RU2639074C1 - Method of extinguishing local surface and underground peat fires and device for its implementation (versions) - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: in the method of extinguishing local surface and underground peat fires after the exploration the boundaries of active local combustion source of surface or underground peat fire is defined, a capacity in the form of water-filled dam is created along its border on the surface of peat layer, volume is fill, formed a limited perimeter of the dam and the surface peat layer, with water by bambi bucket carried by a helicopter or water pump through the hose line, and between the dam base and the peat layer surface nonflammable barrier is created. Extinguishing of possible combustion sources of peat fire is produced by gradual draining of water from the shell of the water-filled dam to the said volume, and when water is supplied, wetting agents are added to it. The essence of the claimed device (version according to claim 3) is that in the device for extinguishing local surface and underground peat fires, the walls of capacity are made in the form of a water-filled dam formed of a closed flexible shell, and the non-flammable barrier is made in the form of a lining mounted on said shell in the place of its contact with the surface of a peat layer, made of non-flammable fabric, for example, based on a completely amorphous silica fiber and fixed, for example, with an adhesive around the perimeter of flexible shell of water-filled dam. The essence of the claimed device (version according to claim 4) is that in the device for extinguishing local surface and underground peat fires, the walls of capacity are made in the form of a water-filled dam formed of a closed flexible shell, and the non-flammable barrier is made in the form of a lining made of non-flammable fabric, for example, on the basis of a completely amorphous silica fiber, spread out along the perimeter of the flexible shell of the water-filled dam in place of its contact with the surface of the peat layer.

EFFECT: increasing the effectiveness of fighting peat fires and reducing material costs in extinguishing large peat fires.

6 cl, 7 dwg

Description

The invention relates to fire extinguishing methods for local ground and underground peat fires in conditions of limited use of heavy equipment, equipment and the risk of people staying.

It is known (e-ng.ru> zhiznedeyatelnosti ... torfyanye_pozhary.html) that peat fires most often occur in places of peat extraction, usually occur due to improper handling of fire, from lightning discharges or spontaneous combustion. Peat is prone to spontaneous combustion, it can occur at temperatures above 50 degrees (in the summer heat, the soil surface in the middle lane can heat up to 52-54 degrees). In addition, quite often soil peat fires are a development of a lower forest fire. In these cases, the fire penetrates into the peat layer near tree trunks. Burning is slow, flameless. The roots of the trees burn, which fall, forming blockages. Peat burns slowly to its entire depth. Peat can burn in all directions, regardless of the direction and strength of the wind, and under the soil horizon it burns during moderate rain and snowfall.

It is known that the choice of methods and technical means for extinguishing a fire depends on the type, intensity and speed of spreading the fire, the environment, the availability of fire extinguishing forces and means, the planned tactics and the timing of extinguishing, as well as the meteorological situation (Yu.L. Vorobyov, V. A. Akimov, Yu.I. Sokolov, edited by Yu.L. Vorobyov, ed. Forest fires in Russia: Status and problems. EMERCOM of Russia. - M.: DEKS-PRESS, 2004, p. 183).

A device for extinguishing fires on peatlands in remote places using helicopters (patent of the Russian Federation for utility model No. 106122, publ. 10.07.2011). The device for extinguishing fires on peatlands contains a cylinder, a nozzle nozzle with a knife for breaking through the membrane, installed in the neck of the cylinder, while the nozzle nozzle is made in the form of a disk, inside which there are output nozzles, stabilizers in the form of rectangular plates connected through axes to the springs with the cylinder , a stabilizer fixing system consisting of pushers connected at one end to a nozzle nozzle and pivotally to a two-arm lever at the other end, at which one end is pivotally connected to the cylinder and the other end is held t Stabilizer from turning. The specified technical solution allows you to use the device when dropping it from a helicopter and make more efficient use of carbon dioxide.

However, the use of carbon dioxide in this device as a fire extinguishing agent significantly increases the cost of extinguishing fires on peat bogs.

A known installation for extinguishing peat fires (patent of the Russian Federation for utility model No. 84231, published July 10, 2009), consisting of a forest fire truck on which a water pump is installed, a water tank with a foaming agent, a hydraulic manipulator on a full-turn column, at the end of which there is a fireman trunk, characterized in that at the end of the manipulator is a trunk for extinguishing peat fires.

The application of this method is limited to the delivery of heavy equipment, pumping equipment, etc. cross country to the site of ignition of peat bogs.

