RU2594087C1 - Method of modular fire extinguishing - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: method is intended for fire extinguishing. Method is implemented by means of vessel, storing fire-extinguishing substance, a vessel, in which fire-extinguishing substance is stored, fixed by brackets to building structure and is equipped with a gas phase discharge device, combined with measuring probe for fire-extinguishing substance and stop-starting device, which is connected by pipelines with foam generator comprising a fluid and gas feed system, supply of gas or air is performed through gas feed inlet into mixing chamber of foam generator from turbo-compressor, and liquid supply is performed in two directions, including axial feeding of fluid via feed pipe and series-connected and coaxial with confuser and cylindrical nozzle, and tangential liquid supply is performed through coaxial with cylindrical nozzle housing made in form of cylinder-conical sleeve, on cylindrical part of which is attached a vortex annular chamber with a pipe for supply of liquid, wherein at edges of annular chamber there are two rows of liquid feed tangential channels, wherein in each row there are at least three tangential channels connecting annular chamber with cylindrical chamber of housing, to which is coaxially attached a circular plate, located perpendicular to axis of vortex annular chamber, and perpendicularly to circular plate is attached slotted nozzle of two mutually perpendicular rectangular parallelepipeds with throttle through holes of rectangular section, connected to cavity of housing.

EFFECT: technical result is high efficiency of fire extinguishing due to usage of high-expansion foam.

1 cl, 1 dwg

Description

The invention relates to fire fighting equipment.

The closest in technical essence and the achieved result is the fire extinguishing method according to the patent of the Russian Federation No. 2478409, in which the fire is extinguished by means of a vessel in which the extinguishing agent is stored, and connected to a starting gas cylinder with a working gas (prototype).

A disadvantage of the known system is the relatively low fire extinguishing efficiency.

The technical result is an increase in the efficiency of fire fighting through the use of high-foam.

This is achieved by the fact that in the modular fire extinguishing method, which is carried out by means of a vessel in which a fire extinguishing substance is stored, and a vessel in which a fire extinguishing substance is stored, is attached with brackets to the building structure of the premises and equipped with a gas phase discharge device combined with a measuring probe for a fire extinguishing agent substances and a locking-starting device, for example, an electromagnetic type, which is connected by pipelines to a foam generator containing liquid and gas supply systems; gas or air is supplied They are driven through the gas supply inlet into the mixing chamber of the foam generator from the turbocharger, and the liquid is supplied in two directions, including the axial liquid supply through the inlet pipe and the confuser and cylindrical nozzle connected in series and coaxial with it, and the tangential liquid supply is carried out through the housing coaxial with the cylindrical nozzle made in the form of a cylindrical-conical sleeve, on the cylindrical part of which a vortex annular chamber with a nozzle for supplying liquid is fixed, while along the edge two rows of fluid supplying tangential channels are made in the pits of the annular chamber, while in each row there are at least three tangential channels connecting the annular chamber to the cylindrical body cavity to which a circular plate is arranged coaxially located perpendicular to the axis of the vortex annular chamber, and perpendicularly a slotted nozzle of two mutually perpendicular rectangular parallelepipeds with throttle through-holes of rectangular cross section connected to the case style.

The drawing shows a diagram of a device for implementing the modular fire extinguishing method.

A device for implementing the modular fire extinguishing method comprises a vessel 1 in which a fire extinguishing liquid is stored. It is attached by brackets 3 to the building construction 4 of the room and has a device for dumping the gas phase 2, combined with a measuring probe for extinguishing agent. The vessel 1 is equipped with a locking-starting automatic device 5 (ZPU), for example of the electromagnetic type, which is connected by pipelines 6 and 27 to the input of the extinguishing fluid into the foam generator.

