RU2150310C1 - Aerosol-forming composition for three-dimensional extinguishing of fires - Google Patents

Abstract

FIELD: fire-extinguishing. SUBSTANCE: invention relates to technics for three-dimensional aerosol extinguishing of fires in closed spaces and non-ventilated rooms and more specifically to pyrotechnic compositions giving, after combustion, gas-aerosol mixture of combustion inhibitors. Aerosol-forming composition represents a pyrotechnic block containing, %; potassium nitrate, 60-67; phenol- formaldehyde thermoplastic novolac resin, 9-11; and dicyanediamide, 16-18; and covered by gas-permeable shell of powdered fire-retardant material, 8-11. Pyrotechnic block to fire-retardant weight ratio lies within a range between 1:0.9 to 1:0.12. Above-indicated shell is made in the form of granules composed of 93-95% dolomite, 4-5% urea, and 1- 2% Aerosil. EFFECT: enhanced fire-extinguishing efficiency and increased functional reliability. 2 cl

Description

 The invention relates to techniques for volumetric aerosol fire extinguishing in enclosed spaces and unventilated rooms, and more particularly, to pyrotechnic compositions upon combustion of which a gas-aerosol mixture of combustion inhibitors is formed.

 The prior art is characterized by three-component pyrotechnic powder compositions containing potassium nitrate (oxidizing agent), phenol-formaldehyde resin (combustible binder) and aerosol-forming dicyandiamide described in the inventions according to RF patents N 2046614, A 62 C 37/00, 1995 and N 2101054, A 62 C 3/00, 1998, which are used for volumetric fire extinguishing in enclosed spaces of flammable liquids, combustible materials, devices, equipment and power plants.

 The disadvantage of these compositions is the incompleteness of combustion, in which molten particles are discharged into the generated gas-aerosol stream, which increases its temperature and reduces the extinguishing of fires, not providing protection for flammable protected materials, since they can cause secondary fires.

 A more perfect powder composition according to the patent of the Russian Federation 2096055, A 62 C 13/22, 1997, including potassium nitrate, phenol-formaldehyde resin and dipiandiamide in a ratio close to stoichiometric, and additionally containing fire extinguishing components (flame retardants): potassium bicarbonate, sodium or oxalate ammonium in an amount of 3 to 7 wt.%. The thermal decomposition products of flame retardants increase the dispersed phase of the extinguishing gas-aerosol mixture, while the temperature of its products is 3.0 - 3.5 times lower than that of the combustion products emitted into the protected volume, according to known compositions.

 Fire extinguishing concentration is reduced by 10 - 15%, smoke formation does not occur with sparks and flame.

 However, the disadvantage of this composition is the limited area of use due to exceeding the maximum permissible concentration of combustion inhibitors contained in the generated gas-aerosol mixture, in particular ammonia, in an enclosed space that is harmful to human life.

 In addition, the composition is not technologically advanced for direct compression of the pyrotechnic charge pieces to an aerosol generator, the mechanical strength of which is unsatisfactory due to the relatively low content of the polymer binder in the composition.

 The distribution in the volume of the pyrotechnic composition of the checkerboard of additional flame retardant material reduces the functional reliability of its unstable combustion.

 This disadvantage is eliminated by placing the flame retardant on the surface of the pyrotechnic block in the path of the extinguishing mixture to more effectively reduce the temperature in the invention according to the patent of the Russian Federation N 2072135, A 62 C 3/00, 1997, selected as the closest analogue, where the flame retardant is presented in the form a gas-permeable shell made of granules or tablets of a pressed powder of sodium bicarbonate, inside of which there is a pyrotechnic block, generating a gas-aerosol extinguishing mixture during combustion. The pyrotechnic checker contains potassium nitrate, phenol-formaldehyde resin and dicyandiamide in a ratio close to stoichiometric.

