RU2216371C2 - Powder fire-extinguishing composition and method of production thereof - Google Patents

Abstract

FIELD: fire-extinguishing compositions, particularly to extinguish Class B, C and E fires. SUBSTANCE: method of production involves separate drying of fire extinguishing composition components; simultaneous mixing and powdering of the components. The composition includes waterproofing fine additive having bulk density not more than 200 kg/sq.m. and moisture content not more than 0.35 wt %, namely Aerosil, carbon white, chamotte-kaolin powder, mica scraps, talcum powder. Additive content is 0.5 - 4.5 wt%. Silica, aluminosilicates and silicates, alkali metal and alkaline-earth metal carbonates are added to increase composition fluidity in concentration of 35.0 - 70.0 wt%. Composition main component is fire-extinguishing agent, namely sodium bicarbonate, alkali metal and alkaline-earth metal sulfates and phosphates. Main component content is added up to 100 wt%. EFFECT: increased Class B fire extinguishing rate with enhanced operational performance, improved thermostability of fire extinguishing composition, low corrosiveness to equipment materials. 7 cl, 1 tbl

Description

 The invention relates to the field of fire fighting equipment, namely fire extinguishing powder compositions, and to methods for their preparation, which can be used to extinguish class B fires (flammable liquids), Class C (combustible gases), and class E (electrical installations under voltage up to 1000 V).

 Known powder for extinguishing fires (copyright certificate SU 1588426, A 62 D 1/00, publ. 30.08.90, bull. 32), which contains, wt.%: Modified aerosil 1.0-2.5; fluidity additive 10.0-30.0; potassium or sodium chloride 15.0-65.0, sodium bicarbonate - up to 100.

 A disadvantage of the known composition is the increased tendency to corrosive effects on materials intended for the manufacture of fire-fighting equipment.

 Known fire extinguishing powder for multi-purpose (patent RU 2155088, A 62 D 1/00, publ. 08/27/2000, bull. 24), containing, wt.%: Ammophos 40.0-65.0; kaolin-chamotte 0.5-10.0; fine silica 0.5-5.0; a water-insoluble mineral or a mixture of minerals - up to 100. The following are insoluble minerals or a mixture of minerals: dolomite, talc, talc-magnesite, apatite, magnesite.

 Known fire extinguishing powder has a significant drawback, namely low resistance to thermal effects.

Closest to the claimed invention is a fire extinguishing powder composition and method for its preparation (patent RU 2143297, A 62 D 1/00, publ. 27.12.99, bull. 36), which contains the following components, wt.%:
Fine additive - 0.8-3.5
The target additive for fluidity - 8.0-35.0
Water-repellent organosilicon liquid - 0.008-0.28
Main component - Up to 100
Moreover, as a highly dispersed additive, the composition contains at least one substance from the series: aerosil, white soot, chamotte-kaolin powder, mica waste, talc, and mainly aerosil.

 As a target additive for fluidity, it contains at least one substance from the series: nepheline concentrate, phlogopite, muscovite, labazine, perlite, mainly nepheline concentrate.

 As a hydrophobizing liquid, the composition contains at least one substance from the series: polymethylhydrosiloxane liquid, alkyl halosilanes, sodium organosiliconate, in an amount of not more than 1% by weight of the target additive, and mainly polymethyl hydrosiloxane liquid.

 As a main component, the composition contains at least one substance from the series: potassium chloride, sodium chloride, ammophos, sylvinite, sulfate, alkaline or alkaline earth metal phosphate, sodium bicarbonate, monoammonium phosphate, diammonium phosphate, ammonium sulfate.

 A method of obtaining the specified fire extinguishing powder composition includes drying, grinding, hydrophobization with an organosilicon liquid and mixing the components of the composition: the main component, the target additive and a finely divided additive, the drying and grinding of the main component and the target additive is carried out separately, and the target additive is subjected to hydrophobization and carried out simultaneously with grinding.

