WO2011078727A1

WO2011078727A1 - Fire-extinguishing method

Info

Publication number: WO2011078727A1
Application number: PCT/RU2009/000761
Authority: WO
Inventors: Григорий Константинович ИВАХНЮК; Владимир Николаевич МАТЮХИН; Виктор Алексеевич КЛАЧКОВ; Владимир Алексеевич РОДИОНОВ; Владимир Петрович КРЕЙТОР; Алексей Владимирович ИВАНОВ
Original assignee: Ivahnjuk Grigorij Konstantinovich; Matjuhin Vladimir Nikolaevich; Klachkov Viktor Alekseevich; Rodionov Vladimir Alekseevich; Kreytor Vladimir Petrovich; Ivanov Alexey Vladimlrovich
Priority date: 2009-12-25
Filing date: 2009-12-25
Publication date: 2011-06-30
Also published as: RU2504414C1

Abstract

The proposed invention relates to fire-extinguishing and can be used for extinguishing class A fires (solid fuel substances and materials), and also forest and peat fires. The problem addressed in said invention is to increase the efficiency of the fire-extinguishing method, to reduce extinguishing times and also to increase the versatility of the method, i.e. to enable use of various specialized fire-extinguishing devices. With this aim, it is proposed to extinguish fires with the aid of nano-sized forms of fire-extinguishing substances which can be produced as a result of physicochemical reactions taking place under the action of a high temperature in fire-extinguishing substances which can be dispersed above the centre of the fire.

Description

Fire extinguishing method

The present invention relates to fire fighting and can be used to extinguish class A fires (solid combustible substances and materials), as well as forest and peat fires.

All fire extinguishing agents (OTV) used to extinguish forest and peat fires can be divided into five categories: solutions, emulsions, foams, suspensions and solids. Each of these categories can be divided into several subgroups that differ in physical and chemical properties and extinguishing mechanisms.

The extinguishing agent proposed by the authors belongs to the category of solutions. Known solutions based on water with additives for various purposes to extinguish fires.

For example, in RF patent N ° 2209645 an extinguishing composition is described which contains halogenated hydrocarbons - ethyl bromide, stabilizers - tall pitch and ammonium hydroxide in the following ratio of components: ethyl bromide 10-20 wt.%, Tall pitch 0.1-0.2 wt. .%, ammonium hydroxide 0.45-1, 0 wt.%, water - the rest.

The disadvantage of this composition is the small fire extinguishing capacity and low efficiency.

The RF patent N ° 2310421 describes a method of extinguishing a fire by supplying water saturated with carbon dioxide to the fire source. Water is saturated to a mass gas concentration of 2 ^ 6%, after which the gas-liquid mixture is frozen to a temperature of -15 -20 ° C, forming briquettes weighing 4 ^ -12 kg, which cover the fire. This method is very difficult to use and not effective enough.

The closest, in combination of essential features to the proposed, is a method of extinguishing a fire using a fire extinguishing solution according to the patent of the Russian Federation 2262367.

Known solution contains ground clay, ground asbestos, sodium chloride and water. The combination of components in a certain ratio provides an effective, inexpensive and easy-to-use aqueous composition. The disadvantages of the known composition are: lack of effectiveness;

- the inability to obtain the finished OTV in the air;

- the ability to supply only by dumping (discharge);

- inability to suppress smoldering foci of burning forest litter and, especially, peat massifs;

due to the fractional composition and structure of OTV, the impossibility of using fire extinguishing in knapsacks.

The problem solved in this invention is to increase the efficiency of the method of extinguishing a fire, reducing the time of extinguishing, and also increasing the versatility of the method, that is, the ability to use various specialized devices for extinguishing a fire.

In order to solve the problems posed, it is proposed to extinguish fires using nanoscale forms of extinguishing agents obtained as a result of complex physicochemical reactions of the interaction of air moisture and extinguishing agents that occur under the influence of high temperature in extinguishing agents sprayed over the fire.

