RU2749587C1 - Method for operational remote fire extinguishing and a fire extinguishing element for its implementation - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to a method for operational remote fire extinguishing using aviation technology and describes a fire extinguishing element required as a consumable resource for the implementation of this method. A method for remote automated extinguishing fires, including the treatment of a burning industrial facility or a burning forest or steppe area of ​​the territory with a fire extinguishing composition, and the fire extinguishing composition is fed into the ignition zone along its perimeter and into the fire, in the shell of at least one of the fire-fighting cassette extinguishing elements, by using of at least one cluster bomb in the ignition zone by a fire-fighting device-carrier, as well as by using at least one of the fire-fighting ammunition, including fire-fighting cluster ammunition and enlarged fire-fighting cluster munitions equipped with the aforementioned fire-fighting cluster fire-extinguishing elements, which makes it possible to inflict an advanced fire-fighting strike.

EFFECT: technical result consists in creating a method for remote automated fire extinguishing.

3 cl, 4 dwg

Description

The invention relates to a method of operational - before the arrival of fire brigades at the fire site, remote extinguishing of fires using aviation technology - including military delivery vehicles, and describes a fire extinguishing element necessary as a consumable resource for the implementation of this method. This invention can be used to extinguish large-scale forest, steppe, industrial fires - fires at high-rise buildings and other inaccessible and dangerous places, as well as to create barrage belts in front of the edges of fires in the localization of steppe, upper and lower forest, and other fires.

State of the art

It is known that forest fires often occur over large areas, sometimes several tens or more hectares, and spread almost at the speed of the wind, therefore, the main task of extinguishing forest fires is to suppress its spread by cutting off its front, for which barrier strips are usually arranged by creating protective trenches, plowing of land and cutting of clearings. It is also known that extinguishing crown fires (spreading mainly along the upper part of tree crowns) and ground fires (spreading mainly over the surface of the earth) require the use of various technologies and fire extinguishing means. Fires at industrial facilities often occur, both on large areas and at significant heights, and in places that are difficult to access for fire-fighting ground transport, often accompanied by the burning of low-density (floating on the water surface) oil and chemical products. This complicates and often makes it impossible - the supply of fire extinguishing substances to the fire site using traditional, well-known methods and equipment for fire extinguishing.

Known publication "PYROGENIC EFFECT ON PLANT COVER" [1], the article provides an assessment of the impact of fires on the vegetation cover of the forest-steppe and steppe zones, named the causes of their occurrence, the main preventive measures and methods of extinguishing. The article notes the negative consequences of fires, which are as follows:

1. Fires reduce the biodiversity of the regions, rare representatives of flora and fauna are especially sensitive to them.

2. The destruction of forest belts during a fire in the steppe regions leads to a decrease in the productivity of agricultural crops.

3. On burned-out areas, the vegetation cover changes.

4. Fires are destroying the food supply of many farm animals.

5. Destruction of wood as raw material.

6. There is a transformation of the stand into dead wood with the subsequent destruction of forests.

7. Fires are a source of air pollution.

8. The destruction of forests leads to regional climatic changes.

9. As a result of the destruction of forests, the oxygen balance of the atmosphere changes.

10. Carbon dioxide released during fires leads to global climate change.

11. Influence the composition of precipitation.

12. Fires contribute to the formation of cloudiness in the upper atmosphere and haze in the surface layer, which also leads to global climate change.

13. Contribute to the destruction of soil cover and the development of erosion.

14. In the mountains, they contribute to the occurrence of landslides and avalanches.

15. Changes the water regime of the territory.

16. Combustion of forest litter and steppe felt is accompanied by soil compaction, a decrease in its permeability (in the forest zone, soil swelling as a result of a rise in the level of groundwater).

17. The acidity of soils changes, the process of humus mineralization is accelerated.

18. Thermal impact on humus and soil organic matter changes their structure.

19. Many combustion products are toxic.

20. Threatening residential, industrial buildings, etc.

There is a known method of suppressing a fire, including the formation of a protective strip by placing the aircraft with pipes with radial holes and supplying a suppressing substance under pressure to the protective strip through radial holes, through which at least two pipes are attached to an anchor device, which is dropped on the protective strip, the pipes are pulled along the protective strip after fixing the anchor device and place them simultaneously on the protective strip at a fixed distance between them, which corresponds to the formation of a zone with a fire suppressing substance when it is sprayed from the radial holes of the pipes [5].

