RU2130792C1 - Method of producing fire-extinguishing mixture and device for its embodiment - Google Patents

Abstract

FIELD: fire fighting, in particular, fire-fighting facilities; applicable in prevention and extinguishing of fire in closed space including habitable rooms and also neutralization of toxic products formed in fire. SUBSTANCE: chamber method of production of low-temperature flameless nontoxic fire extinguishing mixture designed for formation of fire-extinguishing medium in space under protection, consists in conduction simultaneously inside chamber of mixing processes of high-temperature products of combustion of aerosol-forming compound with noncombustible aerosol-forming substance and/or with oxidizer, and/or with special reagent (compounds, components) selectively reacting and neutralizing of toxic products of incomplete combustion of aerosol-forming substance, extinguishing of flame of formed fire-extinguishing mixture, its cooling, neutralization and/or complete oxidation of toxic products of incomplete combustion of aerosol-forming substance. Organization of process of fire-extinguishing mixture ensures and guarantees production of fire-extinguishing steam-smoke-gas aerosol mixture with parameters controlled within wide ranges of temperature, chemical composition and particle dispersion. In this case, due to processes taking part in chamber, formed fire-extinguishing mixture being low-temperature, flameless and nontoxic one, provides for formation in protected space of fire-extinguishing medium which produces simultaneously inhibiting effect on physical-chemical processes of combustion in fire, cooling effect on fire flame and neutralizing (complete oxidation) effect on toxic products formed in fire. Method is realized by specially devised device. EFFECT: higher efficiency of fire extinguishing with exclusion of open flame, reduction of temperature and toxicity of fire-extinguishing mixture and fire-extinguishing mixture formed in protected space by the mixture. 13 cl, 8 dwg

Description

 The invention relates to the field of fire fighting, in particular fire fighting equipment, combining a method of producing a fire extinguishing mixture and a device for producing a fire extinguishing mixture according to this method. The invention can be used to prevent and extinguish a fire in a confined space, including in inhabited premises, as well as to neutralize toxic products formed during a fire.

 To date, volumetric fire extinguishing is known and widely used, based on the creation of an environment that does not support combustion in a protected volume. Inert diluents in a gaseous state (carbon dioxide, nitrogen, argon, water vapor, volatile inhibitors - halogen-containing substances, fire-extinguishing powders (ac USSR 257195, 355832, 652944, 1472073, RF patent 2030194; A.N.Baratov, LP Vogman "Fire extinguishing powder composition", M., Stroyizdat, 1984). However, fire extinguishing devices and installations based on them are characterized by well-known design and operational shortcomings, such as: a decrease in the oxygen content in the air of the protected volume, destruction of the ozone layer, non-environmental friendliness, bulkiness of the structure, the presence of nodes under constant pressure, loss of efficiency during caking of powders, etc.

 At present, the method of aerosol volumetric extinguishing is widely used, in which fire extinguishing (its prevention, suppression) is carried out by creating a fire extinguishing medium in the protected volume, which is formed when the protected volume of the fire extinguishing mixture obtained by combustion of the aerosol forming mixture is supplied to the protected volume and mixed with air ( aerosol generating) composition. Fire extinguishing (its prevention, suppression, and also explosion prevention) occurs due to the interaction of the formed extinguishing medium with the flame, while the aerosol-forming composition (the device based on it is a fire extinguishing device) is placed in advance in a protected volume and ignites from the fire , or using a special incendiary device. Aerosol-forming compositions and devices that implement this method are also known (RF patents 2019214, 2001647, 2001648, 2005517, 2006239, 2008045, 2046614, 2078602, 2095104; RF patent for industrial design 42754 S; Europatents 0578843 V, 0561035 V; WO 92/17244 , WO 93/15793, WO 97/21467, WO 97/21468; RF patent application 94002970/12, published in BI No. 17/1996, etc.

 The method of aerosol volumetric fire extinguishing and devices that implement this method are devoid of a number of disadvantages listed above. However, a feature of devices that implement the method of aerosol volumetric fire extinguishing is the high temperature of the exit aerosol-containing stream (stream) and the presence of a luminous flame at the exit from them. The need to reduce the temperature of the aerosol-containing jet and the elimination of the luminous torch led to the creation of such fire extinguishing devices in which the cooling effect of a high-temperature aerosol-containing jet is achieved by heat exchange or when the formed jet passes through a layer of a cooler (coolant, heat-absorbing substance) (for example, RF patents 2064305, 2032 , 2072135), or when mixing the formed jet with air of a protected volume (for example, RF patents 2046614, 2008045). The cooling unit in such devices is located either inside the device between the charge of the aerosol forming composition and the outlet nozzle, and in this case it is made in the form of a bulk layer of pressed tablets, granules or the like, or in the form of tubes, plates, monoblocks, coaxial bodies of revolution (RF patents 2028169, 2072135, 2064305, 2083244, 2006239, 2078602, etc.), or can be mounted outside the device (for example, Europatent 0561035 V, RF patent 2008045).

 As a cooler (cooling agent, heat-absorbing material), chemical substances are used, for example, boron compounds, ammonium oxalate and others.

 The disadvantages of such devices (fire-extinguishing generators) include the high toxicity of the fire-extinguishing gas-aerosol medium created in the protected volume, a significant decrease in the fire-extinguishing ability - efficiency (about two times), and an increase in cost (about two times). The increase in toxicity is also associated with the process of freezing products of incomplete combustion (CO, NO, etc.) of aerosol-forming solid fuel when they pass through a layer of a cooler (coolant, heat-absorbing material). The decrease in fire extinguishing (fire extinguishing) ability is due, in particular, to the fact that when a jet of gas-aerosol mixture moves through a cooler, a significant proportion of aerosol particles are deposited on it. The increase in cost is associated with the presence in the design of an additional unit of a chemical solid cooler based on the above compounds, the cost of which is comparable to the cost of fuel.

