RU2700227C1 - Forest fire extinguishing method - Google Patents

Abstract

FIELD: rescue service; fire fighting means.

SUBSTANCE: invention relates to the field of environmental protection, namely to fire-fighting equipment, in particular to methods of forest fire extinguishing by explosion and is intended for localization and extinguishing of forest, steppe fires with the help of rapid creation of mineralized support and barrier strip on rough terrain in any natural and climatic conditions. Objective of this invention is to increase safety, efficiency of explosion energy and environmental cleanliness use, to reduce labour costs during forest fires extinguishing. Set task is solved by rapid creation of mineralized support, barrier strips of required depth, width and configuration, reduced time for localization and fire extinguishing, reduction of damage to forest by fire, due to use of high-power detonating cord manufactured by industry with mass of explosive substance 80…100 g/m and containers with fire-extinguishing composition. Method of extinguishing forest fires involves arranging a detonating cord on the ground at a safe distance from the fire zone ahead of its propagation, attaching containers with a fire extinguishing compound and exploding. During detonation of the detonating cord, a shock wave is formed, which forms a mineralized strip, spreads the soil and creates a cloud of the sprayed fire-extinguishing substance, which extinguishes the flame outbreak from the explosion.

EFFECT: soil and sprayed fire-extinguishing composition are deposited on the surface and do not allow burning of the forest cover and litter, as a result of which a protective strip is formed.

1 cl, 3 dwg

Description

The invention relates to the field of environmental protection, and in particular to fire fighting equipment, in particular, to methods for extinguishing forest fires by an explosion, and is intended for localization and extinguishing of forest, steppe fires by quickly creating a mineralized reference and barrage strip on rough terrain in any climatic conditions .

A known method of extinguishing forest fires (red.: Artsybashev ES. Ed. Ed. And other Forest fires and the fight against them. Collection of scientific tr. L .: LenNIIILKh, 1986. p. 105) including an elastic cord charge ES - Ш, located on the soil or partially covered by turf, the soil during the explosion of which creates a mineralized reference strip. The disadvantage of this method is that often there is a burning of forest litter from a flash of flame during an explosion, if necessary it is impossible to reduce the mass of explosive in a running meter of cord charge.

A device for the localization and suppression of forest fires (patent for utility model RF 141400), consisting of a linear charge with a cumulative recess placed inside the sleeve filled with an aqueous solution or an aqueous solution of combustion inhibitors. The disadvantage of this device is the impossibility of creating a mineralized support strip, the complexity and material consumption of the structure, in terms of creating a cumulative recess in the explosive charge and attaching the charge to the wall of the elastic sleeve, additional material, labor costs for the delivery of combustion inhibitors and the preparation of the solution are required. In the field, cases are not uncommon when it is not possible to fill the sleeve with water or an aqueous solution of combustion inhibitors.

A fire-fighting device for extinguishing lower forest fires and creating a barrier strip (patent for the invention of the Russian Federation 1797915), consisting of a detonating cord and a charge of smoke powder with a fire extinguishing composition, is known. The disadvantage of this device is the complexity and material consumption of the structure, the use of two different types of explosive charges, the inability to create a mineralized reference or barrier band.

The closest analogue of the claimed invention is a method of extinguishing forest fires (patent for the invention of the Russian Federation 2144401) comprising a charge from a gas explosive mixture. Explosion-proof components are delivered to the fire zone in solid form and filled with a flexible closed volume (section) before the fire, then detonation is initiated in a gas explosive mixture, the explosion products of which can be fire-extinguishing environmentally friendly reagents. The disadvantage of this method is the complexity and material consumption of the charge structure, the use of generators of combustible explosive gases, the use of expensive consumables, the inability to create a mineralized (reference) strip. The delivery of materials, equipment and installation from the charge sections of the required length, the location of the charge line is equidistant to the edge of the fire front, requires significant material costs, labor time for delivery and preparation for blasting.

The technical task of creating the invention was to increase the safety, efficiency and environmental friendliness of the use of explosion energy, reducing material, labor costs and labor time for extinguishing forest fires.

This technical problem was solved by developing a simple and quick way to localize and extinguish forest fires. The proposed method of extinguishing involves the explosion of a linear charge consisting of a high-power detonating cord (DS) with a core weight of 80 ... 160 g / m, for example DSN-80 with containers attached to it with a fire extinguishing composition, for example, ISTO-1 fire extinguishing powder located on a safe area distance in front of the spread of fire. The container bodies are made of plastic, in the form of a hollow cylinder closed on one side, and on the opposite side there is an opening with a cover for filling the extinguishing agent. In the container body along the outer side wall there is a groove for accommodating the LH. The container bodies can also be made of an elastic material, for example a plastic film in the form of a rectangular-shaped bag.

The method of extinguishing forest fires is illustrated in FIG. 1, where: 1 - detonating cord, 2 - container with extinguishing agent, 3 - cloud of sprayed extinguishing agent, 4 - overlap of detonating cord segments, 5 - next detonating cord segment, 6 - detonating cord flame area, 7 - mineralized strip , 8 - barrage lane.

