RU2027455C1 - Fire extinguishing powder of multipurpose assignment - Google Patents

Abstract

FIELD: fire extinguishing. SUBSTANCE: fire extinguishing powder has, wt.-%: hydrophobic aerosil 0.30-1.5; water-repellent ammonium sulfate 10-50, and water-repellent monoammonium phosphate - the rest. Powder is used for extinguishing of glowing materials, highly inflammable liquids and fuel gases, and electrical plants under voltage. EFFECT: increased effectiveness of powder. 1 tbl

Description

 The invention relates to the creation of extinguishing powders that can be used to extinguish fires of smoldering materials (class A fires), flammable liquids (class B fires) and combustible gases (class C fires), as well as energized electrical installations.

 A powder of a similar class is known, which contains ammophos as an active base, GKZh-94 polymethylhydrosiloxane liquid and organosilicon wastes as an anti-caking additive, and kaolin-chamotte powder as an additive for fluidity [1].

 The disadvantages of this powder are its low fluidity from the technical means of supply and low fire extinguishing ability when extinguishing smoldering materials. The severely deficient polymethylhydrosiloxane liquid contained in the powder prevents its industrial production.

 Closest to the proposed invention is a multi-purpose fire extinguishing powder, which contains ammophos as an active base, and a mixture of hydrophobic aerosil AM-1-300 and kaolinoschamotka powder as an anti-caking agent and fluidity additive [2].

The composition of the prototype powder is as follows, wt.%: Aerosil 0.5-3.0 Kaolin-chamotte powder 5.0-15.0 Ammophos
The disadvantages of this powder are the tendency to caking during storage and its low fluidity from the technical means of supply when extinguishing fires.

 The aim of the invention is to improve the quality of the extinguishing powder by increasing the fluidity and lowering the caking index, as well as reducing the cost by reducing the content of severely deficient aerosil AM-1-300.

The goal is achieved in that the fire extinguishing powder as an active base contains a mixture of monoammonium phosphate and ammonium sulfate hydrophobized with organosilicon substances in the following ratio, wt.%: Aerosil 0.30-1.5 Hydrophobized ammonium sulfate 10.0-50.0 Hydrophobized Monoammonium Phosphate
Comparative analysis with the prototype allows us to conclude that the proposed fire extinguishing powder differs from the known introduction of a new active base, namely: a mixture of monoammonium phosphate and ammonium sulfate hydrophobized with organosilicon substances. Thus, this technical solution meets the criterion of "novelty."

 Analysis of the known compositions of the powders used to extinguish fires of classes A, B and C showed that the introduced hydrophobic aerosil is known. However, its use in combination with other components does not provide high quality extinguishing powder. In combination with an active base, which uses a mixture of monoammonium phosphate and ammonium sulfate hydrophobized with organosilicon substances, the specified amount of aerosil significantly increases the fluidity of the powder, reduces its caking index and increases the shelf life.

For experimental verification of the composition, five mixtures of components were prepared, three of which showed optimal results. A mixture of monoammonium phosphate and ammonium sulfate obtained by spray drying was used as an active base, which was hydrophobized with a mixture of organosilicon liquids GKZh-10 (TU 6-02-696-78) and Petrosila-2M (TU 6-02-1296-84). The content of organosilicon substances was changed in such a way as to ensure an improvement in fluidity and a decrease in caking, and so that there was no overspending. The powder of the active base was ground on a specific surface equal to 3800-4000 cm ² g ^-1 . After that, the active base was mixed with a certain amount of hydrophobic aerosil. Received a white flowing powder, the quality of which was determined according to GOST 26952-86 (see table). According to this standard, fire extinguishing powders that have a flow rate of less than 0.24 kg s ^-1 are poor quality powders.

The table shows that the powder of the proposed composition (examples 1-3) for extinguishing fires of classes A, B and C in comparison with the prototype has a good fluidity of 0.25-0.29 kg s ^-1 and significantly less caking, which allows to increase shelf life from 5 to 7 years. In addition, compared with the prototype in the composition of the powder, the content of severely deficient Aerosil AM-1-300 is almost halved, which reduces the cost of fire extinguishing powder.

Claims (1)

FIRE EXTINGUISHING POWDER OF MULTI-PURPOSE PURPOSE, including an active component based on monoammonium phosphate and hydrophobic aerosil, characterized in that it contains hydrophobized monoammonium phosphate as an active component and additionally contains hydrophobized ammonium sulfate in the following ratio of components, wt.%:
Hydrophobic Aerosil - 0.30 - 1.5
Hydrophobized ammonium sulfate - 10.0 - 50.0
Hydrophobized Monoammonium Phosphate - Else

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