There is a known method of producing a fire extinguishing mixture (V.D. Rusanov, I.V. Krauklish "Fire extinguishing systems based on aerosol generators" - in the collection. "Effective fire extinguishing systems based on gunpowder and special solid fuels", - M., 1991, p . 31-34), which consists in the fact that a fire extinguishing aerosol is obtained by spraying aqueous solutions of salts (for example, potassium carbonate) by the combustion products of solid fuels or special extinguishing compositions. However, when the salt solution consumption is 2–3 times the mass of fuel, the extinguishing concentration is only 100–200 g / m ³ , which is 2–4 times higher than the extinguishing concentration of the special extinguishing compositions proper, i.e. the substantial loss of fire extinguishing effectiveness is quite obvious.

 The closest analogue of the claimed group of inventions is a method for producing a fire extinguishing mixture and a device for producing a fire extinguishing mixture (RF patent 2072135, CL A 62 C 3/00, 05/31/94) for a fire extinguishing method and a device for its implementation by the interaction of high-temperature pyrotechnic combustion products mixtures with coolants - chemical compounds with high heat-absorbing and gas-releasing ability, molded in the form of granules, tablets, and the device is a case, including pyrotechnic aryad outlet opening, the pyrotechnic charge ignition unit and a container of cooling material disposed between the pyrotechnic charge and the outlet. The analogue is characterized by all the disadvantages described above, which are inherent both to the method of extinguishing a fire (and hence to the method of producing a fire extinguishing mixture), and to a device that implements this method using chemical compounds as a cooling substance (heat-absorbing material) - high toxicity created in the protected volume fire extinguishing gas aerosol environment and, as a result, the restriction of use for inhabited premises, a significant loss of fire extinguishing efficiency, an increase in the cost of proper installation oystva to extinguish a fire and, consequently, increase the cost of extinguishing a fire.

 The invention provides a technical result - increasing the efficiency of fire extinguishing while eliminating an open flame, lowering the temperature and toxicity of the resulting extinguishing mixture, and created due to it in the protected volume of the extinguishing medium.

 This technical result is provided in a method for producing a fire extinguishing mixture designed to create a fire extinguishing medium in a protected volume by mixing, cooling, diluting, according to the invention, a fire extinguishing mixture, which is a low-temperature non-toxic (oxidized) flameless vapor-gas aerosol mixture of fire-extinguishing gases, highly and finely dispersed , liquid and vaporous particles, which, after feeding it into the protected volume, have a simultaneous inhibitory effect on the physicochemical Other combustion processes during a fire, the cooling effect on a fire flame and the neutralizing oxidizing effect on toxic products resulting from a fire are obtained by intracameral mixing of high-temperature combustion products of an aerosol-forming composition or compositions with their simultaneous cooling and / or reoxidation and / or neutralization and / or suppression flame, - or with a low-temperature aerosol consisting of particles of non-combustible aerosol-forming substance sprayed and / or vaporized into the mixing chamber of the device, at least more than one chemical composition, - and / or with particles of oxidizing agent and / or particles of components that are selectively reacted and neutralize toxic products of incomplete combustion of the aerosol forming composition or compositions that are sprayed and / or evaporated into the mixing chamber, while spraying and / or vaporizing a non-combustible aerosol forming substances and / or oxidizing agent is carried out with the required time interval, either simultaneously or cyclically with the targeted exposure to them of thermal and mechanical energy of a high-temperature jet (stream) or and combustion products of the indicated aerosol forming composition or compositions and / or combustion products of the charge of a solid fuel pressure accumulator, and non-combustible aerosol forming substances are compounds having chemical inhibition properties of combustion and flame cooling reactions and used in solid, powder, liquid or gel form, in a mass ratio aerosol forming composition or compositions and non-combustible aerosol forming substances for solid, powder, non-combustible aerosol eobrazuyuschego substance 1 - 1-5, for the liquid and a gel (gelled) aerosol forming substance incombustible - 1 - 0.1-2.0. This amount of the above substance is sufficient for the formation of an aerosol medium from it, extinguishing the flame of the aerosol forming composition or compositions inside the device chamber (inside the fire extinguishing aerosol generator).

 Intra-chamber additional oxidation and / or neutralization of toxic products of incomplete combustion of the aerosol forming composition or compositions is carried out either before the interaction of the high-temperature combustion products of the aerosol forming composition or compositions, with a non-combustible aerosol forming substance, or simultaneously with the interaction of the high-temperature combustion products of the aerosol forming composition or compositions with a non-combustible.

 A non-combustible aerosol-forming substance of various chemical composition from a solid, liquid, gel state is selected from the group of compounds having the properties of chemical flame retardants and flame coolers or water, including distilled, individually or pre-thickened, or salts and hydroxides of alkali, alkaline earth transition metals , ammonium, or a mixture thereof in the form of either finely divided powders, or solutions, or pre-thickened gel-like solutions. Use salts such as carbonates, bicarbonates, sulfates, phosphates, chlorides. The content of the thickener does not exceed 0.05% by weight of the non-combustible aerosol forming substance itself. As a thickener, for example, sodium carboxymethyl cellulose, copolymers of acrylic acid and hexaallyl saccharose (compounds of the SAXN type) are used, which sharply increase the viscosity of aqueous solutions in the free state when their content is up to 0.05%. The chemical nature of the non-combustible aerosol forming substance is selected depending on its functional purpose, and the mixtures are in the required combinations and proportions.

 To increase the reliability of operation of the device, increase its fire extinguishing efficiency, and enhance the effect of reducing (eliminating) the toxicity of the resulting fire extinguishing mixture, special components (substances, compounds, reagents) selectively reacting with toxic products or neutralizing toxic products are additionally introduced into the composition of a non-combustible aerosol-forming substance (NAV) incomplete combustion of the aerosol forming composition in the mixing chamber and toxic products formed in the protected volume in case of fire, and / or active oxidizing agents and / or antifreezes and / or wetting agents and / or surfactants and / or foaming agents and / or corrosion inhibitors and / or smoldering inhibitors and / or electrical insulating additives and / or mixtures thereof.