The foam generator contains a two-way fluid supply system, including an axial fluid supply through a supply pipe 13 and a confuser 15 and a cylindrical nozzle 16 connected in series and coaxial with it. The tangential fluid supply is through the housing 17 in the form of a cylindrical sleeve, coaxial with a cylindrical nozzle 16, on a cylindrical parts of which a vortex annular chamber 18 is fixed with a pipe 19 for supplying fluid through a pipe 27, while at the edges of the annular chamber 18 two rows 20 and 21 of supply fluid of tangential channels (not shown in the drawing), while in each row there are at least three tangential channels connecting the annular chamber 18 with the cylindrical cavity 22 of the housing 17, to which a circular plate 23 is arranged coaxially, which is perpendicular to the axis of the vortex annular chamber 18, and rigidly connected to the cylindrical cavity 22 of the housing 17, in its end section, and perpendicular to the round plate 23, a slotted nozzle 24 is attached, which is combined and consists of two mutually perpendicular ryamougolnyh parallelepipeds 25 and 26 to throttle the through-holes of rectangular section, connected with the cavity of body 17.

The gas (air) is supplied through the input 14 of the gas supply to the mixing chamber 22 from the turbocharger 7 through the pipe 8.

The foam generator operates as follows.

The turbocharger 7 for supplying gas (air) is turned on, and the accelerated air stream is directed through the pipe 8 to the input 14 of the gas supply to the mixing chamber 22, where the formation of a two-phase flow occurs. Vortices of liquid are injected into the mixing chamber 22 through tangential channels placed in rows 20 and 21, which are mixed with the incoming air flow, resulting in a gas-droplet flow. The maximum values of the air pressure at the inlet to the nozzle and the relative concentration of water in the two-phase flow are selected from the condition of extremely tight packing of water particles in the air flow: gP = 5.7108 Pa, where P is the gas pressure at the inlet to the nozzle; g is the relative concentration of water in a two-phase flow. To achieve the required (over 50 m) range of a gas-droplet jet, the gas (air) pressure at the inlet to the nozzle must exceed P = 5.5105 Pa;

where Gin = 26 kg / s is the mass flow rate of water; Gvoz = 5.3 kg / s - mass air flow; Tcm = 298 K is the temperature of the two-phase flow; L = 1500 mm - the length of the body 5 of the cylindrical sleeve with a nozzle; D = 50 microns - the average diameter of water droplets in the air stream.

The two-phase flow created in the mixing chamber 22 with the above parameters is accelerated in the slotted combined nozzle 24 in two mutually perpendicular directions along the throttle through-holes of rectangular cross-section made by rectangular parallelepipeds 25 and 26. Using the combined nozzle allows you to compact a gas-droplet jet with a relatively uniform distribution of water droplets over cross-section of the jet and expand the feed zone of the gas-droplet jet.

The results obtained indicate that a two-phase flow, the parameters of which are selected according to the above conditions, is accelerated in the gas-dynamic housing to a speed at which the range of the gas-droplet jet is 65 m.

A device for implementing the modular fire extinguishing method works as follows.

When a fire occurs in the protected room (not shown in the drawing), the detectors 10, 11, 12 provide a signal to the control unit 9, which in turn generates an electrical pulse to open the switchgear 5 and turn on the turbocharger 7.

The liquid displaced from the tank 1 with compressed gas enters through the open locking and starting device 5, pipelines 6 and 27 into the foam generator in two directions, including an axial fluid supply through the inlet pipe 13 and the confuser 15 and the cylindrical nozzle 16 connected in series and coaxial with it. The tangential fluid supply is carried out through the housing 17 coaxial with the cylindrical nozzle 16 in the form of a cylindrical sleeve, on the cylindrical part of which a vortex annular chamber 18 with a pipe 19 for supplying fluid is fixed through the pipeline 27.

