RU2605576C1 - Aerosol-forming pyrotechnic composition - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to volumetric fire fighting means and may be used to suppress fire hazards in closed spaces. Aerosol-forming pyrotechnic composition contains, wt%: potassium nitrate 66-68, iditol 18-15, ammonium iodide 9-11, thiocarbamide 3-5 and urotropine 2-3.

EFFECT: increased fire extinguishing efficiency by more dynamic achievement of combustion inhibitors required concentration for fire hazards suppression in protected volume.

1 cl, 1 tbl, 5 ex

Description

The invention relates to fire fighting equipment, and in particular to means for extinguishing fires, and can be used to suppress fires in enclosed spaces.

The level of this technical field is characterized by the aerosol-forming pyrotechnic composition according to patent RU 2153376, A62D 1/06, 1999, which includes potassium nitrate as an oxidizing agent, the combustible binder is iditol (phenol-formaldehyde resin) and the gas-generated during combustion is dicyandiamide, which are contained in the following ratio (wt.%):

potassium nitrate 67-73 iditol 9-13 dicyandiamide 18-20

A feature of this composition is the use of iditol in the form of alcohol varnish obtained by pretreatment with ethyl alcohol in a mass ratio of 60: 40% (1: 0.7). In an alcoholic solution of varnish, the structural components of the composition are easily and evenly distributed when mixed.

However, the described pyrotechnic composition is of limited use due to the formation of cyanide compounds during the combustion of dicyandiamide, the toxicity of combustion products, the effect of which in closed unventilated rooms adversely affects the health of people who are forced to inhale the generated gas-air mixture during fire fighting.

The high content of toxic substances in the generated extinguishing aerosol is formed due to incomplete combustion of components whose ratio is not optimized for oxygen balance.

With a negative oxygen balance, gas-aerosol combustion products contain many toxic substances: CO, NH ₃ , HCN.

In addition, the combustion of this composition occurs in a flame mode, which inhibits the achievement of a fire extinguishing concentration of condensed combustion inhibitors in a protected room, thereby reducing the efficiency of suppression of fires.

The noted disadvantages are eliminated in the pyrotechnic aerosol-forming composition described in the invention RU 2013151115 A, A62D 1/06, C06D 3/00, published on 05.27.2015, which was selected as the closest analogue by technical nature and the number of matching features.

Known aerosol-forming pyrotechnic composition for volumetric fire extinguishing in a confined space includes potassium nitrate, iditol and, as a blowing agent, a heterogeneous mixture of powders of ammonium iodide and thiourea in a ratio of 3: 1, with the following content of components (wt.%):

potassium nitrate 65-71 iditol 18-20 ammonium iodide 9-11 thiourea 2-4

This aerosol-forming pyrotechnic composition is characterized by functional safety and increased volumetric extinguishing of fires in enclosed spaces.

The use of a heterogeneous mixture of ammonium iodide with thiourea as a blowing agent, which, when burned, does not form toxic compounds in the generated quenching mixture, has increased the functionality of the aerosol forming composition.

The effectiveness of the known composition for the formation of fire extinguishing concentrations of combustion inhibitors, compared with the above analogue, increased by one and a half to two times.

Thiourea, containing a sulfur atom in the molecule, increases the reactivity of the composition, and ammonium iodide acts as a quencher flame.

However, from the practice of using the prototype composition, it was found that the concentration of combustion inhibitors required to suppress a fire in a closed protected volume is formed slowly due to its flame burning, as a result, the yield of aerosolized functional dispersed phase is reduced, worsening the effectiveness of the intended action.

The technical problem to which the present invention is directed is to increase fire extinguishing efficiency by optimizing the speed of flameless combustion of a pyrotechnic composition, without the formation of toxic substances in the generated aerosol, by dynamically forming a fire extinguishing concentration of combustion inhibitors in an enclosed space of a protected room.

The required technical result is achieved by the fact that the known aerosol-forming pyrotechnic composition for extinguishing fires in confined spaces, including potassium nitrate, iditol, ammonium iodide and thiourea, according to the invention, additionally contains urotropine, in the following ratio, wt. %:

potassium nitrate 66-68 iditol 18-15 ammonium iodide 9-11 thiourea 3-5 urotropin 2-3

Distinctive features of the proposed technical solution have provided increased fire extinguishing efficiency due to a more dynamic achievement in the protected volume of the required concentration of combustion inhibitors to suppress ignition sources.

In the proposed composition, the ratio of the components of the thermal base, close to stoichiometric, practically corresponds to zero oxygen balance, which ensures complete oxidation of the reagents and gas formation along the developed surface of the combustion of charges, increasing the specific yield of the generated gas-aerosol extinguishing mixture.

The optimized mass ratio of ammonium iodide and thiourea, iditol and urotropin was experimentally tested according to the results of the combined action of a mixture of blowing agents and organic fuels, respectively, on the effectiveness of volumetric fire fighting.

Keeping unchanged the optimum ratio in the thermal basis of the oxidizing agent and organic fuel, the proposed pyrotechnic composition slightly reduced the upper limit of the range of the oxidizing agent content, and, as the organic fuel, in addition to iditol, in addition to its mass content, urotropin was introduced, which serves as an activator of combustion of the aerosol-forming composition.