 The disadvantage of the prototype is the unsatisfactory functional reliability due to the fact that the masses of the pyrotechnic checkers and the flame retardant shell are not optimized in the ratio, which in one case does not provide sufficient cooling of the combustion products of the pyrotechnic composition of the checkers, and in the other, otherwise, the flame retardant shell represents a large hydraulic resistance for generated aerosol, slowing down its delivery to the protected volume.

 In addition, compressed granules or flame retardant pellets made from sodium bicarbonate powder have low mechanical strength and during transportation, installation, carrying, they are frayed, crumbled and cracked, which dramatically changes the gas dynamics of aerosol flows in operation. Ballast additional binding material in tablets or pellets of a flame retardant increases mechanical strength, but compresses the effectiveness of the main action and the mass ratio of the pyrotechnic composition of the checker to the flame retardant shell.

 The problem to which the present invention is directed, is to increase the functional reliability and effectiveness of the main action of the aerosol forming composition of the optimized composition and ratio of structural components.

The required technical result is achieved by the fact that in the known aerosol-forming composition for volumetric fire extinguishing, which is a pyrotechnic checker containing potassium nitrate, phenol-formaldehyde resin and dicyandiamide in a ratio close to stoichiometric and covered with a gas-permeable shell made of powder material flame retardant, according to the proposal of the authors pyrotechnic checkers and flame retardant are taken in the ratio as 1: (0.09 - 0.12), and the composition contains components (wt.%):
technical potassium nitrate - 60 ... 67
phenol-formaldehyde thermoplastic resin of novolac type SF-0112A - 9 ... 11
dicyandiamide - 16 ... 18
flame retardant - 8 ... 11
moreover, the gas-permeable shell of the powder material of the flame retardant is made in the form of granules / tablets containing, wt.%:
dolomite - 93 ... 95
carbamide - 4 ... 5
Aerosil - 1 ... 2
Distinctive features provided stable combustion of the pyrotechnic composition and effective cooling of gas-aerosol products of its combustion.

 The ratio of the mass of the checker and the flame retardant as 1: 0.09 determines the minimum amount of the extinguishing agent of the shell necessary to reduce the temperature of the gas-aerosol stream to a predetermined level below the ignition temperature of organic materials.

 The upper limit of the ratio of these masses as 1: 0.12 is determined by the hydraulic resistance of the shell, which does not interfere with the free permeability of the extinguishing gas-aerosol mixture.

 The distribution of pellets / flame retardant tablets over the surface of the checker increases the contact area of the already formed stable gas-aerosol stream and provides effective cooling without noticeable hydraulic resistance, distorting the dynamics of the process of transporting the extinguishing mixture to the fire, which increases the functional reliability of the separate sequential action of the structural components of the aerosol-forming composition .

 Separate manufacture of a pyrotechnic checker and a granular shell of its cooling coating provides requirements for mechanical strength, manufacturability in processing by pressing, as well as stability of combustion and gas permeability, respectively.

 The selected composition of the shell of the tablets / granules containing the flame retardant powder material is preferred from among the known ones because it does not increase the concentration of harmful substances in the extinguishing mixture, and in case of inevitable mass transfer of part of the shell material by the extinguishing gas-aerosol stream in the form of neutral endothermic decomposition products of flame retardants into the protected volume additional combustion inhibitors are supplied, which increases the quenching ability of the proposed composition.

 Each of the essential features is known per se, but their new combination and qualitative composition create a new effect that is not inherent in their disunity, that is, it allows us to solve the problem posed by the invention to increase fire extinguishing efficiency, the stability of pyrotechnic bomb burning, and simplify the technology of manufacturing an aerosol-forming charge, while improving the environmental safety of production and use.

Shell granules from a powder material of a flame retardant with a diameter of 8 mm are made by direct pressing without the use of an additional binder. It is based on refractory dolomite (calcium and magnesium carbonate) with the addition of aerosol forming urea and an amorphous adsorbent - aerosil. As a result of the thermal decomposition of flame retardants, non-combustible compounds are formed (CO ₂ , N ₂ , NH ₃ , H ₂ O pairs), which increase the aerosol output of the finely dispersed phase of particles and inert gases, which ensures an increase in the fire-extinguishing efficiency of the composition, since they prevent decomposition of the protected materials with the release of combustible gases and prevent their ignition.

