SU1755822A1 - Fire extinguishing composition - Google Patents

Abstract

Use: for fire extinguishing in all areas of the national household. The essence of the invention: the fire extinguishing composition contains difluorochlorobromomethane - 0.1-86.0 wt.% And difluorobromomethane - 14.0-99.0 wt.%. The composition makes it possible to reduce the resolution effect on the ozone layer of the atmosphere while simultaneously extinguishing the fire extinguishing efficiency. 4 tabl,

Description

The invention relates to the field of fire extinguishing agents and can be used in all areas of the national household.

A fire extinguishing composition containing difluorochlorobromomethane — 30 wt.% And tetrafluorobibromoethane — 70 wt.% Was taken as a prototype. For CFaCIBr Ј 3, and for CaRBra Ј 6. Based on this, the prototype fire extinguishing composition has the coefficient of ozone-depleting potential | 5.16. In accordance with the materials of the Montreal Protocol, it is preferable to use fire extinguishing compositions having a factor of Ј 3. A value of Ј 5.16 is a significant drawback of the prototype.

The aim of the invention is to reduce the damaging effects on the ozone layer of the atmosphere while maintaining fire extinguishing efficiency.

The goal is achieved by replacing the component of the mixture, which has the highest coefficient, with another component that has a lower value.

Ј (Ј 3) and at the same time having high extinguishing efficiency. On this basis, difluorobromomethane (CHFaBr), having Ј 1.25, was taken as another bromine-containing halohydrocarbon, and the components of the composition were taken in the following ratio, May%

Difluorochlorobromomethane (CFaCIBr) 0.1-86 Difluorobromomethane (CHFaBr) 14-99.9 The proposed fire extinguishing composition differs from the known one by replacing tetrafluoro-dibromomethane () by

difluorobromomethane (CHFaBr), which makes it possible to obtain a new extinguishing cqcTas.

Analysis of the known fire extinguishing compositions, which represent mixtures of bromine-containing halocarbons, showed that as a result of mixing CF2CIBr with CHF2Br, a fire extinguishing composition was obtained with new qualities, namely, reduced ozone-depleting capacity and, at the same time, high fire extinguishing efficiency

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The limiting values of the content of the components of the composition are selected on the basis of the following considerations.

The maximum content of CFaCIBr - 86% provides the value of the coefficient of ozone depletion of the composition 2.7, i.e. about 10% lower than what is taken at the lower boundary of the Montreal Protocol for AND group of controlled substances. All other compounds containing CF2CIBr less than 86% will have a value of 1.25 2.7. Mr. J

The minimum ItRzCIBr content of 0.1% is technological, since the production of CHFaBr contains from 0.1 to 1.2% CFzCIBr in the final product. Further purification of CHFaBr from CFaCIBr is impractical, as it will certainly lead to an unreasonable price increase for the product.

The fire extinguishing compositions shown in Table 2 were prepared for testing. one.

In accordance with the data given in table. 1, the values of the coefficient аны were calculated by additive summation in proportion to the molar fractions of the components of the subjects.

The calculation results are shown in Table. 2

From tab. 2 it can be seen that the compositions according to the proposed technical solution, including composition No. 4, which is not included in the stated limits of the content of components, have a reduced ozone-depleting capacity compared to the prototype. However, the composition of the number A has a value above the originally determined 2.7. Formulations with the lowest f value, i.e. containing the minimum amount of CF2ClBr.

The same compositions were subjected to experimental verification of extinguishing efficiency.

The test results are shown in Table. 3

From table 3 it follows that the fire extinguishing efficiency of the proposed formulations is slightly higher than the prototype.

The proposed composition of difluorochlorobromomethane with difluorobromomethane also has high fire-extinguishing efficiency and lowered ozone-depleting

ability. To release a fire extinguishing agent from a fire extinguisher, it is necessary to press it with gas (propollen), preferably air or nitrogen. In addition to the proposed non-drying composition, other options for replacing tetrafluorodibromoethane (CaF-qBra) in the prototype were studied. Of the large number of halo-idocarbons, those that are known as fire extinguishing agents are considered.

substances and have a low coefficient of ozone-depleting capacity (Ј).

These conditions are satisfied by tetrachloro dibromoethane CaRdS (, 7), perfluorobutane C2Pr {), difluorochlormetha

(Ј 0.04), which are considered as candidates.

In tab. 4 shows the results of measuring the extinguishing concentration (C) and the ozone-depleting coefficient

efficiency Ј compositions.

From table 4 it can be seen that compositions 3, 4 and 5, in which the value is lower than that of the prototype and in the proposed composition, have a fire extinguishing efficiency worse than that of

prototype and the proposed composition, therefore, unacceptable for the purpose.

Claims (1)

Invention Formula A fire extinguishing composition containing difluoro-chlorobromomethane and a bromine-containing halide hydrocarbon, characterized in that, in order to reduce the destructive effect on the ozone layer of the atmosphere during simultaneously preserving fire-extinguishing efficiency, it contains difluorobromomethane as a bromine-containing halocarbon in the following ratio, in May,%: Difluorochlorobromomethane 0.1-86.0 Difluorobromomethane14.0-99.9 Table 1 table 2 Table 3 Table 4