RU2678257C1 - Method of obtaining self-foaming gas-filled foam and device for its implementation - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to the field of foam fire extinguishing, in particular, to the extinguishing of fires of combustible and flammable liquids, covering large areas of combustion, large storage tanks of petroleum products and their straits over a large area. Essence of the proposed method lies in the fact that in the method of obtaining the self-foaming gas-filled foam, which consists in bubbling the products of combustion through the foaming agent solution and the saturation of the specified solution with gases in an airtight container and its supply to the combustion chamber with the formation of a self-expanding gas-filled foam on its surface, during the creation of the foaming solution, the concentrated foaming solution is intensively mixed with water in the tank, and then with a delay of 3 to 10 seconds, the resulting foaming agent solution is supplied to the combustion chamber. Essence of the claimed device lies in the fact that in a device for producing a self-foaming gas-filled foam, including a sealed container, gas generating device, made in the form of a set of aerosol generators, consisting of two or more generators, having separate combustion chambers with gas pipes, included simultaneously, sequentially or in groups in accordance with the required intensity of the supply of the foaming agent solution to the combustion site and the aerosol generators providing the exhaust of the combustion products to the lower part of the tank and bubbling of the foaming agent solution with the solution saturated with fire extinguishing aerosol, hermetic tank is filled with water, and the concentrated foaming solution is stored in a separate tank, on which a gas-generating device is installed, similar to generators mounted on a tank with water.

EFFECT: method is proposed for producing a self-foaming gas-filled foam.

2 cl, 1 dwg

Description

The invention relates to the field of foam fire extinguishing, namely to extinguish fires of combustible and flammable liquids, covering large combustion areas, large storage tanks for oil products and their spills over a large area.

It is known (A.I. Veselov, L.M. Meshman. Automatic fire and explosion protection of enterprises of the chemical and petrochemical industries. M: "Chemistry", 1975, p. 8) that the most frequently abnormally burn petroleum products in containers and tanks since the water contained in oil products boils during combustion up to 100 ° С and higher and contributes to the release of the burning mass.

It is known that the most common means of extinguishing fires of flammable and flammable liquids is air-mechanical foam, obtained by applying a foaming solution under pressure to a foam generator. When extinguishing reservoirs with burning gasoline, it is necessary to supply 114 liters of a 6% foaming solution per 1 m ^{2 of the} burning surface of flammable liquids (N.P. Kopylov Modern fire trucks: problems of creation, innovative solutions, development concepts. Rescue equipment. Fire protection. Catalog M, 2005, p. 66-68).

Extinguishing methods are widely known, including the supply of fire extinguishing substances - liquid, gaseous, in the form of powders to the combustion zone (USSR Author's Certificates No. 1210855; 1155273; 155148; 1516123; 1326284 and others).

In various countries, work was carried out on the production and use of water-gas foam compositions (German Patent No. 1559679, class A62C 99/00, publ. 04.16.1970; British Patent No. 1219363, class A62C 3/02, publ. 13.01. 1971 and others).

The gas phase of these compounds are freons, carbon dioxide, nitrogen, exhaust gases from automobile and aircraft engines. These water-gas compositions are supplied to the foam generators with the formation of foam of medium and high multiplicity.

A known method of fire extinguishing (its variant), a device for its implementation (its variants) and fire extinguishing system (Patent RU No. 2111551, A62C 2/00 (1995.01), A62C 35/00 (1995.01), publ. 09/10/1998, Fig. 3 )

The invention is solved by the creation of a fire extinguishing method by the complex effect of an inhibitory aerosol and a fire extinguishing agent on the burning area, which are supplied simultaneously from a single device in the form of a stream of a fire extinguishing agent sprayed in a cooled inhibiting aerosol. A variant of the method has been developed, which consists in the simultaneous or sequential supply of at least two different devices of a cooled inhibitory aerosol and a fire extinguishing powder and / or fire extinguishing liquid sprayed into a cooled aerosol from a different source of combustion. Fire extinguishing is carried out automatically or manually. To implement the proposed variants of the fire extinguishing method, device variants have been developed that are structures that include an aerosol generator and containers with extinguishing powder or liquid, interconnected. Based on the proposed method and devices, a fire extinguishing system with a wide range of uses has been developed, which allows combining aerosol fire extinguishing with aerosol-powder and aerosol-liquid.

A device for producing a self-foaming gas-filled foam (Patent RU No. 2622815, IPC АСС 5/02 (2006.01), publ. 06/20/2017), adopted for the prototype of the inventive 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.

