RU2194555C1 - Powdered fire-extinguishing composition and method of preparation thereof - Google Patents

Abstract

FIELD: fire extinguishing. SUBSTANCE: composition for extinguishing A, B, and C-class fires and burning electrical installations under voltage up to 1000 v contains, 2-4 % of carbon white waterproofed by organosilicon fluid polymerized on the surface of particles, 3-11% of corundum powder or aluminosilicate, and ammonium phosphate and sulfate. White black and organosilicon fluid are taken in weight proportion (95-97)/(5-3) and ammonium phosphate and sulfate in weight proportion (55-100)/(45-0). Preparation of composition involves separate drying and grinding of components. White black, prior to be waterproofed, is dried to moisture content no higher than 0.25%, ground, mixed with organosilicon fluid, and held at 150-200 C until organosilicon fluid on the surface of white black particles is polymerized. All components are then stirred. Composition is characterized by degree of hydrophobicity 75-99%, fluidity 0.35-0.38 kg/s, moisture absorbance tendency 0.9-2.1, and blocking property close to zero. EFFECT: improved working characteristics. 4 cl, 1 tbl

Description

 The invention relates to the field of fire fighting equipment and, in particular, relates to fire extinguishing powder compositions used to extinguish class A, B and C fires and electrical installations under voltage up to 1000 V, in the chemical, petrochemical, coal, woodworking and other industries, and also in domestic conditions, and methods for their preparation.

 Most currently known fire extinguishing powder compositions combine the use of a single common component, modified aerosil, as a highly dispersed anti-caking additive (RF patents 2143297, 2096054, 2110306, 2086279, 2027455, etc.). At the same time, the high cost and deficiency of aerosil have been noted for a long time (see, for example, RF patent 2027455) and to date, this circumstance has been significantly aggravated, since this component is not manufactured in Russia and its price has increased many times.

Some technical solutions attempt to use other substances as a highly dispersed anti-caking additive. For example, a powder composition is known according to the author's certificate of the USSR 1797923, in which white carbon black is used in this capacity in an amount of from 1.0 to 4.0 wt. % and to give hydrophobicity and fluidity, an organosilicon liquid from 0.2 to 1.0 wt.% is introduced. The preparation of this composition, in which aluminosilicate (nepheline) is used in the amount of from 4.0 to 16.0 wt.%, And sylvinite and ammophos are used as the main component, consists in the heat treatment of white soot with 100-400 ^o C to a mass fraction of moisture of 0.1-0.5, mixing it with nepheline concentrate in a belt mixer, grinding the mixture in a vibration mill to a particle size of 10-125 microns, then mixing these substances with an organosilicon liquid and with the main component (sylvinite and ammo Phosomes) in a paddle mixer with further grinding in a ball mill.

 With a sufficiently high fire extinguishing efficiency, the above-described substance and method are characterized by multistage, duration in time, and their implementation requires a relatively large flow rate of hydrophobizing liquid, which increases the cost of the process and the final product and limits its use. At the same time, the use of soot instead of aerosil in the form indicated above leads to the fact that it is necessary to improve the formulations of these compositions in the direction of lowering the indicators of moisture absorption and caking.

Closest to the claimed, adopted as a prototype, is a universal fire extinguishing powder composition and method for its preparation according to the patent of the Russian Federation 2143297, which includes the following components, wt.%:
Fine additive - 0.8-3.5
The target additive for fluidity - 8.0-35.0
Water-repellent organosilicon liquid (GKZh) - 0.08-0.28
Main Component - Else
According to the predominantly used components, the composition is as follows: a highly dispersed additive - aerosil, the target additive for fluidity - nepheline concentrate, hydrophobizing liquid - GKZh-94 polymethylhydrosiloxane liquid, the main component is a number of compounds, including ammophos and ammonium sulfate. In one specific example of a proprietary formulation, white carbon black is used as a highly dispersed additive in the following ratio, wt.%:
White Soot - 1.0
Nepheline Concentrate - 35.0
GKZH-10 - 0.28 (0.8 wt.% From nepheline.)
Ammophos - 35.0
Potassium Chloride - Up to 100
A method of obtaining a fire extinguishing powder composition includes: separate drying, grinding the target additive and the main component and their subsequent mixing with a highly dispersed additive, while grinding the target additive, it is hydrophobized by introducing a hydrophobizing organosilicon liquid in an amount of not more than 1% by weight of the target additive. Drying is carried out to a moisture content of not more than 0.5 wt.% For highly dispersed additives and the main component and not more than 0.2 wt.% For the target additive. In the grinding process, the main component and the target additive are selected according to the specific surface area. The components prepared in the above manner are then mixed with a finely divided anti-caking additive, mainly with AM-1-300 aerosil, then the powder is discharged from the mixer and packaged.

