RU2089250C1 - Aerosol-forming fire-extinguishing compound - Google Patents

Abstract

FIELD: fire extinguishing facilities. SUBSTANCE: fire is extinguished by products of combustion of aerosol-forming fire-extinguishing compound including the following quantity of components, mas.%: potassium carbonate and/or potassium perchlorate 35-80; phenol-formaldehyde resin and/or thiocol epoxy compound 5-30; phosphato-potassium fertilizer with ratio of content of K₂O and P₂O₅ from 0.5-1.0 to 1-2.2 and/or nitrogen-phosphate fertilizer with ratio of content of N and P₂O₅ from 0.7-1.0 to 1-5.7 10-40. Phosphate potassium fertilizer is used in form of polymer potassium metaphosphate, and nitrogen-phosphate fertilizer in form of ammophos, and mixture of fertilizers is used in form of nitrophoska or ammophoskamide. EFFECT: higher efficiency. 2 cl, 3 tbl

Description

 The invention relates to fire fighting equipment and can be used in volumetric fire extinguishing means (various types of fire extinguishing aerosol generators) for extinguishing flammable and combustible liquids (LVF and GF) and solid combustible materials (including smoldering fibrous materials.

 It is widely known the use of pyrotechnic smoke-forming compositions for volumetric fire extinguishing.

The main disadvantage of these compositions is low fire extinguishing efficiency (specific consumption of the compositions is 150-200 g / m ³ ).

 A number of special aerosol-forming compositions used for volumetric fire fighting are also known.

The main disadvantages of the above compositions are low fire extinguishing efficiency in bulk extinguishing of solid combustible materials (more than 150-200 g / m ³ ), the complex technology of manufacturing charges from these compositions (curing of the composition occurs after 7-10 days at a temperature of 80 ^o C).

 In addition, the known compositions are not capable of bulk quenching of solid smoldering combustible materials.

 Closest to the proposed structure is the composition of a. from. USSR N 192669.

 The composition includes, by weight. 35-50 oxygen-containing oxidizing agent (for example, potassium chlorate, potassium nitrate, sodium nitrate or ammonium nitrate); 15-40 organic nitrogen-containing fuel (e.g., dicyandiamide, nitroguanidine, urea); 22-35 carbonate salts of ammonium, sodium, potassium, calcium or magnesium and about 3 iditol.

We selected this composition as a prototype composition. The disadvantages of the composition of the prototype are:
low volume fire extinguishing;
the specific consumption for extinguishing LVH and GF is 100-150 g / m ³ , while extinguishing solid combustible materials 250-350 g / m ³ ;
a large number of slag formed during combustion of the composition (15-20);
does not provide volume quenching of smoldering materials.

The aim of the invention is the development of an aerosol-forming fire extinguishing composition, which provides effective fire extinguishing of foci of flammable liquids, flammable liquids and solid combustible materials, including smoldering ones. (Fire classes A ₁ , A ₂ , B, C, E).

This goal is achieved by the fact that in the composition based on potassium nitrate and / or potassium perchlorate and phenol-formaldehyde resin and / or thiokecoepoxide compound and additives, potassium phosphate fertilizer with a content of K ₂ O and P ₂ O ₅ in the ratio of 0.5- 1.0 to 1.0-2.2 and / or nitrogen-phosphorus fertilizer with a content of N and P ₂ O ₅ in a ratio of 0.7-1.0 to 1-5.7.

 Moreover, as a potassium phosphate fertilizer, the composition contains polymer potassium metaphosphate, as a nitrogen-phosphate fertilizer, ammophos, and as a mixture thereof, nitrophosphate or ammofoskamide.

It is known that the main characteristics of existing mineral fertilizers (including potash-phosphorus and nitrogen-phosphorus) are the content of N, K ₂ O and P ₂ O ₅ . Depending on the feedstock, the method and conditions for producing fertilizer, the content of N, K ₂ O and P ₂ O ₅ may vary, which is reflected in the respective ratios.