However, long-term storage of the finished solution of the foaming agent in a sealed container of the named device is impossible, since it decomposes into separate fractions. These data are confirmed in the work (ND Gutsev, N.V. Mikhailova, G.N. Kuprin, D.S. Kuprin, A.V. Vinogradov, V.V. Vinogradov. Results of laboratory studies of the properties of quick-hardening foam with the aim of assessing the possibility of using it to create fire foam strips.Proceedings of the St. Petersburg Forestry Research Institute, No. 1, 2016; http://journal.spb-niilh.ru/pdf/1-2016/spbniilh-proceedings-1- 2016-2-full.pdf).

The objective of the proposed technical solution is to increase the efficiency of the device for producing self-foaming gas-filled foam by ensuring the long-term storage of individual components of the foaming agent solution (water and concentrated foaming solution) in separate containers and supplying these components in case of fire using separate gas generators.

The essence of the proposed method lies in the fact that in the method of producing a self-foaming gas-filled foam, which consists in bubbling the combustion products through a foaming solution and saturating the specified solution with gases in a sealed container and feeding it into the combustion zone with the formation of a self-foaming gas-filled foam on its surface, when creating a foaming solution the concentrated foaming agent solution is intensively mixed with water in a container, and then, with a delay of 3 to 10 s, the floor is fed permeable solution of the foaming agent in the combustion zone.

The essence of the claimed device lies in the fact that in a device for producing a self-foaming gas-filled foam, including a sealed container, a gas-generating device made in the form of a set of aerosol generators consisting of two or more generators having separate combustion chambers with gas pipes that are switched on simultaneously, sequentially or in groups in accordance with the required intensity of the supply of the foaming agent solution to the combustion zone and providing the flow of products of combustion of the gene tors aerosol into the lower part of the container and bubbling the foaming solution with a saturated solution of fire-extinguishing aerosol, the sealed container is filled with water and a concentrated solution of the foaming agent is stored in a separate container, on which are mounted gas-generating device similar generators mounted on the water tank.

The technical effect realized by the claimed method is determined by the following.

Intensive mixing with water in a container of a concentrated foaming agent solution when creating a foaming agent solution, and then feeding the resulting foaming agent solution with a delay of 3 to 10 s into the combustion zone allows to obtain optimal physical and mechanical properties (fire resistance, flowability, optimal foam ratio, adhesive ability, mechanical strength, in terms of dynamic viscosity, bulk stability, and so on) self-foaming gas-filled (quick-hardening) foams .

At the same time, with a delay of up to 3 s in the foaming agent solution, the process of simultaneously proceeding the polycondensation of the resin in the presence of acid, foaming, and the fire-retardant foam layer formed at the outlet has a non-uniform structure.

At the same time, when the foaming agent is supplied with a delay of more than 10 s through the supply pipe, the structural and mechanical parameters of the foam deteriorate, based on the general rules for the destruction of foams based on foaming surfactants (http://www.xumuk.ru/colloidchem/200.html) .

The technical effect realized by the claimed device is determined by the following.

Being in standby mode of water in an airtight container, and a concentrated foaming agent solution in a separate container, allows for long-term storage of individual components of the foaming agent solution.

The installation of a gas generating device similar to generators mounted on containers with water allows the supply of these components of the foaming agent in case of fire using separate gas generators.

According to the authors of the invention, the characteristics given in the claims are necessary and sufficient to achieve the specified technical result, that is, they are essential.

Thus, the distinguishing features of the proposed technical solution are new and meet the criterion of "novelty."

When determining the conformity of the distinguishing features of the invention with the criterion of "inventive step", the prior art and, in particular, known methods and devices related to the field of foam fire fighting were analyzed.

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, А62С 3/10, publ. 06/20/1996).

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, A62D 1/100).

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

A fire extinguishing device and a system based on it are known (RF application No. 94002970 A62C 35/00, publ. 06/20/1996). The system includes means for detecting tanning, extinguishing devices, and means for activating said devices. When used in the design of an aerosol-liquid generator with an additional ejector device, the entire fire extinguishing system becomes cumbersome and difficult to operate.

Known portable installation for the production of compression (gas-filled) foam (A. A. Krektunov, M. R. Shavaleev, V. V. Batyushev, A. V. Bikulov, S. I. Osipenko, Ural Institute of State Fire Service of the Ministry of Emergencies of Russia, Yekaterinburg. Technosphere safety , 2016 No. 2 (11); URL: http://uigps.ru/content/nauchyy-zhurnal) in which long-term storage of the components of the foaming agent solution is not provided.