Known fire monitors and hand-held nozzles that form jets of water or low expansion foam with a delivery range of 20-60 m, which, however, do not allow for a large coverage area, require the use of expensive film-forming fluorinated foaming agents and require their ground delivery to the border of the fire, which does not allow obtaining the required the fire extinguishing effect, leads to a delay in the extinguishing time and the high cost of foaming agents consumed when extinguishing a fire and the impossibility of extinguishing large fires in places that are difficult to access for land transport.

Known methods of extinguishing peat bog fires, forest fires, fires in high-rise buildings with a gas-droplet jet formed by waste products of combustion of gas turbine engines [6] and [7].

It is known "Fire extinguishing device" [8], The device contains a solid metal cylindrical body, inside of which a recess is made in the form of a truncated cone, in which a thin-walled rubber shell filled with an extinguishing liquid is fixed. The free end of the shell is threaded into the central hole in the upper part of the body, where it is fixed from the outside by a holder. Above the holder, on the upper side of the body, a handle is fixed, to which, by means of a fastening element with a built-in lock, a first cable is attached, passed through a ball-shaped metal stopper and attached to a metal platform suspended from the delivery means. On opposite sides of the body, two internal cavities are symmetrically made, in each of which there is a spring, one end of which is attached to the body, and the other end of the spring is connected to a piston on which the needle is fixed. A second cable is attached to the piston, which is passed through the roller and attached to the ring through which the first cable is threaded. The inner diameter of the ring is half the outer diameter of the ball-shaped metal stopper. The fastener with a built-in lock is connected by a cable to a power source located on a delivery vehicle, such as a helicopter. The rubber casing is filled with an extinguishing liquid with a volume of 1 to 3 liters.

It is known, "A device for preventing and extinguishing forest, industrial and emergency transport fires and laying barrier strips with fast-hardening foam" [9], according to the utility model - To improve the efficiency of functioning and simplify the design while increasing its compactness, a device for preventing and extinguishing forest , industrial and emergency transport fires and the laying of barrier strips with fast-hardening foam contains a sealed housing located in a protective frame with means of suspension to a helicopter or to a lifting device with the possibility of placing component A of a fire extinguishing agent in it in the form of an aqueous solution of a mixture of sodium silicate and a synthetic hydrocarbon foam, and component B of a fire extinguishing agent in the form of an aqueous solution of acetic acid, a means of mixing components A and B of a fire extinguishing agent and subsequent foaming of a mixture of components A and B of a fire extinguishing agent to obtain a fire extinguishing agent in the form of a means for feeding components A and B of the extinguishing agent from the body to the means for mixing the components of the extinguishing agent under the influence of pressure inside the body.

The predominant use of helicopter technology in firefighting is associated, first of all, with the possibility of prompt delivery of firefighters, rescuers, technical firefighting equipment to the emergency site, as well as the evacuation of victims. The cost of such work is much higher than the cost of work with road transport, but in the presence of rough terrain, blockages or traffic jams on the roads and the presence of high-rise residential and industrial buildings, a helicopter is often the only possible means of fighting forest fires and eliminating the consequences of accidents and disasters in industrial objects.

After the well-known fire of the Ostankino TV tower for extinguishing fires in high-rise buildings, a specialized helicopter installation of horizontal fire extinguishing "Igla-V" was developed, containing a water cannon, which, as it later turned out, can only be used on coaxial helicopters, since in the case of use on a helicopter with a tail rotor the jet of water is broken by the turbulent air currents generated around the helicopter and turns into a shapeless cloud of sprayed water.

Known "FIRE EXTINGUISHING ELEMENT" [10] - a fire extinguishing element in the form of a sealed capsule filled with a fire extinguishing liquid, and the shape and size of the capsule are selected from the condition of providing a steam explosion of the fire extinguishing liquid within a short time after the start of heating the capsule with a fire flame, while the capsule is made of composite , and the component parts of the capsule are connected by a substance that loses strength at a given temperature of the steam explosion.

There is a known method of extinguishing riding and ground forest fires [11], including the delivery of an explosive charge to the fire zone in an aerial bomb and its release when the bomb fuse interacts, for example, with tree crowns, with the simultaneous release and spraying of the extinguishing agent. An explosive charge in an aerial bomb is delivered using a platform provided for hanging 16 or more aerial bombs and made of metal structures with the ability to connect to delivery vehicles. The explosive charge in the aerial bomb is delivered using an aluminum structure platform connected to the helicopter. Aimed dropping of an aerial bomb into the fire zone is carried out.

