RU2155621C2 - Method of fire fighting with help of flame thrower - Google Patents

Abstract

FIELD: methods of fire fighting. SUBSTANCE: method consists in suppression of burning process by acting on fire place with directed high- velocity jet of fire-extinguishing aero (aqua) sol formed in throwing from flame thrower, ignition and burning in flight of, at least, one solid, liquid or gel-like aero (aqua) sol-generating composition. The latter contains fuel - binder and/or fuel, oxidizer, and/or coolant. Fire-extinguishing aero (aqua) sol attaining fire place envelopes burning zone, comes in contact with flame. Use is made of aero (aqua) sol - generating compositions of one compound or different compounds, or mixture of aero ( aqua) sol-generating composition with fire-extinguishing powders, or with water, or with aqueous solutions of salts, and/or their mixtures with different order of their location in throwing and ignition in flight. Ignition and burning of composition with formation of directed aero (aqua) sol jet takes place in flight and/or above burning object, and/or inside burning object. Used for the purpose is flame thrower of any design. EFFECT: higher efficiency of fire extinguishing and lower temperature of composition burning, excluded from combustion products of toxic components such as CO, NH₃ and HCN. 6 cl, 4 ex

Description

 The invention relates to extinguishing fires using a flamethrower.

 In the practice of fire extinguishing, a volumetric fire extinguishing method is widely used, known, for example, from EP 0578843, EP 0561035. However, the disadvantages of this method include the possibility of its use only in sealed conditions, that is, in closed rooms. In addition, only solid compositions are used - fire extinguishing aerosol generators. It is practically impossible to expand the field of application of such compositions and apply the method for any kind of fire, including in open space or when extinguishing burning oil or gas fountains, due to the enormous losses of the aerosol and its blowing off by a stream of burning substance.

 There are large-scale fire extinguishing installations of the Vetluga type of GOSNIIMASH, and they shoot efficiently with fire-extinguishing powder at 250 m (charge weight up to 20 kg).

 From US patent N 4696347 known method of extinguishing fires using a flamethrower. However, it also does not allow ensuring the effectiveness of extinguishing any fires.

 The claimed method of extinguishing fires using a flamethrower allows for more effective fire extinguishing of any class.

 In the invention, the method of extinguishing fires using a flamethrower is characterized in that, to suppress combustion processes, they act on the fire site with a directed high-speed jet of fire-extinguishing aero (aqua) sol formed during throwing from a flamethrower, igniting and burning in flight at least one solid, liquid or gel-like an aerosol (aqua) of the generating composition containing fuel, a binder and / or fuel, an oxidizing agent and / or a cooler, while extinguishing aero (aqua) sol, reaching the fire, envelops the zone of It enters into contact with the flame, moreover, aerosol (aqua) generating compositions of one or different compositions are used, or a mixture of aero (aqua) soldering compositions or with fire extinguishing powders, or with water, or with aqueous solutions of salts, and / or mixtures thereof different order of their placement when throwing and igniting in flight, while igniting and burning the composition or compositions with the formation of a directed aerosol jet is carried out in flight and / or above a burning object, and / or inside a burning object.

 The method uses a flamethrower taken from a group of flamethrowers of any design: a light infantry flamethrower, a knapsack flamethrower, a jet flamethrower, including an ampoule flamethrower, a flamethrower mounted on mobile vehicles, a tank or civilian flamethrower, and a flamethrower.

 In addition, at least one of the dinitramide salts, for example ammonium, potassium, sodium, cesium, both in pure form and its (their) mixture (mixtures) with nitrates, nitrites, are used as an oxidizing agent for the aero (aqua) soldering composition. perchlorates, chlorates of the same metals and cations; or pure nitrates, nitrites, chlorates, perchlorates, permanganates, chromates of the same metals, cations, or mixtures thereof; or mixtures thereof.

 In the aero (aqua) sol generating composition, as a fuel and / or fuel binder, at least one of the compounds taken from the group of cellulose polyesters, polymers, rubbers mixed with plasticizers and fillers - organic, heterocyclic and inorganic, including including and containing fragments of nitric, nitrous and nitric acid and / or mixtures thereof, or a mixture of these components.

