RU2674710C1 - Autonomous installation of foam fire extinguishing, fire extinguishing system of large reservoirs with flammable liquids - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: invention relates to the field of foam fire extinguishing. In the method, the autonomous installation is a sealed container with water, inside which there is a tank for storing a foaming agent with a gas generator of its displacement into the container with water and forming a foaming agent solution, which is saturated with the products of combustion of the charge and under the pressure of the gases, formed in the gas generators of displacement, is fed to the burning object with the formation of low-expansion foam. This claimed method is carried out using a fire extinguishing system, which includes two or more autonomous installations, equipped with fire detectors, and at the signal of a triggered detector, the first one is turned on, which is diametrically opposite to the fire center.EFFECT: rapid extinguishing of large fires in tank farms for fuel storage, warehouses, workshops, and the burning of various petroleum products in open spaces is ensured.4 cl, 3 dwg

Description

The invention relates to the field of foam fire extinguishing, namely to extinguish fires of combustible and flammable liquids, covering large areas of combustion in warehouses, workshops, in large tank fuel storage parks, when burning spilled flammable and combustible liquids in open spaces.

It is known that the most common means of extinguishing fires is air-mechanical foam, formed by applying a foaming solution under pressure to a foam generator, from the outlet of which the foam is supplied to the fire object. With this method of foaming, a significant consumption of water and a foaming agent is required, for example, when extinguishing a tank with burning gasoline, it is necessary to supply 114 liters of a six percent solution per 1 m ^{2 of} burning surface (NP Kopylov “Modern fire trucks: problems of creation, innovative solutions, development concepts . Means of rescue. Fire protection. "Catalog, M., 2005, pp. 66-68).

Typically, foam generators are installed on the cut of fuel tanks or placed on the foam lifts of fire trucks. In this case, as a rule, in a powerful flame torch, foam generators burn out and do not fulfill their main function of the formation and supply of foam.

In various countries, work has been done on the production and use of water-gas foam compositions (German Patent No. 1559679, IPC A62C 99/00, publication date 04/16/1970, UK patent No. 1219363, IPC A62C 3/02, publication date 01/13/1971 and etc.).

The gas phase of these compounds are freons, carbon dioxide, nitrogen, exhaust gases from automobile and aircraft engines. These water-gas compositions are fed to the foam generators with the formation of foam of medium and high multiplicity, which is difficult to apply at a considerable distance.

A close analogue is a device for generating foam (US Patent No. 3402771, publication date 09.24.1968).

A significant drawback of extinguishing using compressed gases is the need to use a large number of cylinders, which complicates the design of the installation and increases its weight.

A device is known for producing self-foaming gas-filled foam. Application RU No. 2016114621 dated 04/14/2016, IPC A62C 5/02, A62C 3/06 (2006.01) adopted as a prototype of the claimed device.

The essence of this technical solution lies in the fact that in a device for producing a self-foaming gas-filled foam, which includes a sealed container, a gas-generating device with a solid fuel charge, a system of pipelines and supply pipes, a gas-generating device is equipped with an aerosol-forming charge, is installed in the upper part of the tank and is equipped with a gas-water a pipe with an external heat-shielding coating; a conical section of mountain aerosol products is installed in the lower part of the gas pipe charge with radial openings, ensuring their outflow into the lower part of the tank and bubbling of the foaming solution with saturation of the solution with a fire extinguishing aerosol, and the generator of the gas generating device is made in the form of a set of aerosol generators consisting of two or more generators having separate combustion chambers with gas pipes and included simultaneously, sequentially or in groups in accordance with the required intensity of the supply of the foaming agent solution to the combustion zone.

The objective of the proposed technical solution is to simplify the process of storage of the foaming agent and to obtain gas-filled foam inside the unit, since long-term storage of the solution of the foaming agent in water is impossible due to delamination of the solution and the foaming agent settling to the bottom of the container due to its greater specific gravity than water. To avoid this, periodic mixing of the stored solution is required.

In the proposed installation, the storage of the water supply and the foaming agent is carried out separately, which ensures its long-term safety without carrying out maintenance of the installation and replacement of foam components.

In this invention, the foam is formed when the blowing agent is displaced into the container with water by means of a solid fuel gas generator in which the charge of the aerosol forming solid fuel during combustion forms gases that create pressure and provide intensive mixing and the formation of a uniform solution saturated with combustion products.

The developed autonomous fire extinguishing installation is a container with water, inside which there is a tank for a foaming agent with a gas generator for displacing it, and around the tank there is a multi-chamber gas generator equipped with charges from a special aerosol-forming solid fuel. The sequential inclusion of the chambers of the gas generator allows you to adjust the gas inlet and the pressure level of the displacement of the foaming agent solution.

Charges from special solid fuels contain in their composition the optimal amount - up to 65% of potassium salts, which form fine particles of aerosol during combustion, filling the bubbles of the resulting foam. When oil products enter the combustion zone, aerosol particles inhibit flame combustion in the tank and contribute to intensive fire fighting.