A known method of preventing and combating fires of peat bogs (application of the Russian Federation No. 2002123551/12 of 03.09.2002, publ. 04/20/2004, bull. No. 11 (I part), adopted for the prototype of the proposed method.

The essence of the indicated technical solution lies in the fact that in the method of preventing peat bog fires, including the use of water, a system of injection wells is drilled and the required volumes of water are injected to flood the space of the lower layers of peat deposits and replace from the pores of the air, moisten the upper layers of the skeleton of peat deposits due to capillary impregnation and then periodically or constantly replenish water leaks due to filtration processes.

The application of this method is also limited to the delivery of heavy drilling equipment, pumping equipment, etc. cross country to the site of ignition of peat bogs.

In addition, the direct placement of this equipment in the drilling zone is sometimes impossible in places where underground voids are formed when peat burns out, and inclined drilling of injection wells is very problematic in conditions of small free space for drilling. Moreover, drilling itself is risky to carry out without proper exploration, which increases the cost of work using the above method.

Known soft fire tank RDV-1500 P (https://www.pozhsnabnn.ru/catalog/dlya-tusheniya-lesnykh-pozharov/emkost-myagkaya-pozharnaya/otkrytye-emkosti/rdv-1500-detail.html), adopted prototype of the claimed device (options).

The tank is designed to transport water to the fires, to the place of fire and to refuel the fire-water knapsacks (knapsack forest fire extinguishers) with water

The tank is a removable tank made in the form of a rubber tank for water (soft fire tank) and made of reinforced PVC materials. The material of the soft fire tank has a thickness of 1-1.5 mm, which allows them to have low weight in the assembled state. The capacity can be made in various color options: gray, green, black, red, orange. It has handles for transfer, a throat lock in the closed position, and a hose holder in the raised state during operation without plugs. The capacity is operational in areas with a temperate climate at an ambient temperature of -40 ° C to + 50 ° C and a relative humidity of 98% at a temperature of + 25 ° C, it is resistant to salt water, oils, fuel, and various chemically aggressive liquids.

However, this capacity is not suitable for the implementation of the proposed method: including, for flooding all layers of the peat formation sediments with water and further moistening the peat formation deposits by capillary impregnation and the filtering processes taking place, it does not have thermal protection against local burnout in place during an abnormal fire development its contact with the surface of the peat formation.

The objective of the proposed technical solution is to increase the effectiveness of the fight against peat fires and reduce material costs when extinguishing local ground and underground peat fires.

The essence of the proposed method of extinguishing is that in the method of extinguishing local ground and underground peat fires, which includes flooding all layers of peat formation sediments with water by using the required volumes of water to moisten the deposits of peat formation by capillary impregnation and the filtering processes that occur and extinguishing the source burning of a peat fire, after reconnaissance, determine the boundaries of the active local burning center of a ground or underground peat fire, create along its border, on the surface of the peat formation, a tank in the form of a water filling dam is filled with the volume formed by the limited perimeter of the dam and the surface of the peat formation, with water using a spillway device carried by a helicopter or a water pump through a hose line, and between the base of the water filling dam and the surface of the peat formation create a non-combustible barrier, while extinguishing possible foci of burning a peat fire is carried out by gradually draining water from the shell of a water filling dam to the em, and when water was added thereto wetting.

The essence of the claimed device (option according to paragraph 3 of the claims) is that in a device for extinguishing local ground and underground peat fires, consisting of a tank having walls limited along its perimeter and means for filling the tank with water, the walls of the tank are made in the form a water filling dam formed from a closed flexible shell, and the non-combustible barrier is made in the form of a lining mounted on the said shell at the point of its contact with the surface of the peat layer made of black s tissue, e.g., based on totally amorphous silica fiber and fixed, for example by means of glue along the perimeter of the flexible jacket water filled dam.

The essence of the claimed device (option according to paragraph 4 of the claims) lies in the fact that in the device for extinguishing local ground and underground peat fires, consisting of a tank having walls limited along its perimeter and means for filling the tank with water, the walls of the tank are made in the form of water filling a dam formed from a closed flexible shell, and a non-combustible barrier is made in the form of a lining made of non-combustible fabric, for example, based on a completely amorphous silica fiber, laid out according to calorimeter flexible jacket water filled dam in its point of contact with the surface layer of peat.

Moreover, in the inventive device (options according to paragraphs 3 and 4 of the claims), the water filling dam is multi-sectional, and the device itself has nozzles for quick connection to the hose line mounted on the tank wall.

The technical effect realized by the claimed method of extinguishing local ground and underground peat fires is determined by the following.

