RU22188U1 - SYSTEM OF PREVENTION AND LOCALIZATION OF ENDOGENOUS FIRE IN THE EXISTING PLOT - Google Patents

Abstract

A system for preventing and localizing endogenous fires in the existing section, including the supply of foam through perforated pipelines to the worked out space of the formation processed by the mechanized complex, characterized in that in the area of the worked out space of the formation worked out by the mechanized complex of the formation, a vertical pipeline section is additionally installed on a flexible sleeve moreover, the end part of the vertical pipe segment is provided with a foam flow dispersant with gas ejector made in the form of a fine-mesh foam generator grid.

Description

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ENDOGENOUS FIRE WARNING SYSTEM AND LOSHZZSTSH AT THE EXISTING PLOT

The utility model relates to the mining industry and can be used in coal mines in the fight against endogenous fires that occur in the worked out space.

There is a method of preventing and localizing endogenous fires with a device. For its implementation, which includes supplying to the worked out space of a layer processed by a mechanized foam complex with a multiplicity of 50 to 200 with a dosage of I to 5 foam per I m of collapsed coal., The foam being the worked-out space is fed in cyclically: to feed after moving the roof support before the roof collapses, to finish feeding after it collapses and to squeeze out foam due to the roof support sections (autosvid, USSR 635252, class E 21 P 5/00, 1977).

The disadvantage of the method of giving its implementation is the cyclical flow of foam into the emptiness of the worked-out space behind the lining, and not into collapsed rocks. In this case, the high insulating effect of the foam, due to its high viscosity, is not used. In addition, there is a large amount of unnecessary work related to the prophylactic treatment of coal losses throughout the lava dune, while BpeMjj, as the places where endogenous fires occur, are confined only to carts, breathable near-edge zones of the worked out space.

Closest to the utility model is a method for preventing and localizing endogenous fires using a device for its implementation, which includes feeding foam into the worked out space of a reservoir processed by a mechanized complex, when foam is supplied for the complex by using perforated pipelines laid in a ditch that they are formed by a combine between the complex and the face within the marginal road of the tsukhop; the crushed zone of the worked out space (ed. certificate of the USSR J IOI6532, class E 21 P 5/00, I98I).

A disadvantage of the known method and technological system of the device is the incomplete continuity of the foam curtain in the path of filtration flows of wagons, tsukha directly in the marginal zone, especially on coal seams of high power, due to the destruction of the foam of low multiplicity when it rises from the soil of the seam over collapsed rocks, which does not exclude the passage ventilation flow .for П0.1 SHIELDS of the fire center in the worked out space and removal of spontaneous ignition products to the working space under the complex.

The purpose of the utility model is to increase the efficiency of preventing and localizing endogenous fires in the worked out space by increasing the reliability of the technological process of the created foam curtain while reducing material and labor resources. This is achieved by the fact that the foam curtain in the breathable zones is formed in the form of duh foam layers; the lower layer of foam of low multiplicity and the upper of foam of medium multiplicity, which is formed on the contours of the worked lava due to the dispersion of the foam flow to additional suction of the atmosphere of the worked out space with obtaining finer cellular foam on an additional foam generator installed at the outlet of the vertical section of pipe installed on the height of the power of the coal seam. In this case, the possible yield of spontaneous combustion products is preserved in the foam bubbles (an additional positive effect is achieved).

Distinctive features of the predicted technical process for the implementation of the utility model is the creation of a foam curtain and increased reliability of the complex protection while reducing material and labor resources, since the horizontal and vertical sections of pipe sections are wound beyond the extreme sections of the complex, and no special passage is required by the ditch harvester. laying of sections of perforated pipes rigidly fixed to the foam pipe. Passing the ditch by the harvester through the soil of the reservoir, giving a deeper hole to the perforated pipe sections, leads to breakage of the cutters and excessive time. In addition, the effect of preserving exiting procs, spontaneous combustion ignitions is achieved. Figure 1 shows a diagram of the implementation of the method; figure 2 shows sections of the vertical and horizontal pipe segments to create a foam curtain.

.. „models

Scheme. For the implementation of the method of implementation

This includes open space I, coal mining complex 2, airtight permeable zones 3 and 4, ventilation drift 5, conveyor drift 6, pressure foam generator 7, foam pipe 8, horizontal perforated pipe sections 9, vertical pipe section 10 along the formation with an ejector II and daspergator 12 in the form of a foam mesh connected to the foam 8 by means of a flexible metal hose 13, while the pipe 10 is directed upward of the reservoir.

When there is a danger of an endogenous fire in the worked out space I or with the aim of preventing the fire gases from escaping under the working space of complex 2 on the way of leakages and leaks in the airtight zones 3 and 4 of the equipment, blow protection, for which they are connected to the foam duct 8 by means of flexible metal hoses 13 with the plant for the extreme sekshchi sections of perforated pipes 9 and 10. In this case, the vertical sections 10 are fixed in a vertical position on the side edges of the mine workings 5 and 6. For the formation of a foam curtain in the zones Ax 3 and 4 include a foam generator 7, which under pressure injects low-level foam Multiplicity 50-80) through the foam pipe 8 into the worked-out space for complex 2, namely, pipe sections 9 and 10. In this case, foam sections are created through horizontal sections 9 plugs with their accumulation and filling @ .m of zones 3 and 4, and the foam entering under pressure into the vertical sections of pipes 10 ejects an additional volume of the gaseous atmosphere of the worked-out space through the ejector II and is redistributed to

foam grid 12 with the exit of a fine-meshed structure with a greater multiplicity (100-150) already on the formed low-level foam plug. The advantage of the foam after the daspergator is its greater mobility (permeability) through the collapsed rocks and fracture with obtaining a more reliable foam curtain in zones 3 and 4. At the same time, there is a fact of conservation of gas leaks fire times in the foam bubbles, which increases the efficiency of protection. In addition, the vertical sections of the pipes 10 provide a constant connection of the volumetric foam curtain as the complex 2 progresses with reliable preventive treatment of the side marginal zones of coal ..

The effectiveness of the foam curtain created by the utility model device is judged by the reduction of leakages (leaks) and by the reduction or complete disappearance of indakato fire gases. The mode of supply of foam and the necessary, the yield, the diameter of the new pipe section 9 and 10 are determined by the results of air and

gas filming. In this case, it is possible to create a foam curtain only in zone 4 from the side of the air inlets, spirit along the ventilation drift 5.

An improvement of the famous. in practice, the protection systems of coal mining complexes during the development of fire hazardous seams using the proposed model of devices of the utility model will increase the efficiency of preventive work and reduce the cost of their production.

  M.A. Chernova

  - A.E. Chuprikov

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.Igishev X u B, Popov

Claims (1)

A system for preventing and localizing endogenous fires in the existing section, including the supply of foam through perforated pipelines to the worked out space of the formation worked out by the mechanized complex, characterized in that in the zone of the worked out space worked out by the mechanized complex of the formation, a vertical section of the pipeline is additionally installed on the flexible sleeve moreover, the end part of the vertical pipe segment is provided with a foam flow dispersant with gas ejector made in the form of a fine-mesh foam generator grid.