UA77132C2 - Method for feeding inert gas to site of fire or self-fire of coal - Google Patents

Abstract

The invention relates to the mining industry, in particular to fire-extinguishing in the underground openings. The isolating and additional barricades with the perforations are mounted in the underground openings. The gas mixture fed to the isolated part of the opening between the barricades by the pipeline from the gasification device provides for the control of the depression in the major barricade. The elastic envelope is also mounted in this area. When the additional barricade is destroyed, the elastic envelope is inflated distantly without the break of the major barricade. The depression in the major barricade is controlled by changing the gas pressure in the envelope. The invention contributes to the increasing the safety and decreasing the cost of fire-extinguishing in the mining underground openings.

Description

Description of the invention

The invention relates to the mining industry, namely to the problem of preventing and extinguishing fires in 2 underground mine workings. It can mainly be used for remote extinguishing of fires in hard-to-reach places by supplying a gas mixture with a low oxygen content to the source of combustion, as well as for the prevention of self-heating and self-ignition of coal.

There is a known method of supplying inert gas, which is implemented with the help of a device for extinguishing underground fires (Copyright certificate of the USSR Mo914770, class E21E5/00, publ. 23.03.82, BI Mo11). The method is implemented in the following 70 ways. The steam-gas mixture (inert gas) from the inert gas generator is fed through the pipeline through the hole in the first jumper to the chamber created by the insulating and additional jumpers. A foaming agent is fed through a separate pipeline, which is sprayed with a nozzle onto the foaming grid installed between the jumpers.

The flow of inert gas, passing through the mesh moistened with a foaming agent, generates foam behind the mesh, which fills the void between the mesh and the additional bridge, which also has a hole. As a result of this, the so-called 12 "foam shutter" appears and the pressure rises in the space behind the jumpers, which excludes air suction through the insulating jumper to the fire station. In the event of a change in the ventilation regime of the works adjacent to the fire station or the flow rate of inert gas, the depression on the insulating bridge or the volume of the "foam shutter" changes and there is a need to adjust the increased pressure in the space behind the bridges. For this, they will use a gate installed in an additional jumper with a control device, which is a flexible rod thrown over the blocks | connected at one end to the shutter and the other to the control lever. By turning the control lever, the shutter is raised or lowered. Raising the shutter increases the plane of the opening in the bridge, as a result of which the level of "foam shutter" and increased pressure are reduced. Lowering the shutter increases the pressure.

The disadvantage of the known method is the impossibility of implementing the method when cracks appear in the body of the additional jumper or its destruction under the influence of mining pressure or due to the explosion of a dust-gas-air mixture in the isolated space of the fire station. At the same time, the shutter may fail, the "foam (9 shutter)" may disappear, due to the increase in inert gas leakage, the pressure regulation in the space between the jumpers may become insufficient. To repair the additional jumper, the main jumper should be broken, but this is dangerous, because it leads to the depressurization of the fire station sites and supply of oxygen to the source of the fire. This, in turn, leads to a decrease in reliability and a slowdown and increase in the cost of the process of eliminating the source of combustion or self-heating of coal.

The closest in terms of technical essence is the method of extinguishing underground fires (Pat. SHA Mo5775, E21E5/00, publ. 15.03.2005, Bull. Mo3), which involves reducing in production from the side of the jet of air coming to the source - burning, insulating jumpers with a mounted pipe, supply of inert gas from the gasification plant through it, creation of a gas mixture with low oxygen content in the area of the combustion chamber, construction of an additional igniting jumper with a slotted pipe equipped with a remotely controlled regulator of its cross-section, while the distance between the jumpers is not exceeds

И -0.004Р; ЦО2/Вр, m, where: 0.004 - calculated-empirical coefficient, Pa"; Р; - pressure of inert gas in the pipeline, Pa; (/ - « 70 Length of pipeline for inert gas supply, m; О; - the diameter of the pipeline, m; Ж - the area of the cross-sectional area of the mining production, m.

At the same time, equal gas pressure is achieved on both sides of the insulating bridge by adjusting the size of the through-section of the slotted pipe, which is provided at zero readings of the differential pressure gauge.

The disadvantage of the analogue closest in terms of technical essence is the impossibility of its implementation when cracks appear in the body of the additional bridge or its destruction under the influence of mining pressure or due to the explosion of a dust-gas-air mixture in the isolated space of the fire station. As a result, the depression is transferred to the first insulating jumper and air with a high oxygen content begins to flow into the isolated part of the mine. This, in turn, leads to a decrease in reliability and a slowdown and increase in the cost of the process of eliminating the source of combustion or self-heating of coal. o The invention is based on the task of improving the method of supplying inert gas to the combustion source or

GI self-heating of coal, in which, by introducing additional structural features, its effective implementation is ensured in the event of cracks in the body of the additional bridge or its destruction under the influence of mining pressure or due to the explosion of a dust-gas-air mixture in the isolated space of the fire station, and thus, 5B restore the possibility of implementing the method , increase reliability and speed up and reduce the cost of the process of elimination of the source of combustion or self-heating of coal. (F) The problem is solved by the fact that in the known method of supplying inert gas to the source of combustion or to the self-heating of coal, which involves the reduction in the product from the side of the air stream entering the source of combustion or self-heating of coal, isolating the main and additional jumpers with holes, creation in 60 isolated part of production of a gas mixture with low oxygen content due to the supply of inert gas through the pipeline from the gasification plant into the space between the bridges and elimination of the depression on the main bridge, according to the invention, when the additional bridge is destroyed, an elastic shell is used to restore the increased pressure of the inert gas, which is inflated remotely without disturbing the main bridge, while changing the gas pressure in the shell eliminates the depression on the main bridge. The specified features b5 constitute the essence of the invention, as they are necessary and sufficient to achieve a technical result.