The inventive autonomous foam fire extinguishing installation is shown in FIG. 1. It consists of a tank 1 with water 2. Inside the tank, a tank 3 with a foaming agent 4 is mounted; in the upper part of the tank 3 on the flange 5 a gas generator 6 is installed for displacing the foaming agent.

In FIG. 2 shows a tank 3 with a gas generator 6, inside which a charge is installed 8. An electric initiator 7 is installed in the cover of the gas generator 6. A rod 9 connects the gas generator 6 to a nozzle 10 having openings 11. At the bottom of the nozzle 10, a membrane 12 is mounted, which is clamped by a tip 13 with radial holes fourteen.

The membrane 12 provides the separation of water 2, charged in the tank 1 and the foaming agent 4, filled in the foam tank 3, which allows for a long time to maintain the original characteristics of these components of the foam.

Gas generators 15, providing intensive mixing of the foaming agent solution and the displacement of the resulting foam through the pipe 21 through the spray nozzles 22 to the fire object, are launched by electric initiators 16. Inside the gas generators 15 charges of the gas-generating composition 17 with an armor coating 18 are placed, which allows you to change the area of the burning surface of the charge and Thus, regulate the gas inlet and foam displacement pressure.

The gas generators 15 are equipped with gas pipes 19, having in the lower part tangentially arranged in two rows holes 20 directed in the opposite direction, which provides intensive mixing of the foaming solution with saturation with aerosol combustion products and the formation of foam bubbles.

The foam fire extinguishing installation is placed on the stand 23 and does not require special fastening and foundations.

Autonomous installation of foam fire extinguishing works as follows.

When in standby mode, an autonomous foam fire extinguishing installation does not have internal pressure and voltage.

In the event of a fire, an electrical signal is supplied to the initiating device 7 by the signal of the fire detector or manually. FIG. 2, which ignites the charge 8 in the chamber 6 of the gas generator of the tank 3 for storing the foaming agent 4, the tank 3 is mounted on the flange 5. When the charge is burned, gases are formed that escape to the upper part of the tank 3 above the mirror of the foaming agent and create pressure. The pressure of the foaming agent 4 through the holes 11 of the nozzle 10 breaks through the membrane 12, pinched by the tip 13 and through the holes 14 flows into the container 1 with water 2. The effluent of the foaming agent is intensively mixed with water, forming a ready solution of the foaming agent. After a set time, the control panel generates an electrical signal to start the electric initiator 16 of FIG. 1 of a gas generator 15 equipped with a charge 17 coated with an armor coating 18. The gases generated during the combustion of the charge 17 through the gas pipe 19 through the tangential holes 20 exit into the lower part of the foaming agent, mix it intensively and saturate the bubbles of the resulting foam with the products of charge combustion 17 containing fine particles aerosol. Foam under pressure through a pipe 21 through nozzles 22 is fed to a mirror of burning petroleum products, forming a protective coating that prevents the access of oxygen to the combustion zone. With partial destruction of the foam, proceeding at high temperature, the particles of the extinguishing aerosol create a protective layer of the extinguishing aerosol above the fuel mirror, which inhibits the combustion process and stops it quickly. This dramatically increases the efficiency of fire extinguishing and, thus, foam and aerosol fire extinguishing methods are carried out simultaneously.

For example, when extinguishing 8 tons burning gasoline in natural conditions in the reservoir PBC-5000 on an area of 350 m ² total cessation combustion autonomous installation extinguishing ensured for the time from 24 to 35 seconds, and on the tank RVS-20000 ^m3 to extinguish 46 tons gasoline on an area of 1350 m ² extinguishing was provided for a time not exceeding 70 seconds. with a wind force of up to 15 m / s.

Moreover, the time of free burning of gasoline in tanks from the moment of ignition to the beginning of the quenching by an autonomous installation was from 2 to 3 minutes.

On the basis of an autonomous foam fire extinguishing device, a fire extinguishing system with a wide range of uses has been developed, which allows for cost-effective fire extinguishing in large oil tanks.

A known fire extinguishing system, including an initiating device, a pressure source, a water tank, pipelines, sprayers. Water spraying occurs under the pressure of gaseous products when the initiating device is triggered (RF application No. 94032661, IPC А62С 3/10).

A known method and fire extinguishing system based on the use of aerosol gas generators, while the aerosol is pre-cooled with water, nitrogen or carbon dioxide (Europatent No. 0561035 IPC A62D 1/100).

A known invention relating to automatic installations of water-foam fire fighting. The water fire extinguishing system contains a pipeline distribution network equipped with sprinkler sprinklers with controlled start-up, a fire alarm and control device, as well as fire detectors and a signal line. The pipeline distribution network is divided into zones and is equipped with additional addressable remote start devices, which makes it possible to form an optimal irrigation area.

However, the proposed system is not effective in relation to the protection of oil tanks, because suggests a branched network of irrigators, which is subject to destruction and failure during explosions and fires on tanks (RF patent No. 2414699 IPC А62С 37/08, В05В 12/00).