To implement this method, a device for extinguishing riding and ground forest fires is used, including a body in the form of an aerial bomb with a fire extinguishing agent. The body is made of non-combustible polyethylene, and the explosive charge and extinguishing agent (powder) are taken in a ratio of 1: 600-1: 700. This device is made with an external fuse initiator for instant actuation upon contact after dropping, for example, with tree crowns.

Known "Fire-fighting aerial bomb" [12] - includes a parachute, container, explosive charge, fire extinguishing powder, container lid, fuse and cord for removing protection. The bomb container is made in the form of a hollow metal cylinder. The fire extinguishing powder is a phosphorammonium salt, packaged in bags, laid evenly over the container around the explosive charge until it is completely filled. An explosive charge is an explosive in the form of a cylindrical checker placed on the central axis of the container, along its entire height, in close contact with the fuse. The cord for removing the protection is attached at one end to the safety pin, and at the other end to the aircraft and is made with a length that allows the fuse to be cocked after leaving the aircraft.

Known "One-time cluster bomb and cluster combat element" [13], the cassette includes a warhead with a fuse installed in it, a body with a stabilizer, a central perforated pipe with flanges located in the body, between which rows of combat elements are placed around the pipe, resting on peripheral flanges perforated pipes and elastic metal shells resting on the central and peripheral pipes, profiled along the adjacent surfaces of the combat elements and peripheral pipes, and a single gas-dynamic system for unpacking the cassette, activating the fuses of the combat elements and scattering the combat elements. The combat element contains a body with a stabilizer, a head and bottom parts, a fuse and a warhead. In the bottom part of the combat element, along its central axis, a pipe is installed, in the cavity of which a fuse is located, adjacent to the warhead, and at the rear end there is a bushing with a gas bypass hole. This one-time cluster bomb allows you to set the shape of the area to be covered.

Known "One-time cluster bomb" [14], one-time cluster bomb includes a body, a piston device, a gas generator, a frame with front and rear flanges. Between these flanges are placed in transverse rows, separated by discs, rotating combat elements. A fuse is mounted in the front flange. The technical result is an increase in the efficiency of a cluster bomb in conditions of low air pressure at low speeds and low altitudes of the carrier.

Known artificial composition Graphene pumice [15]. clusters in the form of bundles of plane-parallel graphenes, pointwise connected to each other by a solid material. A graphene cluster can be thought of as a very small book with graphene sheets spread apart in parallel by 15–200 nm. Graphene pumice is characterized by high specific total surface (up to 5000 m2 / g), mechanical strength and low cost.

It is known that Israeli specialists from Elbit Systems have developed a new means of extinguishing fires from the air [2], which can be used even at night. The main advantage of the new approach is the ability to discharge water from great heights. This is possible due to the fact that water, foam mixture or fire retardant is enclosed in numerous thin-walled bags. The caps are made of biodegradable polymer, each weighing 140 grams, and the machine developed by Elbit Systems is capable of producing up to 10 tons of caps per hour. Due to the fact that the water is enclosed in bags, it can be dropped from a great height with a sufficiently high accuracy. Tests using two AT-802F firefighting aircraft took place late last year.

The most commonly used airplane fire extinguishing medium to date is water, which is commonly poured from flying airplanes on forest fires. It is also known that water and in this way it is impossible to extinguish fires of oil products and fires in urban conditions and at industrial facilities, as well as in places remote from airfields.

Known publication on the Internet - "Black Summer of Aviation of the Ministry of Emergencies. The second accident of a firefighter plane ”[3] ... The air group of the Russian Emergencies Ministry, consisting of two Be-200ES aircraft, arrived and began to extinguish large forest fires in the Portuguese city of Leiria. However, according to Jornal de Noticias, one of the aircraft had a problem with the water intake system. The second plane, piloted by the crew of Valery Kruse, began to extinguish the fires, but already in one of the first flights it collided with a tree. According to L! FE, the plane ripped open the wing and the fuel tank. Also, the so-called floats, with which the wings of the amphibian rest on the water, were damaged. Fortunately, the crew managed to bring the damaged vehicle to the airfield, and no one was killed. The collision of the Be-200ES with a tree is the second incident with the Ministry of Emergency Situations fire planes in a month and a half. July 1, 2016 - while extinguishing fires in the Irkutsk region, an Il-76 with tail number 76840 crashed. The entire crew of the aircraft was killed.