The aero (aqua) soldering composition as an energy fuel and / or cooler contains compounds taken from the series: metals - aluminum, magnesium or their alloys, or their alloys, or mixtures with metals of the 1-2 group, iron, copper, metal hydrides or mixtures thereof, mixtures of these compounds in an amount of from 0.2 to 10 wt.%;
alcohols, glycols, acetates, ethers, benzene, toluene, gasoline, kerosene, organic azides and nitrates of glycols, solvent mixtures and their solutions, including polymer thickened, water or its solutions, or mixtures thereof, or mixtures of these compounds in an amount from 10 to 70 wt.%;
polynitrogen compounds selected from the series: azodicarbonamide, guanidine, dicyandiamide, melon, melem, melamine, urea, urotropin, azobisformamide, semicarbositol, tetrazole, dietrazole and their derivatives or salts, organic or inorganic azides of potassium, sodium, magnesium, calcium, and / or alkali salts of strontium, barium, sodium, potassium, magnesium, aluminum, ammonium, and / or their carbonates, and / or mixtures thereof, and / or crystalline hydrates of these compounds, natural minerals such as marble, dolomite, limestone, etc. compounds and / or mixtures thereof, taken in an amount of from 5.0 to 55.0 wt.%.

 Water or its solutions based on organic compounds and / or inorganic salts, or water with volatile organic solvents, or mixtures thereof are used as an aero (aqua) soldering composition.

 For throwing a fire-extinguishing composition, a flamethrower or generator is used, or an aero (aqua) soldering installation is possible in any form convenient for throwing, packaging, shape, body, charge or in free form.

 An army flamethrower is a fire extinguisher.

 A jet of fire-extinguishing aerosol, aquazole (fog) created at the expiration or flying with a large (required for blowing off) kinetic energy, reaching the source of the fire, envelops the combustion zone and comes into contact with the flame. At the same time, it simultaneously has a blowing (flame) and inhibitory effect on the physicochemical combustion processes, leading to extinguishing or localizing the fire.

 The method provides that the ignition and combustion of the composition or compositions with the formation of a directed aerosol jet occurs in flight and / or above a burning object, and / or inside a burning object.

 Depending on the type of fire, its size, type of burning material, aerosol generating compositions of one or different compositions of any aggregate state (solid, liquid or gel) are used, or a mixture of the aerosol generating composition either with fire extinguishing powders, or with water, or with aqueous solutions of salts, or with a volume-detonating mixture, including a mixture of components of various densities, or a mixture thereof (for throwing from a flamethrower any water, including from any puddle, can be used) or its various solutions in pure form and condensed with additives, and / or polymers and / or emulsion and / or inverse emulsion. For the efficiency of extinguishing fires, reducing the time of extinguishing, various orders of placement of the combined composition during throwing are used, different orders of ignition (if necessary) of its ingredients in flight, or different in length and power (mass of ingredients), and the time of expiration of the aerosol jet during stationary or mobile placement of the generator , aerosolmet, combat "flamethrower" of any design.

 High efficiency fire extinguishing aero (aqua) sol, the possibility of its formation from trains and generators at the right time and in any conditions, including when flying in the air, the ability to start (actuate) trains that generate it, exactly by command in any sequences, including at the same time, and in any required quantity, depending on the conditions in which something is burning, and other advantages of the aerosol fire extinguishing method, allows this fire extinguishing agent to be used in open spaces, while enii torches, emissions, etc.

 The claimed method allows, depending on the specific fire conditions, other extinguishing agents to be used together - simultaneously, in front of it and even after extinguishing the fire with other means both for extinguishing and to prevent the appearance of fire and the burning of smoldering objects. The method involves throwing (firing, throwing, pushing, instant displacement, etc.). Throwing can be carried out both in the volume where the fire occurs and in the space above the burning object, to create a fire extinguishing cloud above the burning object, to create a fire extinguishing cloud above the burning object both stationary and from the hand of a firefighter or any person involved in extinguishing a fire and using a fire extinguisher flamethrower.

