SU1731243A1 - Foam-forming fire-fighting compound - Google Patents

Abstract

The invention relates to foam forming compositions for extinguishing fires and makes it possible to increase the stability of the foam when used to extinguish flammable liquids. The foaming composition contains, in wt%: a foaming agent, 2.1-2.2, an alum-chromophosphate binder, 1.2-2.5, and water the rest. Frother contains Petrov's contact, bone glue, ethyl alcohol, dissolved in water PO-1. The claimed composition has an increased foam stability in comparison with the known one 30 times, which makes it possible to use it for quenching petroleum products, as well as polar organic solvents. The fire resistance of the foam on the surface of, for example, butyl alcohol increases, in comparison with the known, 900 times. 1 hp f-ly, 2 tab. -h yo

Description

FIELD OF THE INVENTION The invention relates to fire extinguishing, in particular, to foaming compositions for extinguishing fires of flammable liquids, including polar ones.

Foaming compositions for extinguishing fires of flammable liquids based on synthetic anionic surfactants (surfactants) containing polymeric additives are known, which create a film at the interface between foam and liquid, which prevents the foam from breaking down and thereby extending the time of foam on the surface of the liquid.

These formulations are used to extinguish fires of water-insoluble liquids, but they are not very effective at extinguishing fires that mix with water or have a high polarity of flammable liquids. A disadvantage of the known composition is the low resistance of the foam to the action of ethyl alcohol, on the surface of which the foam is maintained for 40 s.

Formulations for extinguishing fires of polar flammable liquids based on synthetic surfactants with additions of metal alginate and higher fatty alcohols are known that promote the transfer of the alginate to an insoluble state and the formation of a release film at the foam-liquid interface. The compositions are used to extinguish fires of ethyl alcohol, but due to the insufficiently high stability of the foams on the alcohols, their effectiveness is unsatisfactory. Working solutions of these compounds are stratified during storage and quickly lose their properties.

A known composition for extinguishing fires of non-polar and polar combustible liquids.

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based on synthetic surfactants with the addition of an organofluorine compound and a polyacrylic acid salt, which makes it possible to create on the surface of a combustible liquid a mechanically strong polymer film that protects the foam from destruction.

The stability of the foam on ethyl alcohol is 5-14 minutes. The composition allows to obtain foam on conventional fire fighting equipment. However, this composition has a high concentration of the working solution, high cost.

The closest in technical essence to the present invention is the composition of the foaming agent (PO-1) containing Petrov’s contact, bone glue, ethyl alcohol and water.

A disadvantage of the known foam-forming composition is the low stability of the foam with respect to combustible liquids, including polar.

The purpose of the invention is to increase the stability of the foam.

This goal is achieved by the fact that the known composition of a blowing agent additionally contains 1.2–2.5% by weight of an aluminum-chromophosphate binder (AHFS), commercially available in the form of an aqueous solution of acidic phosphate salts of metals and a powder. The molar ratio of components in the binder is Р205 / (А120з + Сг20з) 2.3-3.0, Binder fire and explosion proof, has high thermal stability (over 1500 ° С), high adhesion and film-forming ability, is stable in the region of low temperatures (up to -30 ° С).

The proposed foamable composition has the following ratio of components, wt.%:

Frother2,1-2,2

Alumochromophosphine binder 1,2-2,5

WaterEverything

Tests of the proposed foaming composition were carried out in comparison with the known one, which was taken as a base object.

Determination of foam stability was carried out at room temperature. Foam was prepared on a tissue grinder (PT-1) by adding an aqueous solution of an aluminum-chromophosphate binder to the foam former solution. Aqueous solutions of the binder were obtained by diluting 30 g of the binder with a melting point of 1.6 g / cm3 in 100 cm3 of distilled water to a concentration of 23%.

The tests carried out showed that the proposed foaming composition greatly surpasses the known foam stability and is also stable on the surface of polar flammable liquids.

Reducing the amount of binder leads to a decrease in foam stability, a further increase in the amount of additive is not advisable, since it does not increase the stability of the foam.

Example 1.2.5% by weight of an aqueous solution of an aluminum-chromophosphate binder is added to a PT-1 beaker with 2.2% by weight of PO-1 foaming agent and 95.3% by weight of distilled water. The mixture is stirred for 30 seconds with the number of 4000 revolutions of the stirrer per minute. The stability of the foam is determined by the time it takes to release a 50% solution from the resulting foam and is 198 minutes. Results with other ratios of components are presented in Table. one.

Example 2. 300 cm3 of butyl alcohol are poured onto a 30x22x2 cm baking sheet, and foam obtained from a PO-1 solution of a frother with the addition of an aluminum-chromophosphate binder (the ratio of components in wt.% As in Example 1) is applied onto its surface 1.5 cm thick. Butyl alcohol is set on fire in an open area in the opposite corner of an area of 50 cm. After 30 minutes, the fiery burning ceases. Foam collapsed over an area of 130 cm2 (20% of the surface area). The foam obtained from the foaming agent PO-1 is destroyed under similar conditions on butyl alcohol in 2 seconds. Similar tests were conducted with kerosene.

Thus, the proposed foaming composition has an increased foam stability in comparison with the known one 30 times, which allows it to be used for extinguishing both petroleum products and polar flammable liquids, the fire resistance of the foam on the surfaces of which increases more than 900 times (in butyl alcohol) in comparison with the famous.

In tab. Table 2 lists the characteristics of the proposed and known compositions, namely the stability and fire resistance of the foam on combustible liquids.

Claims (1)

Claim 1. Foaming fire extinguishing composition including foaming agent and water, characterized in that, in order to increase foam stability when used to extinguish flammable liquids, the composition additionally contains its aluminum chromophosphate bond in the following ratio, wt.% : Frother Alumochromophosphate Binder Water 2.1-2.22. The composition according to claim 1, wherein the fact that the foaming agent contains con., 2-2.5-stroke Petrov, bone glue, ethyl alcohol the Rest and water. Note. Water (aqueous) end (concentrated) means a method for preparing a foaming composition by mixing aqueous or concentrated solutions of foam-esters and adding an aluminum-chromophosphate binder and bringing the resulting mixture to 100 cm of water with water. Table 1 table 2