RU2392993C1 - Pyrotechnic aerosol-forming compound - Google Patents

Abstract

FIELD: medicine, fire fighting equipment.

SUBSTANCE: invention refers to fire fighting equipment, namely to total flooding, and can be used for suppression of fire hazards in the closed spaced. A pyrotechnic aerosol-forming compound for total flooding contains potassium nitrate - an oxidiser, binding fuel - iditol reduced by ethanol, and a gas generating substance - dicyandiamide, and iditol is reduced by ethanol in the mass ratio 1: (0.2-0.3), and components are taken in the ratio, wt %: potassium nitrate 70-76; iditol 7-14; dicyandiamide 13-20.

EFFECT: preparation of the more producible compound; optimised mass ratio of the components; lower concentration of hazardous substances; higher efficiency of fire extinguishing in the closed spaces; better ecological compatibility of an extinguishing mixture generated in burning.

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Description

The invention relates to fire fighting equipment, and more particularly to means for volumetric fire extinguishing, the fire extinguishing composition of which contains gas-aerosol-forming chemically active substances, and can be used to suppress fires in closed volumes.

The level of this technical field is characterized by the pyrotechnic composition according to patent RU 2046614, А62С 37/00, 1985, which contains, wt.%: 54-75 potassium nitrate (oxidizing agent), 4-10 phenol-formaldehyde resin - iditol (combustible binder) and 15 -43 dicyandiamide (gosoobrazovatel).

This pyrotechnic composition is industrially used to extinguish fires in the manufacture of gas generators in powder fire extinguishers.

The disadvantage of the composition is the incomplete combustion of the components, which does not allow it to be used to extinguish fires in closed volumes and unventilated rooms due to the toxicity of the generated gas-aerosol products with high temperature, to reduce which additional use of coolers will be required, which increases the consumer cost.

Due to the increased content of the blowing agent in the working mixture, the volume of the dispersed phase is significantly reduced, which has an order of magnitude higher inhibitory effect when suppressing fires, so using the described composition directly for fire fighting is not practical.

The low fire extinguishing efficiency is negatively affected by the relatively low content in the composition of dicyandiamide (4 wt.%) - the gas base generated by the extinguishing aerosol burning.

More effective is the composition according to patent RU 2153376, А62С 1/00, A62D 1/06, 1999, which is selected by technical essence and the number of matching features as the closest analogue to the proposed composition.

The known pyrotechnic aerosol forming composition for volumetric fire extinguishing contains (wt.%): 67-73 potassium nitrate, 9-13 iditol and 18-20 dicyandiamide, iditol being pretreated with ethyl alcohol in a mass ratio of 60:40 (1: 0.7), with the formation of alcohol varnish, in which the structural components of the composition are easily and evenly distributed by mixing.

A disadvantage of the known composition is the restriction on use in closed, unventilated rooms due to the high concentration of toxic substances in the generated gas-aerosol mixture, resulting from incomplete combustion of components that are not optimized in oxygen composition in the composition. With a negative oxygen balance, gas-aerosol combustion products contain many toxic substances - CO, NH ₃ and HCN, which is unsafe for people in the protected volume.

In addition, the content of dicyandiamide in the composition is limited by a narrow range, which makes it difficult in industrial technology to optimize the required oxygen balance and the content of the condensed phase in a fire extinguishing aerosol. The result is an increased carbon monoxide content due to incomplete oxidation.

Alcohol based on a combustible binder forms an aerosol forming composition in the form of a conglomerate, which is not loose enough for volumetric dosing and, being viscous, poorly pressed into charges, which complicates the processing of the composition into products.

The problem to which the present invention is directed is to improve a more technologically advanced pyrotechnic composition to optimize the quantitative ratio of components and increase fire extinguishing efficiency, which will expand the scope of its application by minimizing the content of harmful substances in the composition of the gas-aerosol mixture generated during combustion.

The required technical result is achieved by the fact that in the known pyrotechnic aerosol-forming composition for volumetric fire extinguishing containing potassium nitrate - an oxidizing agent, a combustible binder - iditol, pretreated with ethyl alcohol, and a gas-generating substance - dicyandiamide, according to the invention iditol is treated with alcohol in a mass ratio of 1 :( 0.2-0.3), and the components are contained in the following ratio, wt.%:

potassium nitrate 70-76 iditol 7-14 dicyandiamide 13-20

Distinctive features ensured an improvement in the environmental friendliness of the extinguishing mixture generated during combustion due to the low content of harmful substances that is harmless to the human body, which was achieved by optimizing the mass ratio of the components of the composition, which is more technologically advanced to manufacture and effective in volumetric fire extinguishing in closed volumes.

The mass ratio of the components of the composition close to stoichiometric was optimized by the mathematical model of the design of the experiment and corresponds to a zero oxygen balance, which ensures complete oxidation of the combustion products and virtually no harmful substances.

Pretreatment of iditol with ethanol in their selected mass ratio provides surface dissolution of the particles of the combustible binder to increase the adhesive bonds of their sticky surface with the structural components of the composition, which is better pressed into charges.

As a result of this, the components of the composition have close contact with the combustible binder, which ensures more complete oxidation and gas formation along the developed combustion surface, increasing the yield of the generated quenching gas-aerosol mixture.

When the mass ratio of ethyl alcohol to iditol particles processed from the surface is less than 0.2: 1, dissolution does not occur on the entire surface of the combustible binder and, as a result, the efficiency of gas aerosol formation decreases.

When the mass ratio of ethyl alcohol to iditol is greater than 0.3: 1, there is no functional improvement in the composition, but the technological time is significantly increased due to the need for additional drying to remove volatiles to the standard level in the finished pyrotechnic composition.

The content of potassium nitrate, compared with the prototype, is increased to ensure almost zero oxygen balance of the aerosol forming composition having a close to stoichiometric ratio of components.

