SU596251A1 - Fire-extinguishing composition - Google Patents

Description

(54) FIRE EXTINGUISHING COMPOSITION

one

The invention relates to powder formulations and can be used to extinguish fires when various materials are ignited and electrical equipment is used in forest, coal, oil and gas, food industry, transport, and households.

Known compounds for extinguishing fires based on ammonium salts Jl.

The disadvantage of these compositions is their high caking.

A fire extinguishing composition is also known, which includes ammonium phosphates and a water-repellent additive, in the following ratio of components, wt% diammonium phosphate 15-45; monoammonium phosphate 30-70; ammonium sulfate 5-35; polyvinyl resin 5-6; tricalcium phosphate 2-3; magnesium stearate 1.5-2 2.

The disadvantage of this composition is also its high caking ability and low flowability, which causes the clumping of the powder during its long storage.

In order to reduce caking of the powder while simultaneously increasing its flowability and creating such a pore that would provide high reliability of the powder fire extinguisher, the fire extinguishing composition, including ammonium phosphates and a water-repellent additive, contains ammonium phosphate of the following grain size as ammonium phosphate: , 2 to 0.05 mm in the amount of from 70-75%, fraction below 0.05 mm from 25 to 30%, and as a water-repellent additive Aerosil with the following component assignment, wt.% Ammophos 9.9.0-99, five; aerosil 0.5-1.0.

The dependence of the caking and fluidity of the composition, as well as the range of the powder supply from its quantitative, qualitative and particle-size composition was confirmed experimentally.

The tests were carried out in the laboratory of physico-chemical methods for the investigation of the All-Russia Research Institute of Radiolysis.

The caking of the powder was determined according to the GIAP Method, and the flowability was determined by the time of precipitation from the funnel.

The ejection range of the fire extinguisher was determined on a closed site with no wind at all, according to the following procedure.

At a height of 1 m from the soil, the spray gun is rigidly fixed. At a distance of 10 m along the axis of the torch, pre-weighted Petri dishes are placed through each meter. The powder is ejected from a fire extinguisher at a pressure of 10 ppm and then settles in the cups. According to the data obtained, a graph of the amount of powder in the cups versus distance is plotted. The powder ejection rate is determined from the extremum points on the left.

6 samples of powder compositions with different dispersity and aeroi content 1a are presented for testing. The composition of the powders and the test results are given in the table.

These tables show that the composition according to the invention has a flowability of three times more.

than the known, and caking is three times less. The powder feed range of the proposed composition is 7 m (the powder feed distance with a greater dispersion of 4 m).

So, when extinguishing large fires, it is usually not possible to come closer with a fire extinguisher than 5-6 meters (especially

when extinguishing foci in closed volumes, for example in mines, tunnels, ship holds, then only a composition with a dispersion of up to 200 microns is suitable for use in manual powder fire extinguishers for extinguishing in closed volumes.

Claims (1)

1. Baratov A.N. and Vogman L.P. An overview of the use of powders to suppress combustion and the mechanism of their fire-extinguishing effect. On Saturday, the conference meeting on the mechanism of inhibition of gas chain reactions. Alma-Ata, 1971, p.,  2, USSR Author's Certificate 258042, cl. A 62 D 1/00, 1968.