RU2494781C2 - Pyrotechnic aerosol-forming composition - Google Patents

Abstract

FIELD: fire-fighting facilities.

SUBSTANCE: invention relates to chemical fire extinguishing means, namely, the fire extinguishing compositions containing gas-forming chemically active agents and can be used to suppress fire sources in closed spaces. The pyrotechnic aerosol-forming composition for 3D fire fighting comprises a complex oxidant containing potassium iodate and potassium nitrate in a ratio of 5:1, the organic fuel-binder - iditol and as a gas-forming agent - double mixture of hexamine and urea.

EFFECT: invention provides expanding of the field of a safe, efficient use of a functionally reliable pyrotechnic composition, in which gas-aerosol products of combustion with the temperature half as much as in analogues, there are virtually no toxic and harmful substances.

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Description

The invention relates to chemical fire extinguishing agents, and more particularly to fire extinguishing compositions containing chemically active gas-generating substances, and can be used to suppress fire sources in closed volumes.

The level of this technical field is characterized by the pyrotechnic aerosol forming composition according to patent RU 2153376 C1, A62D 1/06, 2000, containing (wt.%): 67-70 potassium nitrate - oxidizing agent, 9-13 iditol (phenol-formaldehyde resin) as an organic fuel binder and 18-20 gas-forming dicyandiamide.

The disadvantage of the described composition is the low fire extinguishing efficiency with incomplete combustion of components, which limits its use in closed unventilated rooms due to the high temperature temperature of the toxic gas generated aerosol products containing HCN, NH ₃ and CO, to reduce which additional capital investments are required on productive coolers , which increases the consumer cost of work.

More perfect is the pyrotechnic aerosol forming composition described in patent RU 2392993 C1, A62D 1/06, 2009, which contains, wt.%: 70-76 potassium nitrate, 7-14 iditol and 13-20 dicyandiamide.

In the known aerosol-forming composition, technical urotropine or carbamide, or their double mixture with dicyandiamide, which are similar blowing agents selected for reasons of availability, domestic raw materials and technological base, are used as an alternative to dicyandiamide.

These blowing agents are not sources of toxic substances in the extinguishing mixture and provide comparability of the action of dicyandiamide in the aerosol forming composition for the main purpose.

A feature of the known composition is the optimization of the mass content of the components of the thermal base, close to stoichiometric, to ensure complete combustion and the modification of the iditol in the form of varnish by pretreatment with ethyl alcohol to increase the adhesion bonds of the components during mixing.

The known composition is characterized by an increased yield of extinguishing gas-aerosol mixture.

However, a disadvantage of the known pyrotechnic composition is the pronounced alkaline properties of the generated aerosol containing the decomposition products of potassium nitrate (K ₂ O and KOH) and toxic ammonia, the source of which is dicyandiamide.

This significantly limits the scope of application of the known composition in electrical engineering due to the high corrosive effect on the contacts and the unsatisfactory environmental friendliness that adversely affects the human body in closed unventilated rooms.

The technical problem to which the present invention is directed is to eliminate the noted drawbacks by ensuring the harmlessness of the generated fire extinguishing gas-aerosol mixture, the temperature of which is reduced to the level of practical use without special coolers.

The required technical result is achieved by the fact that the known pyrotechnic aerosol-forming composition for volumetric fire extinguishing, including potassium nitrate as an oxidizing agent, iditol is an organic combustible binder, and as a blowing agent, the double mixture of urotropine with carbamide according to the invention additionally contains potassium iodate as the main oxidizing agent with the following content of components, wt.%:

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

Distinctive features ensured the expansion of the field of safe use of a functionally reliable pyrotechnic composition, in gas-aerosol combustion products of which with a temperature twice as low as in analogs, there are practically no toxic and harmful substances.

The oxygen-containing main oxidizing agent, potassium iodate, when thermally reacted with iditol, forms extinguishing agents that do not have aggressive alkaline properties, are not harmful, and are not toxic.