When the content of potassium nitrate in the composition is less than 70 wt.%, Incomplete combustion of combustible substances occurs due to negative oxygen balance, which limits the use of extinguishing composition in confined spaces.

When the content in the composition of potassium nitrate is more than 76 wt.%, The fire extinguishing efficiency decreases, since free oxygen is released into the generated gas-aerosol mixture, which supports combustion in a protected volume.

With a relative decrease in the mass content in the composition of iditol, which is sufficient as a modified binder, the complete combustion of structural carbon to a safe carbon dioxide - CO _{2 is} ensured.

When the iditol content is less than 7 wt.%, The burning rate decreases, while potassium nitrate decomposes incompletely and, as a result, the calorific value is insufficient to generate an effectively extinguishing mixture in a given volume.

When the content of iditol is more than 14 wt.%, Incomplete combustion occurs due to the negative oxygen balance with characteristic negative consequences.

The function of dicyandiamide in the aerosol-forming composition is to disperse effective combustion inhibitors — the condensed particles formed during the combustion of the composition into the protected volume — that is, it serves as a working medium in which toxic substances should not be present. The proposed relative decrease in the mass content of dicyandiamide in the aerosol-forming composition ensures the fulfillment of the specified functions, while the toxicity of the combustion products decreases to a level safe for the human body.

When the content of dicyandiamide is less than 13 wt.%, The dispersion of combustion products deteriorates, which reduces the effectiveness of volumetric fire extinguishing.

When the content of dicyandiamide in the composition of more than 20 wt.% In the combustion products increases the content of harmful substances due to incomplete combustion, which limits the scope.

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 solved not by the sum of the effects, but by a new super-effect of the sum of the essential features.

The invention is illustrated by the technological mode of manufacturing a pyrotechnic composition for aerosol volumetric fire extinguishing.

The composition is prepared using standard equipment available in pyrotechnic production.

A measured sample of pre-ground iditol SF-0112, GOST 18694-80, is treated for 5 minutes in a paddle mixer with ethanol in their selected mass ratio: (3.5-5) wt. parts of iditol per 1 wt. part of ethyl alcohol.

Moreover, the surface of the particles of the combustible binder becomes sticky when mixed with other components of the composition.

Then, the remaining components of the composition are loaded into the mixer: potassium nitrate GOST 19790-74 (oxidizing agent) and technical dicyandiamide GOST 6988-73 (blowing agent) and mixed for 10 minutes.

Alternatively, technical urotropin according to GOST 1381-73 or urea (GOST 6691-77), or a double mixture of these substances with dicyandiamide, can alternatively be introduced.

An alternative to dicyandiamide in the proposed composition are substances from the series: urotropin, urea (urea), or their double mixture with dicyandiamide, which are similar blowing agents selected for reasons of accessibility, domestic raw materials and technological base, provided that the action in the aerosol forming composition is comparable for the main purpose.

The mixed composition is discharged from the mixer and passed through a granulator grid in order to prevent the formation of lumps and to improve the volumetric dosage of the composition.

High-quality charges are pressed from the prepared composition due to the uniformity of the structure of the strongly bonded components.

The proposed order and production mode of the composition by 25-30% reduces the complexity, compared with the regular technical process.

Optimized by calculation, the mass ratio of the components of the composition according to the invention was experimentally tested on prototypes of pressed charges.

The compositions with a different combination of the mass content of the components were tested: within the boundaries of the proposed ranges, at and outside these boundaries, determining the destination indicators, the main technical characteristics of the aerosol-forming compositions: burning rate, fire extinguishing concentration of the generated gas-aerosol mixture and the amount of dispersed phase in it.

Representative examples of the experimental compositions are shown in Table 1.

Table 1 The chemical composition of the tested compositions Components The content of components in the compositions, wt.% prototype one 2 3 four 5 Potassium nitrate 70 69 72 75 76 77 Iditol eleven eleven eleven eleven eleven eleven Dicyandiamide 19 twenty 17 fourteen 13 12

Measured charges for firing tests were made from prepared compositions by pressing. When charges are burning, a quenching gas-aerosol mixture is generated, the main technical characteristics of which were determined during the tests.

table 2 comparative characteristics of the appointment of compounds Indicators COMPOSITIONS prototype one 2 3 four 5 The burning rate of the composition compressed at beats. pressure 500 kgf / cm ² , mm / s, 2.2 2.1 2,4 2.5 2,4 2.1 The amount of dispersed phase,% by weight of the composition 53 54 58 64 62 61 Fire extinguishing concentration (for ethanol), g / m ³ 45 43 40 35 40 42

From the analysis of tables 1 and 2, it follows that the most effective for the main purpose, according to the main technical characteristics, are compositions No. 2-4, the content of components in which corresponds to the ranges selected in the invention.

The manufacturability of the proposed aerosol-forming composition and the manufacture of extruded charges from it, provided the environmentally friendly functioning for fire fighting in closed volumes of unventilated rooms, allows us to recommend the invention for industrial production in existing pyrotechnic equipment.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the invention does not explicitly follow for a specialist in fire fighting equipment, showed that it is unknown, and taking into account the practical feasibility of serial production of aerosol-forming pyrotechnic composition by industry technology, we can conclude that it matches patentability criteria.

Claims (1)

Pyrotechnic aerosol forming composition for volumetric fire extinguishing, containing potassium nitrate - an oxidizing agent, a combustible binder - iditol, pre-treated with ethanol, and a gas-generating substance - dicyandiamide, characterized in that iditol is treated with ethanol in a mass ratio of 1: (0.2-0, 3), and the components are contained in the following ratio, wt.%:
potassium nitrate 70-76 iditol 7-14 dicyandiamide 13-20