So, for polymer potassium metaphosphate (KPO ₃ ) _{n, the} content of K ₂ O and P ₂ O ₅ is from 1.1.2 to 1.5.2.2.

For ammophos (a mixture of monoammonium phosphate with diammonium phosphate), the content of N and P ₂ O ₅ is from 0.7.1.0 to 1.0-5.7.

 The proposed aerosol forming composition contains, by weight.

Potassium nitrate and / or potassium perchlorate 35-80
Phenol-formaldehyde resin and / or thiol-epoxy compound 5-30
Potassium phosphate fertilizer with content
K ₂ O and P ₂ O ₅ in a ratio of 0.5.1.0 to 1.0.2.2 and / or nitrogen-phosphorus fertilizer with a content of N and P ₂ O ₅ in a ratio of 0.7.1.0 to 1.5.7 10 -40
As phenol-formaldehyde resin, resin SF-0112 (iditol) is used. The conditional formula is C ₁₃ H ₁₂ O ₂ . Resin SF-0112 (iditol) - a novolac type resin is obtained by condensation of an excess of phenol with formaldehyde in the presence of an excess of phenol in the presence of an acidic catalyst (for example, hydrochloric acid). The resin in the proposed composition is introduced either in dry form, or in the form of a 20-50th solution in ethyl alcohol.

 Thiocol epoxy compound is a liquid composition based on thiokol, epoxy resin, manganese dioxide, hexamethylenetetramine, diphenyl guanidine and silicon dioxide.

 At the same time thiokolepoxy compound contains, by weight.

Thiokol (polysulfide rubber) 50-32
Epoxy resin 9-30
Manganese Dioxide 77-14
Hexamethylenetetramine 0.5-3.5
Diphenylguanidine 0.2-1.8
Silicon dioxide 0.2-1.8
It is known to use ammonium phosphates (for example, ammophos) as fire extinguishing powders, for example, P-2AP (TU-113-08-597-86), pyrantan (TU 6-18-2-88), pyrant A (TU 301-11 -03-89), Totalit-6 (Pat. N 1621718, Germany), R-11-24 (France), Rhodiex-ABC (Pat. N 2313093, France), Centvimax (Pat. N 1410469, Great Britain) and others while fire extinguishing powders are used mainly for the surface extinguishing of fires of various classes with a specific consumption of 0.8-1.0 kg / m ² . The particle size of the powder is generally 20-130 microns. It should be noted that during the interaction of powder particles with a fire, a significant part (80-90) of particles larger than 10 microns do not have time to evaporate (decompose), therefore, the use of fire extinguishing powders for volumetric fire extinguishing is ineffective.

 With a decrease in the content of potassium nitrate and / or potassium perchloride less than 35 wt. combustion of the composition is unstable, a large amount of slag and a sharp decrease in quenching efficiency, and with an increase in the content of potassium nitrate and / or potassium perchloride more than 80 wt. combustion of the composition is also unstable, a decrease in aerosol yield and fire extinguishing efficiency.

 With a decrease in the content of phenol-formaldehyde resin and / or thiokelepoxy compound in the composition of less than 5 wt. inhomogeneous mixing of the components occurs and conditions are created for unstable combustion, and with an increase in the content of over 30 wt. during combustion, the formation of a large amount of slag and a decrease in quenching efficiency.

 With a decrease in the content of potassium-phosphorus and / or nitrogen-phosphorus fertilizers in the composition of less than 10 wt. there is a decrease in extinguishing efficiency, and with an increase of more than 40 wt. unstable combustion in a pulsating mode, the formation of a large number of slags, the emission of droplets of melt components.

 The manufacture of composition and charges from it is carried out according to the following technology.

