SU1681021A1 - Method of locating places of spontaneous combustion - Google Patents

Abstract

The invention relates to the mining industry and can be used in the fight against spontaneous combustion arising in the developed space (VP). The purpose of the invention is to increase the efficiency of the detection of spontaneous combustion foci. When mining a coal seam, particles of a ferromagnetic material, pre-magnetized, or particles of several ferromagnetic materials are introduced into the EP. having a different Curie point. From the surface, the change in the magnetic field in the treated volume of the VP is monitored. In the event of a fire source in the EP, the ferromagnet particles in it begin to demagnetize under the influence of temperature. When the Curie point is reached for a given ferromagnet, their magnetization disappears. Thus, by reducing the magnitude of the magnetic field, self-ignition is detected. The location of the center of spontaneous combustion is determined above the surface point, where the maximum decrease in the magnetic field is recorded. The temperature of the center of spontaneous combustion is determined by sharp drops in the magnetic field above the focus, identifying it with the Curie point for the ferromagnets used in processing the EP. 1 h. item f-ly, 1 ill.

Description

The invention relates to the mining industry and can be used in combating spontaneous combustion arising in the inaccessible part of the goaf.

The aim of the invention is to increase the efficiency of detection of spontaneous combustion foci.

The drawing shows a flow chart of the proposed method.

The scheme includes the developed space 1 with a nidus of spontaneous combustion, into which pre-magnetized ferromagnetic particles are introduced with a flow

fluids from tank 3 through well 4 or with gas flow 5 from mine workout 6, into which ferromagnetic particles are sprayed by device 7, and device measuring magnetic field 8,

The method is implemented as follows.

When mining a coal seam prone to spontaneous combustion, pre-magnetized particles of a ferromagnetic substance are introduced into the mined space 1. For the bulk distribution of particles in a cluster of coal and rock, it is advisable to use a liquid, which is introduced into the ferromagnetic particles, after which

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I drive into the open space 1 from the tank 3 along the borehole 4. An alternative method for introducing particles can be their spraying by the device 7, located in the mine workout 6, in the gas flows 5 entering the developed space. Such a supply may be carried out continuously or periodically as the coal reserves prepared for excavation are mined. It is also possible to introduce magnetized ferromagnetic particles into the worked-out space simultaneously in liquid and gas flows. After introducing the magnetized particles into the generated space 1, the magnitude of the magnetic field is measured by the device 8, which is moved over the surface above the treated developed space. In the event of a spontaneous combustion site 2, the magnetized ferromagnetic particles found there are demagnetized under the effect of a rising temperature. When the Curie point is reached for a given ferromagnet, their magnetization disappears. A decrease in the magnitude of the magnetic field is fixed by the device 8 mounted on the surface above the treated developed space. Then, moving the device 8 over the surface, the point at which the maximum decrease in the magnetic field is observed is determined. It is this point that is the vertical projection of the spontaneous combustion center on the surface.

With the introduction of magnetized particles of several ferromagnetic materials, for example, having a Curie point of 200, 350, and 500 ° C, continuous monitoring of the magnitude of the magnetic field of the treated volume is carried out. The first sharp drop in the magnitude of the magnetic field above the source will be at a temperature that is the Curie point for a ferromagnet with a minimum value of this magnitude (200 ° C). Subsequent sharp drops in the magnitude of the magnetic field occur successively at temperatures of the center of 350 and 500 ° C. Knowing the temperature of the center approximately, you can select the required amount and type of refrigerant.

The use of this method makes it possible to increase the efficiency of extinguishing underground fires by detecting them in time and locating them at early stages of development.

FORUMAWLAH AND ISLANDS

Claims (2)

1. A method for detecting spontaneous combustion foci, including the introduction of indicators into the developed space, characterized in that, in order to increase detection efficiency of spontaneous combustion foci, as an indicator, pre-magnetized particles of ferromagnetic material or several ferromagnetic materials with different Curie points; in this case, the change in the magnetic field of the treated volume is monitored from the surface, and spontaneous combustion is detected by a decrease in the magnetic field, and The location of the outbreak of spontaneous combustion is determined under a point on the surface where the maximum decrease in the magnetic field is recorded. 2. A method according to claim 1, characterized in that when introducing magnetized particles of several ferromagnetic materials with a different Curie point into the developed space, the temperature of the spontaneous ignition center is additionally determined by sharp drops in the magnetic field above the source. 7 2 eight