Additional differences of the extinguishing method we offer are that:

- it is proposed to use solutions (mixture) of chlorosilanes as extinguishing agents;

- it is proposed to use silicon tetrachloride as chlorosilanes;

extinguishing concentration of silicon tetrachloride in the volume of the quenching zone is 300-700 mg / m ³ ;

- fire extinguishing concentration of silicon tetrachloride in the volume of the quenching zone is 400-500 mg / m ³ ;

- extinguishing agent is sprayed over the burning area by aircraft;

- extinguishing agent is discharged (discharged) above the burning area by aircraft;

- extinguishing agent is sprayed using portable fire extinguishing backpacks. The use of chlorosilanes allows you to achieve the quenching effect in several directions at once, while almost all known quenching methods will be implemented.

Currently, there are four main ways to stop burning in a fire, namely cooling, dilution, isolation and inhibition (chemical inhibition of oxidation reactions).

Due to its physicochemical properties, chlorosilanes, especially tetrachlorosilane, have a mass exceeding more than five times the mass of air. When sprayed, they are able to form a cloud, tending downward, in which complex physicochemical processes will already take place, namely hydrolysis processes, as a result of which a mixture of reaction products and condensed air moisture is formed. The composition of the mixture formed during the spraying process includes: a powerful inhibitor of combustion processes - hydrogen chloride, a high-density nanosized mixture of silicon oxides, while critically small distances are formed between the particles, as a result of which the combustion chain reaction is blocked.

The processes occurring during the spraying of chlorosilane, primarily the hydrolysis process, proceed according to a scheme similar to the hydrolysis of alkylchlorosilanes and orthosiliconate esters. The reaction of tetrachlorosilane with water can be schematically written as follows:

n H2O + S1CI4 = [Si (OH) ₄ ] * nH ₂ 0+ HC1

It should be remembered that the water involved in the reaction is air moisture and physically and chemically bound water released during the burning of forest and peat massifs, and water that is a product of thermal degradation (combustion products) of these materials. The formation of silane compounds having a fire extinguishing effect during the quenching by this solution is also not ruled out, namely, there is evidence that when exposed to moist air on S1CI4, nanosized compounds, for example, S1CI3OH, Si ₂ OCl ₆ , Si ₂ OCl ₅ OH, will precipitate.

A protective layer is formed on the surface of combustible substances (materials) and / or particles, which prevents the formation of thermal degradation products. The colloidal system formed during the spraying process, reaching the surface of the earth, acts as a fire extinguishing agent according to the above described At the same time, the mechanism also penetrates the HFA into the thickness of the peat massif and, thereby, the mechanism of suppression of heterogeneous combustion processes is realized.

To determine the fire extinguishing efficiency, the authors conducted experiments both on the extinguishing of model A fire centers and artificially created mixed forest, while forest litter, including the peat layer, was also simulated. The peat layer was simulated using natural peat of natural moisture. Extinguishing was carried out in two ways, namely, compact and finely dispersed jets. In all cases, n Mrassu _veschesatvi, putting chlorosilanes there was a complete cessation of (reduction) all vie and _sp askhodovannoogdov combustion processes, namely, ardent and so _have shenie

flameless (decay). Termination of the n model focal processes of heterogeneous combustion (decay) of forest litter in 90% was observed with ACS and in 50% with structured water. In cases with suppression of smoldering foci of combustion when using water as an OTF, the quenching effect was achieved mainly due to the burning of the combustible mass. This is explained by the fact that water practically does not wet forest litter and peat, which is why when using water as the main OTV, other quenching technologies are used, based on raising the moisture level to critical values, at which the occurrence of smoldering foci of combustion is completely eliminated.

The generalized results by the mass of extinguishing agents used for extinguishing and the extinguishing time are presented in table 1 and table 2.

A summary table of experimental results.

