RU2005884C1 - Method for ventilation of extraction district - Google Patents

Abstract

FIELD: coal industry. SUBSTANCE: extraction district is provided with reverse ventilation, i. e. , air is supplied over belt heading and discharged over vent drift, with air current guides found in breakage face. One guide is located along belt heading at junction with breakage face and bent in breakage face along caved rocks. Second guide is arranged at vent drift-breakage face junction at acute angle to face plane. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the coal industry and can be used to ventilate mining sites.

 A known method of controlling gas evolution in a mining field, in which to prevent air exchange of the mined-out space with existing mine workings in the mined-out area, a sealed suction gas pipeline is mounted at the level of the ventilation drift and a partial discharge of the outgoing stream from the active-airing zone of the mined-out space is made through it [1].

 The disadvantage of this method is that an active ventilation zone is created in the worked-out space and, therefore, the causes of an endogenous fire in the worked-out space (contacting oxygen with coal) are not eliminated and, in addition, the upper part of the working face is ventilated according to a direct-flow circuit, which is prohibited when treatment of fire hazardous seams with Safety Rules in coal and shale mines N 484. Indeed, with a partial discharge of the outgoing stream in order to eliminate accumulations of methane oiskhodit gob constant replenishment of fresh air m. e. not excluded breathability.

 There is a known method of gas evolution control, in which a fresh stream is fed through a conveyor drift, and an outgoing one is diverted through a ventilation drift, airtight air ducts moved behind the mechanized complex are laid, through which air is supplied and discharged, and at the level of a conveyor drift they create a backwater, and at the level of a ventilation drift, a vacuum .

 The disadvantage of this method is the presence of an active ventilation zone of the exhausted space in which coal is quickly oxidized and spontaneous combustion occurs, as well as the dependence of the ventilation of the excavation section not on the operation of the main fan, but on an additional traction inducer.

 The purpose of the invention is to reduce the possibility of self-heating of coal in the worked out space by eliminating its air exchange with existing workings while preventing methane accumulations at the interface of the ventilation drift with the treatment face.

 This is achieved by the fact that according to the method of venting the excavation section according to the return flow diagram due to the mine depression by supplying air through the conveyor drift and venting through the ventilation drift, air flow guides are installed in the working face as it moves, one of the devices is placed along the falling side of the conveyor drift on mating with the working face and bend in the working face along the facing rocks, the second is placed at the mate of the ventilation drift with the working face at an acute angle to the face plane.

 The drawing shows a diagram of the implementation of the proposed method.

 The scheme contains a face 1 with a worked out space 2. A fresh stream of air enters through the conveyor drift 3, and the outgoing leaves through the ventilation drift 4. At the interface of the face 1 with the conveyor drift 3, the first guide device 5 is installed, and at the interface of the face 1 with the ventilation drift 4 - the second guide device 6.

 The method is based on the following physical processes. When ventilating the working face according to the return flow pattern, part of the supplied air, due to the high-speed pressure, passes through the exhausted space, and the amount of air reaches 15-17% of the total volume, and the ventilation zone extends 12-40 m deep into the exhausted space. This amount of air is enough to oxidize the coal remaining in the form of losses in the worked out space, as well as to flush methane and increase its content at the interface of the lava with the ventilation drift.

The amount of air and its direction through the mined-out space depends on the aerodynamic resistance of the mined-out space, on the air velocity along adjacent workings and other factors. In any case, it is necessary to take into account that the air stream from the conveyor air supply drift into the working face rotates by 90 ^° and always under pressure falls into the worked out space. It follows that if a device is installed on the conveyor drift that directs the air stream in the right direction and does not allow air to pass through, then all the supply air sent by the device only ventilates the working face and its entry into the worked out space immediately from the conveyor drift is excluded.

 In this case, there are no conditions for the oxidation and spontaneous combustion of coal and leaching of methane from the exhausted space.

 At the same time, they cut off the working space of the working face at an acute angle with another device, increasing the speed of air movement, and direct the jet at the interface of the ventilation drift with the working face. Due to the increase in air speed at the conjugation of the ventilation drift with the mine face, methane is washed out, and due to the high-pressure head, methane from the exhausted space is prevented.

 The method of ventilation of the excavation site is as follows.

 When a coal seam is excavated mechanically or using a blasting device, a guide device 5 is installed (suspended) in conjunction with a conveyor drift and a face (lava), which is made in the form of a flexible strip (curtain) with a height equal to the height of the drift and lava. The device is installed on the falling side of the conveyor drift and further in the working face along the collapsed rocks. The devices can be made of rubberized fabric, film, etc. To keep it for a long time, it is equipped with rings for hanging on nails, pins in the attachment of the drift or lava. One end of the device is attached to the drift mount opposite the bottom line, and the other to the lava mount, and the length of the device along the collapsed rocks should be twice the width of the drift. If the working face is equipped with mechanized supports, then the device is attached to the end section of this support and transferred when moving the supports and the conveyor. When coal is mined using a blasting system at the time of conveyor conveyance and roof collapse, the device is removed and installed before the start of treatment work.

 The second device is installed on the interface of the ventilation drift with the working face, blocking the cross section of the bottomhole zone.

The excavation section is ventilated according to the return flow pattern due to the shaft depression, while air from the conveyor drift enters the treatment face. The guide device 5 rotates the air stream by 90 ^° and prevents the penetration of air into the exhausted space, then the air stream moves along the face and, reaching the next guide device 5, increases the speed by reducing the cross section and is directed to pair the ventilation drift with the cleaning face, and washes " top cut "and enters the ventilation drift.

 The implementation of the proposed method reduces the removal of methane gas from the worked out space to the mine face and prevents oxidation and spontaneous combustion of coal left in the form of losses. (56) 1. USSR author's certificate N 1411514, cl. E 21 F 5/00, 1988.

 2. USSR author's certificate N 1439258, cl. E 21 F 1/00, 1988.

Claims (1)

 METHOD FOR VENTILATING A DRAWING PLACE, including air supply via a conveyor drift and a vent through a ventilation one, characterized in that, in order to reduce the possibility of self-heating of coal in the worked out space by eliminating air exchange with existing workings while preventing methane accumulations at the interface of the ventilation drift with the treatment face, in the working face as it moves, air flow guides are installed, one of which is placed along the falling side of the conveyor unit the river in conjunction with the working face and bend in the face along the collapsed rocks, the second is located at the interface of the ventilation drift with the working face at an acute angle to the face plane.

Images