Analysis of other technical solutions showed that the known methods and devices do not solve the previously mentioned problems, solved by the claimed method and device.

Based on the foregoing, we can conclude that the claimed technical solution meets the condition of patentability "inventive step", and the invention itself is new.

The implementation of the technical solution can be implemented as follows.

When implementing the proposed technical solution, it is necessary to consider the following well-known information from the prior art.

The work (EN Ivanov, Fire protection of open technological installations, 2nd edition revised and supplemented. M., Chemistry, 1986, pp. 210-220) provides examples of stationary fire extinguishing installations using air-mechanical foam. In this work (p. 210), it was noted that earlier in the practice of designing and constructing automatic fire extinguishing installations for tanks with oil and products of its processing, a fire protection installation was found to be widespread, including a pump station with two groups of pumping and power equipment (for water supply and an aqueous solution of a foaming agent), reservoirs for storing a supply of water, two strands of a water supply network (for supplying water and an aqueous solution of a foaming agent), wells and chambers for placing shut-offs and fittings and control and start-up units to turn on the supply of an aqueous solution of a foaming agent to stationary foam generators and so on.

However, according to the inventors, these plants have a complex structure, and their construction requires significant capital costs.

It is known (Scientific library of dissertations and abstracts disserCat http://www.dissercat.com/content/gorenie-poristykh-gazogeneriruyushchikh-i-aerozoleobrazuyushchikh-sostavov-dlya-sredstv-pozh#ixzz58TvA6Y8k) that more and more gas use modern samples of military and space technology. They received the greatest distribution as means of pressurization of various objects:

- purge missile tanks before launch;

- pressurization of liferafts, gutters, vests, means of lifting sunken objects;

- Promotion of gyrocompass rotors;

- creation of working environments of gas-dynamic lasers (GDL) and so on.

As means of pressurization, gas-balloon devices are traditionally used. However, in the last 10-15 years, more effective pyrotechnic gas-generating devices have been increasingly used.

The main advantages of pyrotechnic gas generators over gas-balloon devices:

- high reliability of operation due to the impossibility of gas leakage during long-term storage;

- the ability to provide, if necessary, high boost speeds (2-3 m3 / s), due to the use of high-energy gas-forming compounds;

- large warranty periods of storage (10-15 years);

- a significant simplification of maintenance during operation due to the lack of the need to control gas leakage;

- low metal consumption of products, since the working pressure of gas generators is 2-4 MPa, while GBU - 10-15 MPa and gas generating devices do not require the use of thick-walled metal cases.

It is known (Scientific library of dissertations and abstracts disserCat http://www.dissercat.com/content/gorenie-poristykh-gazogeneriruyushchikh-i-aerozoleobrazuyushchikh-sostavov-dlya-sredstv-pozh#ixzz58TP2ozFq) that the main technical and aerosol means indicators (high fire extinguishing ability, autonomy, the possibility of automatic actuation, ease of operation, minimal damage to the application) surpass all means previously used to extinguish a fire. Moreover, in a two-phase aerosol system, the gaseous component, as a rule, a mixture of inert gases, does not support combustion, and freshly formed highly dispersed solid particles have a high fire extinguishing ability.

It was previously established (Scientific library of dissertations and abstracts disserCat http://www.dissercat.com/content/gorenie-pirotekhnicheskikh-gazogeneriruyushchikh-sostavov-i-razrabotka-ustroistv-dlya-sredst#ixzz58TbRw8fs), which depends on the method There are three main types of fire extinguishers: pressurized, with a gas-filled device and with a gas-generating device (GGU).

Fire extinguishers with a gas generator have significant advantages over fire extinguishers with a gas cylinder and pump-type fire extinguishers:

When creating the present invention, it was taken into account that the possibilities of increasing the efficiency of devices for producing self-foaming gas-filled (quick-hardening) foam are far from exhausted. In particular, the analysis of modern theoretical ideas about the processes for producing a foaming agent solution after long-term storage of its components showed a great prospect for the application of the claimed technical solution.

The figure shows a device that implements the inventive method in standby mode.

The device includes an airtight container 1 filled with water 2. In the upper part of the tank 1 there is a gas generating device 3 made in the form of a set of aerosol generators consisting of two or more generators having separate combustion chambers. Each gas generating device 3 has a charge 4, during the combustion of which gaseous combustion products are formed.

Opposite each gas generating device 3 on the tank 1 mounted ignition device 5 charge 4.

The combustion chamber of the generator is connected to the corresponding gas pipe 6 with an external heat-insulating coating.