Table 1 The mass of the substance used to extinguish the model fire

Method for supplying OTV

Extinguishing agent

Atomized (OTV) Compact Jet

jet

Water t = 340 ± 10 g t = 256 ± 8 g

ACS t = 210 ± 9 g t = 160 + 11.1 g

Structured water t = 280 ± 20 g t = 237 ± 10.1 g

Tetrachlorosilane t = 30 ± 7 g t = 20.5 ± 3.25 g The data obtained by the authors to determine the necessary and sufficient mass of HFA showed, at a low flow rate, the high fire extinguishing efficiency of chlorosilanes in comparison with other HFCs. After chlorosilanes, the greatest fire extinguishing effect has ACS (aqueous solutions containing special mineral additives, while the total acidity of the medium ranges from 8-10), then structured water (the water was treated with an alternating high-frequency modulated signal, with this method of treatment, the pH of the medium changes around pH 8, viscosity changes slightly and wettability improves).

Table 2 Extinguishing time of the model site

The data obtained by us (see Table 2) on the determination of the quenching time also showed high efficiency of chlorosilanes, for example, when using them, the quenching time is almost 2–3 less than other types of OT.

Thus, when extinguishing forest and peat fires, the following are realized:

- cooling of the combustion zone due to the intense evaporation of the extinguishing agent;

- dilution of combustion products and the displacement of oxygen from the combustion zone in the process of dispersion of the HFA, its evaporation and due to the resulting reaction products and air moisture, etc .;

- inhibition of the occurring redox combustion reactions due to the formation of hydrogen chloride during the chemical reaction;

- isolation and inhibition during the formation, during chemical reactions, of nanosized particles of silicon oxide. It is difficult to draw an analogy with this method of extinguishing forests and peat massifs, since the extinguishing methods used are mainly intended only for creating barrage (support) strips. Some of them, mainly aqueous solutions of surfactants, are also used for extinguishing, while HFA is prepared during the flight and, when discharged, has a fire extinguishing effect similar to pure water. A method of extinguishing is proposed, in which a complex of long-term fire extinguishing effects is realized, working both on the surface of combustible materials and in volume.

Thus, the advantages of the proposed method are:

-reducing the time required for the localization of the fire and its subsequent elimination, including in the presence of hidden foci of smoldering burning.

- high fire extinguishing efficiency;

- no technological operations are required to bring it into working condition, since it is itself a ready-made solution consisting of more than 90% tetrachlorosilane;

- has no restrictions on the method of filing, i.e. the proposed composition can be sprayed from the air, dumped (drained) from specialized devices draining aircraft (helicopters and airplanes). Taking into account the fact that the operational personnel directly involved in extinguishing a fire or fire has special clothing and respiratory protective equipment, the composition we offer can be used in portable (backpack) -type installations;

- unlike almost all types of various types of extinguishing compositions and substances used to extinguish forest and peat fires, the use of this extinguishing method does not cause environmental harm, since the final product is sand Si0 ₂ .

Claims

Claim

1. A method of extinguishing a fire, including exposing a fire to fire extinguishing agents, characterized in that the fire is affected by nanoscale forms of fire extinguishing substances obtained as a result of physicochemical reactions occurring under the influence of high temperature in fire extinguishing substances sprayed above the fire.

2. The fire extinguishing method according to claim 1, characterized in that it is proposed to use chlorosilane solutions (mixture) as extinguishing agents.

3. The method of extinguishing a fire according to claim 2, characterized in that it is proposed to use silicon tetrachloride as chlorosilanes.

4. The method of extinguishing a fire according to claim 3, characterized in that the extinguishing concentration of silicon tetrachloride in the volume of the extinguishing zone is 300-700 mg / m ³ .

5. The fire extinguishing method according to claim 4, characterized in that the extinguishing concentration of silicon tetrachloride in the volume of the extinguishing zone is 400-500 mg / m ³ .

6. The method of extinguishing a fire according to claim 5, characterized in that the extinguishing agent is sprayed over the burning area with aircraft.

7. The method of extinguishing a fire according to claim 5, with the fact that the extinguishing agent is discharged (discharged) above the burning area by aircraft.

8. The method of extinguishing a fire according to claim 5, characterized in that the extinguishing agent is sprayed using portable fire extinguishing backpacks.