The main oxidizing agent is potassium iodate, which provides aerosol generation with high fire extinguishing properties, but the burning rate of the composition is insufficient to intensively create the required concentration of inhibitors necessary to effectively suppress the ignition source.

An additional oxidizing agent, potassium nitrate in the minimum required amount, activates the combustion of the composition, increasing the burning rate and generating a fire extinguishing aerosol, contributing to a more active 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 the preparation of a granular mixture, preventing clumping of potassium iodate and setting it in a monolith, and as a ripper ensures uniform distribution of components in the mixture.

The combined use of potassium iodate with potassium nitrate leads to the formation of an active aerosol of increased extinguishing efficiency, but problems arise due to a marked increase in the combustion temperature of the composition and the corrosive activity of the extinguishing mixture, which limits the use of the composition in electrical installations.

Therefore, the mass ratio of potassium iodate with an activator, an additional active oxygen-containing oxidizing agent, potassium nitrate was experimentally optimized from the conditions of ensuring the manufacturability of the composition on the existing pyrotechnic equipment and the necessary chemical activity and safety, while minimizing the release of harmful substances into the aerosol.

When the content of potassium iodate in the pyrotechnic aerosol-forming composition is more than 65 wt.%, It clumps and sets into conglomerates, which excludes mixing of the components to prepare a granular composition suitable for further processing by pressing into a functional charge.

When the content of potassium iodate in the pyrotechnic aerosol-forming composition is less than 55 wt.%, The temperature of gas-aerosol combustion products increases due to the appearance of a liquid high-temperature condensed phase with an increase in the fraction of activator - potassium nitrate.

When the content of potassium nitrate is less than 11 wt.%, The uniform distribution of the components in the mixture is not ensured, the unstable combustion of which occurs at an unsatisfactory rate.

When the activator content is more than 13 wt.%, The temperature of the combustion products rises sharply, worsening the fire extinguishing ability of the generated aerosol, while increasing the explosive properties of the extinguishing mixture used in closed unventilated rooms.

In the present invention, potassium iodate is part of the (main) complex oxidizing agent in combination with potassium nitrate, with a mass ratio of (55-65) :( 11-13), respectively, ensuring the harmless functioning of the composition at the required rate of combustion of the pyrotechnic charge.

The experimental optimization of the mass ratio in the complex oxidizing agent of potassium iodate and potassium nitrate as 5: 1 ensured, compared with known analogues, a decrease in the combustion temperature of the pyrotechnic composition, eliminating the appearance of flame, and a decrease in the corrosion activity of the generated aerosol, in which there are practically no alkaline particles, which allows the use of fire extinguishing composition without additional coolers and expands its technological capabilities for extinguishing fires in enclosed volumes of control cabinets, b Control shackles, consoles, etc.. apparatus comprising electrical contacts open.

Thus, the presence of potassium iodate in an amount of more than 50% in the pyrotechnic aerosol-forming composition provides a new technical result, which is achieved by interaction with potassium nitrate, in the presence of iditol, urotropine and urea, the content of which is optimized in the stated mass ratio.

The mass content in the thermal base of the composition of the combustible binder iditol is selected in the range at which the complete combustion of structural carbon to safe carbon dioxide is ensured.

When the content of iditol is less than 10 wt.%, The burning rate decreases to the level when the oxidizing agent is not completely decomposed, as a result of which the calorific value is not enough to generate a functional aerosol in a given volume, providing a fire extinguishing concentration in a protected isolated room.

When the iditol content is more than 14 wt.%, Incomplete combustion occurs due to the negative oxygen balance with the release of toxic carbon monoxide into the protected room, which sharply limits the area of practical use of the composition due to carbon monoxide effects on a living organism.

The optimized mass ratio of the components of the thermal base of the proposed composition provides almost zero oxygen balance and complete burnout of the activator (in a minimized content of potassium nitrate), which virtually eliminates the release of harmful thermal decomposition products into the gas-aerosol extinguishing mixture.

