RU2618261C1 - Aerosole-forming pyrotechnical composition for fire extinguishing - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: pyrotechnical aerosol-forming composition comprising (wt %) oxygen containing oxidizer - 55-60 potassium nitrate, iodine-containing flame retardant - ammonium iodide or potassium iodide 5-7, a blowing agent - iditol and sorbitol 34-36 1-2, wherein iditol introduced into mixture in the form of a 25% solution in ethanol. Composition forms an environmentally friendly aerosol inhibiting combustion in smaller concentration quenching, which ensures high efficiency of fire suppression to a limited extent.

EFFECT: charge combustion temperature reduction provides cooling extinguishing aerosol generator inside.

2 cl, 1 tbl, 5 ex

Description

The invention relates to fire fighting equipment, and more specifically to chemical fire extinguishing agents, and can be used to suppress fire sources in closed volumes (instrument compartments, electrical cabinets, storage and industrial premises, in railway cars and rolling stock, on watercraft, etc. .).

In practice of volumetric fire extinguishing, the standard aerosol-forming pyrotechnic composition, described in patent RU 2153376 C1, A62D 1/06, 2000, including an oxidizing agent - potassium nitrate (GOST 19790-73), gas-producing technical dicyandiamide according to GOST 6988-73 and phenol-formaldehyde resin, has spread grade SF-011A-60 (iditol, GOST 18684-80) as an organic combustible binder, which are contained in the following ratio (wt.%):

potassium nitrate 67-70 dicyandiamide 18-20 iditol 9-12

This combustion aerosol forming composition for volumetric fire extinguishing, which characterizes the level of the given technical field, has a burning rate of 1.3 mm / s with a temperature of 1130 ° C and provides a quenching concentration of the generated aerosol of 86 g / m ³ , which determines its target suitability for equipment pyrotechnic charge of automatic fire extinguishing generators by a signal from sensors exceeding a predetermined temperature or smoke in a protected volume.

The disadvantage of the described composition is the low fire extinguishing efficiency during incomplete combustion of components due to the unbalanced mass ratio, which limits the use of the composition in closed unventilated rooms, due to the toxicity of the generated gas-aerosol products containing HCN, NH ₃ and CO, with high temperature, for reduction of which requires additional design and technological improvements of generators with productive coolers, which increases the consumer cost of of Fire Protection.

In addition, the functional aerosol generated during combustion of the described composition has pronounced alkaline properties when the decomposition products of unburned potassium nitrate are K ₂ O and KOH, which limits the scope, especially in electrical engineering, due to the active corrosion effect on the contacts.

According to the technical nature and the number of coinciding features, an aerosol-forming pyrotechnic composition for extinguishing fires according to the patent RU 2480259 C1, A62D 1/06, С06В 29/04, 2013, including a binary oxidizing agent: potassium chlorate and potassium iodate (supplier, was chosen as a closer analogue to the proposed composition) the main inhibitory component of the dispersed phase of the aerosol is KJ), gas-forming dicyandiamide (DCDA) and / or urotropin and as an organic binder iditol, which are contained in the following ratio (wt.%):

potassium chlorate 5-15 potassium iodate 60-70 iditol 10-12 DCDA / urotropin 10-18

The oxygen-containing oxidizing agent potassium iodate, which is used in the food industry and in the manufacture of medicines, forms thermal extinguishing agents that do not possess aggressive alkaline properties, are not harmful and non-toxic when thermally interacted with iditol.

To ensure the manufacturability of the preparation of a loose mixture of components, preventing clumping with the formation of a potassium iodate monolith, an additional oxidizing agent, potassium chlorate, is introduced into the composition, which acts as a ripper and ensures uniform distribution of the components in the mixture when mixed. This technological additive functionally serves as an oxidation activator, increasing the burning rate of the composition and generating the extinguishing aerosol, while contributing to a more active dispersion of the resulting slag and their removal from the generator by the aerosol working fluid supplied by the blowing agents.