In the mixing chamber 22, a vortex air stream is mixed with a liquid to form a foam, which is a dispersed system where air bubbles are enclosed in thin shells of a non-combustible liquid (aqueous solutions of salts, acids, surfactants). The extinguishing effect of the foam is based on the isolation of the surface of the burning liquid from oxygen in the air and heated combustible vapors released from the surface of this liquid. Foam not only dramatically reduces the evaporation process, but also cools the surface of the burning liquid. Air-mechanical foam is formed by mechanical mixing of air and a surfactant (foaming agent PO-1 or PO-6). The air-mechanical foam contains about 90% (by volume) of air and 10% of an aqueous solution of a foaming agent. To extinguish fires, it is more efficient to use high-pressure air-mechanical foam, which contains about 99% (by volume) of air, 0.96% of water and about 0.04% of a foaming agent. The multiplicity of the usual air-mechanical foam is 8 ÷ 12, and the multiplicity is 100 or more. Durability of air-mechanical foam: from 20 to 40 minutes

Foam should be used when burning cotton fiber other poorly wettable fibrous materials. Foam is especially effective in extinguishing fires of flammable liquids (LVH), as well as combustible liquids.

The modular fire extinguishing method is as follows.

The vessel 1, in which the extinguishing agent is stored, is attached with brackets to the building structure 4 of the room and equipped with a gas phase discharge device 2 combined with a measuring probe for the extinguishing agent and a locking and starting device 5. The switchgear 5 is connected by piping 6 and 27 to a foam generator, which They are made in the form of a supply pipe 13 and a confuser 15 and a cylindrical nozzle 16 connected in series and coaxial with it. The tangential fluid supply is through the housing 17 coaxial with the cylindrical nozzle 16 in the form of a an indric sleeve, on the cylindrical part of which a vortex annular chamber 18 is fixed with a pipe 19 for supplying liquid through a pipe 27, while along the edges of the annular chamber 18 there are two rows 20 and 21 of fluid supplying tangential channels (not shown in the drawing), each there are at least three tangential channels connecting the annular chamber 18 with the cylindrical cavity 22 of the housing 17, to which the circular plate 23 is arranged coaxially, which is perpendicular to the axis of the vortex annular chamber 18, and rigidly with union of the cylindrical cavity 22 of the housing 17, at its end section and perpendicular circular plate 23 attached slotted nozzle 24, which is configured combined and consists of two mutually perpendicular rectangular parallelepipeds 25 and 26 to throttle the through-holes of rectangular section, connected with the cavity of body 17.

The signal to turn on the turbocharger 7 is supplied simultaneously with the signal to turn on the shut-off and start-up automatic device 5 from the control unit 9 of the fire extinguishing system. To ensure automatic fire extinguishing, the ZPU 5 and the turbocompressor 7 are connected electrically through the control unit 6 with smoke detectors 10, 11, 12.

Claims (1)

The method of modular fire extinguishing, which is carried out by means of a vessel in which a fire extinguishing substance is stored, and a vessel in which a fire extinguishing substance is stored, is attached with brackets to the building building structure and is equipped with a gas phase discharge device combined with a measuring probe for a fire extinguishing substance and a locking and starting device which is connected by pipelines to a foam generator containing liquid and gas supply systems, the gas supply is carried out through the gas supply inlet to the turbine foam generator mixing chamber compressor, and the fluid supply is carried out in two directions, including the axial fluid supply through the inlet pipe and the confuser and the cylindrical nozzle connected in series and coaxial with it, and the tangential fluid supply is carried out through the housing coaxial with the cylindrical nozzle, made in the form of a cylindrical-conical sleeve, the cylindrical part of which is mounted a vortex annular chamber with a nozzle for supplying fluid, while along the edges of the annular chamber there are two rows of tangential fluid inlets channels, while in each row there are at least three tangential channels connecting the annular chamber to the cylindrical cavity of the housing, to which a circular plate is arranged coaxially, perpendicular to the axis of the vortex annular chamber, characterized in that a slotted nozzle is attached perpendicularly to the circular plate of two mutually perpendicular rectangular parallelepipeds with throttle through-holes of rectangular cross section connected to the cavity of the housing.

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