 From the above description of the prototype, it is seen that the powder mainly uses aerosil and hydrophobizing organosilicon liquid, which are severely deficient and expensive components, and GKZh is introduced by mechanical mixing with the components of the composition and this necessitates the use of aerosil to impart the desired parameters to the final composition. Therefore, the attempt to use white soot as a substitute for Aerosil in the prototype does not lead to a significant change in the composition parameters in the method of its application, which is described in the aforementioned patent. It does not follow from the example of application as a highly dispersed additive of carbon black given in the description that when using these components and the specified method, white carbon black is an equivalent substitute for aerosil. The method of preparation according to the prototype does not significantly differ from the known ones, therefore it cannot be said that thanks to it it is possible to obtain a new composition quality, in particular when using white soot.

 The objective of the present invention is to develop a universal fire extinguishing powder composition, in which instead of aerosil, a finely dispersed additive prepared on the basis of the domestic raw material base and an industrial method for producing such a powder are used.

The problem is solved in that the proposed powder composition, including a finely dispersed additive, the target additive for fluidity, hydrophobic silicone fluid and the main component in the following ratio. wt.%:
Fine Additive - 2-4
The target additive for fluidity - 3-11
Main Component - Else
moreover, as a highly dispersed additive, it contains white soot, hydrophobized with an organosilicon liquid, polymerized on the surface of its particles, and the components are taken in the following ratio, wt.%:
White Soot - 95-97
Water-repellent organosilicon liquid - Rest
As a target additive for fluidity, the composition contains corundum powder or aluminosilicate, and as the main component it contains ammophos and ammonium sulfate in the following ratio, wt.%:
Ammophos - 55-100
Ammonium Sulfate - Else
A method of obtaining a fire extinguishing powder composition consists in separately drying, grinding, hydrophobizing with an organosilicon liquid and jointly mixing the components of the composition. In this case, white carbon black is subjected to hydrophobization, which is preliminarily dried to a moisture content of not more than 0.25 wt.%, Then it is ground, mixed with an organosilicon liquid in a ratio, wt.%
White Soot - 95-97
Water-repellent organosilicon liquid - Rest
and incubated at a temperature of 150-200 ^o C to achieve the polymerization of organosilicon liquid on the surface of the particles of white soot.

 The inventive fire extinguishing powder of the specified component and quantitative composition using white carbon black as a finely dispersed additive, hydrophobized organosilicon liquid, polymerized on the surface of white carbon particles, corundum powder or aluminosilicate as the target fluidity additive, and ammophos and ammonium sulfate as the main component, as well as the proposed method for its preparation differs from the composition and method taken as a prototype. The inventive composition differs both qualitatively and quantitatively, and the inventive method is characterized in that hydrophobization is carried out not of the target additive, but of a finely dispersed additive and carried out until the polymerisation of the organosilicon liquid on the surface of the particles of this additive is achieved. Based on the foregoing, we can conclude that the proposed technical solution meets the criterion of "novelty."

 The claimed technical solution is clearly not derived from the existing level of technology. Comparison of the proposal with analogues showed the following.

 The use of soot as a highly dispersed additive replacing scarce and expensive aerosil is known (see, for example, ed. St. 1797923, patent 2143297). However, in all known cases of the use of white soot in similar compositions, either the entire powder mixture is hydrophobized or the hydrophobizing liquid is introduced at an intermediate stage, i.e. White carbon black is applied without pretreatment.

 With this approach, in addition to the fact that white carbon in itself is not capable of equivalently replacing modified aerosil, it becomes possible to "oil" the powder mixture with a deterioration in "fluidity and fire extinguishing ability according to classes B and C - too dense coating of powder particles with a film GKZH (besides not completely cured) leads both to an increase in their cohesion and to a decrease in the inhibitory efficiency of their crystalline surface "(see ME Krasnyansky. Fire extinguishing and explosive suppressing powders," Donb ss ", Donetsk, 1990).

In the proposed technical solution, white carbon black is preliminarily dried to a moisture content of not more than 0.25 wt.%, Then it is crushed, mixed with a hydrophobizing organosilicon liquid and kept at a temperature of 150-200 ^o С until the polymerization of the organosilicon liquid on the surface of particles of white soot is achieved. As a result of such processing, a product is obtained that, by its properties, approaches a modified aerosil. So, for example, according to the degree of hydrophobicity, values at the level of 75-99% are realized, which is close to the hydrophobicity of the modified aerosil. The universal fire extinguishing powder of the above composition provides certain safety standards 170-98 with a flow rate of 0.35-0.38 (with a requirement of at least 0.28), a tendency to moisture absorption at a level of 0.9-2.1% (with a requirement of not more than 3%) and a tendency to caking, close to zero (if required, no more than 2%).