It is also known that a plane crashed in Australia, extinguishing forest fires in the state of New South Wales in the southeast of the country [4]. Three people became victims of the accident. The local fire department reported that a large aircraft tanker operating in the Snowy Monaro area had stopped communicating. The wreckage of a military transport aircraft C-130 Hercules was found near the city of Qom.

Conclusion, the descent of the aircraft below 200 meters above the fire zone is dangerous for the aforementioned aircraft and its crew. The danger of flying over a fire zone, among other known risk factors, lies in a significant decrease in the density of hot air - rising from a burning object - which makes piloting difficult, especially at low altitudes. Moreover, the above methods and means of fire extinguishing require the presence of fire brigades at the fire site to activate them, while the above fire-fighting aerial bombs in the form as they are declared, although they do not require such a presence, but acting on a small section of the fire zone is very strong - at the same time, however, they cannot provide coverage of significant sections of the fire zone, not to mention cutting off the forest fire front. And the supply of a fire extinguishing composition in the form of granules or microcapsules, in practice, seems to be a more difficult task than the supply of a fire extinguishing composition in a liquid state. It is also necessary to mention the often poorly advertised factor of degradation of the extinguishing composition, when the said extinguishing composition is supplied in an open way. So, in a nutshell, water unpackaged in shells, simply poured from a flying aircraft onto an ignition zone - a forest fire or an industrial facility, partially evaporates simply due to its splashing - not even reaching the flames, not to mention the cooling of the surfaces of burning materials. Worse, water is often in the form of a spray with a low heat capacity - under high temperature conditions it partially decomposes in a flame into hydrogen and oxygen - an ideal explosive mixture that only promotes a fire, but does not extinguish it in any way. If the degradation factor of the fire extinguishing composition is obvious even in the case of water, then in the case of using foaming solutions it will be more obvious due to the change in the proportions of the solutions mentioned - so, a dried sodium azide solution will never cause foaming on a hot surface and will not cool it. Obviously, in order to increase the efficiency of fire extinguishing, it is necessary either to supply more fire extinguishing composition per unit of area engulfed in fire, which is impossible at the current level of fire-fighting aviation (for example, it is known that the Be-200 aircraft takes on board 12 tons of water, which is only 12 cubic meters, at the same time, it is doubtful that he will be able to cut off at least 1 kilometer of the front of a powerful forest fire at one filling with water), or try to protect the fire extinguishing composition from premature and senseless degradation.

And the aforementioned kapitoshki from Elbit Systems [2], with all the seeming elegance of the technical solution, are also not without drawbacks - for example, kapitoshki are too small and too light not to be displaced by the wind, especially when falling from a high altitude, safe for piloting. Kapitoshki are also too small to contain any devices - not to mention devices for stabilizing the trajectory of movement, and even more so for homing. Kapitoshki, due to the small portion of the supplied fire extinguishing composition - only 140 grams, inevitably, have a less economical ratio of the mass of the extinguishing composition to the mass of the packaging material than that of a larger fire extinguishing element.

The carpet bombing method is chosen as a prototype of the claimed fire extinguishing method. Bottled water - in disposable plastic bottles, developed by Elbit Systems [2], selected as prototypes - a simple extinguishing element. An amphibious cargo pallet of bottled water is chosen as a prototype of a storage and delivery container - simple fire extinguishing elements (Fig. 2). One-time cluster bomb "[13] and / or [14] are selected as a prototype of an advanced container for storage and delivery of fire extinguishing elements (Fig. 1).

The objective of the invention is to create a remote automated fire extinguishing method that does not require the presence of fire brigades at the fire site, at least at the first stage ... the composition had a fire-fighting effect on a large ignition zone simultaneously and evenly - like carpet bombing. In the lining of long-term commercially produced, cheap casings for filling fire-extinguishing elements with a fire-extinguishing composition. Including those produced by military-industrial complex enterprises - exempted from military orders.