In the lower part of the tank 1, a pipeline 7 is mounted for delivering a foaming agent solution to the supply pipe 8, made in the form of a jet tubular flat sprayer.

The container 1 itself and all its elements are rigidly fixed to the stand 9.

The device has a separate container 10 for storing a concentrated solution of foaming agent 11.

A gas generating device 12 is installed on the tank 11, similar to the generators 3 mounted on the tank 1 with water 2.

The gas generating device 12 has a charge 13, during the combustion of which gaseous combustion products are formed.

Opposite the gas generating device 12 on the tank 10 mounted ignition device 14 of the charge 13.

A pipe 15 is mounted in the lower part of the tank 10 for delivering a concentrated solution of the foaming agent 11 to the lower part of the tank 1 in the zone of preparation of the foaming solution.

The container 10 itself and all its elements are rigidly fixed to the stand 16.

The device operates as follows.

If a fire occurs, a signal from the ignition sensor or manually activate the ignition device 14, as a result of which the corresponding charge 13 of the gas generating device 12 is activated.

The concentrated foaming agent solution 11 is displaced from the container 10 due to the generated excess pressure by the combustion products of the aerosol-forming charge composition 13. Then the concentrated foaming agent solution 11 enters the lower part of the container 1, where in the preparation zone of the foaming agent a mixture of water 2 and the named concentrated solution are mixed.

Mixing of the components (water 2 and concentrated foaming agent solution 11) during the preparation of the foaming agent solution is carried out, depending on the pressure in the container 1, over a period of 3 to 10 seconds.

After that, the ignition device 5 is activated, as a result of which the corresponding charge 4 of the gas generating device 3 is activated.

The combustion products of the charge 3 pass through the gas pipe 6 to its lower part of the tank 1.

In the zone of preparation of the foaming agent solution, additional intensive mixing of water 2 and the concentrated solution of foaming agent 11 is carried out due to gas bubbles containing products of combustion of the aerosol-forming charge composition 3. These gas bubbles sparge in the zone of preparation of the foaming solution.

At the same time, while bubbling the products of combustion of charge 3 through a foaming agent solution, this solution is saturated with gases containing condensed particles of potassium salts. The size of aerosol particles is a few microns.

It is known the use of fire extinguishing powders based on mineral salts of alkali metals in aerosol formulations (Baratov A.N. Gorenie-Fire-Explosion-Safety. - M .: FGU VNIIPO EMERCOM of Russia, 2004, p. 364). Which have a high inhibitory ability (Bolshaya Sovetskaya Encyclopedia, vol. 27, p. 265 onwards; A.N. Baratova, A.P. Vogman "Fire extinguishing powder compositions", M., Stroyizdat, 1982, p. 66).

The most effective for these purposes are alkali metal salts of potassium and cesium, for example, potassium sulfate (K ₂ SO ₄ ) and cesium sulfate (Cs ₂ SO ₄ ), which have the highest recombination coefficients of atomic particles of hydrogen and oxygen, which are the active centers of chain reactions during burning.

The present invention uses potassium alkali metal salts, which are more available.

These salts are formed in the claimed technical solution when burning the aerosol-forming composition of each of the previously noted charges.

It was previously established (Patent RU No. 2622815, IPC А62С 5/02 (2006.01), published on 06/20/2017) that when extinguishing oil products, partial destruction of the foam occurs due to high temperature on the surface of the burning liquid, while particles of potassium salts located above the liquid, form a protective aerosol layer - a blanket, inhibit the flame combustion process and stop it. This dramatically increases the efficiency of fire extinguishing and, thus, a foam and aerosol fire extinguishing method is carried out simultaneously.

Subsequently, after vigorously mixing water 2 and a concentrated solution of foaming agent 11, and saturating the aforementioned components with gases containing condensed particles of potassium salts, a ready-made foaming solution is obtained, which is delivered from the lower part of the tank 1 via pipeline 7 to the supply pipe 8, after which the named foaming solution fed through a jet tubular flat spray to a burning surface.

Upon receipt of a foaming agent solution on a burning surface, a self-foaming gas-filled (quick-hardening) foam is obtained. It was previously established (Testing of new fire extinguishing chemical compositions and development of recommendations for their use: report on research (conclusion) / FBU SPbNIIILH; head Gutsev ND; performed by: Artsybashev ES, Mikhailova N.V. ., Korchunova I.Yu. - St. Petersburg, 2014. - 254 p. - Bibliography: p. 112-120. - No. GR 01201255954. - Inv. No. 215022440055, 11) that self-foaming gas-filled (quick-hardening) foam is capable of polymerizing in a short amount of time. The curing time is changed by selecting the ratio of the components of the foam 17. This is confirmed by the data provided in the known technical solutions (Patent RU No. 2590379, С01В 33/16 (2006.01), publ. 07/10/2016; Patent RU No. 2645542, А62С 3/02 (2006.01 ), publ. 02.21.2018).