The design of the container with a fire extinguishing composition made of plastic in the form of a hollow cylinder and its fastening to the LH is illustrated in FIG. 2 where: 1 - detonating cord, 2 - container with extinguishing agent, 9 - hole with a lid for filling the extinguishing agent, 10 - groove for the placement of fire.

The design of the container with a fire extinguishing composition made of an elastic material in the form of a rectangular-shaped bag and its fastening to the LH is illustrated in FIG. 3 where: 1 - detonating cord, 11 - a container in the form of a rectangular package with a fire extinguishing composition, 12 - insulation tape, adhesive tape, twine knitting.

The proposed method of extinguishing a forest fire, illustrated in FIG. 1 is implemented as follows. At a safe distance from the fire zone along its front, a segment of a detonating cord is unwound and containers with a fire extinguishing agent are attached to it, if necessary, the next segment of a detonating cord is lapped and unwound and attached to it are containers with a fire extinguishing composition and from a safe distance they are made undermining. The detonating cord line thus mounted can be of any length and can consist of any number of detonating cord segments, forming an explosive network. An explosive network can consist of two or more detonating cord lines located together, which allows you to create a mineralized support and barrier strip of the required width, depth. The shock wave generated during the explosion scatters the soil and forms a mineralized strip, creates a cloud of sprayed fire extinguishing substance, which extinguishes a flash of flame from the explosion. Soil and sprayed extinguishing agent settle on the surface and do not allow ignition of the forest cover and litter, as a result of which a barrier strip is formed. The distance between the containers with the extinguishing agent and their number depends on the efficiency of extinguishing the flame generated when the blasting network is detonated in order to exclude the possibility of setting fire to the forest cover and litter, creating a barrier strip of the required width.

The fastening of the container with the housing in the form of a hollow cylinder to the LH is illustrated in FIG. 2 is carried out as follows. The detonating cord lying on the soil is inserted into the groove to accommodate the LH, while the LH located in the groove on the sides is in a clamped state, so the container is attached to it.

The fastening of the container with the housing in the form of a rectangular-shaped packet to the LH is illustrated in FIG. 3 is carried out as follows. The detonating cord lying on the soil is attached to the container using several turns of insulating tape, tape or knitting with twine, while the LH should be located along the longitudinal axis of the container body, so the container is attached to it.

Feasibility, safety and environmental friendliness of the proposed method of extinguishing forest fires is achieved by:

- simplicity of charge design, simple and quick installation of an explosive network, which includes one or more lines consisting of connected segments of a detonating cord located together and in parallel and attached to them containers with a fire extinguishing composition;

- the ability to quickly change the number of containers with a fire extinguishing composition and the mass of explosive per one linear meter of the explosive network, as a result of which it is possible to adjust the width, depth of the mineralized reference and barrier strip;

- the use of ready-to-use products (detonating cord and containers with a fire extinguishing composition), manufactured in the factory;

- the lack of expensive consumables, devices and the need to perform additional work related to loading and preparing the charge for an explosion;

- a significant reduction in material costs, labor hours for the delivery of materials, equipment;

- the operational creation of a mineralized reference and barrage strip on rough terrain in any climatic conditions;

- the use of inexpensive environmentally friendly fire extinguishing composition ISTO-1;

- reduction of time for localization and extinguishing a fire;

- minimal damage caused by the forest fire.

The inventive method of extinguishing forest fires was tested in the summer of 2015 in the climatic conditions of the Khanty-Mansiysk Autonomous Okrug - Ugra in the Khanty-Mansi Autonomous Okrug-Ugra "Base of aviation and ground protection of forests." Tests gave positive results and showed that the use of DShN-80 is more efficient and technologically advanced compared to previously used VMs. This method of extinguishing forest fires has been effectively used by the Federal Aviation Protection Agency to extinguish large and complex fires in remote areas in the Krasnoyarsk Territory, Irkutsk Region and Transbaikal Territory.

Claims (2)

1. A method of extinguishing forest fires, including an explosion of an explosive charge, characterized in that a high power detonating cord (DS) with an explosive mass of 80 ... 160 g / m, for example DSN-80 and attached to it, is used as an explosive charge. containers with a fire extinguishing composition, for example with ISTO-1 fire extinguishing powder, forming an explosive network consisting of one segment of a detonating cord, the container bodies are made of plastic in the form of a hollow cylinder, closed on one side, and on the opposite a hole with a cover for filling the extinguishing agent is located on the side, a groove is located in the container body along the outer side wall to accommodate the LH, or the container bodies are made of elastic material, for example, a plastic film in the form of a rectangular-shaped bag. 2. The method of extinguishing forest fires according to claim 1, characterized in that the segments of the detonating cord overlap and are mounted in one or more lines located together and / or parallel to each other.

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