The task is solved by the fact that the method of remote automated extinguishing fires includes the treatment of any burning object or area of the territory with a fire extinguishing composition - in a liquid, solid, gaseous, or adsorbed state - in the form of granules and capsules - microcapsules, or in the form of two or more physically undivided or separated reagents, as well as thermally expandable compositions. At the same time, the fire extinguishing composition is fed into the ignition zone in the shell of one, or many, commercially available fire extinguishing elements - by remote means - by dropping from any carrier apparatus, or using any high-precision delivery system for weapons of destruction, such as air - surface or surface - surface, either any kind of projectile, or manually, on the fire zone - preferably along its perimeter - fire extinguishing elements. Either by dropping one or a plurality of containers for storage and delivery of fire extinguishing elements, which can be opened in any way - at a given height or upon reaching given coordinates. Either dropping and then triggering - equipped with fire extinguishing elements, storage and delivery containers in the form of one, or many, cluster munitions. Either one or a plurality of oversized cell fire cluster munitions for large fire extinguishing elements. In this case, the scattering fire extinguishing elements are destroyed when they enter the fire zone as a result of exposure to high temperatures or when a command from the control system is received. So, an intact fire extinguishing composition has a fire-fighting effect on a large fire zone simultaneously and evenly - like carpet bombing. With this method of delivery of extinguishing elements, the extinguishing composition remains packed and does not overheat, practically, until the moment of physical contact with the surface of burning materials. The production process for the production of fire extinguishing elements is even simpler than the mass production process for a long time, the production of bottled drinking water - since it does not require compliance with sanitary standards. And the creation of fire-fighting cluster munitions will allow the use of fire-extinguishing elements of a larger volume for equipping fire-fighting cluster bombs. In Fig. 3, a blank of a plastic bottle is shown, from the said blanks it is possible to blow shells of fire extinguishing elements of any shape, including a shape convenient for equipping fire-fighting bomb cassettes. The shelf life of fire extinguishing elements is limited by the degradation period of the shell material, or the shelf life of the power supply elements inside the fire extinguishing elements - after this expiration date, controlled fire extinguishing elements are transferred to the category of uncontrollable ones. Simple fire extinguishing elements - even those intended for equipping fire-fighting cluster bombs, are safe, at the level of bottled drinking water - they do not ignite, do not contain explosives, and do not generate fragments when triggered. Controlled extinguishing elements containing pyrotechnics or extinguishing elements containing inert gases under high pressure are less safe, but also do not require any special precautions. Packaged fire extinguishing elements are easy to handle - always ready for loading on board the carrier, and for unloading back to the warehouse - if their use is no longer necessary. Despite the fact that the Il-76 aircraft is capable of delivering cargo - fire extinguishing elements with the greatest mass of 28 - 60 tons, at a distance of 3600 - 4200 kilometers, with a cruising speed of 770 - 800 kilometers per hour, and the Boeing 777 Freighter can take on board more than 120 tons cargo - fire extinguishing elements, 6 Il-76 aircraft - loaded with 40 tons, capable of delivering 240 tons of fire extinguishing elements to the fire site at a time, over a distance of 2000 kilometers in less than 3 hours, and not necessarily from a single airfield, which is many times more efficient, than the consistent delivery of 12 tons of unpackaged water per filling. Moreover, if it turns out that there are not enough fire extinguishing elements, it is easy to request a second expedition. The process of disposal of old fire extinguishing elements is reduced to their dropping from a great height - more than two kilometers, to the ignition zone of the next natural fire as uncontrollable fire extinguishing elements. In the process of carrying out fire-fighting measures, if there is an air-mobile fire laboratory on board the fire-fighting aircraft of the fire major - the exact shape of the treated area of the territory, the types of fire extinguishing compositions, types, and the desired points of fall of fire extinguishing elements - are calculated by constructing a mathematical model of the fire - based on the readings of the thermal imager or spectropolarimeter, or based on the complementary overlap of the above indications. The aforementioned airmobile fire laboratory is a software and hardware complex that includes a thermal imager, a spectropolarimeter, and possibly other sensors that allow remote monitoring of the state of a burning area, and a computer that combines the readings of these sensors, and possibly other data. So, on the basis of the data received, the computer, after constructing a mathematical model of the fire, issues recommendations on the optimal set of fire extinguishing compositions, and after confirmation by the operator, it transmits the coordinates of the points of their desired fall - to the guidance systems of storage containers and delivery of loaded carriers participating in the fire-fighting event. Moreover, if the thermal imager gives a picture of a fire only in the infrared range of the spectrum, then the spectropolarimeter gives a more detailed picture, the spectropolarimeter can distinguish healthy living trees from dead wood or trees affected by a fungus. This is important in calculations because healthy living and moist trees require less fire extinguishing composition to prevent fire than, for example, dead wood. At the same time, no other changes in the design of the carrier aircraft are required. In the process of carrying out firefighting measures, fire extinguishing elements are also scattered on the areas of the territory adjacent to the fire zone - to prevent the spread of fire, like the creation of fire minefields, or fire extinguishing elements are placed in advance in obviously fire hazardous places, for the presence of fire extinguishing elements in such places, in preventive - standby mode. So, fire extinguishing elements - located in fire-hazardous places, for example, in front of a forest fire front or in a fire-hazardous industrial room - will work - then, and if, in the mentioned place of their location, a fire occurs, or a corresponding command is received from the control system. In the process of carrying out fire-fighting measures, before opening the storage and delivery container - in flight, the speed of the storage and delivery container is reduced