Conducting reconnaissance to determine the boundaries of the active local burning center of a ground or underground peat fire allows you to determine the length of the water filling dam.

The creation of a tank in the form of a water filling dam along the boundary of a peat bed burning on the surface or in the depth of the peat bed allows simplifying the local extinguishing of the burning sites of a ground or underground peat fire, eliminating the drilling, blasting and other works noted earlier in the description of the application from the prior art.

Filling the volume formed by the limited perimeter of the dam and the surface of the peat formation with water using a spillway device carried by a helicopter, or a water pump using a hose line, allows you to:

- promptly solve the delivery of water to extinguish the burning sites of local ground and underground peat fires;

- to carry out local flooding of all layers of peat formation sediments with water by using the required volumes of water in the indicated volume to moisten the deposits of peat formation by capillary impregnation, and filtering processes occurring;

The creation of a non-combustible barrier between the base of the water filling dam and the surface of the peat formation allows preventing an abnormal development of the fire to prevent local burnout of the shell of the water filling dam at its contact with the surface of the peat formation.

The extinguishing of possible foci of burning a peat fire by gradually draining water from the shell of a water filling dam into the volume formed by the limited perimeter of the dam and the surface of the peat formation allows increasing the reliability of extinguishing local ground or underground foci of burning a peat fire.

At the same time, the use of existing water reserves located in the shell of a water-filling dam allows one to practically exclude the latter’s delivery by means of a helicopter draining device or a water pump using a hose line, since such volumes of water are not required to extinguish possible foci of burning a peat fire. that are necessary at the beginning of the quenching.

The technical effect realized by the claimed device for local extinguishing of peat fires (according to a variant of the device according to paragraph 3 of the claims) is caused by the following.

The execution of the walls of the tank in the form of a water filling dam formed from a closed flexible shell allows you to:

- apply a new design of the device, in which the walls of the tank in the form of a water filling dam form a water-impermeable barrier from a closed flexible shell, and the temporary bottom forms the surface of the deposits of the peat formation, through which capillary impregnation of water with all layers of the deposits of the peat formation is carried out, which further contributes to filtration processes

- reduce the weight of the structure, since the assembled water filling dam has a small weight.

The creation of a non-combustible barrier in the form of a lining mounted on the said shell at the point of contact with the surface of a peat formation made of a non-combustible fabric, for example, based on a completely amorphous silica fiber and fixed, for example, using glue around the perimeter of a flexible shell of a water filling dam allows abnormal development of a fire in the area of a possible local burnout of the shell; thermal protection of non-combustible material with minimal material costs.

Fixing the lining, for example, using glue around the perimeter on a flexible shell allows you to save its location on the latter during installation of the inventive device.

The technical effect realized by the claimed device for local extinguishing of peat fires (according to a variant of the device according to paragraph 4 of the claims) is caused by the following.

The execution of the walls of the tank in the form of a water filling dam formed from a closed flexible shell allows you to:

- apply a new design of the device in which the walls of the tank in the form of a water filling dam form a water-impermeable barrier from a closed flexible shell, and the temporary bottom forms the surface of the deposits of the peat formation, through which capillary impregnation of water to all layers of the deposits of the peat formation is subsequently carried out, which contributes to further filtration processes;

- reduce the weight of the structure, since the assembled water filling dam has a small weight.

The creation of a non-combustible barrier in the form of a lining made of non-combustible fabric, for example, based on a completely amorphous silica fiber, laid out around the perimeter of a flexible shell of a water filling dam in the place of its contact with the surface of a peat formation, allows thermal abnormalities to develop in the area of a possible local burnout of the shell protection from non-combustible material with minimal material costs.

Thus, the distinguishing features of the proposed technical solution are new and meet the criterion of "novelty."

When determining the conformity of the distinguishing features of the invention with the criterion of "inventive step", the prior art and, in particular, known methods and devices relating to technical solutions related to preventing the spread of fire on peat bogs were analyzed.

A known method of preventing the spread of fire on peatlands (patent of the Russian Federation for invention No. 2247585, IPC А62С 3/02 (2006.01), publ. 10.03.2006), which includes the device of breaking bands, water supply to them, the formation of a moistened zone. The crotodrens are laid along the length of the breaking bands, into which water is supplied and humidified to the entire depth of the peat. For preventive preservation of the supplied water, the surface of the breaking bands above the crotodrens is loosened to a depth of 0.15-0.20 m and a width of 1.0-1.5 m, and in the immediate vicinity of the fire, the surface of the breaking bands above the crotodrens is rolled. Before water is supplied to the crotodrens, substances that prevent combustion are added to the water.