As antifreezes use the above salts and hydroxides, as well as ethylene glycol and glycerin, which reduce the temperature of aqueous solutions to minus 15-50 ^o C.

 As wetting agents, sulfates, sulfonols, wetting agents of the DB and NB type are used, introduced in amounts of 0.75% and lowering the water consumption and the quenching time of fibrous and smoldering materials.

 As foaming agents, alkyl sulfates, alkyl sulfonates and other anionic compounds, as well as halogen-containing surfactants are used.

 To reduce the content of toxic products of combustion, a combustion regime is organized that ensures the completeness of AOS combustion, temperature and pressure necessary for the vapor-phase formation of a high-temperature fine aerosol.

 In addition, the toxic combustion products of the aerosol-forming AOS composition (CO, HCN, NO, HCl, etc.) are oxidized (and / or neutralized) inside the mixing chamber of the device by their chemical interaction with atomized (and / or vaporized) oxidizing particles. Moreover, the specified interaction is carried out either previously (before the interaction), or simultaneously with the interaction of the combustion products of AOS (which contain these toxic products) with NAV. The oxidizer is sprayed (carried out) by exposure to a high-temperature flow of combustion products or AOC, and / or a charge of a solid fuel pressure accumulator.

The oxidizing agent (including an additional oxidizing agent) is used (used) either individually, including liquid, or in the form of a solution, or as a mixture of several oxidizing agents of different chemical composition, or as a mixture thereof with a non-combustible aerosol-forming substance. As an oxidizing agent (or an additional oxidizing agent), for example, aqueous solutions of potassium and sodium nitrates and perchlorates or barium nitrate are used, taken in an amount sufficient to obtain a total fuel-oxidizer ratio close to the stoichiometric in the aerosol-forming composition or the oxidizing agent compositions. For example, during the interaction of water vapor with a flame of an aerosol-forming composition or compounds (AOC), water dissociates with the formation of OH radicals that react with carbon monoxide from the flame by the reaction CO + OH ---> CO ₂ + H (Muller DK Schlader AF Combustion and Flame, 1976, v. 27, N 2, p. 205-215).

Along with intracameral reoxidation, toxic products of incomplete combustion of AOS are absorbed (also inside the device in the mixing chamber) by special components (substances, reagents, compounds) that selectively react and neutralize toxic products of incomplete combustion of AOS, which are additionally incorporated into a non-combustible aerosol-forming substance (NAV) . In this case, the chemical nature, quantity and ratio of these components are selected in each case. For example, to neutralize CO, potassium hydroxide KOH is introduced, which simultaneously neutralizes the acids HNO ₃ , HCl. In this case, the device (generator) is used as a reactor to neutralize toxic AOS combustion products in a protected volume, primarily during unauthorized start-up of the device, since in case of fire CO, CO ₂ , NO _x and other toxic gases are formed in an amount much higher than their content in AOS combustion products. Therefore, the speed of extinguishing a fire using an aerosol-forming fire extinguishing device (generator) is the main environmental indicator of a fire extinguishing aerosol.

 The method is implemented by a device for its implementation, comprising a housing with an exit nozzle, a combustion chamber with an inserted charge or charges of an aerosol forming composition or compositions, a mixing chamber and a launch unit of a supporting composition or compositions, in which, according to the invention, the combustion chamber is equipped with an additional intermediate nozzle, and at least one container is additionally placed in the mixing chamber connected to the combustion chamber, each of which is filled with at least one non-combustible aerosol-forming substance least one chemical composition in solid, powder, liquid or gel (thickened) state, or oxidant, or nodes for spraying the contents in the mixing chamber.

 Moreover, the specified container is made either in the form of at least one cylindrical tube, each end of which, facing the combustion chamber, has at least one hole for the expiration of its contents due to pressure drop along the length of the tube, and the opposite end, facing the outlet nozzle the device has at least two evenly spaced openings that act as a spray nozzle assembly; or in the form of at least one cylindrical tank, the lid of which is facing the combustion chamber, equipped with a solid fuel pressure accumulator, made in the form of a solid fuel cup with an independent ignition (initiation) assembly to provide simultaneous or sequential, or cyclic inclusion of ignition nodes in the combustion chamber and the mixing chamber, with the holes of each cylindrical tube, the spray nozzle assembly or assemblies provided with membranes that open and / or collapse when increase in temperature and pressure in the combustion chamber.

 In the invention, the container additionally placed in the mixing chamber of the device is made either in the form of at least one cylindrical tube, or in the form of a set of cylindrical tubes that are filled with either liquid or gel (thickened) non-combustible aerosol-forming substance of at least one chemical composition or an oxidizing agent, including in the form of a liquid or in the form of a solution, or a mixture thereof, and each end of the tubes facing the combustion chamber has at least one opening to ensure the expiration of the contents of felling due to the pressure drop along their length, and each opposite end of the tubes facing the outlet nozzle of the device has openings that act as a spray nozzle assembly. Additionally, the container located in the mixing chamber is made in the form of one cylindrical container filled with either a non-combustible aerosol forming substance of at least one chemical composition in a solid, powder, liquid or gel state, or an oxidizing agent, or a mixture thereof. The mixing chamber contains two independent containers in the form of cylindrical containers, the first of which is placed closer to the combustion chamber, filled with an oxidizing agent, and the second either with a non-combustible aerosol-forming substance of at least one chemical composition in a solid, powder, liquid or gel state or its mixture with an oxidizing agent the chemical composition of which is either identical or different from the oxidizing agent placed in the first container, while these containers, each of which has its own spray rsunochny node or nodes, connected by an adapter provided with passageways, and the first container is provided with a solid-pressure accumulator, designed as a solid-glasses with the ignition unit.

 Non-combustible aerosol-forming substance in liquid or gel (thickened) form, oxidizing agent (or additional oxidizing agent) in the form of liquid or solution, or mixtures thereof are placed in elastic containers, which are located in additional containers of the mixing chamber. Elastic containers are equipped with membranes that open and / or collapse with increasing temperature and pressure in the mixing chamber due to combustion or charge of an aerosol-forming composition or compositions in the combustion chamber, or charge of a solid fuel pressure accumulator.

