RU2007583C1 - Process of control of underground fires - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: isolating ice belt is formed in worked out space. Water is saturated with gaseous methane before sprinkling. Sprinkling of water is performed in stream of gaseous methane, alternating its delivery with feed of liquid gas. Saturation with water is carried out under increased pressure of methane as compared with atmospheric one. Methane for this purposes is pumped out from worked out space or coal pillars. EFFECT: improved efficiency of fire control. 4 cl, 1 dwg

Description

 The invention relates to the mining industry and can be used to combat fires that occur in the worked out space.

 A known method of dealing with underground fires, including the construction of insulating strips in the worked-out space by supplying foam [1].

 There is also a method of dealing with underground fires, including the construction of ice insulation strips [2].

 The disadvantage of this method of combating underground fires is the lack of effectiveness due to the duration of the ice strip and its rapid melting.

 The aim of the invention is to increase the efficiency of fire fighting by reducing the time to create an insulating strip and increasing its stability.

 This goal is achieved by the fact that according to the method of fighting underground fires, including the construction of ice insulating strips in the worked out space by spraying water and liquefied gas, water is saturated with methane gas before spraying, and water is sprayed in a stream of methane gas, alternating with the supply of liquefied gas, moreover, the saturation of water with methane is carried out under increased pressure of methane. To saturate water and supply it to the spraying place, methane is pumped out of the worked out space or coal pillars, and nitrogen is used as a liquefied gas.

 The drawing shows a diagram of the proposed method.

 The scheme includes a mined-out space 1 with a coal-mining complex 2, in which a pipeline 3 with nozzles 4 for spraying liquefied gas supplied through a pipe 5 from a tank 6 is laid, a pipe 7 with a nozzle 8 for spraying water saturated with methane and methane coming through a pipe 9 from the installation 10, as well as a pipeline 11 with a pump 12 for pumping methane from the worked-out space 1.

 The method is as follows. When working out a fire hazardous formation or when toxic or combustible gases are emitted from a worked-out space in a worked-out space 1, pipelines 3 and 7 with nozzles 4 and 8 are laid down behind complex 2, pipeline 3 is connected by pipeline 5 to capacity 6 to dispense liquefied gas, for example nitrogen. Pipeline 7 is connected by pipeline 9 to installation 10, where methane is saturated with water and methane is supplied together with water to pipeline 9. Methane to installation 10 is taken from the worked-out space 1 using the pipe 11 and pump 12. To freeze the ice strip in the worked-out space 1 alternately liquefied gas from nozzles 4 and water saturated with methane are sprayed together with gaseous methane from nozzles 8. When water and methane are fed onto the surface of coal and rocks, methane-saturated water is supplied, supplied methane reduces the amount of generated methane water. Then liquefied gas is sprayed, which leads to freezing of water. Due to the increased freezing temperature of methane-saturated water, less liquefied gas will be required to create an ice strip. After the formation of such an ice strip, the quality of insulation increases due to the greater safety of such ice. (56) Copyright certificate of the USSR N 1321834, cl. E 21 F 5/00, 1985.

 USSR copyright certificate N 872775, cl. E 21 F 5/00, 1979.

Claims (4)

 1. METHOD FOR COMBATING UNDERGROUND FIRES, including the construction of ice insulating strips in a worked-out space by spraying water and liquefied gas, characterized in that, in order to increase efficiency in fighting fires by reducing the time of creating an insulating strip and increasing its stability, water before they are saturated with methane gas by spraying, and water is sprayed in a methane gas stream, alternating with the supply of liquefied gas.  2. The method according to p. 1, characterized in that the saturation of water with methane is carried out under increased pressure of methane.  3. The method according to PP. 1 and 2, characterized in that methane to saturate the water and supply it to the place of its spraying is pumped out of the worked out space or coal pillars.  4. The method according to PP. 1 to 3, characterized in that nitrogen is used as a liquefied gas.

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