However, the inventive method implements a simpler and more effective method of flooding all layers of the peat formation sediments with water and further moistening the deposits of the peat formation by capillary impregnation and filtering processes occurring.

Known water-filling hose dams (PROMWE - Water filling dams. Html), which are soft tanks in the form of a closed sleeve, the outer shell of which is made of synthetic fabric. In the interior of the equipment are sealed chambers made of polymer films with many layers. The structure of the dams also includes couplings equipped with plugs for connecting the pump, drain-loading or motor-pump bends, and drainage bends used to drain water.

The equipment shell contains slings that can hold soft tanks on cables and on sloping surfaces.

However, water-filled hose dams are not suitable for extinguishing local surface and underground peat fires, since their erection on the surface of a peat formation, as noted earlier, requires additional protection during an abnormal development of the fire from local burnout of the shell at its contact with the surface of the peat formation.

Known water-filled stackable flood dam (patent of the Russian Federation for the invention No. 2274701, IPC EV 3/10 (2006.01), publ. 04/20/2006), a protective hydraulic structure (patent of the Russian Federation for the invention No. 2291931, IPC EV 3/04 (2006.01 ), ЕВВ 7/02 (2006.01), published on January 20, 2007) and other technical solutions designed to erect temporary barriers to prevent natural disasters: floods, erosion of the coastal zone, etc.

However, these technical solutions are also not suitable for extinguishing local surface and underground peat fires, since their erection on the surface of a peat formation, as noted earlier, requires additional protection in case of an abnormal development of the fire from local burnout of the shell at its contact with the surface of the peat formation.

Analysis of other technical solutions showed that the known technical solutions do not solve the previously mentioned problems, solved by the claimed method and device for its implementation (options).

Based on the foregoing, we can conclude that the claimed technical solution meets the criterion of "inventive step", and the invention itself is new.

The implementation of the technical solution inherent in the method of extinguishing local ground and underground peat fires can be implemented as follows.

When implementing the proposed technical solution, the following information must be considered.

It is known (Yevgeny Trunov “The more fire fighting technologies the better” __ LesPromInform. Archive ..html) that peat is an organic compound that does not completely rot wood, in which a certain substrate is formed as a result of lack of air access to it. When the fire penetrates to great depths, those who extinguish the fire must be very careful, because due to burnout of the layers, you can fall into the hole that has formed. Peat fires themselves do not cause much damage to the forest, there is no open fire, but the decay of peat is accompanied by copious smoke, which covers large areas, and a very unpleasant smell. Smoke from smoldering peat bogs is especially harmful for people with respiratory diseases.

It was previously found (http: //www.refbzd.ru.html) that peat fires are characteristic of the second half of summer, when as a result of prolonged drought, the top layer of peat dries to a relative humidity of 25-100%. With this moisture content, it can ignite and support combustion in the lower, less dry layers. The depth of burnt peat deposits is determined by the level of groundwater.

Combustion usually occurs in a “smoldering” mode, that is, in a flameless phase, both due to oxygen entering together with the air and due to its release during thermal decomposition of the combustible material.

The combustion process in the lower part is much more intense than at the top. This is because fresh, cold air, as heavier, enters the lower part of the combustion zone, where it reacts with burning peat. Carbon dioxide and carbon monoxide, as well as pyrolysis products (thermal decomposition of organic compounds without air), peat in a heated state wash the upper part of the combustion zone, preventing oxygen from accessing it. The spread of combustion to the upper soil layers is also hindered by increased humidity in the soddy root layer of the soil, which well retains moisture from precipitation and capillary rise of groundwater.

It is much harder to extinguish a peat fire than others, for example, it cannot be extinguished with water. For this purpose, it is necessary to use retardants - wetting agents, chemical or biological compounds, which are designed to reduce the surface tension of water. A drop of water rolls on peat, as if on a smooth floor. If retardants are used in the processing of peat bogs, then the hygroscopicity of peat increases sharply.

As a result of experimental studies of extinguishing forest fires using an IL-76 MD aircraft, it was found that the depth of soil wetting after water discharge is 5-7 cm (EA Moskvilin. The use of aviation to extinguish forest fires. Fire safety 1- 2009).

From this we can conclude that the most effective method of extinguishing the local burning area of an underground peat fire is to moisten the deposits of the peat formation by capillary impregnation and the filtering processes that take place.