 To improve the operational characteristics of the device — to improve (enhance) the effect of mixing the components of the fire extinguishing mixture in the mixing chamber — the front end of at least one additional container placed in the mixing chamber is installed in the combustion chamber of the aerosol-forming composition.

 According to the invention, it is contemplated to make (assemble) a charge of an aerosol forming composition of several pieces (in the form of a set) of an aerosol forming composition of at least a chemical composition. Such a charge is combined. The chemical composition of the charge (s) of AOS can correspond, for example, to patents of the Russian Federation 2001647, 2001648, 2005517, 20951104 and others.

The organization of the process of obtaining a fire extinguishing mixture according to the invention provides (guarantees) the creation of a fire extinguishing vapor-gas aerosol medium with parameters that are widely adjustable in temperature (from 600 to 60 ^o C), chemical composition and dispersion of particles (from 2-3 microns for solid and up to 100 μm for liquid particles). At the same time, due to the internal chamber processes, the resulting fire extinguishing mixture, being itself a low-temperature, flameless, non-toxic, ensures the creation of a fire-extinguishing medium in the protected volume, which has a simultaneous inhibitory effect on the physicochemical combustion processes during a fire, cooling effect on the fire flame and neutralizing (oxidizing ) effect on toxic products resulting from fire.

The method for producing a fire extinguishing mixture is illustrated by the device for its preparation, presented in the following drawings:
FIG. 1 - device design with a tubular container;
FIG. 2 - the design of the device with a cylindrical container for liquid surfactant;
FIG. 3 - unit device with two cylindrical containers;
FIG. 4 - a device assembly with a cylindrical container for a solid (powder) NAV;
FIG. 5 - arrangement of devices (generators) for producing a fire extinguishing mixture, model fires and measuring equipment in a test box;
FIG. 6 - experimental dependence of the temperature of the steam-gas-gas aerosol jet on the ratio of the NAV flow rate and the AOS combustion products (for a device with a tubular container);
FIG. 7 - experimental dependence of the temperature change behind the outlet nozzle and over the model fire sources over time;
FIG. 8 - calculated dependence of the temperature of the gas-aerosol medium on the ratio of the flow of NAV and the combustion products of AOS (for a device with one cylindrical container).

 The following are descriptions of structures and assemblies and principles of operation of some of the embodiments of the inventions.

 The device for producing a fire extinguishing mixture according to the inventions (extinguishing aerosol generator) shown in FIG. 1, consists of a cylindrical body 15 with an output nozzle 16; in the housing 15 there is a combustion chamber 17 with an AOC 18 charge (s) embedded in it with an initiator and a start unit 19 and a mixing chamber 21. The combustion chamber 17 is provided with an additional intermediate nozzle 20. A container 22 with NAV made in this case of seven cylindrical tubes filled with an aqueous solution of alkali metal hydroxide - potassium or sodium. The end face of each tube facing the outlet nozzle 16, in this case, has ten holes 23 (nozzles) evenly spaced along the cylinder, 0.2 mm in diameter, acting as a sprayer (spray nozzle assembly). At the opposite end of each tube, facing the charge of the AOC 18, there is an opening 24, with the help of which the flow of fluid is ensured due to the pressure drop along the length of the tubes.

 The operating order of the generator of FIG. 1, the following: after the electric or thermal signal (pulse) is supplied to the initiator 19 and its operation occurs, the charge 18 ignites (ignites). The resulting gases flow from the combustion chamber 17 through the nozzle 20 into the mixing chamber 21. The pressure difference of the gases entering the mixing chamber 21, openings 24 and 23 of the sealing membranes are opened. In this case, the liquid NAV flows out of the nozzles 23 into the mixing chamber 21, where it interacts with a gaseous aerosol. The resulting low-temperature flameless non-toxic vapor-gas-aerosol mixture flows through the nozzle 16 into the atmosphere, filling the protected volume and creating a fire extinguishing medium in the protected volume.

 The device for producing a fire extinguishing mixture according to the inventions (extinguishing aerosol generator) shown in FIG. 2, consists of a combustion chamber 17 and a mixing chamber 21 with an output nozzle 16. AOC charge 18 with an initiator and a start unit 19 is placed in the combustion chamber 17. A container 25 is placed in the mixing chamber 21 in the form of a cylindrical container with liquid NAV 31; wherein the liquid NAV is placed in an elastic container 26. The membrane 27 is sealed by the membrane 27. At the front end of the container 25 is a solid fuel charge 28 of the pressure accumulator with a start unit 29. The back end of the container 25 is made in the form of a spray nozzle unit 30. The start units 19 and 29 are made either in the form of an electric spiral heated by an electrical impulse, or in the form of a heat-sensitive cord (TCH).

 The principle of operation of FIG. 2 device (generator) is as follows.

 After applying an electric (or thermal) pulse (signal) to the start-up unit (initiator) 29, the solid-fuel charge 28 of the pressure accumulator is ignited (ignited). The resulting gases enter the annular gap between the wall of the container 25 and the elastic container 26 filled with liquid NAV 31. An increase in gas pressure leads to compression of the elastic tank 26 with liquid NAV 31. The sealing membrane 27 is opened and the liquid NAV 31 flows radially into the nozzle unit 30 mixing chamber 21. Simultaneously or with a predetermined belt delay, an electric (or thermal) pulse is supplied to the initiator of the start-up unit 19, which ignites the charge of AOS 18. The gas-aerosol products of combustion of AOS 18 enter an annular gap between the walls of the mixing chambers 21 and the container 25, where they interact with the sprayed (or already sprayed) liquid NAV. The resulting low-temperature flameless non-toxic vapor-gas-aerosol mixture flows through the nozzle 16 into the atmosphere, filling the protected volume and creating a fire extinguishing medium in the protected volume.