The content of the gas-forming urotropine of the chemical formula (CH ₂ ) ₆ N ₄ and urea (NH ₂ ) ₂ CO is the minimum necessary to form a working body of a gas-aerosol extinguishing mixture that reliably transports combustion inhibitors to the ignition site.

In this case, urea purifies hot flue gases from nitrogen oxides to CO ₂ and H ₂ O, which are combustion inhibitors, dilute the generated aerosol, lowering its temperature, which increases the efficiency of fire extinguishing:

The total content in the pyrotechnic composition of gas-forming urotropin and urea is less than 14 wt.% Is insufficient for the complete removal of the generated extinguishing mixture, which reduces the productivity of the fire extinguishing.

The total content in the pyrotechnic composition of gas-forming urotropine and urea more than 18 wt.% Is ballast, since there is no improvement in the indicators of purpose.

The optimal mass ratio of blowing agents in a double mixture of urotropine to urea as (2.6-3.7): 1 was calculated using the mathematical model of the experimental design and found experimental confirmation of the effectiveness of the intended interaction.

Therefore, each essential 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 invention is illustrated by the technological mode of manufacturing a pyrotechnic composition for aerosol volumetric fire extinguishing.

The proposed composition is prepared using standard equipment operating in pyrotechnic production.

The measured portion of the pre-ground iditol SF-112A, GOST 18694-80, is treated for 5 min in a paddle mixer by irrigation with ethyl alcohol in a mass ratio of (3.5-5): 1. In this case, the surface of the particles of the combustible binder acquires additional stickiness to the remaining components of the composition when mixed.

Then, structural components of the composition are sequentially loaded into the mixer in the selected content range: potassium iodate (GOST 4202-75) - an oxidizing agent; potassium nitrate (GOST 19790-74) - technological cultivator, combustion activator; gas-forming agents urotropin (GOST 1381-73) and urea (GOST 2081-92), - and mix for 10 minutes.

The prepared composition is discharged from the mixer and passed through a granulator grid to prevent the formation of lumps and improve the volumetric dosage of the composition during charge pressing operations.

Optimized by calculation, the mass content of the components of the compositions according to the invention was experimentally tested on prototypes pressed at beats. pressure of 500 kgf / cm ² charges.

Compositions with a different combination of the mass content of the components: within the proposed ranges, at and outside these boundaries, were tested with the determination of the main technical characteristics of the purpose: combustion rate, extinguishing concentration of the generated gas-aerosol mixture and the amount of dispersed phase in it.

Due to the technologically ensured structural homogeneity of the strongly bonded components, the pressed charges are characterized by an increased quality of the operational performance indicators (average values): composition burning rate of 2.6 mm / s, the amount of the dispersed phase is 65%, the extinguishing concentration is 35 g / m ³ , which are obtained on the compositions proposed qualitative and quantitative composition.

A comparative analysis of the proposed technical solution with the identified analogues of the level of this technical field, from which the invention does not explicitly follow for a specialist in fire fighting equipment, showed that it is unknown, and given the possibility of industrial serial production of a pyrotechnic aerosol-forming composition for volumetric fire extinguishing, we can conclude compliance with patentability criteria.

The manufacturability of the proposed pyrotechnic aerosol-forming composition and the functionality of charges pressed from it, provided that the extinguishing mixture for extinguishing in the enclosed volumes of unventilated rooms is environmentally friendly, allows us to recommend the invention for industrial production in existing pyrotechnic equipment by customer orders.

Claims (2)

1. Pyrotechnic aerosol-forming composition for volumetric fire extinguishing, including potassium nitrate as an oxidizing agent, iditol - an organic combustible binder, and as a gasifier a double mixture of urotropine with urea, characterized in that it additionally contains potassium iodate as the main oxidizing agent in the following components , wt.%:
potassium iodate 55-65 potassium nitrate 11-13 iditol 10-14 urotropin 11-13 urea 3-5 2. The composition according to claim 1, characterized in that a double mixture of urotropine with urea in an amount of 14-18 wt.% Introduced in a mass ratio (2.6-3.7): 1, respectively.