SU1020130A1 - Fire fighting method - Google Patents

Abstract

1. FIRE EXTINGUISHING METHOD by supplying a mass of extinguishing agent to the burning zone, characterized in that, in order to increase efficiency. As a fire extinguishing agent, granules of porous heat insulating material are used, the pores of which are prefilled with a cooled low boiling inhibitor. 2. The method according to claim 1, characterized in that, in order to reduce heat loss during transportation of the fire extinguishing agent to the fire, the granules of the heat insulating material are made of different porosity, and the granules with greater porosity are placed in the center of mass of the fire extinguishing composition, and the lower porosity by periphery. ,

Description

The invention relates to methods for extinguishing fires, namely, extinguishing exogenous fires in mine workings.

A known method of extinguishing fires by feeding into the combustion zone a mass of extinguishing agent [1].

The disadvantage of this method is the inefficiency of extinguishing high-temperature combustion zones.

The purpose of the image is to increase the efficiency of extinguishing fires in mining. ” . »’ ·>

The goal set _{t is} achieved in that according to the method of extinguishing a fire by supplying a mass of a fire extinguishing agent to the combustion zone, granules of porous heat-insulating material, the pores of which are pre-filled with a cooled low-boiling inhibitor, are used as a fire extinguishing agent.

In this case, the granules of the heat-insulating material are made of different porosity, and granules with greater porosity are placed in the center of mass of the extinguishing agent, and less porosity - on the periphery.

The drawing schematically shows an embodiment of the proposed method.

The technological chain of the method comprises a loading unit 1 with capillary-porous granules 2, a cooler 3 made in the form of a thermally insulated container, a Dewar vessel 4 filled with refrigerant, for example liquid nitrogen or freon, a lock chamber 5 and an air duct 6 with a fan 7. The method is carried out mainly at extinguishing exogenous fires 8 that occur in dead-end mine workings 9. When an exogenous fire 8 occurs in dead-end mine 9, fire extinguishing means having the above process chain are located generating inlet 9 and is connected to the duct 6 of the ventilation system for ventilation purposes laid. Then, capillary-porous granules 2 are fed from cooler 3 to the cooler 3, which are filled with liquid refrigerant from a Dewar vessel 4. The capillary-porous granules 2 immersed in the refrigerant are cooled to its boiling point. So, for example, in the case of using liquid nitrogen, capillary-porous granules are cooled to -195.8 ° C. At the same time, their pores and capillaries are saturated with liquid refrigerant by impregnation and hold it well. Then, from the cooler 3, saturated and frozen capillary-porous bodies 2 are fed into the lock chamber 5 and then into the air duct 6, where they are picked up by the air flow from the ventilator 7 and transported to the fire center 8.

The use of capillary-porous bodies made of heat-insulating material, such as polystyrene, is due to the fact that, due to the low boiling point of liquid nitrogen (-195.8 ° С), it is difficult to use it directly by direct supply as a means of extinguishing, since it has time to evaporate on the way to the fire.

In the pores of capillary-porous granules, due to their heat-insulating properties, nitrogen remains in liquid form for a long time, being well retained in the pores due to 15 capillary forces. The finely porous structure of the surface of capillary-porous granules enhances the effect of nitrogen retention in them, and the large-porous structure of the central part increases the useful volume.

When granules enter the combustion zone, ²⁰ liquid nitrogen and freons located in their capillaries and pores evaporate intensively, leaving the capillaries outward in the form of an inhibitory cloud. The resulting reactive forces cause capillary 25 porous bodies to move vigorously in the burning area, break and crumble, freeing liquid refrigerant from the pores. Active heat exchange occurs between the refrigerant and the surface layer of burning materials, and therefore, a more efficient decrease in the combustion temperature is provided.

As a result of a deep decrease in the temperature of the heated layer, the decomposition of organic compounds and the forcing of volatiles entering into exothermic oxidation reactions are sharply inhibited, and combustion ceases.

Using the proposed method of extinguishing a fire allows us to provide the following advantages compared to existing methods:

increase the range of transportation of liquid quick-extinguishing extinguishing agents, which is especially important when eliminating fires in dead-end mining;

directly affect the burning area with low-boiling inhibitory refrigerants, which makes it possible to quickly and efficiently deal with high-temperature fires, especially when extinguishing burning coal in mines;

reduce material and labor costs associated with the elimination of fires by increasing the rate of extinguishing;

provide better safety conditions and reduce injuries during mine rescue operations.

VNIIIPI Order 3760/7 Branch of the PPP "Patent", g.

Circulation 440 Subscription

Uzhhorod, st. Project, 4

Claims (2)

1. FIRE EXTINGUISHING METHOD by feeding a mass of extinguishing agent into the combustion zone, characterized in that, in order to increase the extinguishing process, granules of a porous heat-insulating material are used as an extinguishing agent, the pores of which are pre-filled with a cooled low boiling inhibitor. 2. The method according to π. 1, characterized in that, in order to reduce heat loss during transportation of the extinguishing agent to the fire, the granules of the heat-insulating material are made of different porosity, and granules with greater porosity are placed in the center of mass of the extinguishing composition, and less porosity around the periphery.