RU2618271C1 - Extinguishing pyrotechnic composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: extinguishing agents containing pyrotechnical composition (wt %): 42-51, potassium nitrate, potassium iodate, 26-28, 16-18 gassing component sorbitol, organic binder based fuel iditol 6-10 and thiourea. Thus iditol introduced in an amount of 5-7% by weight of the dry powder and in an amount of 1.3 wt % - in the form of a 50% spirit solution by mixing communication components.

EFFECT: composition allows to make charges for the press technology and is characterized by high chemical activity and effective action in the suppression of fires due to the increased rate of combustion and dynamic environmentally friendly aerosol formation in the protected volume much lower concentration of extinguishing flame retardants.

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Description

The invention relates to chemical fire extinguishing agents, and more particularly to fire extinguishing pyrotechnic compositions containing chemically active gas-generating substances, and can be used to suppress fires in enclosed spaces.

The level of this technical field is characterized by the pyrotechnic aerosol forming composition described in patent RU 2392993 C1, A62D 1/06, 2009, which contains (wt.%): 70-76 potassium nitrate (oxidizing agent), 7-14 iditol (organic combustible binder ) and 13-20 dicyandiamide (blowing agent).

A feature of this extinguishing pyrotechnic composition is the optimal mass ratio of the components of the thermal base, close to stoichiometric, ensuring complete combustion, and the modification of iditol in the form of a varnish by preliminary dissolving it in ethanol to increase adhesion bonds with powder components when mixed.

This composition is characterized by an increased yield of the extinguishing gas-aerosol mixture, including combustion inhibitors, which increases the efficiency of volumetric extinguishing of fires in closed unventilated rooms.

A continuation of the indicated advantages is an inherent disadvantage, which is determined by the fact that, during chemical interaction, the gas-forming dicyandiamide releases toxic cyanide compounds and ammonia into a functional aerosol, which negatively affect the human body, which significantly limits the scope of use of the composition due to poor environmental friendliness.

In addition, the extinguishing gas-aerosol mixture has pronounced alkaline properties due to the fact that thermal decomposition of an unburned excess of potassium nitrate results in the formation of K ₂ O and KOH, which actively corrode electrical contacts of apparatus and equipment located in a room protected from fire.

The noted disadvantages are eliminated in the aerosol-forming pyrotechnic composition for extinguishing fires according to the patent RU 2494781 C2, A64D 1/06, 2013, including a complex oxidizing agent: potassium iodate and potassium nitrate, an organic combustible binder - iditol and gas-forming urotropin and urea, which are contained in the following ratio (wt.%):

potassium iodate 55-65 potassium nitrate 11-13 iditol 10-14 urotropin 11-13 urea 3-5

The known composition is characterized in that the generated aerosol of increased fire extinguishing efficiency, with a temperature half as low, practically does not contain toxic and harmful substances, which expands the scope of its application.

The oxygen-containing main oxidizing agent of potassium iodate provides the generation of aerosol with high fire-extinguishing properties, but the burning rate of the composition does not provide intensive creation of the required concentration of combustion inhibitors in the protected volume necessary for effective suppression of the ignition source.

An additional strong oxidizing agent, potassium nitrate in the minimum amount serves as an activator of the composition, increasing the burning rate and generating a fire extinguishing aerosol, contributing to a more intense dispersion of the resulting slag and their removal from the generator along with the aerosol.

In addition, potassium nitrate acts as a processing aid for preparing a granular mixture, preventing clumping of potassium iodate with the formation of a monolith and, as a ripper, ensures uniform distribution in the mixture.

Gas-forming agents having a domestic raw material base - urotropin (CH ₂ ) ₂ N ₄ and urea (NH ₂ ) ₂ CO - form a working fluid from nitrogen, carbon dioxide and water vapor during transportation to transport combustion inhibitors diluting the aerosol, lowering its temperature, and alternatively replaced imported dicyandiamide, which supplied harmful and toxic substances to the generated aerosol.

However, the disadvantage of the known pyrotechnic composition is the relatively low burning rate (1.3 mm / s), which determines the length of time it takes to create the minimum necessary quenching concentration of combustion inhibitors in the protected volume for the primary suppression of the fire, i.e. it is characterized by unsatisfactory effectiveness of the main purpose.

At the same time, gas-generating urotropin during melting melts without completely dispersing and forms non-combustible filtering slags, which prevents the complete transfer of the main functional substance to the aerodisperse formation, reducing its fire-extinguishing ability.

The technical problem to which the present invention is directed is to increase the chemical activity of an environmentally friendly aerosol-forming composition, a technologically advanced and more effective action in suppressing fire sources in confined spaces.

The required technical result is achieved by the fact that the known fire-extinguishing pyrotechnic composition, including potassium iodate, potassium nitrate, a gas-forming component and an iditol-based organic combustible binder, according to the invention contains sorbitol as a gas-forming component, and thiourea serves as an additional organic combustible binder, in the following ratio of components (wt.%):

potassium nitrate 42-51 potassium iodate 26-28 sorbitol 16-18 iditol 6-10 thiourea 1-2,

moreover, iditol is introduced in an amount of 5-7 wt. % in the form of a dry powder, and in an amount of 1-3 wt.% - in the form of a 50% alcohol solution.

Distinctive features of the proposed technical solution due to the achievement of a low softening temperature of the obtained composition (40-75 ° C) make it possible to produce functional charges from it using a press technology that guarantees the identity of their physicomechanical characteristics and fire extinguishing properties.

