RU2504415C1 - Aerosol-forming compound - Google Patents

Abstract

FIELD: fire prevention facilities.

SUBSTANCE: invention relates to an aerosol-forming compound for fire-fighting. The compound comprises sodium perchlorate, potassium perchlorate and magnesium powder, in the following contents ratio, wt %: sodium perchlorate - 35.0-42.0, potassium perchlorate - 48.0-55.0; magnesium powder - 8.0-10.0.

EFFECT: invention enables to obtain an aerosol safe for humans and having a high fire-extinguishing capability.

1 dwg, 2 tbl

Description

The invention relates to pyrotechnic compositions for the generation of potassium and sodium chlorides in the form of extinguishing functional aerosols.

Known aerosol forming composition for aerosol volumetric fire extinguishing, containing an oxidizing agent, a combustible binder epoxy resin, dispersed magnesium powder and a potassium chloride filler, contains alkali metal nitrates and / or perchlorates as an oxidizing agent in the following ratio, wt.%: Nitrates and / or perchlorates alkali metals - 60-70; epoxy resin - 14-17; magnesium powder - 6-12; potassium chloride - 5-15 [1].

Known extinguishing aerosol composition suitable for precision electrical appliances, which contains an oxidizing agent, a combustible agent, an adhesive and an additive, where the oxidizing agent of the specified extinguishing aerosol composition is a mixture of an oxidizing agent, which is a salt of potassium, and an oxidizing agent, which is a salt of strontium; the specified oxidizing agent, which is a potassium salt, is a single substance or a combination of several substances selected from the group consisting of potassium nitrate, potassium chlorate, potassium perchlorate, potassium chloride, potassium carbonate and potassium citrate; the specified oxidizing agent, which is a salt of strontium, is a single substance or a combination of several substances selected from the group consisting of strontium nitrate, oxide. strontium, strontium carbonate, strontium sulfite, strontium pyrophosphate, strontium permanganate, strontium bromide, strontium dichromate, strontium molybdate and strontium hexaboride; the combustible is one substance or a combination of several substances selected from the group consisting of guanidine nitrate, aminoguanidine nitrate, triaminoguanidine nitrate and diaminoguanidine nitrate; the additive is a single substance or a combination of several substances selected from the group consisting of aluminum powder, magnesium powder, coal powder, magnesium carbonate, calcium carbonate and potassium feldspar; an adhesive substance is a single substance or a combination of several substances selected from the group consisting of phenolic resin, epoxy resin and acrylic resin; and the content of each component in the fire extinguishing composition, wt.% is as follows [2]:

potassium salt oxidizing agent greater than or equal to 5% and less than 15% strontium salt oxidizing agent greater than or equal to 52% and less than or equal to 60% fuel from 10% to 25% additive from 2% to 20% adhesive from 2% to 20%

These compositions are used in volumetric fire extinguishing generators as pyrotechnic compositions, during the combustion of which combustion inhibitors are formed in the form of a gas-aerosol mixture filling the volume where it is necessary to suppress the fire.

However, the listed compositions have the following common drawback: the inability to use to extinguish a fire without removing a person from the protected premises due to the high toxicity of the resulting aerosol, because In addition to alkali metal chlorides, combustion products contain a large amount of oxides, nitrides, cyanides and other harmful substances.

As the closest prototype of the claimed invention adopted pyrotechnic composition for oxygen generation containing sodium perchlorate, peroxide catalyst and metal, the peroxide catalyst contains peroxide and / or sodium peroxide, the metal composition contains magnesium powder, while the composition further comprises at least one oxide from the series including nickel (II) oxide, cobalt (III) oxide, iron (III) oxide, in the following components, wt.%: sodium perchlorate - 84.5-92.5; sodium peroxide and / or sodium peroxide - 3.5-5.5; transition metal oxide - 1.5-3.5; magnesium powder - 2.5-6.5 [3].

This composition is used to produce gaseous oxygen for breathing in closed systems, in aircraft and underwater vehicles, mines, shelters.

The disadvantage of this composition is the small amount of aerosol that is safe for humans.

The technical result, the solution of which the present invention is directed, is to obtain a fire extinguishing aerosol safe for humans and having a high fire extinguishing ability, consisting only of potassium and sodium chlorides.

The required technical result is achieved in that in a known composition comprising sodium perchlorate, peroxide and / or sodium peroxide, transition metal oxide and magnesium powder, characterized in that instead of sodium peroxide and / or sodium peroxide and transition metal oxide, potassium perchlorate is introduced and the amount is increased magnesium powder, with the following content of components, wt.%: sodium perchlorate - 35.0-42.0; potassium perchlorate - 48.0-55.0; magnesium powder - 8.0-10.0.

