SU1062402A1 - Method of ventilating gas-rich excavation area - Google Patents

Abstract

A VENTILATION METHOD FOR THE GAS-BILLING EXTRACTIVE PLOT, which includes the supply of fresh jet through the sintering furnace and the conveyor drift, diverting the outgoing jet through the ventilation drift maintained in the developed space, and along the vertical well brought down with it to the surface, in order to improve the flow, and in order to improve it, in order to improve the well bore with the vertical well bored with it. on the lava by reducing the downtime of mining mechanisms with an isolated discharge of the jet necks without limiting the methane content in it, a jumper with a fan built into it is installed in the balance furnace When working, forcing them, they feed a fresh jet through an additional ventilation drift, which is conducted in front of the lava. 1sl O5 to N (y

Description

The invention relates to the mining, mainly to the coal industry, and can be used to ventilate the excavation areas during the mining of coal-bearing gas. There is a known method of ventilating a site, which includes supplying a fresh jet through the haulage drift, diverting the outgoing jet through the ventilation drift maintained in the developed space, and along the vertical well brought down with it to the surface 1. The disadvantage of this method is that the concentration of methane in During the development of gas-bearing coal seams, the outgoing jet very often exceeds the maximum permissible norms and, therefore, downtime of mining mechanisms and a decrease in the load on the lava are observed. The closest to the invention according to the technical essence and the achieved result is the method of ventilation of the gas-rich excavation site, including the supply of fresh jet through the sintering furnace and transport drift, discharge of the outgoing jet through the ventilation drift maintained in the developed space. vertical borehole to the surface, carried out due to general depression and operation of the suction fan on the borehole 2. The disadvantage of this method is that due to large aerodynamically goaf resistances in the outbound stream very frequently observed exceeding the allowable limits and methane content associated with mining mehaniz.mov eaim downtime. The purpose of the invention is to increase the load on the lava by reducing the downtime of mining mechanisms in the case of an isolated discharge of the outgoing jet without limiting the methane content in it. This goal is achieved by the fact that according to the method of ventilation of the gas-rich excavation site, which includes supplying fresh jet through the sintering furnace and the conveyor drift, diverting the outgoing jet through the ventilation drift maintained in the developed space to the surface, A bridging furnace with a built-in blower fan is installed in the furnace; a spray jet is fed through an additional ventilation drift, which is placed in front of the lava, and a grating bridge, periodically mixed as the lava moves, is installed with a tilting drift supported in the developed space. The drawing shows a diagram of the implementation of the method. The scheme contains a cleaning lava 1 with an exhausted space 2 and a malfunctioning 1 02 furnace 3. For removing exhaust air in the upper part of the lava, there is an isolated ventilation outlet 4 connected to the day surface by the borehole channel 5. In this development, a grate jumper 6 is erected to prevent access there are people in it that periodically move following the movement of lava. In order to maintain ventilation openings 4 in the developed space, bonfires 7 are erected as the clearing line moves up. The entire excavation area is isolated from the overall depression by bridges 8 on the upper side of the clearing face and jumpers 9-11 on the side of the haulage 12. Jumper 8 consists of the two bridges that form the ventilation sluice, each of which is equipped with ventilation doors for an emergency exit from the excavation section. An injection fan 13 is installed in the body of the jumper 9, providing air supply for airing the excavation section. Each of the lintels 10 and 11 also consists of two lintels spaced apart from each other, only in lintel 11, ventilation doors are provided for people to enter the excavation area and windows to allow conveyor transport of the extracted coal from the lava to the haul road. As the clearing flank line moves and the developed space of the lava approaches the lintel, the ventilation doors and windows overlap and the lintel is given a hollow design, and the adjacent lintel 10 is closed and ventilation doors and windows for passing people and transporting cargo through it are equipped. jumper, etc. In order to suck the vent stream out of the lava, ventilation openings 14 and an additional vent track 15 are provided, in which a jumper 16 with a vent window is erected to regulate the amount of air supplied to the lava and to refresh the spent stream. The movement of air in the drawing is shown by arrows. The method is carried out as follows. A fresh air jet for aeration of the excavation section is supplied from the haulage drift 12 by the blower fan unit 13. In this case, most of this air is directed to air the cleaning lava 1, and the other part through the vent window 14 to the top of the lava where it produces fresh air from the outgoing lava flow. All exhaust air under the action of the injection fan installation 13 is discharged through an insulated ventilation 34

4 and through the channel of the well 5zut for this purpose previously drilled in

directly to the surface. In the extent of this area, the degassing wells, the movement of the lava to release the outgoing. Use of the proposed method

jets in front of the clearing making implementation will increase the load on the lava and fail to drill new wells or use mining operations.

1062402

Claims (1)

METHOD FOR VENTILATION OF A GAS-ABILITY DRAWING AREA, including supplying a fresh jet through a breakdown furnace and a conveyor drift, discharge of the outgoing jet through a ventilation drift maintained in the worked-out space, and along a vertical bore brought down with it to the surface, characterized in that, in order to increase the load on the lava by reducing downtime of production mechanisms with an isolated outlet of the outgoing jet without limiting the methane content in it, a jumper with a fan built into it is installed in the breakdown furnace, operation those who are pumping, a refreshing jet is fed through an additional ventilation drift, which is carried out in front of the lava.