 In order to increase the completeness of afterburning of the AOS combustion products (and, accordingly, to reduce the toxicity of the gas-aerosol medium) inside the mixing chamber 21 (see Fig. 2), in addition to the cylindrical container 25 with elastic capacity 26 filled with liquid NAV 31, a cylindrical container 32 with elastic capacity 33 is placed filled with a liquid 34 with oxidizing properties (for example, an aqueous solution of sodium and potassium nitrate or perchlorate, barium nitrate) - see FIG. 7. The containers 25 and 32 are connected by an adapter 35, in which there are bypass channels 36 and the bottom 37. Two cavities are formed using the bottom 37, where elastic containers 26 and 33 with liquids 31 and 34 are respectively placed. The containers 25 and 32 are sealed with membranes 27 and 38, respectively.

 The principle of operation of the device (generator), the construction unit of which is shown in FIG. 3 is as follows.

 After applying an electrical (or thermal) pulse to the initiator of the start-up unit 29, ignition (ignition) of the solid fuel charge 28 of the pressure accumulator occurs. The resulting gases enter the cavity of the container 32 and then through the bypass channels 36 enter the cavity of the container 25. Increasing the gas pressure in the cavities of the containers 32 and 25 leads to compression of the elastic containers 33 and 26, opening of the membranes 38 and 27 and the outflow of liquids 34 and 31 into the chamber mixing 21 (Fig. 2). At the same time, gas-aerosol combustion products of the AOC 18 charge enter the mixing chamber 21. When the combustion products of the solid-fuel charge AOC 18 move along the mixing chamber 21, they first interact with the atomized oxidizing liquid (oxidizer) 34. The products of incomplete combustion of the solid-fuel charge AOC 18 (CO, NO) are oxidized. and others). With further movement of the mixture, the latter interacts with liquid NAV 31 flowing out of the nozzles of the spray nozzle assembly 30. The resulting low-temperature flameless non-toxic vapor-gas-aerosol mixture flows through the outlet nozzle 16 into the atmosphere, filling the protected volume and creating an extinguishing medium in the protected volume.

 In FIG. 4 shows a device assembly using powdered NAV. A container 39 with powdered NAV 40 is placed in the mixing chamber 21 (Fig. 2) instead of a container 25 with liquid NAV 31. A solid fuel charge 28 and an initiator of the start unit 29 of the pressure accumulator are placed in the front bottom of the container 39. The sealing of the powdered NAV 40 is provided with a collapsing membrane 41. The rear bottom of the container 39 is made in the form of a spray nozzle assembly (or assemblies) 30.

 The principle of operation of the device, the design unit of which is shown in FIG. 4, consists in the following: after applying an electric (or thermal) pulse to the initiator of the start-up unit 29, ignition (ignition) of the solid fuel charge 28 of the pressure accumulator occurs. The resulting gases enter a container 39, in which, with increasing pressure, the NAV 40 powder is fluidized. The membrane 41 breaks and the NAV 40 fluidized powder flows through the spray nozzle assembly 30 into the mixing chamber 21 (Fig. 2). Simultaneously or with a predetermined time delay from the initiator of the start-up unit 19, ignition (ignition) of the AOC 19 charge occurs (see Fig. 2). The resulting gas-aerosol AOS combustion products enter the annular gap between the walls of the mixing chamber 21 and the container 39, where they interact with the sprayed fluidized NAV powder. The resulting low-temperature flameless non-toxic vapor-gas mixture flows through the outlet nozzle 16 into the atmosphere, filling the protected volume and creating a fire extinguishing medium in it.

 Prototypes of developed devices for producing fire extinguishing mixtures that implement the invention, successfully passed operational tests and showed high reliability and efficiency.

Model tests were carried out in a box (Fig. 5) with a volume of 18 m ³ , in which there were devices developed according to the invention for producing a fire extinguishing mixture (extinguishing aerosol generators) 1, baking sheets 2, 3 with flammable liquids (Class B fires), plexiglass 4, 5 ( Class A2 fires). The foci of fire were ignited by spiral 6. The ignition and extinguishing process was fixed using thermocouples 7-10 installed above the foci. The temperature of the gas-aerosol medium was recorded by temperature sensors 11, 12, installed at a distance of 50 and 100 mm from the nozzle exit, the glow of the flame was recorded by a photodiode 13 located near the nozzle. The gas composition was determined by a mass spectrometric method using samples 14 taken from the box 30 s after the experiment.

In FIG. Figure 6 shows the results of measuring the temperature of the jet (T, ^o C) at various mass ratios of the flow rate of the combustion products AOS (G _t ) and liquid NAV (G _f ) for a generator with a container in the form of a set of seven tubes. Moreover, in the experiments, the photodiode did not detect the presence of a luminous zone (flame) of the jet.

In FIG. Figure 7 shows the nature of the time variation of the temperature behind the nozzle (curves 1.4) and the readings of thermocouples above the combustion sites (curves 2.3). At the same time, the fire extinguishing concentration of the substance assigned to AOS was 39-50 g / m ³ , which is 3 times less than when using a chemical cooler.

 The results of a gas analysis of an aerosol-containing medium are shown in the table.

In FIG. Figure 8 shows the calculated dependence of the temperature of the gas-aerosol medium on the mass ratio of the costs of the combustion products AOS (G _t ) and NAV powder (G _n ) for a generator with one cylindrical container. A powder based on sodium chloride with thermophysical characteristics was used in the calculation: specific heat 0.21 cal / g • deg, melting point 1073 K, sublimation temperature 1713 K, heat of fusion 123.5 cal / g, heat of evaporation 200 cal / g.

Thus, an experimental assessment of the health and effectiveness of devices that implement the process of obtaining a fire extinguishing mixture, according to the invention confirms their significant advantages in relation to fire extinguishing efficiency, environmental cleanliness and safety of use, including in inhabited rooms. Thus, the carbon monoxide content in the resulting extinguishing mixture when using the SBK-3 composition is almost 25 times lower and is only 0.04 vol.%, The temperature of the exiting extinguishing mixture jet at the nozzle exit is almost 2-2.5 times lower and ranges from 60 to 100 ^o C, and its fire extinguishing efficiency is 2-3 times higher (with a significant decrease in the charge mass of the AOS). The mass of non-combustible aerosol-forming substance is almost 5-8 times less than the mass of the cooler, which are used as chemical compounds molded in the form hard ale ntov. The device’s operating time (aerosol release time) remains unchanged.