It was previously established (Fires in natural territories. Greenpeace Russia.html) that when extinguishing deep peat fires that have developed over large areas, it is often not practical to extinguish the entire area (it does not lead to the inability to concentrate the right amount of equipment, people, due to lack of water). The only possible tactic is either flooding (flooding) of the burning area, or creating deep ditches (to the underlying soil) around the burning hearths filled with water, and combating new hearths that result from the transfer of sparks or burning peat to the protected area.

Adding wetting agents reduces water consumption for quenching a cubic meter of peat by 30-40 percent.

The invention is further illustrated by examples of its implementation.

In FIG. 1 shows a diagram of the implementation of the proposed method at the stage of creating along the border of a land peat fire a tank in the form of a water filling dam on the surface of a peat formation with a non-combustible barrier, made in the form of an overlay at the place of its contact with the surface of a peat formation (a variant of a device for extinguishing local ground and underground peat fires according to claim 3 of the claims, in section), in FIG. 2 is a diagram of the implementation of the proposed method at the stage of creating along the border of an underground peat fire a tank in the form of a water filling dam on the surface of a peat formation with a non-combustible barrier made in the form of a lining at the place of its contact with the surface of a peat formation (a variant of a device for extinguishing local ground and underground peat fires according to claim 4 of the claims, in section), in FIG. 3 - a multi-section water filling dam, in plan (view A), in FIG. 4 is an example of filling the volume formed by the limited perimeter of the dam and the surface of the peat formation with water using a spillway device carried by a helicopter or a water pump through a hose line to extinguish a ground or underground peat fire; in FIG. 5 is an example of extinguishing possible foci of burning a peat fire by gradually draining water from the neck of a water filling dam using an overflow pipe; FIG. 6 is an enlarged view of a non-combustible barrier (type I) made in the form of an overlay at the place of its contact with the surface of a peat formation (an embodiment of a device for extinguishing local surface and underground peat fires according to claim 3), FIG. 7 is an enlarged view of a non-combustible barrier (type II), made in the form of a lining in the place of its contact with the surface of the peat formation (a variant of the device for extinguishing local surface and underground peat fires according to claim 4)

The device (Fig. 1 and 2) for extinguishing local ground and underground peat fires (according to paragraphs 3 and 4 of the claims) consists of a tank, the walls of which are made in the form of a water filling dam 1, formed from a closed (Fig. 3) flexible multisection shell.

As an example in FIG. 3 shows a water filling dam 1, the shell of which is made in the form of a circle divided into six sections 2, 3, 4, 5, 6, and 7.

Depending on the results of the reconnaissance, the boundaries 8 (Fig. 1 and 3) and 9 (Fig. 2 and 3) of the active local burning center of a ground or underground peat fire are determined. Then mounted at a safe distance along its borders 8 or 9 on the surface of the peat formation 10 capacity in the form of a water filling dam 1 (Fig. 1 and 2).

The configuration of the water-filling dam 1 can be made in the form of any other closed figure, for example, a rectangle, square, etc., covering, from the outside, previously noted, the boundaries of the active local burning center of a ground or underground peat fire.

Each section 2, 3, 4, 5, 6 and 7 of the water filling dam 1 is filled with water 11 (Fig. 1 and 2) through the corresponding nozzles 12, 13, 14, 15, 16 and 17 (Fig. 1, 2 and 3) with using a water pump (conventionally not shown) by means of a hose line 18 (Fig. 1 and 2).

The device operates as follows.

When creating a water filling dam 1, the surface of the peat formation 10 forms a temporary bottom of the tank 1 (Fig. 1 and Fig. 2). Then fill the volume 19, formed by the limited perimeter of the dam and the surface of the peat formation, with water 20 using the means of filling the tank with water, made in the form of a spillway device 21, transported by a helicopter 22 on a cable 23 and slings 24, or - water 25 supplied with a water pump (conventionally not shown) by means of a hose line 26 (Fig. 4). The level 27 of the poured water 20 or 25 is shown at the time the filling of the indicated volume 19 begins.

The joints 28, 29, 30, 31, 32 and 33 (Fig. 3) of the said sections are previously isolated from the leaks with sealant.

As a result of this interaction, all layers of peat formation sediments are flooded with water of 20 or 25 by using the required volumes of 19 water to moisten the peat formation sediments by their capillary impregnation and filtering processes, and extinguishing the active local foci 34 (Fig. 1) or 35 ( Fig. 2) burning ground or underground peat fire.