For the same purpose, to increase the burning rate of the composition, the mass fraction of thiourea containing a lot of nitrogen and a sulfur atom was increased, which makes it possible to increase the reactivity of the composition as a whole.

An additional introduction to the structure of the fire-extinguishing pyrotechnic composition of urotropin, optimized with a mass of 2-3%, in combination with thiourea (combustion activator), provided an increase in the rate of charge burning to 3.8 mm / s, with the accompanying additional gas generation of environmentally friendly CO ₂ and H ₂ O vapors , which contribute to a more rapid removal of the generated dispersed phase of the functional aerosol to the source of ignition.

The technical result of this is to reduce the time to achieve in the protected volume of the fire extinguishing concentration of active combustion inhibitors, interrupting the oxidation chain reaction, and, therefore, increasing the efficiency of suppression of the fire sources.

The proposed quantitative composition of the modernized pyrotechnic composition was calculated according to the mathematical model of the experimental design and verified by testing prototypes of charges made with different mass ratios of components to determine the effectiveness of fire fighting.

When the content in the aerosol-forming pyrotechnic composition of potassium nitrate is less than 66 wt. % incomplete combustion of components occurs due to a negative oxygen balance, which degrades the environmental friendliness of the generated gas-aerosol products of the extinguishing mixture filling the enclosed volume of the room where the fire is suppressed.

When the content in the aerosol-forming pyrotechnic composition of potassium nitrate is more than 68 wt. % fire extinguishing efficiency decreases from the receipt of free oxygen into the protected volume, the excess of which is contained in the generated extinguishing mixture.

When the content in the proposed pyrotechnic composition of iditol is more than 18 wt. % incomplete oxidation of carbon occurs due to negative oxygen balance with the formation of carbon monoxide, which has characteristic negative effects on the human body.

When the content in the aerosol-forming pyrotechnic composition of iditol is less than 15 wt. % the burning rate and temperature of the thermal base are reduced, creating a lack of calorific value and gas generation to generate the quenching mixture.

When the content in the aerosol-forming pyrotechnic composition of ammonium iodide is less than 9 wt. % and thiourea less than 3 wt. % deteriorates the dispersion of combustion products, reducing the effectiveness of volumetric fire extinguishing.

When the content in the aerosol-forming pyrotechnic composition of ammonium iodide is more than 11 wt. % and thiourea more than 5 wt. % increase the temperature and speed of its combustion, resulting in reduced removal of condensed particles - highly active combustion inhibitors due to their thermal decomposition. The effectiveness of fire fighting is significantly reduced.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in the signs 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 preparation of the proposed aerosol-forming composition was carried out according to the industry-accepted technology of mixing the components in an industrial mixer, into which powdered components were successively loaded in measured proportions (wt.%): 67 ± 1 potassium nitrate, 0 ± 1 ammonium iodide, 4 ± 1 thiourea and 2.5 ± 0.5 of urotropin, which is stirred for 7-10 minutes for their uniform distribution in volume.

Then, 16.5 ± 1.5 wt. % iditol (dry), in the form of a pre-prepared 30% solution in ethanol, and stirred for 8-10 minutes, obtaining a viscous flowing mixture that is unloaded on pallets with a layer of 1-2 cm and served for drying to a volatile content of 0, 5 wt. %

Functional pyrotechnic checkers for equipping the extinguishing aerosol generators are obtained from the obtained finished composition suitable for volumetric dosing by pressing into a mold.

To test and verify the achievement of the required destination indicators, pyrotechnic compositions were prepared and tested with the contents of the components within the optimized ranges of their contents, at the borders and outside the limits of these ranges.

Typical formulations are presented in the Table.

Tests of prototypes of charges from the proposed composition revealed that compositions No. 2-4 in the optimized ranges of the component contents are guaranteed to provide a predetermined rate of achievement of the extinguishing concentration of combustion inhibitors in a protected volume - a closed unventilated room, with stable suppression of foci of ignition of solid and liquid combustible substances.

Composition No. 1 during combustion does not provide complete oxidation of carbon; in the extinguishing mixture due to incomplete combustion, carbon monoxide is contained in an amount that limits its use in closed unventilated rooms, that is, as intended.

Composition No. 5 is characterized by a deterioration in the dispersion of the combustion products into the generated gas-aerosol formation due to the low temperature and burning rate, which determines the delayed achievement of a given concentration in the protected enclosed volume, therefore, a decrease in the fire extinguishing efficiency.

A comparison of the proposed technical solution with the identified analogues of the prior art did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences in the aerosol-forming extinguishing composition are not obvious to a pyrotechnic specialist, which directly follows from the statement of the technical problem.

The manufacture of the pyrotechnic composition from the combination of components in the proposed mass ratio can be carried out at the existing plant using proven technology.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

Positive test results for the effectiveness of volumetric fire extinguishing of the proposed aerosol-forming pyrotechnic composition allow us to recommend it for mass production and supply of functional checkers and fire extinguishing generators to customers.

Claims (1)

Aerosol-forming pyrotechnic composition for extinguishing fires in confined spaces, including potassium nitrate, iditol, ammonium iodide and thiourea, characterized in that it additionally contains urotropin, in the following ratio of components, wt. %:
potassium nitrate 66-68 iditol 18-15 ammonium iodide 9-11 thiourea 3-5 urotropin 2-3