RU2309782C1 - Method for saturated fire-extinguishing steam generation - Google Patents

Abstract

FIELD: fire-fighting and fire-suppression, particularly means to prevent large-scale fire.

SUBSTANCE: fire-extinguishing method involves distributing saturated water steam over fire site, wherein the water steam is obtained by applying shock wave action to hollow microsphere distributed in water volume or fire-retarding solution in combination with fire-extinguishing aerosol obtained by fire-extinguishing aerosol-generated explosive blasting.

EFFECT: increased efficiency and decreased time of fire suppression.

Description

The invention relates to the field of creating methods designed to prevent fires or to contain fire.

The well-known "Method of extinguishing a fire" (AS No. 1210855, class A62C 1/06), which consists in the fact that sprayed water is supplied to the combustion zone, which is heated before being fed. The disadvantage of the invention is cumbersome, high labor costs, energy consumption, water consumption, in addition, the sprayed water only cools to ignition t ° <t ° of this body, and does not isolate the focus from the flow of oxygen.

The well-known "Method of extinguishing forest fires" (AS No. 1400619, class А62С 1/22), including the explosion of an explosive charge at the moment of approaching the fire front, placing the explosive charge equidistant to the fire front. The disadvantage of this method is the complexity of the location of the explosive charge, extinguishing a fire in large areas.

Closest to the proposed solution is the "Method and device for extinguishing fires" (AS No. 1058561, class A62C 19/00). This method involves extinguishing fires using fire extinguishing drip liquids. Saturated water vapor is formed as a result of the interaction of water with the hot gases of an explosive device in a closed container, as a result of the destruction of which the resulting saturated water vapor intensively interacts with the carbon of the burning substance.

This method is adopted as a prototype.

The disadvantage of this method is cumbersome, insufficient fire extinguishing.

The objective of the invention is to develop an effective and quick way to suppress large-scale fires.

The problem is solved due to the fact that in the known method of localizing and extinguishing fires, including exposing the outbreak to saturated water vapor, water vapor is produced by the action of a shock wave on a hollow microsphere distributed in a volume of water or a solution of a combustion inhibitor in water.

Figure 1 shows a diagram of a device for implementing the proposed method: 1 - a glass with an aerosol-forming fire extinguishing industrial explosive (APVV), 2 - a container with a suspension of microspheres in water or a solution of a flame retardant in water. A glass of ARAF is placed in a container with a suspension of microspheres in water or an aqueous solution of a combustion inhibitor. As a result of the operation of the explosive device, water turns into steam due to the soaking of the microsphere by the shock wave, gas compression and a sharp increase in water temperature. Water vapor interacts with the carbon of a burning substance. The reactions that occur during this process are accompanied by a large absorption of heat, thereby reducing the temperature of the fire-extinguishing aerosol generated during the explosion of the automatic air-breathing apparatus, which ensures a positive effect when extinguishing a fire.

The aerosol generated during the APVV explosion contains up to 60% of a combustion inhibitor, which also contributes to the extinction of the fire. In addition, the blast wave knocks the flame off a burning surface, which helps to extinguish the fire. The combination of all factors that stop burning provides high fire extinguishing using the proposed method.

In the conditions of the enterprise, the extinction ability of saturated water vapor obtained by the proposed method in combination with a fire extinguishing aerosol obtained in the course of an explosive air explosion was evaluated.

Tests were carried out on a model A fire site of Class A grade 6A.

The class A fire class A fire center is a stack in the form of a cube of coniferous timber bars with a section of 40 × 40 mm and a length of 925 mm. The number of bars in the layer is 10 pieces, the number of layers is 21.

The stack, mounted on four racks of bricks (the height of each rack 180 mm), was placed on a flat platform.

A metal pallet of 420 × 420 × 150 mm in size was placed under the stack. ~ 5 liters of water and 1.5 liters of A76 gasoline were poured into the pan.

At a distance of 1.5 meters from the stack placed extinguishing products in the amount of 3 pieces.

The fire extinguishing product was a cartridge made of a polyethylene sleeve ⌀109 mm, in which the composition of the APVV was placed. The cartridge was inserted into a polyethylene canister filled with a suspension of microspheres in a fire extinguishing solution of potassium acetate in water. The microsphere content in relation to the solution is 5%.

The layout of the model hearth and fire extinguishing products is shown in figure 2: 3, 4, 5, - fire extinguishing products, 6 - model hearth.

On fire extinguishing products installed electric detonators brand ED-KZ and additional detonators (RDX in an amount of 50 g per cartridge). Electric detonator wires were connected to the initiation line.

Using a torch, ignition of the flammable liquids in the pan was carried out. After ignition, the LVH was held for 16 minutes, and voltage was supplied from the control panel to the electric detonators of the flame-extinguishing products.

The combustion process was monitored using cameras.

After the fire extinguishing products were triggered, the class A fire class A fire center was completely extinguished. After 20 minutes of re-ignition was not found.

The advantage of the proposed fire extinguishing method is its versatility in extinguishing any type of fire; the possibility of obtaining samples of various sizes; ecological purity of combustion products; conversion of defense industries.

Claims (1)

A method of producing saturated steam for extinguishing fires, which consists in the fact that the water is heated to form saturated steam due to hot gases, characterized in that the saturated water vapor is produced by the action of a shock wave on a hollow microsphere distributed in a volume of water or a solution of a combustion inhibitor in water.

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