SU1711923A1 - Method for forming halogenated foam for extinguishing fire and preventing explosion - Google Patents

Description

The invention relates to fire fighting equipment and can be used to extinguish fires in conditions that are dangerous for the explosion of dust and gas mixtures with the transport of halogenated foam to the fire site through pipelines.

There is a known method of preparing water-gas foams, in which the gaseous halohydrocarbon (13B1 freon) is blown through the foaming agent solution.

The disadvantages of this method are low aggregative stability, compositions and the impossibility of using liquid chladones. due to their apolarity and hydrophobicity with respect to the foaming agents, which do not allow mixing them.

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

. The essence of ELECTRIA is that, according to the method of forming foam, consisting in obtaining gas-mechanical foam and using it with refrigerant, the liquid refrigerant is bubbled into the gas, while the height of the refrigerant layer is determined from

...., m. 37-dlOOjbv where C is the concentration of adon in foam,%:

Q-gas consumption for pekoe formation.

0.37 is the empirical coefficient;

d is the diameter of the refrigerant layer, m.: Bubbling of gas supplied to the foaming through the gas “1 dkm freon” (; catches the transfer of the gas to the gaseous state due to diffusion into this gas from the active molecules of the freon. foam reduces surface tension, reduces viscosity and increases its durability.

Such a solution makes it possible to increase the fire extinguishing ability of the foam and its accuracy, and, consequently, increase the range of transport of freon in foam and. in the final sow, increase fire extinguishing efficiency.

The drawing shows an embodiment of the proposed method.

The scheme includes a foam generator 1 connected to a pipe for supplying a frother solution, 8 as a device for saturation of refrigerant gas (bubbler) supplied to foaming a balloon 3.8 balloon 3 introduced siphon tube 4 with a gas atomizer 5 connected through a locking element 6 sec

piping 7 supplied to foaming gazE Gas saturated with freon is discharged through the pipe 8 and the locking element 9 into the pipeline 10 and further into the foam generator 1. The gas supply pipeline 7 is provided with a locking element 11.

The SLOB is implemented as follows. /:, ,; .:. . .

when closed shut-off elements b, 9 0 and the open element 11 serves the foaming agent solution via pipeline 2; and the gas through the pipeline 7 through the locking element 11

-in the foam generator 1, where gas-mechanical foam is formed. Then open the pork

5 elements 6.9. and element 11 is closed. When this gas passes the path: pipeline 7

- locking element 6 - siphon tube 4 with a sprayer; 5-layer of freon H height and diameter d.- connection 8 - shut-off

0 Element E - Pipeline to - Foamer 1. Formed with halogenated foam through conduit 12, it is fed to the fire:.-..-::::. -. . In the proposed solutions, foam should

5 to be considered not only as a fire extinguishing agent, but also as a means of delivering refrigerant to the fire. Possessing high stability and fluidity, foam can be transhtortirovts through pipelines on

0 a longer distance, for example, in mines and mines. When foam enters the burning surface (x: G8 layers and / / containing substance enclosed in foam bubbles are released from it, and it suppresses grief at the boundary

Foams with flames, and often a halogen hydrocarbon, evaporated, fills the fire zone, preventing the explosion of combustible gases. The presence of a small amount of components (foaming agent solution, chla-dong-compressed gas) allows using

 simple technology for the preparation of halogenated foam, and the principle of bubbling

neither - use the most

spread | Anniversary in our country liquid

5 freons

 The offer, the mathematical dependence, allows to calculate the parameters of the techno-installation to receive. foams with the requirements of halohydrogen dioxide. Using this method to eliminate underground fires increases the safety of mining rescue operations and reduces environmental damage from the use of freon, since 5 limits its consumption to the minimum necessary quantity in each particular case.

Claims (1)

Claims of the invention Sposs of forming a halogenated foam to extinguish a fire and prevent an explosion, including obtaining a mechanical mechanical foam and saturating it with a cold one, so that. in order to increase the fire extinguishing ability and stability of the flax, gae. served on foaming. bubbled through a layer of liquid freon, while the height of the layer And freon is determined from the condition W m 0.37-d-100% where C is the concentration of freon in the foam, vol.% ;. O - gas consumption for foaming, m / min; 0.37 - empirical coefficient; The d-diameter of the layer is cold.