to the speed - at which the delivered fire-extinguishing element will not lose its functionality when dropped from the opening height - as a result of impact on a hard surface, while, braking system - parachute, aerodynamic, reactive, is selected based on the typical speed of the storage and delivery container, with the chosen delivery method. Thus, the acceleration of the falling of a flying cargo pallet restrains the braking parachute - deployed at the command of the altimeter, which, after fully deployed - under the influence of weight, breaks the tightening safety strap with a loop of steel cable - which leads to immediate unpacking of the storage and delivery container. And the reactive braking system of the planning fire bomb is activated by the built-in autopilot - as a point of the flight mission. In the event of a massive discharge of fire extinguishing elements, storage and delivery containers are opened immediately before the storage and delivery container falls out of the landing hatch, similar to the opening of a parachute system when landing heavy military equipment. So, pallets and other packaging materials, which are of economic value, are not lost in the process of carrying out fire-fighting measures. In the case of extinguishing forest tracts - consisting of large or very large trees, clearings are made in front of the fire front - by dropping high-power combat elements along the marked line of the clearing, after which, a large number of fire extinguishing elements are dropped along the line of the said clearing. So, dropped bombs, for example OFAB-500U, in a chain - with such a step so that their affected areas partially intersect, with their fragments - crushing the wood of the sacrificial trees into chips, form a clearing - insurmountable for the fire front - at least with the same speed, and a large the number of dropped fire extinguishing elements - practically blocks it. In the case of using a single extinguishing element, its carrier is considered the container for storage and delivery of this extinguishing element. Thus, an airplane carrying one five-ton, split or deployable over the fire, gliding bomb - filled, for example, with an aqueous solution of sodium azide, during its mission, in fact, is a storage and delivery container - for the aforementioned super-fire bomb. The fire-extinguishing element is a fire-extinguishing composition in a sealed enclosure that has structural weakening to accelerate the process of destruction as a result of exposure to high temperatures. At the same time, the shell made of environmentally friendly material, or the surface in the case of a fire extinguishing element in the form of a solid monolith, contains - outside, a device for controlling the speed and direction of fall - for example, a braking stabilizer. Both outside and / or inside, a device for forced depressurization of the shell - for example, an electromagnetic valve, or depressurization of the shell after mixing physically separated reagents, and a device for performing said mixing - at the command of the control system, a power source, and other necessary devices. A device for mixing separated reagents is, for example, an electromagnet, which, when receiving power, pushes the core out - and its needle destroys the partition that physically separates the reagents, which leads, for example, to active foaming. Such a fire extinguishing element contains a control device based on, for example, a CNS3420-700BG484-MCP-Y-G microchip, and a radio receiver. In the case of using storage and delivery containers in the form of cluster munitions - the external form of fire extinguishing elements, choose a similar form of cluster combat elements. So that when equipping a cluster bomb, the plant was technically indifferent - what kind of elements the cassette is equipped with. The surface of the extinguishing element is equipped with devices for holding the extinguishing element - on vertical surfaces, for example, adhesive strips or wide-opening elastic hooks - for example, to hold the extinguishing element in the crowns of trees, in the process of extinguishing forest fires. This ensures the presence of a fire extinguishing composition - for example, nitrogen escaping from a fire extinguishing element, precisely in the burning crowns of trees, and not on the ground - where this fire extinguishing composition will be completely useless. The surface of the fire extinguishing element is equipped with a radio tag - to facilitate the collection and disposal of fire extinguishing elements. The fire extinguishing element - equipped with a responsive radio tag, is easy to detect using an aviation radar, or a portable radar of a forest guard. Collection and disposal of at least non-fired fire extinguishing elements reduces the load on the natural ecosystem. A fire extinguishing element is a storage and delivery container for smaller fire extinguishing elements. The fire extinguishing element may contain granules and capsules - microcapsules as a fire extinguishing composition for their point delivery to the ignition zone, for example, to a burning nuclear power unit. The fire extinguishing element contains graphite oxide as a fire extinguishing composition - a semi-finished product of the material Graphene pumice, which has not yet undergone the process of thermal expansion. Once in the fire zone - a hot pipe or a burnt-out cavity of a peat bog, graphite oxide containing metal salts already at 200 degrees Celsius undergoes a process of thermal expansion, increasing in volume - tens of times, after which, refractory metals restored from their salts - at the nano level, fix the structure of the monolith graphene pumice, while the movement of gases in such a cavity is blocked. In the process of carrying out firefighting measures at high-rise or hazardous facilities, storage and delivery containers are delivered to premises inaccessible to firefighters using any high-precision delivery system for weapons of destruction, such as air-surface or surface-surface, for example, guided missiles, through windows or gaps of any origin. And they open in said inaccessible rooms, storage and delivery containers - carrying fire extinguishing elements containing a foaming solution or an inert gas for cooling and extinguishing said rooms. At the same time, such a guided missile or a guided gliding bomb, which does not contain a warhead, cannot cause significant damage to a burning building. Before entering a burning room, a firefighter throws in fire extinguishing elements with the help of any kind of throwing weapons, or manually, to cool and extinguish the said room and to facilitate the conditions of his work. So, for cooling and extinguishing a burning emergency power unit of a nuclear power plant, powder fire extinguishing elements are used containing - granular lead, boron and silicon compounds, and possibly graphite oxide - which generates graphene pumice granules - which are traps for free electrons. At the same time, there is no need for a critically dangerous approach of personnel to the zone of increased radiation.