 In case of large-area fires, “throwing” can be carried out both from an airplane and from a helicopter by simply throwing aerosol-generating products into the fire, while it is necessary to ensure that they are simultaneously ignited or started (ignition) of the thrown generators. Liquid aerosol-generating compositions can rush into the volume of the fire and with the help of any military flamethrower (manual, tank, ampoule), including high-explosive, throwing due to the burning of gunpowder, and the like pyrotechnic means and compositions.

 According to the fire extinguishing method, it is provided that the launch (reproduction) of aerosol generating compositions (if necessary and depending on the type of extinguishing agent used) can also be carried out at different sections of the throwing (flying) path of the aerosol generating combined or simple composition, ensuring the combustion of the missile charge or before approaching the object extinguishing, either over a burning object, or in the volume of the object where the fire occurs. In the latter case, the start (ignition) of the generator or aerosol (aqua) of the generating composition can also occur from the fire flame itself, which it (the agent) must extinguish.

 The kinetic energy of the resulting aerosol fire extinguishing jet depends on both the flow rate and the mass of the flying aerosol. The speed of the jet formed during or after the aerosol throwing, required for blowing off the flame, is provided mainly by the throwing means (and also, possibly, due to the burning composition). Moreover, it (speed) should provide a decrease in the Damkeler number (D) to values below critical. So, for example, at the time of throwing (or / and in flight, and / or in volume) of an aerosol-generating combined composition (or compositions), it (they) is ignited, it (they) burns, its (their) combustion products, flying, fill the volume or envelop a burning object with a fire extinguishing aerosol extinguishing a fire. The method can be carried out without throwing the composition - by increasing the pressure in the aerosol generator and increasing its outflow speed, and increasing the length of the outgoing stream, while the generator should be directed towards a possible fire.

 The generator must be started when a fire is detected. In this case, material losses due to the use of this fire extinguishing method will be sharply reduced and damage to surrounding objects and the premises will not be caused.

 In addition, the method provides for the estimated number of simultaneous or sequential throwing (launches) of an aerosol and / or aquasol generating means, ensuring that, in the volume where the fire occurs, or over a burning object, the necessary extinguishing concentration of fire extinguishing aero (and / or aqua) sol or mixtures thereof. According to the method, it is possible to use a charge or charges from one or a mixture of aero (aqua) soldering compositions, or a mixture thereof — a combined composition with fire extinguishing powders, and / or with water, and / or with aqueous solutions of salts, and / or with volume-detonating mixture, including with a mixture containing components of different densities, or mixtures thereof with different order of their equipment and most importantly - throwing and ignition.

 The method is carried out using flamethrowers (installations based on them and the principle of displacement or ejector throwing) having different barrels of multi-barrel aero (and / or aqua) solmet, which are refueling and throwing charges or charges of the same or different aero (avka) soldering compositions, or their mixtures and / or with various solutions, and / or with a volume-detonating mixture, and / or with various fire-extinguishing powders, and the ignition of each composition can be carried out in different parts of the trajectory, including in the volume where um fire or above the burning object different sequence mixtures or throwing them simultaneously. The flamethrower can have elements that can be used in case of large fires and for their intended purpose - to create, for example, an oncoming fire or strip, which the fire cannot pass when it approaches, and the fire will choke.

 The method provides that a solid, liquid or gel aerosol generating charge is thrown by compressed air, gas, pressurized water or powder or pyrotechnic combustion products, etc. means without an igniter device or equipped with igniter devices - depending on the required point or the ignition moment required by fire fighting tactics. According to the claimed method, it is possible that a liquid or gel aerosol (aqua) generating charge is thrown by compressed air, gas, water under pressure or powder gases from a flamethrower, and from an ampoule flamethrower it is thrown into an ampoule-grenade.

 Aero (aqua) sol-forming - generating fire extinguishing grenade for an ampoule flamethrower contains a cylindrical body with a charge, an igniter and a stabilizer, and an aerosol generating charge with a cooler, ignition elements and a device for putting it into action was used as a charge. In this case, the igniter and part of the charge can be used as a propellant charge, the housing can have a perforated bottom with holes on the side of the igniter or part of the housing and gauge centering belts.