 The conducted field tests confirmed the advantages of the developed devices for producing a fire extinguishing mixture according to the inventions with regard to their performance, efficiency, reliability and environmental safety weighing up to 6 kg and dimensions up to 100 x 520 mm. Currently, the implementation of the developed devices for producing a fire extinguishing mixture (fire extinguishing aerosol generators) is being carried out in the industrial production of the Soyuz FPDT.

 In the invention, a method for producing a fire extinguishing mixture intended to create a fire extinguishing medium in a protected volume and which is a low-temperature flameless non-toxic vapor-gas-gas aerosol mixture of fire-extinguishing gases, highly and finely dispersed solid, liquid and vapor particles, which exerts a simultaneous physically inhibitory effect upon its supply into the protected volume -chemical combustion processes in case of fire, the cooling effect on the fire flame and the neutralizing effect on the toxic products, consists in the intracameral (inside the device for producing a fire extinguishing mixture - a fire extinguishing aerosol generator - a fire extinguishing device) gas-dynamic and chemical interaction of high-temperature combustion products of an aerosol-forming composition or compositions (AOS), or with a low-temperature aerosol having the properties of chemical inhibition of combustion reactions and a flame cooler consisting of particles of a non-combustible aerosol-forming substance sprayed and / or vaporized into the mixing chamber of the device ( NAV) of at least one chemical composition, by means of interaction with which the flame is extinguished by the chamber and the temperature of the resulting extinguishing mixture is reduced, and / or with the particles of oxidizing agent or particles of a special component (substance, reagent, vaporized into the mixing chamber of the device) compound), which reacts with toxic products or neutralizes toxic products of incomplete combustion of AOC, through the interaction with which in the resulting fire extinguishing mixture occurs dimensional neutralization and / or post-oxidation of toxic products of incomplete combustion of AOS.

 At the same time, spraying and / or evaporation of NAV, an oxidizing agent, a special component (substance, reagent, compound or components, substances, reagents, compounds) reacting (reacting) with toxic products of incomplete combustion of AOC or neutralizing (neutralizing) toxic products of incomplete combustion of AOC, occurs either in any sequence with the required time interval, or at the same time, or with a certain cyclicality when the thermal and mechanical energy of the high-temperature jet is targeted on them ( a) or the products of combustion of said aerosol formulation (or composition) and / or the solid charge combustion pressure accumulator.

 According to the inventions, non-combustible, aerosol forming substances (NAV) are compounds possessing chemical inhibition properties of combustion and flame cooling reactions and used in solid (powder), liquid or gel (thickened) form, with a mass ratio of aerosol forming composition (or compositions) and NAV ( AOS: NAV): for solid (powder) non-combustible aerosol-forming substances 1 - 1-5, for liquid and gel-like (thickened) non-combustible aerosol-forming substances - 1 - 0.1-2.0.

 According to the inventions, it is provided that the intracameral neutralization and / or oxidation of toxic products of incomplete combustion of an aerosol-forming composition or compositions (AOC), which are an integral part of high-temperature combustion products of AOC, by their interaction in the oxidizer and / or additional oxidizer sprayed and / or evaporated into the mixing chamber of the device , and / or with a special component (substance, reagent, compound) that selectively reacts with toxic products, either before low-temperature products of combustion of AOC with a non-combustible aerosol-forming substance, or simultaneously with the interaction of high-temperature products of combustion of AOC with a non-combustible aerosol-forming substance.

 According to the invention, either water, including distilled, individually or previously thickened, or salts and hydroxides of alkali, alkaline earth, transition metals, ammonium, or a mixture thereof in the form of either finely dispersed powders, or solutions, or preliminarily, is used as a non-combustible aerosol-forming substance. thickened (gel-like) solutions. The content of the thickener does not exceed 0.05% by weight of a non-combustible aerosol forming substance. The composition of a non-combustible aerosol-forming substance (NAV) may additionally contain either special components (substances, reagents, compounds) that selectively react and neutralize toxic products of incomplete combustion of the aerosol-forming composition in the mixing chamber and toxic products formed in a protected volume during a fire and / or additional oxidizing agents and / or antifreezes and / or wetting agents and / or surfactants and / or foaming agents and / or corrosion inhibitors and / or smoldering inhibitors and / or electroisol ruyuschie additives and / or mixtures thereof. An oxidizing agent (including an additional oxidizing agent) is used either individually or as a mixture of several oxidizing agents of different chemical composition, or as a mixture thereof with a non-combustible aerosol forming substance. As an oxidizing agent (or an additional oxidizing agent), for example, solutions of sodium and potassium nitrate and perchlorate, barium nitrate are used.

 A device for producing a fire extinguishing mixture (a fire extinguishing aerosol generator — a device for extinguishing a fire) according to the invention includes a housing with an exit nozzle, a combustion chamber with an inserted charge or charges of an aerosol forming composition or compositions, a mixing chamber and a firing unit (ignition, initiation) providing ignition charge or charges of AOS, including directly from a fire, and is characterized in that the combustion chamber is equipped with an additional intermediate nozzle, and in the mixing chamber connected to At least one container is filled with at least one container filled with either a non-combustible aerosol forming substance (NAV) of at least one chemical composition or an oxidizing agent, or a mixture thereof, and equipped with a spray nozzle assembly (or assemblies) for spraying its contents into the mixing chamber, this specified container is made or in the form of at least one cylindrical tube, each end of which, facing the combustion chamber, has at least one hole, providing its outflow held by a pressure drop along the length of the tube, and the opposite end facing the outlet nozzle of the device has at least two evenly spaced openings that act as a spray nozzle assembly, or in the form of a cylindrical container, the lid of which is facing the combustion chamber, is provided with solid fuel a pressure accumulator made in the form of a solid fuel cup with an independent ignition (initiation) assembly.