The cause-and-effect relationship of the features that make up the essence of the invention with the technical result that is achieved,

explains the following.

The physical essence of the proposed invention is explained by an example of a specific implementation of the method. The figure illustrates the scheme of implementation of the method of supplying inert gas to the source of self-heating or combustion, where 1 is the insulating main jumper; 2 - pipeline for supplying inert gas from the gasification plant; C - additional insulating jumper; 4 - nozzle with a regulator for supplying inert gas; 5 - cracks destroying the jumper body; 6 - the position of the shell made of elastic material in the collapsed state, 7 - the position of the shell in the inflated state; 8 - differential manometer and pneumatic cable; 9 - hose and manometer for inflating the shell.

In the initial state, jumpers 1 and 3 are installed in the mine, inert gas flows from the gasification unit to chamber 7/0 between the jumpers through pipeline 2, the oxygen content in the chamber is reduced to almost zero.

Controlling the flow of inert gas with the help of a regulator in the nozzle 4, pressure equalization is achieved in both branches of the O-shaped differential manometer 8. After that, there are no leaks through the jumper 1 and the rock surrounding it. The main ventilation pressure drop (depression) and the corresponding leaks are attached to bridge 3, on both sides of which there is an inert gas. It enters the combustion chamber or the source 7/5 of coal reheating coming from the pipeline 4, and also in the form of an escape through the body of the jumper C and surrounding its cracked rocks. At the same time, the high-quality composition escaped through the body of the bridge Z in such a way that they lack oxygen, which is achieved thanks to the supply of inert gas, for example, nitrogen, through the nozzle 2 to the chamber between the bridges 1 and 3. In the body of the additional bridge Z, there are no cracks 5, the elastic shell is in in the collapsed state 6, there is no gas pressure in the hose with the pressure gauge 9. The volume of the space between jumpers 1 and C is comparable to the size of the shell in the filled state 7.

The method is implemented in the case of complete destruction of the bridge 3, as well as in the case of the formation of cracks 5 in the body of the bridge Z as a result of an explosion or under the influence of mining pressure. The appearance of significant cracks 5 leads to a sharp increase in the flow through the body of the jumper C and a drop in the pressure of the inert gas in the chamber between the jumpers 1 and 3.

A situation arises in which, due to a sharp drop in the aerodynamic resistance on the bridge Z, it becomes impossible to equalize the pressure in both branches of the O-shaped differential manometer 8. Overlap of the regulator on the nozzle 4 does not give a positive effect because the gas leaks through the cracks are comparable to the adjustment value i) gas consumption A depression appears on the main bridge and air with a high oxygen content begins to seep in, which leads to a recurrence of coal oxidation in the source of self-heating or combustion.

Fire extinguishing is done in the following way. Open the tap on the hose 9 and, controlling the pressure with the help of a manometer, fill the elastic shell 6 with air or inert gas, due to which it takes the form 7, covering the cross-sectional plane of the mine and significantly reducing the volume of the chamber and, between bridges 1 and 3 Controlling the size of the shell by adjusting the gas flow in the hose 9 changes the size of the gaps between the walls of the product and the fabric of the shell. This leads to a change in the pressure in the chamber between the main bridge 1 and the shell 7 and allows for the adjustment of the gas pressure on the bridge 1, bringing it - c5 to the zero level and controlling it with the help of a differential pressure gauge connected to the pneumatic cable 8.

Due to the use of the operation of remote control of the dimensions of the shell 7 using a hose with a pressure gauge 9, it becomes possible to resume the process of extinguishing a fire or preventing self-heating in the event of the destruction of an auxiliary bridge 3, and thereby reduce costs and accelerate the duration of emergency or preventive works. " - with

Claims (1)

The formula of the invention;" The method of supplying inert gas to the source of combustion or self-heating of coal, which involves reducing in the production from the side of the jet of air entering the source of combustion or self-heating of coal, insulating -I main and additional jumpers with holes, creating a gas mixture with a low content in the isolated part of the production of oxygen due to the supply of inert gas through the pipeline from the gasification plant into the space - between the jumpers and adjustment of the depression on the main jumper, which differs in that when the additional jumper is destroyed under the influence of mining pressure or due to the explosion of a dust-gas-air mixture, an elastic shell is used between the jumpers to restore the increased pressure of the inert gas, which is inflated remotely without disturbing the main jumper, at the same time, by changing the gas pressure in the shell, the GE depression on the main bridge is eliminated. F) name) 60 b5