 It is possible that the aerosol-forming fire-extinguishing grenade for an ampoule flamethrower has an aerosol-generating charge as a charge with or without a cooler, or to provide the required time for its burning to the zone or in the fire zone, its aerosol-generating charge is made in the form of a set or layers of small-sized elements of various external diameter and composition, channel and shape, or mixtures thereof, as well as the use of water or appropriate solutions.

 In the method, one of the distinguishing features is the use as an oxidizing agent, which improves the efficiency of the aerosol stream and the complete oxidation of the combustion products, fuel-binding agent and cooler, at least one of the salts of dinitramide, for example, ammonium, potassium, sodium, cesium, as in in pure form, and its (their) mixture (mixture) with nitrates, nitrites, perchlorates, chlorates of the same metals and cations, or pure nitrates, nitrites, chlorates, perchlorates, permanganates, chromates of the same metals, cations, or x mixture. In a number of experiments, mixtures of oxidizing agents turned out to be more effective than individual compounds, probably due to the combustion temperature of the composition.

 At least one of the compounds taken from the group of cellulose polyesters, polymers, rubbers, water or its solutions mixed with fuel is used as a fuel and / or fuel binding agent, cooler, or filler, which increase the efficiency of the aerosol jet and completely oxidize the combustion products. appropriate plasticizers and fillers (organic, heterocyclic and inorganic), including those containing fragments of nitric, nitrous and nitric acid and / or their mixtures, or the mixture is listed of the components and / or dicyandiamide, and / or melem, and / or melamine, and / or urea and sometimes its derivatives, or urotropin, or azobisformamide (HDA), and in some experiments, and mixtures thereof.

 It has been experimentally shown that the ratio of oxidizing agents can be different. The ratio is reflected only in the direction of application of the compounds. So, with the increase in the share of chlorides in aero (aqua) ash, the composition better extinguishes a class A fire, and with a larger content it can be used for class D, E.

 The following compositions may be used in the claimed solution.

 Example 1

Composition, wt.%:
Potassium Nitrate - 28
Water - 40
Urea - 32
Example 2

Composition, wt.%:
Epoxy resin - 5
Potassium Nitrate - 30
Water - 40
Dicyandiamide - 24
Industrial oil - 1
Example 3

Composition, wt.%:
Potassium dinitramide - 12
Sodium Nitrate - 8
Phenol formaldehyde resin (or shellac) - 17
Dicyandiamide (DCDA) - 12
CuCO ₃ - 2
Water - Else
Example 4

Composition, wt.%:
Sodium Nitride - 8
Phenol formaldehyde resin (or shellac) - 17
Dicyandiamide (DCDA) - 12
CuCO ₃ - 2
Water - Else
Evaluation of fire extinguishing efficiency (C _T , g / m ³ ), combustion temperature (T _G , ^o C) of the content of CO, NH ₃ , HCN in the products of combustion was carried out on samples made by the method of "deaf" pressing.

The experimental verification of the fire extinguishing effectiveness of the compositions was carried out according to the following method. In a confined space - (0.95 m ³ ) - the experimental compounds were shot from a model flamethrower or, in a number of experiments, simply burned in a volume protected from fire. After volume distribution of the aero (aqua) ash mixture over 60 s, a burning sample of polymethyl acrylate (Plexiglas) was introduced into it, which was completely attenuated in 100% of the experiments. After conducting a series of experiments with various amounts (weigheds) of the test composition, we determined the minimum weighed, during which the independent burning of organic glass in the volume lasted at least 1 s. Dividing the obtained value of the minimum sample by volume, we found the minimum extinguishing concentration of the test composition.

The analysis of the content of toxic products of CO, NH ₃ , HCN in the combustion products of the compositions was carried out on a chromatograph with a thermal conductivity detector (DTP). The chromatographic column is glass, packed, its length is 2.4 m, internal diameter is 2.5 m. The column is filled with a zeolite of a fraction of 0.14 ... 0.25 mm. The speed of the carrier gas (helium) is 41 cm ³ / min. Column temperature - 35 ^o C. Dose volume - 1 cm ³ .

