SU1740685A1 - Method for airing gassed coal face - Google Patents

Abstract

The invention relates to the mining industry and is used in the treatment of excavation pillars in the fall and strike with a straight flow pattern for airing gas-rich excavation sites. Fresh air is supplied to the lava and exhaust of used air from it is carried out according to a direct ventilation pattern. At the same time, due to the creation of a vacuum at the end of the cleaning face, the flow of air passing through the cleaning face increases the flow rate of the air flowing into the developed space. 1 il.

Description

The invention relates to the mining industry and can be used in mining excavation pillars by falling and striking with a straight flow pattern for airing gas-rich mining sites.

There is a known method of ventilating gas-rich coal lava in a Y-shaped pattern with a pole system of development with a reverse order of mining the columns.

The main disadvantage of this scheme is that in the bottomhole space of lava, at the end of it in the direction of the air flow, there are stagnant zones with accumulations of methane with a concentration above the permissible standards of BOP. This is due to a decrease in air flow through the bottom hole a clearing flank, and a considerable amount of air flow from the bottom hole to the developed lava space and then to the supported ventilation generation.

The closest to the invention is a method of ventilating gas-rich coal lava, which includes supplying fresh air and discharging contaminated air stream through the air supply and air exhaust pipelines along the lava, with openings dispersed over their side surfaces and connected to local ventilation fans.

The main disadvantages of this method are the formation of stagnation zones in the wellbore space of the clearing hole, as well as the accumulation of methane-air mixture with a high concentration of methane near the fences during airing of the hole with transverse jets.

The purpose of the invention is to increase the efficiency of lava airing by preventing the formation of stagnant zones.

The goal is achieved by increasing the flow rate of air passing through the clearing face, and reducing the flow rate of air entering the

ABOUT

the space of the lava, by creating a vacuum at the end of the clearing in the course of the movement of the air flow.

For this purpose, a local ventilation fan is installed in the workout with a fresh stream. The suction pipe is laid in the supported part of the vent, and its telescopic pipe is introduced into the end of the clearing face in the direction of the ventilation jet,

The drawing shows a scheme for carrying out the method during the mining of the extraction column by the dip of the reservoir with the flow diagram of the ventilation of the excavation section to the supported conveyor belt with the outflow of the outgoing air flow.

The proposed method differs from the known one in that it allows to increase the flow rate of air passing through the cleaning face, to reduce the flow rate of air coming from the cleaning face into the developed space of the lava, and to eliminate the blockage at the end of the lava in the direction of the air flow.

Airing of the excavation area is carried out due to the action of a general depression, created by the main ventilation fan.

The main air flow for ventilation of the excavation section is supplied through the ventilation flaps 1. Part of this air flow passes through the cleaning face 2, and another part through the exhausted space 4 enters the supported conveyor bremsberg 5. An additional stream of fresh air is supplied to refresh the outgoing stream of the excavation section along the conveyor belt 3.

A local ventilation fan 7 is installed on the conveyor belt 6 of the prepared vacuum, from which the suction pipe 8 is laid along the ventilation drift to the lava. The telescopic end 9 of the suction pipe enters the wellbore space of the clearing inlet at the end of it along the direction of the air flow.

The discharge pipe 10 is laid along a ventilation drift and its end is introduced into the mixing chamber 11.

When the fan is turned on 7

local ventilation flow of air passing through the bottomhole space is increased by the amount entering the suction side of the telescopic nozzle 9 of the suction pipe. On the same

the value is reduced by the flow rate of air coming from the bottomhole space of the clearing slab into the open space of the lava. By increasing the flow rate of air passing through the bottomhole

to the clearing flank space, conditions are created to liquefy the gas released from the exposed mass of the reservoir and the coal that is located in the bottom hole of the clearing hole, to prevent the formation of stagnant zones with a high concentration of methane in the lava. lava

the length of the actively ventilated area of the open space is reduced, which leads to a decrease in the possibility of spontaneous combustion of coal losses in the developed space of the lava.

The implementation of the invention in coal mines contributes to an increase in the load on the clearing face on the gas factor by reducing the time of simply lava mining due to the increased methane content in the stagnant zones,

Claims (1)

The invention The method of ventilation of gas-rich coal lava, including the supply of fresh air into the lava and removal of used air from it according to a flow pattern, characterized in that, in order to increase the efficiency of the airing of the lava by preventing the formation of stagnant zones in it, increase the flow of air passing through the clearing face and reduce the flow of air entering into the developed space, by creating a vacuum at the end of the treatment plant along the air flow movements. flof-ee-ouB & HT. IUTR 7l