 Moreover, the openings of each cylindrical tube, spray nozzle assembly or assemblies are provided with membranes that open (collapse) with increasing temperature and pressure in the combustion chamber.

 It is envisaged that the ignition (initiation) mode of the charge of the aerosol forming composition or compositions in the combustion chamber and the solid fuel charge of the pressure accumulator in the mixing chamber are either simultaneous, or sequential, or cyclic.

 According to the invention, a container additionally placed in the displacement chamber, made in the form of at least one cylindrical tube, is filled with either a liquid or gel (thickened) non-combustible aerosol forming substance of at least one chemical composition, or a liquid oxidizing agent, or a mixture thereof.

 According to the inventions, a container is also provided as a set of cylindrical tubes filled with a liquid or gel (thickened) non-combustible aerosol-forming substance of at least one chemical composition or a liquid oxidizing agent, or a mixture thereof.

 A design has been developed for an additional container placed in the mixing chamber, made in the form of a set of, for example, seven cylindrical tubes, each end of which facing the combustion chamber, has at least one hole that expires the contents of the tubes due to pressure drop along their length, and each opposite end facing the outlet nozzle of the device has, for example, ten evenly spaced openings that act as a spray nozzle assembly.

 A device has been developed in which the container additionally placed in the mixing chamber is made in the form of at least one cylindrical container filled with or non-combustible aerosol-forming substance of at least one chemical composition in any state of aggregation (solid - powdery, liquid, gel-like thickened) or liquid oxidizing agent , or a mixture thereof.

 According to the inventions, it is provided that the mixing chamber further comprises two independent containers in the form of cylindrical containers, one of which, located closer to the combustion chamber, is filled with a liquid oxidizing agent, and the second either with a liquid or gel (thickened) non-combustible aerosol-forming substance (NAV), or a mixture and a liquid oxidizing agent, identical in composition to the liquid oxidizing agent placed in the first container, or its mixture with an additional liquid oxidizing agent, or solid (powder) NAV. In this case, the containers, each of which has an independent spray nozzle assembly or assemblies, are connected by an adapter equipped with bypass channels, and the container with a liquid oxidizer is equipped with a solid fuel pressure accumulator made in the form of a solid fuel nozzle with an ignition (initiation) assembly.

 It is envisaged that when using a liquid oxidizing agent, a liquid or gel (thickened) non-combustible aerosol-forming substance (NAV), or their mixture, they are placed in elastic containers placed in additional containers of the mixing chamber, and the elastic containers themselves are equipped with membranes that open (break down) with increasing temperature and pressure in the combustion chamber.

 To enhance the interaction effect of the components of the fire extinguishing mixture in the mixing chamber, a device design is provided in which the front end of the additional container (s) filled (filled) with a non-combustible aerosol-forming substance, or an oxidizing agent, or their mixture and placed (placed) in the mixing chamber, is introduced ( entered) into the combustion chamber of the aerosol forming composition (s).

 In the devices according to the invention, either non-combustible aerosol-forming substances (NAV) are used, either distilled, individually or pre-thickened, or alkali, alkaline earth, transition metal, ammonium salts and hydroxides, or a mixture thereof in the form of finely dispersed powders, or solutions, or pre-thickened (gel-like) solutions. The content of the thickener does not exceed 0.05% of the weight of NAV. Additionally, special components (reagents, substances, compounds, etc.) that selectively react and neutralize toxic products of incomplete combustion of the aerosol forming composition in the mixing chamber and toxic products formed in the protected volume or fire are introduced into the composition of a non-combustible aerosol forming substance (NAV), and / or additional oxidizing agents and / or antifreezes and / or wetting agents and / or surfactants and / or foaming agents and / or corrosion inhibitors and / or smoldering inhibitors and / or insulating other additives and / or mixtures thereof.

 According to the inventions, the oxidizing agent (or additional oxidizing agent) is used either individually or as a mixture of several oxidizing agents of different chemical composition, or as a mixture thereof with a non-combustible aerosol forming substance. It is envisaged that, for example, solutions of sodium and potassium nitrate and perchlorate, barium nitrate are used as an oxidizing agent (or an additional oxidizing agent).

 It is also envisaged to compose (assemble) the charge of an aerosol-forming composition (AOS) from several drafts (in the form of a set) of AOS of at least one chemical composition, and the chemical composition of AOS is selected depending on the type and class of a likely fire.

 The above signs relate to the group of technical solutions connected by a single inventive concept, and are significant, since each of these signs affects the corresponding technical result, which together with other technical results provides a solution to the problem.

Claims (13)