 The main disadvantage of the known extinguishing composition is the length of the fire extinguishing process of a class B fire, while the remainder of the powder in the fire extinguisher after extinguishing has a maximum permissible value. In addition, the fire extinguishing composition has insufficient resistance to thermal effects and increased corrosion activity.

 The known method for producing fire extinguishing powder is characterized by the complexity, duration and periodicity of the stages, high labor and energy costs, since it includes separate preparation of components using various equipment.

 The objective of the invention is to provide an industrial method for the preparation and composition of fire extinguishing powder with an optimal ratio of components, which allows to accelerate the process of extinguishing a class B fire while maintaining high performance.

 The second objective of the invention is to increase the resistance of the extinguishing agent to thermal effects and reduce corrosion activity in relation to the materials of fire fighting equipment.

The object of the invention is achieved in that the fire extinguishing powder composition contains components in the following ratio, wt.%:
Hydrophobized highly dispersed additive with a bulk density of not more than 200 kg / m ³ and a moisture content of not more than 0.35 wt.% - 0.5-4.5
The target additive for fluidity - 35,0-70,0
Main component - Up to 100
Moreover, as a hydrophobized highly dispersed additive, it contains at least one substance from the series: hydrophobized aerosil, hydrophobized white soot, hydrophobized chamotte-kaolin powder, hydrophobized mica waste, hydrophobized talc.

 As a target additive for fluidity, the fire extinguishing composition contains at least one substance from the series: silica, aluminosilicates, silicates, alkali and alkaline earth metal carbonates.

 As the main component, the composition contains at least one substance from a number of active quenching agents: sodium bicarbonate, sulfates, phosphates of alkali and alkaline earth metals.

A method of obtaining a fire extinguishing powder composition includes drying, grinding and co-mixing the components of the composition: the main component, the target additive and a finely divided additive, while drying the components of the composition is carried out separately, followed by simultaneous mixing and grinding. Drying fine additives is carried out to a moisture content of not more than 0.35 wt.%. Grinding finely dispersed additives is carried out to an index of bulk density of not more than 200 kg / m ³ .

The extinguishing powder composition obtained by the production method described above is a finely divided mechanical mixture with a specific surface area of 2000-7500 cm ² / g, its moisture content does not exceed 0.35 wt.%. Excellent powder fluidity of 0.34-0.40 kg / s, low moisture absorption of 0.02-0.2 wt.% And the absence of caking indicate a high fire extinguishing composition.

 For the purpose of experimental verification, several extinguishing powder compositions with different component contents were prepared. Then, these compositions were tested according to the following indicators: extinguishing time of a class B fire center, resistance to thermal effects, tendency to moisture absorption, mass moisture content, tendency to caking, water repellency, heterogeneity coefficient, fluidity (powder residue in a fire extinguisher), fire extinguishing ability.

 Thermal resistance and fire extinguishing ability are determined in accordance with GOST 26952-86 as amended by 1 "Fire extinguishing powders. General technical requirements and test methods."

 When determining the corrosivity of the extinguishing agent, a method is used that is based on determining the degree of corrosion from the action of the powder on metal plates of steel St.3, placed in a desiccator with a 25% solution of sulfuric acid for 3 days. After testing, the degree of corrosion activity (in%) of the extinguishing compositions in relation to the test samples of the plates is determined.

 The time to extinguish a fire is determined from the moment the fire is extinguished to the complete elimination of the fire without re-ignition.

 The remaining operational characteristics of the claimed composition is determined in accordance with NPB 170-98 (Fire Safety Standards "Extinguishing Powders for General Purpose. General Technical Requirements. Test Methods").

Fire extinguishing composition, including a highly dispersed additive with a moisture content of more than 0.35 wt. % and a bulk density of more than 200 kg / m ³ , does not correspond to the indicators of air safety standards 170-98 in their tendency to caking, moisture absorption, and water repellency.