The increased magnesium content contributes to an increase in the combustion temperature of the composition, which leads to an increase in aerosol yield, and the introduction of potassium perchlorate leads to the formation of potassium chloride.

To implement this technical result, the reaction was used:

NaClO ₄ + KClO ₄ +8 Mg → NaCl + KCl + 8 MgO

During experimental studies, it was found that with a stoichiometric ratio of the starting components, the combustion reaction proceeds very quickly, and all combustion products, including magnesium oxide, are transferred to aerosol. In order to eliminate the transition to MgO aerosol and reduce the temperature and burning rate of aerosol forming compounds, it was decided to take an excess of potassium and sodium perchlorates, which also provided an increase in the percentage of the aerosol gas phase due to oxygen.

NaClO ₄ + KClO ₄ +2 Mg → NaCl + KCl + 2 MgO + 3 O ₂

Table 1 shows the results of the influence of prescription factors on the combustion parameters of AOS.

With an increase in the excess of potassium perchlorate, a decrease in the burning rate of the compositions is observed. The figure shows the dependence of the burning rate and aerosol yield on the amount of potassium and sodium perchlorates.

As a result of the studies, it was revealed that the combustion of composition No. 2 was uniform, calm, without any pulsations. In this case, the practical aerosol yield was 95% of the theoretically possible (excluding MgO).

Compositions with a smaller excess of perchlorates, and as a result of a higher combustion temperature, are characterized by a transition to magnesium aerosol.

When the perchlorate content is less than 85%, the combustion temperature of the composition increases; in the condensed phase of the aerosol, the aerosol yield and MgO content in it increase.

With a perchlorate content of more than 95%, the combustion pattern is unstable, intermittent, and decays over time.

Thus, as a result of the conducted studies, composition No. 2 was selected as the optimal aerosol-forming composition, during combustion of which an increased yield of aerosol containing potassium and sodium chlorides and safe for humans is noted.

The proposed aerosol forming composition is designed to generate potassium and sodium chlorides and can be used as a fire extinguishing agent.

The compositions were prepared by mixing the components in a ball mill for an hour. Cylindrical checkers were pressed in a steel mold with a diameter of 23 mm under a pressure of 175 MPa.

Fire extinguishing tests were carried out in a chamber with a volume of 0.33 m ³ , with a base size of 0.8 × 0.6 m and a height of 0.7 m, which housed a class B model hearth - A-76 gasoline. The model center was a cylindrical glass made of steel with an internal diameter of 8 mm and a height of 25 mm, filled with gasoline with a wick made of asbestos cord installed inside, with a diameter of 2 mm and a length of 28 mm to stabilize the flame. The burning time of the sample and the time of quenching of the flame were recorded.

Fire extinguishing ability was 35-40 g / m ³ , with regulatory requirements no more than 200 g / m ³ .

The main characteristics of the obtained AOS formulation are shown in table 2.

The proposed set of essential features is not known from available sources of information and can be serially reproduced in production, that is, meets the criteria of patentability.

Literature

1. RF patent No. 2098156, publ. 12/10/1997, class A62C 3/00, A62D 1/00.

2. RF patent №2010104458, publ. 08/20/2011, class A62D 1/06.

3. RF patent No. 2057707, publ. 04/10/1996, class C01B 13/02.

Table 1 The influence of prescription factors on the combustion parameters of AOS Recipe and parameters Composition No. 1 Composition No. 2 Composition No. 3 NaClO ₄ ,% 38 40 42 KClO ₄ ,% 47 fifty 53 Mg,% fifteen 10 5 Combustion temperature, ° C 2200 1800 1500 The burning rate, U, mm / s 1,1 0.9 0.7 Aerosol yield,% 98 95 85 The MgO content in the aerosol,% 2,5 1,5 <1

table 2 Main characteristics of AOS Metric Unit Indicator value The composition recipe,% sodium perchlorate 40 ± 2 potassium perchlorate 50 ± 2 magnesium 10 ± 2 Fire extinguishing ability, g / m ³ 35-40 Combustion temperature, ° C 1800-1900 Linear burning rate, mm / s 0.9-1.0 Gas production, l / kg 210-215 The composition of the gas phase,% O ₂ one hundred The composition of the condensed phase,% NaCl 43.5 Kcl 55.0 MgO 1,5 Phase ratio (solid / gas) 0.65

Claims (1)

An aerosol extinguishing composition for extinguishing fires, including sodium perchlorate, peroxide and / or sodium peroxide, transition metal oxide and magnesium powder, characterized in that instead of sodium peroxide and / or sodium peroxide and transition metal oxide, potassium perchlorate is introduced and the amount of magnesium powder is increased at the following content components, wt.%:
sodium perchlorate 35.0-42.0 potassium perchlorate 48.0-55.0 magnesium powder 8.0-10.0

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