RU2093225C1 - Method for fire-fighting under conditions of subzero temperatures - Google Patents

Abstract

FIELD: fire fighting; may be used in fire engines in zones of ambient subzero temperatures. SUBSTANCE: method involves preventing the icing of hoses and hose fittings of fire engines. Fire is fought with simultaneous supply of steam and water with temperature not below 170-180 C. Water supplied through hose line is converted in steam generator into steam phase to provided up to 90% of steam, then steam in the amount of 90% and remaining superheated water are supplied through nozzle located at the end of hose line to fire seat. EFFECT: higher efficiency. 2 cl

Description

 The invention relates to the field of fire extinguishing, and in particular to methods of extinguishing fires in conditions of low ambient temperatures.

 There is a method of extinguishing a fire at low temperatures, which consists in supplying water to the hose line of a fire engine, heating the latter to eliminate icing of the hose at low ambient temperatures, and supplying water to the nozzle located at the end of the sleeve (description of the invention, auth. Certificate. USSR N 1586722 Cl. A 62 C 33/00, 1990).

 However, the known method of extinguishing has limited functionality, because it does not allow to extinguish a fire simultaneously with steam and water.

 The objective of the invention is to expand the functionality of the method of extinguishing a fire by providing, along with the elimination of icing sleeves, the ability to extinguish a fire simultaneously with steam and water.

 Water fire extinguishing is known (see I.F. Kimstach et al. Fire tactics. M. Stroyizdat, 1984, p. 65), but in this case there is not only fire extinguishing using steam and water, but also simultaneous elimination of possible icing of the hoses and hose fittings of the lines involved in extinguishing the fire.

 This technical result in a method of extinguishing a fire at low temperatures, which consists in supplying water to the hose line of a fire engine, heating the latter to eliminate icing of the hose at low ambient temperatures and supplying water to the nozzle located at the end of the sleeve, is achieved by the fact that before water the nozzles carry out the conversion of superheated water into steam with the formation of steam in an amount up to 90% of the total mass of heated water, while extinguishing is carried out by simultaneously supplying from the nozzle about razovannogo steam and superheated water. In addition, the conversion of superheated water into steam is carried out using a steam generator built into the hose line.

 An example of the method of extinguishing a fire.

When a fire occurs in the zone with a low ambient temperature, the water supplied through the hose line of the fire truck is heated to a temperature of 170.180 ^o , then the heated water is fed to the steam generator installed at the end of the hose line, where the liquid phase of the water is converted to steam to form up to 90% couple. Then, up to 90% of steam is located at the end of the hose line of nozzles and the remaining superheated water is supplied to the fire source.

 The advantages of this extinguishing method are that it allows both to ensure the operability of the hose lines at low temperatures and to increase the efficiency of extinguishing a fire by supplying steam to the combustion zone using the mechanism of dilution of the oxidizing agent and more effective contact (compared with water) of the extinguishing agent means and combustion zones.

Claims (2)

 1. The method of extinguishing a fire at low temperatures, which consists in supplying water to the hose line of a fire engine, heating the latter to eliminate icing of the hose at low ambient temperatures, followed by its supply to the fire, characterized in that before the heated water enters the fire it is converted to the vapor phase with the formation of steam in an amount up to 90% of the total mass of heated water, while extinguishing is carried out by simultaneously supplying the generated steam to the fire and leaving if it forms superheated water.  2. The method according to claim 1, characterized in that the conversion of superheated water is carried out using a steam generator installed in the hose line.