RU2419471C1 - Method for dry chemical fire fighting - Google Patents

Abstract

FIELD: fire-fighting means. ^ SUBSTANCE: invention refers to a method for fire fighting with using a combination of common and nanosized dry chemicals. In the method for dry chemical fire fighting consisting in dry chemical supply into a seat of fire, a fire is extinguished by a combination of a nanodispersed powder of saline mineral caesium, e.g. CS2SO4 and a common powder with saline mineral alkaline metals, e.g. NaHCO3; an induced working gas is both gas, and gas suspension of the common powder with saline mineral alkaline metals, to provide both nanopowder aspiration, and coating of the particles of the common powder with saline mineral alkaline metals with nanopowder. ^ EFFECT: higher fire-fighting ability of the powders.

Description

The invention relates to a fire extinguishing method using a combination of conventional and nanoscale extinguishing powders.

The prototype of the invention are powders based on mineral salts of alkali metals and aerosol compositions (A.N. Baratov "Combustion-Fire-Explosion-Safety, ed. VNIIPO, 2003). These compounds are able to extinguish fires of classes A1, A2 and B1, B2 (see ibid.). The principle of quenching with these compounds is to create a cloud of gas suspension (aerosol) of powders in the protected objects. These compounds are satisfactory extinguishing agents and are widely used in practice. They are fed into the fire or in the protected volume by pneumatic extrusion from sealed vessels using gas under pressure or by burning a charge of an aero-forming compound (AOS).

The disadvantages of these compositions and methods of their use are low fire extinguishing ability, a tendency to caking and clumping, as well as the inconvenience of use associated with their rapid settling and the problems of creating a uniform concentration due to the relatively high particle size of ordinary powders (dispersion ~ 70-80 microns )

The aim of the present invention is to increase the fire extinguishing ability of powders by the joint supply of conventional and nanopowders.

The inventive method of powder fire extinguishing eliminate these disadvantages.

To do this, in the method of powder fire extinguishing, which consists in supplying a fire extinguishing powder to a fire, the fire is extinguished by a combination of nanosized powder of cesium mineral salt, for example CS ₂ SO ₄ , and a conventional powder based on mineral alkali metal salts, for example NaHCO ₃ , and as a working gas during ejection, not only gas is used, but also a gas suspension of a conventional powder based on mineral salts of alkali metals, providing not only suction of the nanopowder, but also enveloping particles of a conventional mineral-based powder nyh alkali metal nanopowder.

An increase in the fire extinguishing ability of powders can be achieved by using a combination of these powders and nanosized powders of cesium mineral salts (for example, a combination of PSB-3M powder with nanopowder of cesium sulfate CS ₂ SO ₄ ). This increase is due to the fact that the nanosized powder of cesium salts due to the physicochemical specificity of cesium salts (low ionization potential) and a significant (approximately 10 ⁴ -10 ⁵ times) greater dispersion has a very strong inhibitory effect on the flame. In addition, the nanopowder reduces caking due to the fact that when a combination of the powders is fed into the protected volume, the nanopowder envelops a conventional powder based on mineral salts of alkali metals, preventing the interaction of its particles. The supply of powders for fire extinguishing is usually carried out pneumatically by squeezing them out of a special container with compressed gas. Moreover, due to the extremely small particle size of the nanopowder and its low bulk density, it will not reach the source of the fire when it is fed.

When creating a combination of nanopowder and ordinary powder based on mineral salts of alkali metals, the latter plays the role of a matrix, providing delivery of the combination to the fire. Since the dominant factor in the extinguishing of flame by powders is the heterogeneous recombination of active centers responsible for the development of the combustion process, the adhesion of some of the nanopowders to the surface of a conventional powder should not be an obstacle to the inhibition of combustion.

To create a uniform mixture of nano- and conventional powders, you can use the well-known ejector device (A.N. Baratov "Combustion-Fire-Explosion-Safety", published by VNIIPO, 2003, p. 362), in which two are connected to the mixing zone nipple for supplying nano- and conventional powder with their estimated costs.

Claims (1)

A method of powder fire extinguishing, which consists in supplying a fire extinguishing powder to a fire, characterized in that the fire is extinguished by a combination of nanosized powder of cesium mineral salt, for example, CS ₂ SO ₄ and a conventional powder based on mineral salts of alkali metals, for example, NaCO ₃ , and When ejecting the working gas, not only gas is used, but also a gas suspension of an ordinary powder based on mineral salts of alkali metals, providing not only suction of nanodispersed powder, but also enveloping particles of ordinary Rosca based on mineral salts, alkali metal nanopowders.