The oxidizing agent is potassium iodate, the content of 26-28 wt. %, which prevents the formation of corrosive potassium hydroxide, is the supplier of the main inhibitory substance - KJ, transferred into the dispersed phase of the aerosol, an effective fire extinguisher.

A strong oxidizing agent, potassium nitrate, in an amount of 42-51 wt. %, sufficient to accelerate the chemical reactions of the interaction of the components, without the formation of an unburned residue, which prevents the generation of harmful substances.

A multiple increase in potassium nitrate, while halving the proportion of potassium iodate, compared with the prototype, ensured the optimization of the ratio in the composition of the binary oxidizer, when during combustion a sufficiently dispersed phase of functional KJ is formed and combustion of the composition is activated further with a larger mass of a strong oxidizing agent - potassium nitrate, an affordable, inexpensive domestic product.

This ensures an increased rate of achievement in the protected volume of a fire extinguishing concentration of combustion inhibitors, which are transported by gases, in large quantities generated by sorbitol, and, therefore, the efficiency of suppressing fire sources is increased.

A feature of the proposed composition is that the calculated mass of iditol is introduced in the form of a powder (5-7 wt.%) And only a part (1-3 wt.%) In the form of a 50% alcohol solution for bonding the components during mixing.

The proposed composition uses a small portion of the dose of iditol in the form of an alcohol solution, which is sufficient, in combination with rosin or thiourea, for the technological mixing of dry components, including iditol powder, and their strong adhesion during charge formation. This achieves a significant reduction in the technological time of drying the composition according to the invention.

As a blowing agent, sorbitol of the chemical formula C ₆ O ₅ H _{14 was} introduced into the composition, which, in addition to inhibitors (CO ₂ and H ₂ O), generates combustible hexane, which contributes to an increase in the burning rate of the composition.

During combustion, sorbitol is completely thermally decomposed and passes into a gaseous state, which serves as an effective transporting means for the removal of KJ into the extinguishing aerosol.

Additionally, thiourea is introduced into the composition, which has a high reactivity, which increases the flammability of the charge, decomposes at a low combustion temperature, releasing a large number of gases that act as a working fluid for the generated dispersed phase of a functional aerosol - combustion inhibitors.

Alcoholic solution of iditol forms a cementitious composition with stirring of the composition, which provides cementation and the frame of the charges sealed from it.

Therefore, each feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The proposed extinguishing composition is prepared and processed according to the technology adopted in the pyrotechnic production, using existing standard equipment.

All dry powder components are introduced into the mixer in measured doses (wt.%): 46.5 ± 4.5 potassium nitrate, 27 ± 1 potassium iodate, 17 ± 1 sorbitol, 6 ± 1 iditol and 1.5 ± 0.5 thiourea, which are mixed for 15-20 minutes for even distribution in the volume of the mixture.

After that, resin SF-0112A-50 (a pre-prepared 50% solution of iditol in ethanol) is introduced into the mixer in an amount of 1.5-4.5 wt.% And mixed for 5-7 minutes. The pretreatment of iditol with ethanol in an optimized mass ratio ensured the surface dissolution of the combustible binder particles to increase the adhesive bonds of their sticky surface with the structural components of the composition, which is loose enough for volume dosing and is suitable for processing into charges by direct compression.

Then the plasticized mixture is dried with a layer of 1-2 cm on trays until the volatile content is not higher than 0.6 wt.% And sent to charge formation directly in the generator bodies or in appropriate forms.

When volatile ethanol, an iditol solvent (resin SF-0112A-50), is removed by drying, the composition contains 6-10 wt.% Iditol: 5-7 wt.% Powder and 1-3 wt.% Dry residue of resin SF-0112A-50.

The quantitative ratio of the components of the proposed aerosol-forming pyrotechnic composition was calculated according to the mathematical model of the experimental design and confirmed by the results of an experimental verification of the functioning of the prototype charges for their intended purpose, which showed the achievement of improved characteristics to minimize the quenching concentration of the generated aerodisperse formation during combustion with a multiple increase in the composition, whose components are contained in within the optimized range ov.

The table shows typical recipes for the compositions of the tested charges, in which the components are within the declared ranges, at its borders and outside the boundaries of the optimized ranges of contents.

As tests of prototypes have shown, charges from formulations 2-4 have shown enhanced fire extinguishing characteristics that are fully consistent with the inventive concept.

Charges from composition 1 due to incomplete combustion of potassium nitrate formed a gas-aerosol extinguishing mixture with pronounced alkaline properties, which limits the use of electrical equipment and devices for fire protection.

Charges from composition 5, which is dried for a long time, crumble and crack when dropped from a height of 2 m, have a burning rate and an extinguishing concentration of the generated functional aerosol, comparable with analogues.

The proposed fire extinguishing pyrotechnic composition, when burning at a speed of 3-4 mm / s, forms an extinguishing concentration of combustion inhibitors one third lower than the standard composition (59/86 g / cm ³ ), sufficient to effectively suppress ignition sources, without generating toxic and harmful substances, therefore suitable for extinguishing fires in confined spaces.

Claims (3)

Fire extinguishing pyrotechnic composition, including potassium iodate, potassium nitrate, a gas-forming component and an iditol-based organic combustible binder, characterized in that it contains sorbitol as a gas-generating component, and thiourea serves as an additional organic combustible binder, in the following ratio of components (wt.%) : potassium nitrate 42-51 potassium iodate 26-28 sorbitol 16-18 iditol 6-10 thiourea 1-2, moreover, iditol is introduced in an amount of 5-7 wt.% in the form of a dry powder, and in an amount of 1-3 wt.% - in the form of a 50% alcohol solution.