SU1400621A1 - Method of surface extinguishing of a fire in reservoirs filled with petroluem products - Google Patents

Abstract

FIELD: fire protection. The purpose of the invention is to improve the efficiency of fire extinguishing by air-mechanical foam of increased multiplicity, as well as the speed of spreading over the surface of petroleum products. This goal is achieved by the fact that the ejecting jet is fed in the direction of the lateral surface of the tank, along its chord along the oil product mirror, which allows the hot metal wall of the tank to be cooled, being a screen for a foam jet of increased multiplicity. 4 hp f-ly, 3 ill.

Description

FIELD: fire protection.

The aim of the invention is to increase quenching efficiency.

FIG. 1-3 shows diagrams of a device implementing the proposed fire extinguishing method.

FIG. 1-3, the following designations were introduced: 1 nozzles of an ejection jet, 2 - nozzles of an ejected jet of increased multiplicity of foam, 3 - dispersed jet, 4 - a jet of increased multiplicity, 5 - reservoir.

Fire extinguishing is carried out by simultaneously feeding adjacent jets of frother solution through the nozzle of pollinator 1 and foam generator 2 of increased multiplicity. At the same time, the dispersed jet of the foaming agent solution 3 is fed through the nozzle-sprayer 1 between the jet of increased multiplicity 4, the high-expansion foam coming out of the generator nozzle 2 and the nearest wall of the tank 5 in such a way that the dispersed jet is the ejecting substrate, i.e. . transport for foam of the higher multiplicity, at the same time the side of the jet cools the hot metal wall of the tank, also serves as a heat shield for the foam of increased multiplicity. Moreover, if, for example, three ejecting jets located in the direction of the chords (Fig. 1) are involved in the quenching process, they form an equilateral triangle or polygon (with more ejecting jets used) in the plan. When these jets meet the reservoir walls (this is chosen on the basis of ensuring that the final part of the foam jet reaches an increased multiplicity of the reservoir wall), reflected jets are formed that contribute to the rapid spreading of the increased multiplicity and simultaneous oil products to the hot mirror, thereby creating favorable conditions for carrying out the final quenching by isolating the vapors of the combustible liquid from the combustion zone.

When extinguishing fires in tanks

of varying sizes, as well as to more effectively preserve the structure of the foam of an increased frequency ratio of eke

d

p 5 5 0 5 0

five

The trickling jets are placed between the nearest wall of the tank and the ejected jet, as well as between the burning mirror of the tank and the ejected jet (Fig. 2).

In another embodiment, one of the ejecting jets is directed between the near wall of the tank and the ejected stream, and the other between the center of the tank and the same ejected stream, or one of the ejecting jets is directed between the near wall of the tank and the ejecting jet, and the other between the center of the tank and the same ejected jet, and the third between the burning mirror of petroleum products and the same ejected jet (Fig. 3).

Other options are possible for the location of ejecting streams based on the condition of maximum quenching efficiency.

Claims (5)

1. A method of extinguishing fire in tanks with oil products, which consists in feeding the ejected foam into the tank at the extreme extreme, characterized in that, in order to increase the efficiency of extinguishing, the ejector stream is directed to the lateral surface of the tank along its chord along the oil product mirror. 2. A method according to claim 1, characterized in that an additional ejection jet is supplied in the plane formed by the ejection and ejection jets from the center of the tank. 3. A method according to claim 2, characterized in that a third ejection jet is supplied under the ejection stream. 4. A method according to claim 1, characterized in that the ejected jet is supplied from the center of the tank in the same plane as the ejector. 5. A method according to claim 1, characterized in that the ejected jet is fed above the ejection jet. 9ig 1 Rig.2