RU2022581C1 - Method of fire fighting - Google Patents

Abstract

FIELD: fire fighting. SUBSTANCE: method involves delivery of aqueous solution of foam generating agent by high-pressure long-range powerful jet discharged from equipment positioned outside of burning zone at a considerable distance from focus of fire and directed onto net attached to enclosing structures of protected object or introduced to the fire boundary. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to fire fighting equipment, and in particular to methods of extinguishing fires with air-mechanical foam at industrial facilities.

 A known method of extinguishing fires, including the supply of an aqueous solution of a foaming agent and the formation of foam using a grid (1) is a prototype. This method of extinguishing fires is implemented using foam generators of various designs. In the known method, the supply of the foaming solution and the formation of foam on the grid are carried out practically as one operation in one device and are close to each other in time and space. Therefore, to extinguish fires in a known manner is in many cases difficult and sometimes impossible, since this method requires the maximum approximation of the extinguishing means, i.e. foam generators, to the focus of ignition, and even their introduction into the combustion zone. This circumstance exposes people and extinguishing agents to the increased effects of thermal radiation, which increases the risk of accidents and disables extinguishing agents. This is especially true for the elimination of fires in large volumes, for example, in open tanks with a combustible liquid, the combustion of which can cause large emissions (up to 2 diameters). In these and in many other cases, it is desirable to extinguish the fire from its source, or, as they currently do, install foam generators at high points (towers, masts, etc.) and supply hoses to them for supplying solution hoses foaming agent. However, in the latter case, the entire fire extinguishing system becomes cumbersome and, in case of damage, unsafe for people working with it.

 At the same time, fire extinguishing methods are not known that allow foam to be supplied in large quantities from a large distance (the maximum foam delivery range by known foam generators is 13 m).

 The purpose of the invention is to increase safety by protecting fire extinguishing agents and people from exposure to thermal radiation.

 To this end, when extinguishing fires with air-mechanical foam, including the supply of an aqueous solution of a foaming agent and the formation of foam using a grid, according to the invention and in contrast to the prototype, the supply of an aqueous solution of a foaming agent is carried out by a high-pressure long-range multi-flow jet using means installed outside the combustion zone on a significant distance from the burning center, and the grid is placed on the enclosing structures of the protected object or introduced during the fire to the border of combustion.

 Patent and scientific-technical search showed that it is not known the division of the process of obtaining foam into two operations: obtaining a jet and receiving foam on the grid and performing these operations in different areas. This gives reason to consider the entire proposed set of features corresponding to the criterion of "significant differences".

 The drawing shows a diagram of the implementation of the method, which shows the protected object 1, in the enclosing structure 2 of which a grid 3 is installed. The source of the aqueous solution of the foaming agent 4 of the type of gun barrel is installed at a considerable distance that ensures safety. In the event of a fire, an aqueous solution of the foaming agent is fed by a high-pressure long-range multi-expenditure jet to the grid 3, on the cells of which foam is formed. The foam flow from the mesh 3 flows by gravity to the surface to be protected.

 Modern means of supplying a foaming agent solution provide a jet supply at a distance of L = 50-500 m with a flow rate of 20 l / s to 5000 l / s or more. The compact jet of the blowing agent solution overcomes a large distance (500 m) in a stable mode, while the higher the flow rate, the less the jet is subject to the influence of external factors (the jet is stable even against heavy wind). The more stable and stable the supply of the foaming agent solution to the grid 3, the more reliable is the formation of foam in large quantities at the boundary of the combustion zone.

 The method can be implemented when extinguishing fires in open tanks by installing a grid 3 in the nozzle mounted on the upper edge of the tank wall.

 When a fire occurs, the gun monitor 4 is set to a starting position remote from the tank at a safe distance, or the gun monitor 1 is placed at this position constantly. The stream of the foaming agent aqueous solution strikes the net 3 and, passing through it, forms a sufficiently large amount of foam covering the surface of the reservoir liquid.

 If the tank is open type, then the grid 3 is installed in the opening made in the wall of the tank.

 When fighting fires in industrial buildings, grids 3 are installed in the window openings of the building. When a fire occurs, the glazing of the window openings is destroyed and a stream of an aqueous solution of the foaming agent is fed onto the grid 3, in the interaction with which the jet forms a foam.

 The nets can be installed not only stationary, but can also be introduced onto the boundary of the combustion zone using movable means, for example, mounted on a lift located on the car frame, on a telescopic lift, or fed by helicopter 10 on a suspension having a remote trip unit, mesh 3 This is fixed on the wall by a catcher.

 It is extremely effective to use the inventive method for extinguishing fires on a floating craft. Extinguishing fires on tankers at sea is a difficult problem, especially in adverse weather conditions. A frame covering the upper surface of the tank is fixed on a tank with flammable liquid. The grid 3 is fixed on the frame or the grid is expanded, covering the frame with a grid. Monitors supplying the foaming agent jets are installed on rescue vessels, from these vessels the foaming agent water jets are fed to grids mounted on the tank. Foam fills the volume above the zone of the tank with flammable liquid.

 Changes made to the known method, which consist in dividing the known operation (supplying the foaming agent solution) into two independent relative to each other operations carried out in different parts of the protected object (supplying the solution from a long distance and the formation of foam on a grid installed at the boundary of the combustion zone) unexpected effect, namely - dramatically increase the safety during fire fighting and, accordingly, the effectiveness of fire fighting.

 The proposed method relates to the latest fire extinguishing technologies and can be applied in cases where it is difficult or impossible to eliminate particularly large and dangerous burning sources, for example, on oil tankers in the sea during stormy weather, in large tanks with combustible products, in production with harmful substances, etc.

Claims (1)

 FIRE EXTINGUISHING METHOD, including feeding under pressure of a long-range jet of an aqueous solution of a foaming agent by means installed outside the combustion zone, and its subsequent spraying onto a grid, characterized in that the grid is introduced to the boundary of the combustion zone during a fire.

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