* Types of fire extinguishing compositions, types and designs of fire extinguishing elements, types and designs of storage and delivery containers, as well as carriers of storage and delivery containers are not limited to the options given above.

** The claimed method is not opposed to the previously known methods and means of fire extinguishing - the claimed method only supplements them.

The essence of the invention is illustrated by illustrations.

FIG. 1 - depicts a cluster warhead.

FIG. 2 - depicts an amphibious cargo pallet.

FIG. 3 - a blank of a plastic bottle is shown.

FIG. 4 - shows a plastic bottle.

The method is carried out, for example, as follows.

Immediately, after receiving a signal about a fire of a hazardous industrial facility - from personnel or from a fire alarm system, or receiving a signal about a fire of a natural object - from security personnel - for example, a forestry worker or from monitoring systems for the state of the natural environment, or from a warning system about missile attack, or from another source of trust, promptly equip - an aviation firefighting expedition. The composition of the material support of such expeditions - the mass and types of fire-extinguishing compositions, the number and types of carrier vehicles, are determined based on the type of burning object - a hazardous industrial facility, for example, a nuclear power plant, or a natural object, for example, a forest, the distance from the nearest airfields of fire fighting aviation to the burning facility and the degree of equipment of the mentioned airfields - taking into account the vehicles of carriers in the air in standby mode, for example, the Tu-95 missile carrier making a long training flight in a fire-hazardous season - is equipped with fire-fighting ammunition. And also, based on the area of fire, and the specifics of the combustion of various materials - for example, with water or a foaming solution - it is impossible to extinguish an NPP power unit, and a powder composition based on boron oxide or graphite oxide cannot extinguish a forest fire. If the area of fire is small and there are no people near the fire zone, and the time of arrival of the main expedition exceeds reasonable limits, an advance strike is made in the fire zone with medium-range missiles, or with silo- or sea-based intercontinental ballistic missiles, or submarine intercontinental ballistic missiles - equipped with fire-fighting ammunition. In the event of a preemptive strike on a burning forest - a strike with fire-fighting ammunition before building a mathematical model of a fire, all storage and delivery containers are programmed to open, above the boundaries of the fire zone with a certain step, for primary weakening and cutting off the fire front - so that the purpose of the systems homing served preferably areas with a large internal delta of infrared radiation - especially when the over-the-horizon use of the above-mentioned fire-fighting ammunition. And in the case of a preemptive strike on a burning industrial facility - the purpose of the homing systems of storage and delivery containers is, on the contrary, the areas with the highest infrared radiation - so that storage and delivery containers are opened by flying into windows or gaps of another origin - in the walls of the mentioned burning structures for primary cooling and extinguishing of burning rooms and structures. The described preemptive strike allows you to start real cooling and extinguishing a burning object - even before the arrival of an aviation firefighting expedition. Upon the arrival of the aforementioned firefighting expedition, the faster-flying carrier vehicles - inflicting their already more targeted fire strike, transmit updated data on the parameters of the fire from their tactical sights, other vehicles to carriers and the airmobile firefighting laboratory - as preliminary data. Upon arrival, the airmobile fire-fighting laboratory conducts the construction of a mathematical model of the fire - based on all the preliminary data and data received from the sensors - installed on board the aircraft of the fire major, when flying around the fire. After building a mathematical model of the fire, heavy transport aircraft, which have received numbers, points and drop heights, storage and delivery containers, and the parameters of their deployment, begin to extinguish. So, to cut off the forest fire front, containers are used for storage and delivery of mixed filling - containing, for example, 35% of the net mass of nitrogen - in the form of fire extinguishing elements, which are small-sized with a volume of 5 - 15 liters - ultra-high pressure gas cylinders - triggered by melting fusible plugs from metal solder at 100 - 200 degrees, and 65% of the pure mass of an aqueous solution of sodium azide - in the form of fire extinguishing elements, which are thin-walled with a volume of 5 - 10 liters - plastic bottles - triggered by hitting the ground or branches of burning trees, or from a steam explosion solution in a fire flame. After opening the storage and delivery container, when falling from a height of more than 1000 meters, fire extinguishing elements have a significant horizontal speed, even in the case of a decrease in the vertical speed of the storage and delivery container. Therefore, when unfolding - even with minimal delay, each storage and delivery container creates a fire exposure zone in the form of a line - coinciding with the front line of the fire. At the same time, foam fire-extinguishing elements - breaking against tree branches, or collapsing as a result of overheating, pour fire-fighting foam on the trees, and gas fire-extinguishing elements, being triggered as a result of overheating, release nitrogen - which practically stops burning in this section of the fire front. Extinguishing an industrial facility is reduced to the fact that storage and delivery containers are opened, flying into windows or gaps of another origin - in the walls of the above-mentioned burning industrial facility for cooling and extinguishing - burning rooms and structures. And after dropping all storage and delivery containers, or after the active fire has stopped, by the decision of the fire major - in safe points, fire brigades are parachuted - equipped with special equipment and fire robots to complete fire-fighting measures.