 1. A method of producing a fire extinguishing mixture designed to create a fire extinguishing medium in a protected volume by mixing, cooling, diluting, characterized in that the fire extinguishing mixture, which is a low-temperature flameless non-toxic vapor-gas mixture of fire-extinguishing gases, highly and finely divided solid, liquid and vapor particles, which, after feeding it into the protected volume, simultaneously inhibitory effect on the physicochemical combustion processes in case of fire, cooling effect on the flame fire and the neutralizing effect on toxic products resulting from a fire are obtained by intracameral mixing of high-temperature combustion products of an aerosol forming composition or compositions with their simultaneous cooling, and / or reoxidation, and / or neutralization, and / or extinguishing of the flame, or with a low-temperature aerosol consisting of sprayed and / or particles of a non-combustible aerosol-forming substance evaporated into the mixing chamber of the device of at least one chemical composition, and / or with atomized and / or vaporized in the chamber mixing the device with oxidizing particles and / or particles of components that selectively react and neutralize toxic products of incomplete combustion of the aerosol forming composition or compositions, while spraying and / or vaporizing the non-combustible aerosol forming substance and / or oxidizing agent is carried out either with the required time interval, or simultaneously, or cyclically with targeted exposure to thermal and mechanical energy of a high-temperature jet or products of combustion of the specified aerosol-forming composition or composition s and / or combustion products of the charge of a solid fuel pressure accumulator, and non-combustible aerosol-forming substances are compounds having the properties of chemical inhibition of combustion and flame cooling reactions and obtained in solid, powder, liquid or gel form, with a mass ratio of aerosol-forming substance for solid, powder, non-combustible aerosol forming composition or compositions and non-combustible aerosol forming substances for solid, powdery non-combustible aerosol forming substance - 1 - 1-5, for liquid and gel-like non-combustible aerosol generating substance - 1 - 0.1-2.0.  2. The method according to claim 1, characterized in that the intracameral oxidation and / or neutralization of toxic products of incomplete combustion of the aerosol forming composition or compositions is carried out either before the interaction of the high temperature combustion products of the aerosol forming composition or compositions with a non-combustible aerosol forming substance, or simultaneously with the interaction of the high temperature combustion products of the aerosol forming composition or compositions with a non-combustible aerosol forming substance.  3. The method according to any one of claims 1 and 2, characterized in that as a non-combustible aerosol forming substance, either water, including distilled, individually or previously thickened, or salts and hydroxides of alkali, alkaline earth, transition metals, ammonium, is used, or their mixture in the form of either finely dispersed powders, or solutions, or pre-thickened gel-like solutions, while the content of the thickener does not exceed 0.05% by weight of a non-combustible aerosol-forming substance.  4. The method according to any one of paragraphs. 1-3, characterized in that the composition of the non-combustible aerosol-forming substance is additionally introduced either components that selectively react and neutralize toxic products of incomplete combustion of the aerosol-forming composition or compositions in the mixing chamber and toxic products formed in the protected volume during a fire, and / or surface-active substances, and / or foaming agents, and / or corrosion inhibitors, and / or electrical insulating additives, and / or mixtures thereof.  5. The method according to any one of claims 1, 2, 4, characterized in that the oxidizing agent is used either individually or as a mixture of several oxidizing agents of different chemical composition, or as a mixture thereof with a non-combustible aerosol forming substance.  6. The method according to any one of claims 1, 2, 5, characterized in that solutions of sodium and potassium nitrate and perchlorate, barium nitrate are used as an oxidizing agent.  7. A device for producing a fire extinguishing mixture, comprising a housing with an outlet nozzle, a combustion chamber with a charge or charges of an aerosol forming composition or compositions, a mixing chamber and a launch unit providing ignition of a charge or charges of an aerosol forming composition or compositions, characterized in that the combustion chamber equipped with an additional intermediate nozzle, and in the mixing chamber connected to the combustion chamber, at least one container is additionally placed, each of which is filled or non-combustible solids, at least one chemical composition in solid, powder, liquid or gel form, or an oxidizing agent or a mixture thereof, and is equipped with a spray nozzle or nodes to ensure its contents in the mixing chamber, while the specified container is made or in the form of at least one cylindrical tube, each end of which, facing the combustion chamber, has at least one hole for the expiration of its contents due to pressure drop along the length of the tube, and the opposite torus c, facing the outlet nozzle of the device, has at least two evenly spaced openings that act as a spray nozzle assembly, or in the form of at least one cylindrical container, the lid of which, facing the combustion chamber, is equipped with a solid fuel pressure accumulator made in the form of a solid fuel cups with an independent ignition unit to ensure either simultaneous, or sequential, or cyclic inclusion of ignition units in the combustion chamber and mixing chamber, that each hole of the cylindrical tube, the spray nozzle assembly or assemblies are provided with membranes, reverse and / or decaying with increasing temperature and pressure in the combustion chamber.  8. The device according to claim 7, characterized in that the container additionally placed in the mixing chamber is made in the form of at least one cylindrical tube filled with either a non-combustible aerosol forming substance of at least one chemical composition in a liquid or gel state, or an oxidizing agent, including including as a liquid or as a solution, or a mixture thereof.  9. The device according to any one of paragraphs.7 and 8, characterized in that the container additionally placed in the mixing chamber is made in the form of a set of cylindrical tubes, each of which is filled with either a non-combustible aerosol-forming substance of at least one chemical composition in a liquid or gel state, or oxidizing agent, including in the form of a liquid or in the form of a solution, or a mixture thereof, with each end of the tubes facing the combustion chamber has at least one hole to ensure the expiration of the contents of the tubes due to overflow and pressure along the length thereof, and each opposite end facing the outlet nozzle of the device has openings which serve as the spray nozzle assembly.  10. The device according to claim 7, characterized in that the container additionally placed in the mixing chamber is made in the form of one cylindrical container filled with either a non-combustible aerosol-forming substance of at least one chemical composition in a solid, powder, liquid or gel state, or an oxidizing agent, or their mixture.  11. The device according to claim 7, characterized in that the mixing chamber contains two independent containers in the form of cylindrical containers, the first of which, placed closer to the combustion chamber, is filled with an oxidizing agent, and the second is a non-combustible aerosol-forming substance of at least one chemical composition in solid, powder, liquid, gel state, or its mixture with an oxidizing agent, the chemical composition of which is either identical or different from the oxidizing agent placed in the first container, wherein said containers, each of which x has a separate nozzle assembly or assemblies are connected adapter provided with passageways, and the first container is provided with a solid-pressure accumulator, designed as a solid-glasses with the ignition unit.  12. The device according to claim 7, characterized in that the liquid or gel-like non-combustible aerosol forming substance, the oxidizing agent in the form of a liquid or solution, or a mixture thereof, are placed in elastic containers located in additional containers of the mixing chamber, while the elastic containers are provided with membranes that open and / or collapsing with increasing temperature and pressure in the mixing chamber.  13. The device according to claim 7, characterized in that the front end of at least one container located in the mixing chamber and made either in the form of at least one cylindrical tube, or in the form of a cylindrical container, and filled with or non-combustible aerosol forming substance, or an oxidizing agent, or a mixture thereof, is placed in the combustion chamber of an aerosol forming composition or compositions.

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