All of these systems use only one agent as a fire extinguishing agent - either aerosol or water.

As a prototype of the proposed system adopted the combined fire extinguishing system as the closest in technical solution (RF application No. 94002970, IPC AC 35/00).

The system includes means for detecting tanning, extinguishing devices, and means for activating said devices.

When used in the proposed design of the prototype aerosol-liquid generator with an additional ejector device, the entire fire extinguishing system becomes cumbersome and difficult to operate.

The technical task of the invention is to remedy these disadvantages while increasing the efficiency of fire fighting.

The problem is solved by creating a fire extinguishing system containing at least two stand-alone fire extinguishing installations with initiation means, fire detectors, a control panel, pipelines with flat outlets forming fan-shaped compact jets of low-level foam. The compact jet has greater range - to the opposite wall of the tank.

Autonomous foam fire extinguishing installations are placed evenly in a circle around the tank.

The initiation of an autonomous fire extinguishing installation in the event of a fire is carried out automatically by an electric signal from the control panel from a detector, for example, thermal, smoke, optical, installed, for example, at the end of a jet pipe nozzle.

It is also possible to start the installation manually by turning on the toggle switch, as well as a device with a prismatic capsule or grate igniter.

A diagram of the proposed fire extinguishing system is shown in FIG. 3.

A reservoir 24 contains a flammable liquid or a flammable liquid 25. In a stand-alone unit 1 (Unit No. 1 and Unit No. 2), a fire detector 26 with a field of view angle of at least 90 ° is installed on the spray nozzle 22. The signal from the fire detector 26, for example, installation No. 2, is transmitted via cable line 27 to the remote control 28.

It is possible to transmit a signal to the remote control 28, as well as to start the initiators of the installations over the air.

The system works as follows: if there is a fire of the oil product, for example, in the area where the unit No. 1 is located, the fire detector 26 mounted on the nozzle 22 of the unit No. 2 is activated. The signal through the cable line 27 is transmitted to the control panel 28, which generates an electrical signal to start the initiator 7 of the gas generator 6 of the installation No. 2. When the charge is burned, the foaming agent of this unit is displaced in the tank with water, it is intensively mixed with the formation of a uniform solution and then, according to the cyclogram, the remote control sends an electrical signal to start the initiators 16 of the gas generator 15. The pressure of the gases - products of combustion 17 forms a foam, which through nozzles 22 of unit No. 2 is fed to the opposite edge of the tank in the zone of occurrence of tanning and quickly extinguishes it. In this case, there is no need to include installation No. 1, which provides a significant economic effect.

When conducting full-scale fire tests of autonomous installations on tanks with a volume of 5000 m ³ and 20,000 m ^3, it was noted that the flame front of burning gasoline, when firing near the side, reached the opposite side and covered the entire mirror of burning fuel for up to 20 seconds. Thus, rapid flame detection, a short time for the unit to reach the foam supply mode (3-5 sec.) And intense extinguishing allowed to stop the spread of combustion over the entire area of the tank and suppress the fire.

In the case of exposure to adverse atmospheric factors - strong wind up to 15 m / s, the quenching was provided by two autonomous installations.

Claims (4)

1. Autonomous fire extinguishing installation, including a water tank, a foam tank and a pipe with a nozzle, characterized in that the foam tank with a gas generator for pressure displacement is fixed inside the tank with water, and coaxially with it, has a hole closed in the bottom rod with a sealing ring, holes are made in the lower part of the rod and a separation membrane is installed inside the rod, pinched by a tip with a foaming agent in the bottom of the hole in the container with water, and a wok foam generator gas generators have been installed for foam displacement with charges placed in them containing from 40% to 65% potassium salts, and with gas pipes for supplying combustion products under pressure into the lower part of the tank through tangentially located openings in two tiers and directed in the opposite direction for intensive mixing the solution with saturation of the combustion products, the formation of foam and feeding it through the pipeline and nozzles on the fire object. 2. Fire extinguishing installation according to claim 1, characterized in that the charges in the combustion chambers of the gas generators for displacing the solution are coated with an armor protective composition at the ends completely or partially and completely or partially along the side surface. 3. The fire extinguishing system of large tanks with flammable liquids, containing autonomous fire extinguishing installations, fire detectors, a control panel, an initiating device, pipelines and sprinklers, characterized in that two or more autonomous fire extinguishing installations are located uniformly around the tank, initiating one, two or more autonomous installations it is carried out automatically from the control panel by a signal from fire detectors, for example, smoke, spectral, mounted on sprinklers, moreover, by a signal that worked zveschatelya first fire extinguishing installation is activated, to the fire located diametrically opposite to, but include the following units, in the event of fire, also performed at the receipt of signals from other detectors. 4. The fire extinguishing system according to claim 4, characterized in that the initiating device is made in the form of an electromagnetic device based on a solenoid coil with a steel spring rod controlled by a thermal lock, upon destruction of which an induced electrical signal is supplied to the initiating device of a diametrically located fire extinguishing installation.

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