The technical result consists in the fact that - a method of remote automated fire extinguishing has been created that does not require the presence of fire brigades at the fire site, at least at the first stage, including with the involvement of forces and means of peacetime army units and military delivery vehicles. An easy-to-implement method has been created for delivering a fire-extinguishing composition directly to a burning surface in the fire zone, so that - an intact fire-extinguishing composition has a fire-fighting effect on a large fire zone simultaneously and evenly - like carpet bombing, or, on the contrary, quite selectively - thanks to the use of mass-produced mass-produced , cheap - fire extinguishing elements. For a long time, commercially available, cheap casings were selected for filling fire-extinguishing elements with a fire-extinguishing composition. Including those produced by military-industrial complex enterprises - exempted from military orders.

Claims (3)

1. A method of remote automated extinguishing fires, including the treatment of a burning industrial facility or a burning forest or steppe area of the territory with a fire extinguishing composition, and the fire extinguishing composition is fed into the ignition zone along its perimeter and into the fire, in the shell of at least one of the fire-fighting cassette fire extinguishing elements, by the use of at least one cluster bomb in the ignition zone by a fire-fighting device-carrier, as well as by using in the fire zone using a long-range delivery system of means of destruction, such as air-to-surface or surface-to-surface, at least one of the fire-fighting ammunition, including fire-fighting cluster munitions and enlarged fire-fighting cluster munitions equipped with the aforementioned fire-fighting cluster fire-extinguishing elements, which makes it possible to inflict an advanced fire-fighting strike. 2. The method according to claim 1, characterized in that the exact shape of the treated area of the territory, types of fire extinguishing compositions, types and desired points of fall of fire extinguishing elements are calculated by constructing a mathematical model of a fire based on the readings of a thermal imager or spectropolarimeter, including based on the complementary overlap of the aforementioned indications. 3. A fire extinguishing element, including a fire extinguishing composition in a sealed enclosure having structural weakening to accelerate the destruction process as a result of exposure to high temperature, and the enclosure contains on the outside a device for controlling the speed and direction of fall, and outside and / or inside - a device for forced depressurization of the enclosure and as a fire extinguishing composition, a foaming solution and / or an inert gas or powder compositions and / or powder compositions in the form of graphite oxide, a semi-finished product of graphene pumice that has not yet undergone a thermal expansion process, is used.

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