The minimum content in the composition of the blowing agents, with the alternative import substitution of DCDA with urotropine, is sufficient to form the working fluid of the gas-aerosol extinguishing mixture, which reliably transports combustion inhibitors to the ignition site.

A feature of the known composition is that it is granular to stabilize the chemical-physical properties during two-stage drying, including prolonged low-temperature drying, which complicates the process.

The main disadvantage of the known aerosol-forming composition is its low technological effectiveness in the preparation and processing into charges due to the presence of potassium chlorate, a secondary explosive in the structure, which limits its practical use.

In addition, the known composition was not widely used as a fire extinguishing agent for use in enclosed spaces, because gas-forming substances, dicyandiamide and urotropin, decompose upon burning to form cyanide compounds and molten slags, respectively.

At the same time, dicyandiamide is an imported product, which limits the availability and use.

The technical problem to which the present invention is directed is to increase the efficiency of suppressing fires in limited volumes by means of an environmentally friendly aerosol that inhibits combustion in lower quenching concentrations.

The required technical result is achieved in that the known aerosol-forming pyrotechnic composition for extinguishing fires, including an iodine-containing flame retardant, an oxygen-containing oxidizing agent, iditol and a gasifier, according to the invention, contains ammonium iodide or potassium iodide, as the oxygen-containing oxidizing agent, potassium nitrate and gas-forming sorbitol, in the following ratio (wt.%):

potassium nitrate 55-60 ammonium / potassium iodide 5-7 sorbitol 34-36 iditol 1-2,

moreover, iditol is introduced into the mixture in the form of a 25% solution in ethanol.

Distinctive features of the proposed technical solution by reducing the quenching concentration of the generated aerosol that does not contain toxic and harmful components increased the efficiency of suppressing fires in enclosed spaces, and by reducing the charge burning temperature by a third, the cooling of the quenching aerosol inside the generator was simplified technically and constructively.

The use of potassium nitrate as a strong oxidizing agent in the proposed fire extinguishing pyrotechnic composition makes it possible to introduce a functional component — a finished flame retardant — ammonium iodide or potassium iodide, which are easily sublimated during charge burning.

Sorbitol is an active blowing agent of combustion inhibitors - CO ₂ and H ₂ O and organic fuel, generating hexane, which is biofuel, while sorbitol, in combination with a significantly smaller amount of iditol, provides the composition with manufacturability: better mixing of components and adaptability of pressing into charges.

When potassium nitrate of more than 60 wt.% Is introduced into the aerosol-forming pyrotechnic composition according to the invention, the extinguishing efficiency in the ignition area decreases due to the free oxygen entering the protected volume, the excess of which is contained in the extinguishing mixture, which exhibits alkaline properties.

When potassium nitrate is introduced into the aerosol-forming pyrotechnic composition of less than 55 wt.%, The burning rate and the extinguishing aerosol output decrease, the components are incompletely burned due to the negative balance of the thermal base, which worsens the environmental friendliness of the gas-aerosol extinguishing mixture products.

When potassium iodide or equivalent ammonium iodide equivalent in action is introduced into the aerosol pyrotechnic composition, more than 7 wt.%, The removal of condensed particles - effective combustion inhibitors due to thermal decomposition from increasing temperature and burning rate of the charge decreases, as a result of which the functionality of the intended action decreases.

When less than 5 wt.% Potassium iodide or ammonium iodide is introduced into the aerosol-forming pyrotechnic composition, a deficiency of combustion inhibitors is formed in the functional aerosol, the dispersion of combustion products deteriorates, reducing the efficiency of volumetric fire extinguishing due to an increase in its quenching concentration.

When the content of sorbitol in the extinguishing pyrotechnic composition is less than 34 wt.%, The volume of the working fluid for the removal of combustion inhibitors into the gas-aerosol mixture noticeably decreases, while the flowability of the composition deteriorates, making volumetric dosing of the composition difficult.