 The use of a finely dispersed additive within the limits indicated in the proposed solution is due to the fact that, at its lower content in the powder, the requirement for moisture absorption and caking tendency is not met, and if the upper limit is exceeded, it becomes problematic to obtain the required bulk density of the final product. At the declared level of the hydrophobizing organosilicon liquid introduced into the composition of a highly dispersed additive and subject to the processing of white soot by the claimed method, both the required tendency to water absorption and caking, as well as the ability to repel water and, at the same time, there is no "oiling" of the components and overdose of ballast substances in a fire extinguishing powder, which is proved by the positive results of tests for fluidity and the ability to extinguish model fire centers of fires of classes A and B. In addition, The use of a finely dispersed additive in a fire extinguishing powder in the proposed amounts is more economically advantageous, since white soot is a domestic raw material and its cost is much lower than the cost of aerosil, and the amount of hydrophobizing liquid is in the same range as in the analogues. In terms of the complexity of the processes, the manufacturing technology of the inventive extinguishing powder composition does not differ in equipment, techniques and modes from industry-known methods for manufacturing similar products. That is, ceteris paribus, the production of the claimed composition is more profitable due to the use of cheaper domestic raw materials.

 The choice of the quantitative boundaries of the introduced target additive for fluidity is due to the need to ensure the required bulk density of the extinguishing powder, provided that it is used in the smallest possible quantities, since from the point of view of fire fighting it is a ballast component. Based on these considerations, it is proposed to use grinding powder from electrocorundum in the proposed composition as the target additive for fluidity, since it has a sufficiently high intrinsic density or an inexpensive aluminosilicate that meets these requirements, for example, ZSBU aluminosilicate chamotte aggregate sifted through a sieve.

 The dispersion of the target additive was chosen taking into account the complexity of its provision, with the unconditional exclusion of the possibility of deterioration in the fluidity of the powder composition and amounted to 80-100 microns for corundum powder and not more than 500 microns for aluminosilicate.

 The choice of the main component is due to the task of developing a universal fire extinguishing powder suitable for extinguishing fires of classes A, B, C. The boundaries of the ratio of ammophos and ammonium sulfate are established empirically and confirmed by experimental extinguishing of model foci of fires of classes A and B.

 The invention is as follows.

A highly dispersed additive is prepared: the white carbon black is dried in an oven to a moisture content of not more than 0.25 wt.%, Then the lumps formed during the drying process are destroyed in the disintegrator and the white carbon powder obtained in this way is thoroughly mixed in a mixer with an organosilicon liquid, mainly with polyethylene hydrosiloxane liquid GKZH-94 for at least 6 hours, achieving uniform and complete coverage of fine particles of white soot with the introduced liquid. After stirring, the resulting mixture is polymerized in an oven at a temperature of 150-200 ^o C for at least 8 hours. As a result, a product is formed, which is a fine particle coated with a non-destructive film of a cured hydrophobic organosilicon liquid with a degree of hydrophobicity close to the hydrophobicity of the modified aerosil. The main components of the composition ammophos and ammonium sulfate are separately dried in an oven and then ground. The polymerized finely divided additive, the prepared basic components and the target additive for fluidity, for example, corundum grinding powder, which are bought ready-made, are mixed in a mixing apparatus. The resulting powder composition contains components in the following ratio, wt.%:
Fine Additive - 2-4
The target additive for fluidity - 3-11
Main Component - Else
moreover, as a highly dispersed additive, it contains white soot, hydrophobized with an organosilicon liquid, polymerized on the surface of its particles, and corundum powder or aluminosilicate as a target additive for fluidity.

 The table shows examples of the extinguishing composition according to the invention with characteristics and in comparison with the prototype.

 The claimed formulation of the extinguishing powder composition does not cause difficulties in its manufacture. The components used in the composition are manufactured by domestic industry, the method has been tested and put into production.

Claims (2)

1. Fire extinguishing powder composition, including a finely dispersed additive, the target additive for fluidity, hydrophobic organosilicon liquid and the main component, characterized in that it contains components of the composition in the following ratio, wt. %:
Fine Additive - 2-4
The target additive for fluidity - 3-11
Main Component - Else
moreover, as a highly dispersed additive, it contains white soot, hydrophobized with an organosilicon liquid, polymerized on the surface of its particles, and the components are taken in the following ratio, wt. %:
White Soot - 95-97
Water-repellent organosilicon liquid - Rest
2. Fire extinguishing powder composition according to claim 1, characterized in that it contains corundum powder or aluminosilicate as a target additive for fluidity. 3. Fire extinguishing powder composition according to p. 1 or 2, characterized in that as the main component it contains ammophos and ammonium sulfate in the following ratio, wt. %:
Ammophos - 55-100
Ammonium Sulfate - Else
4. A method of obtaining a fire extinguishing powder composition, including separate drying, grinding, hydrophobization with organosilicon liquid and co-mixing the components of the composition, characterized in that the hydrophobization is subjected to white soot, which is pre-dried to a moisture content of not more than 0.25 wt. %, then carry out its grinding, mixed with organosilicon liquid in the ratio, wt. %
White Soot - 95-97
Water-repellent organosilicon liquid - Rest
and incubated at a temperature of 150-200 ^o C to achieve the polymerization of an organosilicon liquid on the surface of particles of white soot.

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