 The analysis of experimental data shows that the claimed method is superior in fire extinguishing efficiency to known methods of influencing the burning area.

 In the claimed method, the localization of the spread of fire and the prevention of explosions of steam and gas mixtures in production rooms and individual elements of technological equipment are provided.

Claims (6)

 1. A method of extinguishing fires using a flamethrower, characterized in that to suppress combustion processes they act on the fire source with a directed high-speed jet of fire-extinguishing aero (aqua) sol formed when throwing from a flamethrower, igniting and burning in flight at least one solid, liquid or a gel-like aerosol (aqua) generating composition containing a fuel-binder and / or fuel, an oxidizing agent and / or a cooler, while extinguishing aero (aqua) sol, reaching the fire source, envelops the combustion zone, falls into contact with the flame, moreover, aerosol (aqua) generating compositions of one or different compositions are used, or a mixture of aero (aqua) soldering compositions or with fire extinguishing powders, or with water, or with aqueous solutions of salts, and / or mixtures thereof, for various the order of their placement during throwing and ignition in flight, while the ignition and combustion of the composition or compositions with the formation of a directed aerosol jet is carried out in flight and / or above a burning object, and / or inside a burning object.  2. The method according to p. 1, characterized in that they use a flamethrower taken from a group of flamethrowers of any design: a light infantry flamethrower, a knapsack flamethrower, a jet flamethrower, including an ampoule flamethrower, mounted on mobile vehicles, a tank or civilian flamethrower , flamethrower grenade launcher.  3. The method according to any one of claims 1 and 2, characterized in that at least one of the dinitramide salts, for example, ammonium, potassium, sodium, cesium, both in pure form and in its pure form, is used as an oxidizing agent for the aero (aqua) soldering composition its (their) mixture (s) with nitrates, nitrites, perchlorates, chlorates of the same metals and cations, or pure nitrates, nitrites, chlorates, perchlorates, permanganates, chromates of the same metals, cations or their mixtures, or mixtures thereof.  4. The method according to any one of claims 1 to 3, characterized in that at least one of the compounds taken from the group of cellulose polyesters, polymers, rubbers is used as a fuel and / or fuel binder in an aero (aqua) soldering composition. mixed with plasticizers fillers - organic, heterocyclic and inorganic, including those containing fragments of nitric, nitrous and nitric acid and / or mixtures thereof, or a mixture of these components.  5. The method according to any one of claims 1 to 4, characterized in that the aero (aqua) soldering composition as an energy fuel and / or cooler contains compounds taken from the series: metals - aluminum, magnesium or their alloys, or their alloys or mixtures with metals of the 1st and 2nd groups, iron, copper, metal hydrides or their mixtures, mixtures of the above compounds in an amount of 0.2 to 10 wt.%, alcohols, glycols, acetates, ethers, benzene, toluene, gasoline, kerosene , organic azides and nitrates of glycols, mixtures of solvents and their solutions, including those thickened with polymers, water or its solutions, or mixtures thereof, or mixtures of the listed compounds in an amount of from 10 to 70 wt.%, poly nitrogen compounds selected from the series: azodicarbonamide, guanidine, dicyandiamide, melon, melem, melamine, urea, urotropine, azobisformamide, semicarboside, tetrazole, diethitrazole and their derivatives or salts, organic or inorganic azides of potassium, sodium, magnesium, calcium, and / or oxalic salts of strontium, barium, sodium, potassium, magnesium, aluminum, ammonium, and / or their carbonates, and / or their mixtures and / or crystalline hydrates of these compounds, natural miner ala type marble, dolomite, limestone, etc. compounds and / or mixtures thereof, taken in an amount of from 5.0 to 55.0 wt.%.  6. The method according to claim 1, characterized in that water or its solutions based on organic compounds and / or inorganic salts, or water with organic volatile solvents, or mixtures thereof are used as an aero (aqua) soldering composition.