SU1621957A1 - Method of fireproof protection - Google Patents

Abstract

The invention relates to methods for fire protection of large buildings and objects located in them. The aim of the invention is to increase the efficiency of fire extinguishing, simplify fire protection technology and reduce the cost of fire fighting equipment. The method allows to simplify the fire extinguishing technology as a result of more rational supply and distribution of foam, as well as reduce the cost of building a fire extinguishing system by reducing the required amount of water and reducing the installed power of the pumping power equipment to form the foam. The fire protection method is that with a multiple of more than 70, they form at a pressure of a stream of an aqueous solution of the foaming agent 0.20-0.45 MPa and distribute it in a uniform stream with an intensity of at least 3.5 10 m / m s, with the foam jets directed upwards to the overlap from the delivery point with a hemisphere radius of at least 8 m. At the same time, the foam is fed into the internal space of objects located in the building. 2 hp f-ly. SO with

Description

The invention relates to methods for fire protection of large buildings and objects located in them (for example, large aircraft hangars).

The aim of the invention is to increase the efficiency of fire extinguishing.

This fire protection goal is achieved by the fact that foam with a multiplicity of more than 70 is formed at a pressure of a stream of an aqueous solution of a frother of 0.20-0.45 MPa and distributed in a uniform stream with an intensity of at least 3.5 m3 / m2-s, and the foam jets are directed Up to the overlap from the feed point with a hemisphere radius of at least 8 m. At the same time, the foam is fed into the inner

space of objects located in the building.

The technology for generating and distributing a uniform foam flow for fire protection is as follows.

To extinguish a fire, foam with a multiplicity of more than 70 is formed at a pressure of a stream of an aqueous frother solution of 0.20-0.45 MPa and is distributed by a single distribution system under the building’s overlap (for example, an aircraft hangar). On this system, stationary systems are located at a distance of 0.5-0.7 m from the overlap of HMS-type foam agents. Moreover, the distance between the foam generators is not more than 2 radii of foam jets. Foam generators are arranged so that uniform foam jets

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a hemisphere radius of at least 8 m is directed upwards to the overlap of the hangar so that they evenly irrigate the building structures and overlap, the pad, foam would also irrigate the upper surface of the aircraft located in the hangar, and a foam layer should be formed on the floor the onset of the critical moment will flood the unwashed parts of the aircraft.

Simultaneously with the supply of foam to the stationary foam generators, located under the overlap of the hangar, to extinguish a possible fire inside the aircraft, foam with the specified properties is fed into its internal space. For this, a foam generator placed in the salon is temporarily (for the duration of preventive maintenance) connected to the stationary system for supplying and distributing foam.

Claims (3)

1. The method of fire protection of the interior of buildings by supplying foam of a certain multiplicity and distributing it over the room is sufficient so that, in order to simplify the process, more than 70 foam is distributed in a uniform flow with intensity not less than 3.5-103 m3 / s2, and the foam jets are directed upwards to the overlap of the room with a hemisphere radius of at least 8 m. 2. A method according to claim 1, characterized in that the foam with a multiplicity of more than 70 is formed at a pressure of a stream of an aqueous solution of a foaming agent of 0.25-0.45 MPa. 3. A method according to claim 1, characterized in that, simultaneously with the supply of foam, it is directed upwards into the interior of objects located in the room.