SU883508A1 - Method of extinguishing underground fires - Google Patents

Description

The invention relates to the mining industry and can be used to extinguish underground fires. The known method of extinguishing endogenous underground fires, including the creation of fire gases in an isolated fire fighting area 1. The shortage of this method is that when there is recirculation of fire gases, the process of reducing the oxygen content in isolated areas is rather long due to large volumes of these plots. In addition, combustible gases released in insulated sites (for example, methane) are released to the fire, increasing the fire in it. Under certain conditions, these gases can cause an explosion in an isolated volume. There is also known a method of extinguishing underground fires, including the isolation by jumpers of a fire section from the delineating workings, and repeated smoothing. Cooling and injecting fire gases into the fire zone by passing them through an air duct with a cooling chamber and a 2j fan installed in it. The disadvantage of this method is also the high oxygen content in the fire gas mixture of the isolated area. The purpose of the invention is to improve the efficiency of extinguishing fires in gas-rich coal mines by reducing the oxygen content in the mixture of combustible gases accumulating in the firearms insulated by bridges. The goal is achieved by the fact that before being cooled in the cooling chamber, the gases that are sucked from the fire section are passed through the combustion chamber, while methane is also removed from the fire department, which is sucked off from the exhausted space by means of degassing wells and transported through the gas pipeline into the combustion chamber.

The drawing shows the implementation of the proposed method

Jumpers 3 and 4 are constructed in the ventilation 1 and the exhaust 2 workings of the fire department. These jumpers connect the air duct having the suction 5 and discharge 6 ends, as well as the local ventilation fan 7, the combustion chamber 8 and the cooling chamber 9 built into the air duct. Combustible the gas (methane) enters the combustion chamber from the degassing wells 1O via gas line 11. Water for cooling the fire gases flows through line 12 and is regulated by valves 13 and 14.

The gases emanating from the source of fire 15 flow through the ventilation drift to the suction end of the air duct. Then, through the pipeline 13, the gases reach the combustion chamber 8, where, due to the burning of methane, it has passed in the decontamination system of the emergency section, there is a sharp decrease in the methane content in the gas jet. Then the heated fire gases are cooled in the chamber 9 and through the fan 7, are returned via the discharge pipeline to the fast section.

Using the proposed method of extinguishing a fire in gas-shafting mines reduces the time required to reduce oxygen in an isolated volume to a value that does not support: burning, reduce the intensity of burning in the fire center due to the pre-burning of the combustible gases released in an isolated volume, to eliminate the danger of boiling up

In the emergency area mevdedel yan.

Claims (2)

5 The claims. A method of extinguishing underground fires, including isolation of fire section jumpers from delineating workings, multiple sequential suction, settling and injection of fire gases into the fire zone by passing them through an air duct with a cooling chamber and a fan installed in it, characterized in that the effectiveness of fire extinguishing in gas-rich coal mines by reducing the oxygen content in the mixture of combustible gases accumulating in the isolated fire fighting SG portion aspirated from the fire site gases before they are pre-cooled in the cooling chamber is passed through the combustion chamber wherein the portion of the fire is withdrawn as methane, which otsastayut of vfabotannogo space via degassing wells and transported by pipeline as a combustion chamber.  Sources of information taken into account in the examination. 1, SCCP Copyright Certificate No. 618564, cl. E 21 F 5 / GS, 1975. 2.PPP No. 63726, cl. Е 21 F 5 / ОО, published. 1971 (prototype).