The starting components are ground to a powder state. Then they are mixed in a paddle mixer for 10-25 minutes, after which the phenol formaldehyde resin in the form of a 20-30th solution in ethanol and / or thiokeepoxide compound (without diphenylguanidine polymerization accelerator) is loaded into the mixer bowl. The resulting mixture was stirred for 10-25 minutes. After that, the resulting composition is granulated and dried for several hours at a temperature of 30-60 ^o C. When using a thiokeepoxide compound, a polymerization accelerator, diphenylguanidine, is introduced 10-15 minutes after its loading. When using phenol-formaldehyde resin in dry form, it is introduced into the composition together with all components, while granulation and drying operations are not performed. The manufacture of charges is performed by the method of blind pressing on hydraulic presses with a specific pressing pressure of 1500-1800 kg / cm ² .

 The essence of the invention is as follows. During the combustion of the aerosol-forming composition in the dispersed phase of the aerosol, a significant amount (50-60) of finely dispersed highly active (freshly formed with a high specific surface) potassium compounds are formed, on the surface of which reactions are inhibited in the flame. An analysis of the dispersed composition of aerosol particles showed that in the process of combustion mainly particles of 0.5-2 microns in size are formed, which have high sedimentation stability, which also makes a significant contribution to increasing the efficiency of fire extinguishing aerosol. So, in 30-60 minutes, the mass concentration of azrozole particles decreases by only 4 times. The introduction of potassium-phosphorus and / or nitrogen-phosphorus fertilizers into the dispersed phase ensures the formation of various condensed ammonium and / or potassium phosphates in the dispersed phase of the aerosol, which, when they fall into the high temperature zone from the fire, decompose, forming an adhesive and hygroscopic intermediate compound of phosphate with nitrogen which, settling, forms on the surface of the fires, for example, solid combustible materials (wood, rubber, polymers) a film having a glassy structure. Isolation of the fire source occurs and oxygen access to it ceases and combustion ceases.

 Thus, the formation of finely dispersed highly active potassium compounds, condensed ammonium and / or potassium phosphates and intermediate phosphate and nitrogen compounds during the combustion process and the dispersed phase of the aerosol provide a high fire extinguishing efficiency of the proposed composition not only for quenching LVH and GF, but also solid combustible materials , including smoldering.

 Examples of obtaining the proposed aerosol forming fire extinguishing composition with different content of components are given in table 1.

 In the table. 2-3 shows the results of comparative tests of the proposed composition and composition of the prototype.

The tests were carried out in chambers with a volume of 0.25 and 12 m ³ . For testing in a 0.25 m ³ chamber, samples of compositions pressed into a paper-rolled jacket of ⌀ 10 mm at a specific pressing pressure of R _{beats were used.} = 1700 ± 100 kg / cm ² . For tests in the chamber W 12 m ³ used charges from the compositions, pressed into a paper-metal shell with a diameter of 100 mm at P _beats. = 1700 ± 100 kg / cm ² .

 Data analysis table. 1-3 shows that the proposed aerosol-forming fire extinguishing composition exceeds the prototype composition in fire extinguishing efficiency (specific consumption) of flammable liquids by 2-3 times and at the same time has a new positive quality that provides volume extinguishing of class A fires (smoldering materials).

Claims (1)

1. Aerosol-forming fire extinguishing composition, including potassium nitrate and / or potassium perchlorate, an organic resin and an additive, characterized in that as an organic resin it contains a phenol-formaldehyde resin and / or thiol-epoxy compound, and as an additive contains potassium-phosphorus fertilizer with a ratio of K ₂ OP ₂ O ₅ 0.5 1.0 1.0 2.2 and / or nitrogen-phosphorus fertilizer with a ratio of NP ₂ O ₅ 0.7 - 1.0 1.0 5.7 in the following ratio, wt. Potassium nitrate and / or potassium perchlorate 35 80
Phenol formaldehyde resin and / or thiokeepoxide compound 5 30
Specified potassium phosphorus fertilizer 10 40
2. The composition according to claim 1, characterized in that it contains polymer potassium metaphosphate as a potassium phosphorus fertilizer, ammophos as a nitrogen-phosphorus fertilizer, and nitrophosphamide or ammofoskamide as a fertilizer mixture.

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