To verify the effectiveness of the proposed technical solution, experimental studies were carried out to extinguish 46 tons of burning gasoline on an area of 1350 m ² .

Test results showed that:

- separate placement of the components of the foaming agent solution (water in a sealed container, concentrated foaming solution in a separate container) ensures long-term storage of these components;

- the best structure of the foaming agent solution obtained by mixing its components (depending on the pressure created in the sealed container) is observed for a time from 3 s to 10 s from the moment the mixing process of the above components begins.

- when a foaming agent enters the burning surface, a rapid formation of self-foaming gas-filled (quick-hardening) foam is observed. The time of formation (curing) of the foam, as previously established (Patent RU No. 2590379, СВВ 33/16 (2006.01), publ. 07/10/2016; Patent RU No. 2645542, А62С 3/02 (2006.01), publ. 02.21.2018) depends on the temperature of the burning surface and the amount of acid hardener added at the final stage of the creation of quick-hardening foam;

- the extinguishing of the fire site was observed for a time from 20 s to 70 s (with a wind force of up to 15 m / s) from the moment of the beginning of the process of supplying the foaming agent solution to the named center.

The industrial applicability of the proposed technical solution is different as follows.

Devices for producing self-foaming gas-filled (quick-hardening) foam, currently produced in Russia and abroad, make it possible to realize the claimed invention by refining elements and components of their design, which in some cases will be insignificant for the claimed technical solution.

Storage of the individual components of the foaming agent solution (water and concentrated foaming agent solution) in separate containers allows the use of these components for a long time, which significantly affects the economic performance of the proposed method.

So, for example, a device for producing self-foaming gas-filled foam (Patent RU No. 2622815, IPC А62С 5/02 (2006.01), published on 06/20/2017) and many other similar devices do not provide long-term storage of the ready-made foaming agent in a sealed container, since this the solution breaks up into individual components.

Existing methods and devices allow you to control the combustion process of the aerosol forming composition in the gas generator. At present, a new type of pyrotechnic gas-forming compounds has been developed (, Scientific Library of Dissertations and Abstracts disserCat http://www.dissercat.com/content/gorenie-poristykh-gazogeneriruyshchikh-i-aerozoleobrazuyushchikh-sostavov-dlya-sredstv-poa#zzzzzzzzzzz. capable of burning steadily, without passing into an explosion, in the forced filtration mode of reaction products through the unburned part of the porous charge and having a number of unique properties, such as low temperature of the generated gas and high safety characteristics; proved the possibility of using in this mode of combustion of formulations that are not capable of self-combustion according to the traditional scheme with conductive heat transfer.

Designed gas generators with a gas outlet temperature of less than 150 ° C, characterized by the simplicity of the device and providing a given, including pulsating, gas flow. A method for controlling the burning rate of compositions using the design parameters of a gas generator is proposed.

The specified design of gas generators can be used in the claimed technical solution when applying both the components of the foaming agent solution and the foaming agent itself using separate gas generators.

The claimed technical solution is simple to operate and can improve the efficiency of obtaining self-foaming gas-filled foam, by ensuring long-term storage of individual components of the foaming agent solution (water and concentrated foaming agent solution) in separate containers.

Claims (2)

1. A method of producing a self-foaming gas-filled foam, which consists in bubbling the combustion products through a foaming agent solution and saturating the specified solution with gases in a sealed container and feeding it into the combustion zone with the formation of a self-foaming gas-filled foam on its surface, characterized in that when creating a foaming solution a concentrated foaming solution intensively mix with water in a container, and then, with a delay of 3 to 10 s, the resulting solution is foamed eating in the hearth of burning. 2. A device for producing self-foaming gas-filled foam, including a sealed container, a gas-generating device made in the form of a set of aerosol generators, consisting of two or more generators having separate combustion chambers with gas pipes, switched on simultaneously, sequentially or in groups in accordance with the required the intensity of the supply of the foaming agent solution to the combustion zone and the aerosol generators providing the outflow of combustion products to the lower part of the tank and sparging thief blowing agent to saturation of the solution extinguishing aerosol, characterized in that the sealed container is filled with water, and concentrated foamer solution is stored in a separate container, on which are mounted gas-generating device similar generators mounted on the water tank.

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