U - Method for degassing of coal face - Google Patents

Abstract

Method for degassing coal face according to which one makes along the ventilation drift an insulated from the common mine ventilation system degassing channel, this is connected to the draught source. At that as degassing channel one uses the first pipeline, insulating partitions are constructed across the ventilation drift with the face propagation with passing the pipeline through insulation partitions, the methane-air mix is simultaneously removed by suction from the worked-out space by another insulated pipeline with larger diameter.

Description

Description of the invention

A useful model applies to the mining industry and can be used in the development of gas-bearing 2 coal seams.

A known method of coal lava degassing (ZY JSC Mo1312183, E21E5/00, 7/001Ї, according to which a pipeline isolated from the general mine ventilation system is laid along the ventilation stretch, which is connected to the fan on the earth's surface. The first outlet of the pipeline is located behind the line of the cleaning hole at a distance of 5-15 m and suction the methane-air mixture from the created space. The second outlet of the pipeline 70 is located parallel to the line of the cleaning hole and suction the methane-air mixture in places of intensive gas release.

Coinciding with the essential features of the claimed method is the laying along the ventilation stretch of a pipeline isolated from the general mine system, which is connected to the source of traction and by which the methane-air mixture is sucked from the produced space. 19 When using the known method, degassing of the lava of a gas-bearing coal seam is insufficient, which increases the danger of an explosion of a methane-air mixture, limits the length of the lava and reduces coal production.

A well-known method of degassing of coal lava (ZO JSC Mob53404, E21E1/00), chosen as a prototype, according to which a degassing channel isolated from the general mine ventilation system, which is connected to a fan on the earth's surface, is laid along the ventilation stretch. Bonfires and insulating longitudinal membranes are periodically built along the length of the degassing channel, which, as the lava advances, are disassembled and the methane-air mixture is sucked out of the created space through the gaps formed.

Coinciding with the essential features of the claimed method is the installation along the ventilation stretch of a degassing channel isolated from the general mine system, which is connected to the source of traction and by which the methane-air mixture is sucked from the produced space. Bonfires and insulating membranes are periodically built along the length of the degassing channel, and the methane-air mixture is sucked out of the created space. in

The disadvantage of the known method is the same as that of the previous analogue.

The creation of a useful model is based on the task of improving the method of coal lava degassing, in which, by changing technological operations, improvement of lava degassing is ensured, due to which the concentration of methane decreases, the safety of mining operations increases, which makes it possible to increase the length of the lava and, as a result, increase coal production. Ha")

In the method of degassing of coal lava, according to which a degassing channel isolated from the general mine ventilation system is carried along the ventilation stretch, which is connected to the source of traction, insulating membranes and fires are periodically built along the length of the degassing channel, and the methane-air mixture is sucked from the produced space, according to in a useful model, the first pipeline is used as a degassing channel, which is connected to a vacuum degassing unit, which is used to suck the methane-air mixture from the produced space through the cavities of the fires through the pipes of the pipeline, insulating membranes are built across the ventilation stretch as the lava advances with the passage of the pipeline through the insulating membranes , at the same time, the methane-air mixture is sucked from the produced space through another insulated pipeline of a larger diameter, the values of which are in the range from 500 to 1000 mm, connected to one or several underground fans, which are located at the outlet in the ventilation stream. c The totality of the above features of the claimed method ensures increased degassing of coal lava

With" by combining vacuum suction with the creation of increased depression at the border of the created space and its high-performance ventilation. At the same time, the problem of reducing the concentration of methane in the mine air is solved, the safety of mining operations increases, which makes it possible to increase the length of the pit and, as a result, to increase coal production. - In Fig. part of the mining area and the degassing system are schematically depicted. z Excavation column 1, covered by air flows of the general mine ventilation system, which are marked by arrows 2 and pass along bench 3, ventilation section 4 and through the created space 9. Pipeline 5 shk is located in ventilation section 4 with a continuation beyond the border of bench C and contains connecting clutches 6, which av! 20 are connected to taps-candles 7, located vertically. The suction holes of the taps 7 are located in the cavities of the furnaces 8. The collapsed rock of the produced space 9 borders the fastening 10, insulation and membranes 11 and is close to the furnaces 8. The pipeline 5 passes through the insulation membranes 11 and is connected to the vacuum degassing unit, which is shown in Fig. not shown. Another insulated pipeline 12 with a larger diameter, the values of which are in the range from 500 to 1000 mm, is located in the ventilation stretch 4 and 29 with its inlet pipe crossing one of the insulating membranes 11, the other end of the pipeline 12 is connected to one or more underground fans 13 , which are located on the outlet ventilation jet.

The proposed method is carried out as follows.

The flow 2 of air from the general mine ventilation system enters the bench 3, the created space 9 and the ventilation stretch 4, along which a pipeline 5 isolated from the general mine ventilation system 60 is carried, which is connected to a vacuum degassing unit. The first of the insulating membrane 11 and the firebox 8 are constructed, the pipeline 5 with the connecting coupling 6 and the spark plug 7, which is placed in the cavity of the firebox 8, is continued. The suction nozzle of the pipeline 12 is placed behind the insulating membrane 11 with pipelines 5 and 12 passing through it Activate the vacuum degassing unit, which creates an increased depression in the fire zone 8 and sucks the methane-air mixture from the produced space 9. At the same time, activates the fan 13, which sucks the methane-air mixture from the produced space.

As the excavation column 1 is worked out, the fastener 10 is moved, the pipeline 12 is moved to the distance of the bench 3, the next insulating membrane 11, the fire 8 is built, the necessary similar operations are performed with the pipeline 5, the connecting coupling 6, the tap-candle 7 and degassing is carried out Lavas from a gas-bearing coal seam.

The use of the proposed method of coal lava degassing helps to reduce the concentration of methane, the probability of its explosion, allows to increase the length of the lava and increase coal production. In addition, the use of isolated independent degassing systems improves its reliability and increases the safety of mining operations.

Claims (1)

The formula of the invention is the method of coal lava degassing, according to which a degassing channel isolated from the general mine ventilation system is carried along the ventilation stretch, which is connected to the source of traction, insulating partitions and fire pits are periodically built along the length of the degassing channel, the methane-air mixture is sucked from the created space, which differs in that , that the first pipeline is used as a degassing channel, which is connected to a vacuum degassing unit, which is used to suck the methane-air mixture from the produced space through the cavities of the fire pits through the pipes of the pipeline, insulating partitions are built across the ventilation stretch as the lava advances with the passage of the pipeline through the insulating partitions, at the same time, the methane-air mixture is sucked from the produced space by a second insulated pipeline of a larger diameter, the values of which are in the range from 500 to 1000 mm, connected to one or more underground fans, which are located on the outlet ventilation jet. that 2 «- «c) « (ze) є - and? - (95) sh" ("c) - 60 b5