When the sorbitol content in the extinguishing pyrotechnic composition is more than 36 wt.%, The temperature of the combustion of the charge increases, which requires additional means for cooling the aerosol inside the generator.

With a decrease in the content of iditol in the composition of less than 1 wt.%, The required processability of the composition is not achieved, and the content of iditol in excess of 2 wt.% Is the ballast.

The use of iditol in the form of a 25% solution in ethanol was determined experimentally for high-quality and complete wetting of the powder components during mixing, ensuring their strong adhesion in charge, while the drying time of the finished composition does not significantly increase.

Consequently, each essential feature is necessary, and their combination is sufficient to achieve the novelty of a quality that is not inherent in signs of disunity, that is, the technical problem posed in the utility model is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

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

The proposed differences in the lighting pyrotechnic composition, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in pyrotechnics.

The manufacture of a fire extinguishing composition according to the invention is possible in the existing pyrotechnic production in series.

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

The composition according to the invention is prepared by mixing the components in an industrial mixer according to the technology adopted in pyrotechnics, for which dry components are introduced in measured doses (wt.%): 57.5 ± 2.5 potassium nitrate, 35 ± 1 sorbitol of the chemical formula C ₆ O ₅ H ₁₄ , 6 ± 1 ammonium iodide or potassium iodide, which are mixed for 7-10 minutes for even distribution.

Then, 1.2-2.5 wt.% 25% alcohol solution of resin SF-0112A-25 (1.5 ± 0.5 wt.% Iditol) is introduced into the mixer and mixed for 10-15 minutes to distribute it uniformly in the volume of the mixture of components.

Then the prepared plasticized mixture is unloaded on trays with a layer of 1-2 cm and dried with a stream of air at a speed of 1 m / s at a temperature of 25-40 ° C, until the volatile and moisture content is not higher than 0.6 wt.%.

The dried product is sent for pressing charges or packaged in hermetically sealed plastic bags for storage.

The quantitative ratio of the components of the proposed fire-extinguishing pyrotechnic composition was calculated according to the mathematical model of the experimental design and confirmed by the results of experimental verification of the functioning of the prototype charges for the intended purpose, which showed the achievement of improved characteristics for maximum efficiency of aerosol extinguishing of the fire sources in closed volumes by the generated aerosol during combustion of the composition whose components contain within optimized range in.

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 have shown, samples of charges from compositions 2-4 fully confirmed the achievement of the required performance indicators and increase the efficiency of extinguishing fires in enclosed spaces.

When the charge from composition 1 is burned, the oxidizer is incompletely burned, as a result of which the alkaline properties of the generated aerosol are noted, the quenching concentration of which has noticeably increased, and the charge is crumbling.

The combustion of the charge from composition 5 is characterized by an increased temperature with a decrease in the burning rate, accompanied by the formation of slags filtering the functional aerosol, the efficiency of suppressing foci of ignition drops sharply.

The composition according to the invention, in comparison with a regular fire extinguishing composition, is characterized by the absence of substances toxic and harmful to the human body in the generated aerosol, increased fire extinguishing efficiency due to a 37% decrease in the extinguishing concentration of the generated aerosol (52 and 86 g / m ^3, respectively), while the temperature its combustion is reduced by 330-370 ° C, which expands the technological capabilities of the application for volumetric fire extinguishing in enclosed spaces.

Claims (3)

1. Aerosol-forming pyrotechnic composition for extinguishing fires, including an iodine-containing flame retardant, an oxygen-containing oxidizing agent, iditol and a blowing agent, characterized in that it contains ammonium iodide or potassium iodide, as an oxygen-containing oxidizing agent, potassium nitrate and gas-forming sorbitol, in the following ratio of components (wt.% ): potassium nitrate 55-60 ammonium / potassium iodide 5-7 sorbitol 34-36 iditol 1-2. 2. The composition according to p. 1, characterized in that iditol is introduced into the mixture in the form of a 25% solution in ethyl alcohol.