After the flooding of all layers of the peat formation sediments with water of 20 or 25 after the lapse of time necessary to extinguish the marked local foci of burning a ground or underground peat fire, re-exploration of the possible foci of burning a peat fire is carried out. In the event that, as a rule, insignificant repeated foci 36 and 37 (Fig. 5) of a peat fire are detected, they are extinguished by gradually draining water 11 using an overflow pipe 38 from the water filling dam 1. In FIG. 5 shows the moment of discharge of water 11 from section 3 (Fig. 3). To do this, fill the volume 19 formed by the limited perimeter of the dam and the surface 10 of the peat formation, water 39 coming from the overflow pipe 38. The level 40 of the water 39 is shown at the time of filling of the specified volume 19.

As a result of the noted interaction, additional humidification of the peat layer deposits is carried out by their capillary impregnation until they are completely quenched.

In all cases, when filling the volume 19 with water 20 or 25, as well as 11, wetting agents are added to it.

These actions can improve the reliability of extinguishing local ground or underground foci of burning a peat fire.

If the fire develops abnormally in the inventive device, it is envisaged to create a non-combustible barrier in the inventive device in order to exclude local burnout of the shell of the water filling dam 1 in the place of its contact with the surface 10 of the peat formation.

In the device for local extinguishing of peat fires (according to a variant of the device according to paragraph 3 of the claims), the non-combustible barrier is made in the form of a cover 41 (Fig. 6) mounted on the shell of the water filling dam 1 in the place of its contact 42 with the surface 10 of the peat formation. The patch 41 is made of a non-combustible fabric, for example, based on a completely amorphous silica fiber and is fixed, for example, with glue around the perimeter of a flexible shell.

In the device for local extinguishing of peat fires (according to a variant of the device according to paragraph 4 of the claims), a non-combustible barrier is made in the form of a lining 43 (Fig. 7). The lining 43 is made of non-combustible fabric, for example, based on a completely amorphous silica fiber and laid out around the perimeter of the flexible shell of the water filling dam 1 at its contact point 44 with the surface 10 of the peat formation.

An example of the execution of amorphous silica fiber is given in the work (http://www.ekowool.ru)

The analysis of modern theoretical ideas about the mechanisms of extinguishing the burning zones of peat fires and well-known information from the prior art showed a great prospect for the application of the inventive method of extinguishing local ground and underground peat fires and devices for its implementation (options).

The claimed technical solution is easy to use and can be used to extinguish local ground or underground peat fires with any depth of peat in the absence of fire in the danger zone of open or closed burning of peat.

Claims (6)

1. A method of extinguishing local ground and underground peat fires, including flooding all layers of the peat formation sediments with water by using the required volumes of water to moisten the deposits of the peat formation by capillary impregnation and the filtering processes that take place, and extinguishing the combustion zone of the peat fire, characterized in that that after the reconnaissance, the boundaries of the active local burning center of a land or underground peat fire are determined, they are created along its border on the surface of the peat of the reservoir, a tank in the form of a water filling dam, fill the volume formed by the limited perimeter of the dam and the surface of the peat formation, with water using a spillway device transported by a helicopter, or a water pump through a hose line, and create a non-combustible barrier between the base of the water filling dam and the surface of the peat formation this, the extinguishing of the possible foci of burning a peat fire is carried out by gradually draining the water from the shell of the water filling dam into the named volume. 2. The method according to p. 1, characterized in that when the water is supplied to it, wetting agents are added. 3. Device for extinguishing local ground and underground peat fires, consisting of a tank having walls limited along its perimeter and means for filling the tank with water, characterized in that the walls of the tank are made in the form of a water filling dam formed from a closed flexible shell, and a non-combustible barrier made in the form of a lining mounted on the said shell in the place of its contact with the surface of the peat formation made of non-combustible fabric, for example, based on a completely amorphous silica fiber and afiksirovannoy, e.g., using an adhesive on the perimeter of the flexible jacket water filled dam. 4. The device according to p. 3, characterized in that the water filling dam is multi-sectional. 5. A device for extinguishing local ground and underground peat fires, consisting of a tank having walls limited along its perimeter and means for filling the tank with water, characterized in that the walls of the tank are made in the form of a water filling dam formed from a closed flexible shell, and a non-combustible barrier made in the form of a lining made of non-combustible fabric, for example, based on a completely amorphous silica fiber, laid out around the perimeter of a flexible shell of a water filling dam at its place of contact with the surface peat formation. 6. The device according to p. 5, characterized in that the water filling dam is multi-sectional.

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