 The heterogeneity coefficient is a criterion for assessing the quality of mixing and is determined in accordance with the methodology described in the manual Makarov Yu.I. Devices for mixing bulk materials, -M .: Mechanical Engineering, 1973. The heterogeneity coefficient of the composition of the prototype (5-10%) indicates a low quality of powder mixing.

 According to the test results presented in the table, the following conclusions can be drawn that when using the proposed method for producing a fire extinguishing powder composition with an optimal ratio of components, a decrease in the coefficient of heterogeneity (improvement in mixing quality), a decrease in the extinction time of a class B fire center, and an increase in resistance to thermal impact while maintaining excellent operational characteristics (examples 1-3, 6-8). When the content of finely dispersed additives is below 0.5 wt.% (Example 4), the fire extinguishing composition is characterized by high moisture absorption, an increased tendency to caking, and a low ability to water repellent. When the content of finely dispersed additives is higher than 4.5 wt.% (Example 5), there is a decrease in moisture absorption, but at the same time, the fluidity of the extinguishing powder decreases. When the content of the target additive is below 35 wt.% (Example 9) and above 70 wt. % (example 10) there is a decrease in the fluidity of the fire extinguisher composition, also - increase in the remainder of the powder in the fire extinguisher to the maximum permissible value.

 Thus, the task of the invention is achieved by the combination of all the features: the components of the composition and their optimal ratio, as claimed in the solution.

 A method of obtaining a fire extinguishing powder composition is feasible on the line of technological equipment for the production of fire extinguishing powder products, including a drum dryer, mixer, ball mill, hopper of the finished product.

 Additional benefits when using the inventive fire extinguishing powder composition.

1. The ability to store and use the inventive fire extinguishing composition in a wide temperature range (from -50 to +50 ^o C) without changing operational characteristics.

 2. The composition of the inventive fire extinguishing powder does not contain corrosive components that cause corrosion of fire-fighting equipment.

 3. The proposed optimal ratio of components can reduce the cost of the extinguishing agent.

 4. The cooking technology does not require large expenditures, is low-stage and easy to automate.

Sources of information
1. Copyright certificate SU 1588426, A 62 D 1/00, publ. 08/30/90, bull. 32.

 2. Patent RU 2155088, A 62 D 1/00, publ. 08/27/2000, bull. 24.

 3. Patent RU 2143297, A 62 D 1/00, publ. 12/27/99, bull. 36.

Claims (6)

1. Fire extinguishing powder composition comprising a finely dispersed additive, a targeted additive for fluidity, the main component, characterized in that it contains as a finely dispersed additive a hydrophobized finely dispersed additive with a bulk density of not more than 200 kg / m ³ and a moisture content of not more than 0.35 wt. % in the following ratio of components of the composition, wt. %:
Hydrophobized, highly dispersed additive - 0.5-4.5
The target additive for fluidity - 35,0-70,0
Main component - Up to 100
2. The composition according to p. 1, characterized in that as a hydrophobized highly dispersed additive it contains at least one substance from the series: hydrophobized aerosil, hydrophobized white soot, hydrophobized chamotte-kaolin powder, hydrophobized mica waste, hydrophobized talc.  3. The composition according to p. 1, characterized in that as the target additive for fluidity, it contains at least one substance from the series: silica, aluminosilicates and silicates, carbonates of alkali and alkaline earth metals.  4. The composition according to p. 1, characterized in that as the main component the composition contains at least one substance from a number of active quenching agents: sodium bicarbonate, sulfates, phosphates of alkali and alkaline earth metals.  5. A method of obtaining a fire extinguishing powder composition, including drying, grinding and co-mixing the components of the composition: the main component, the target additive and a finely divided additive, characterized in that the drying of the components of the composition is carried out separately with subsequent simultaneous mixing and grinding.  6. The method according to p. 5, characterized in that the drying of the finely divided additives is carried out to a moisture content of not more than 0.35 wt. % 7. The method according to PP. 5 and 6, characterized in that the grinding of finely dispersed additives is carried out to an index of bulk density of not more than 200 kg / m ³ .

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