The composition of the used flame retardant does not include ballast components, each of which during endothermic decomposition increases the volume of combustion inhibitors in the gas-aerosol mixture generated during the combustion of the pyrotechnic checker to a tolerable toxic level of aerosol for humans at extinguishing concentrations. The porous structure of the shell of a granular flame retardant reduces the temperature in the fire extinguishing stream by 250 - 300 ^o C.

The pyrotechnic composition is prepared from the powdered components of technical potassium nitrate, KNO ₃ according to GOST 19790-74, phenol-formaldehyde thermoplastic novolac resin brand SF-0112A, GOST 18694-80 and technical dicyandiamide, GOST 6988-73 - gas aerosol former.

In resin SF-0112A, the mass of free phenol does not exceed 0.1% (versus 17.0% for other brands), which increases the processability of processing, since phenol acts on the nervous system of people, causing acute and chronic poisoning. The maximum permissible concentration in the air of the working room is set to not more than 0.5 mg / m ³ , which can be observed during the processing of resin SF-0112A. The dropping temperature of this component 120 - 150 ^o C increases the heat resistance of the composition as a whole.

The use of technical potassium nitrate is more preferable, for example, than potassium nitrate, KNO ₃ according to GOST 4217-77 because it contains less moisture in its composition (wt.%): 0.08 versus 0.2, which ensures the stability of combustion of the pyrotechnic composition , since the phlegmatizing effect of water is reduced.

 Pre-prepared varnish solution of phenol-formaldehyde resin in an alcohol-acetone mixture.

Powdery potassium nitrate with dicyandiamide is mixed for 10 minutes in the mixer, and then a solution of phenol-formaldehyde resin in the alcohol-acetone mixture is added in three portions in equal portions. Stirring is continued for 5 minutes after adding each portion at a temperature of 40 ^o C.

The mixed composition is discharged onto a granulator mesh forcedly blown with hot air at a temperature of 40 ^o C to remove from the composition of the alcohol-acetone mixture, carrying out the so-called drying for 2 hours.

The dried granules are laid out on mesh trays with a layer of 2 - 3 cm and incubated for 4 hours at a temperature of 40 ^o C for complete drying - the moisture and volatile content is not more than 1%.

 The granular and dried finished composition is pressed into a pyrotechnic charge checker for placement in fire extinguishers, inside the flame retardant shell.

 The proposed qualitative and quantitative composition of the aerosol-forming composition provides a higher combustion rate and stability with complete combustion of the pyrotechnic checker components, a higher yield of highly dispersed particles and inert gases - combustion inhibitors into the aerosol, which increases the functional reliability of the action and the efficiency of fire fighting with environmental safety. In the ablative shell of a gas-permeable flame retardant, an active decrease in the temperature of the gas-aerosol stream and its dilution with additional inert gases are provided.

 The proposed composition is not known from available sources of information of the prior art, from which it does not explicitly follow for a fire specialist, and can be industrially manufactured in series on conventional factory equipment, that is, meets the criteria of patentability.

Claims (1)

1. Aerosol-forming composition for volumetric fire extinguishing, consisting of a pyrotechnic block containing potassium nitrate, phenol-formaldehyde resin and dicyandiamide in a ratio close to stoichiometric, and coated with a gas-permeable shell made of powder material flame retardant, characterized in that the mass of the pyrotechnic flame and the flame retardant as 1: (0.05 - 0.12), and the composition contains components, wt.%:
Technical potassium nitrate - 60 - 67
Resin phenol-formaldehyde thermoplastic novolac type SF-0112A - 9 - 11
Dicyandiamide - 16 - 18
Fire retardant - 8 - 11
2. The aerosol forming composition according to claim 1, characterized in that the gas-permeable shell of the powder material of the flame retardant is made in the form of granules or tablets containing, wt.%:
Dolomite - 93 - 95
Urea - 4 - 5
Aerosil - 1 - 2i