RU2539807C2 - Method of determining location of forest fire - Google Patents

Abstract

FIELD: fire-fighting means.

SUBSTANCE: method relates to the field of forestry and can be used to determine the location of forest fire. The method of establishing the location of forest fire comprises identification of the most fire-hazard plots of peat lands and location of vertical wells on the area of plots. The perforated pipes are placed in the wells. The pipes are filled with smoke generating pyrotechnic composition, the granulometric material is poured into the wellheads. The coordinates of the wells are recorded on the forest fire map. The patrol routes are divided, patrol observation of smoke is carried out. The boundaries of the fire are determined by the smoke location over the wells. The coordinates of the smoke location are recorded on the forest fire map. The granulometric material is mixed with encapsulated herbicide glyphosate powder in an amount of 5-15% by weight of the granulometric material, and then the mixture is poured to the wellheads.

EFFECT: proposed method in comparison with the analogue provides enhancement of accuracy of determining location of the forest fire by processing the filling of wellhead with glyphosate eliminating vegetation and retaining high intensity of smoke generation during continuous operation of wells.

Description

The present invention relates to the field of forestry, and more specifically to methods for determining the location of a peat fire mainly on forest lands.

There is also a method of determining the location of a forest fire, including determining the azimuths of observing smoke from observation towers, plotting azimuth lines on the plan of afforestation and using the coordinates of the intersection point to determine the location of a forest fire (Shchetinsky E.A. Forest protection. - Pushkino: VNIILM. 2001. S. 139-141.)

The disadvantage of this method is the low accuracy of determining the boundaries of an underground peat fire, which is formed within the burnup area of a surface fire, due to the low level of smoke in the fire zone and uniform smoke emission over its entire area.

The closest in technical essence and purpose of the proposed technical solution is a method of determining the location of a forest fire, including the installation of wells, filling them with smoke-forming pyrocomposition, filling the wellheads with granulometric material, fixing the coordinates of the wells on the forest plan, observing smoke, determining the location of a forest fire by the coordinates of smoking wells described in the patent of the Russian Federation No. 2294782 published March 10, 2007. Bull. Number 7.

The disadvantage of this method is the low accuracy of determining smoking wells that have been in operation for a long time. Granulometric material at the wellhead is overgrown with vegetation. The intensity of smoke emission decreases sharply.

The aim of the invention is to increase the accuracy of determining the location of a peat fire by intensifying the emission of smoke from wells.

This goal is achieved by the fact that the granulometric material is mixed with glyphosate herbicide, and then the wellheads are filled with the mixture.

The proposed method is implemented as follows. The most fire hazardous areas of peat bogs are identified. Vertical wells are evenly distributed over the area of the selected peatlands at a distance of 100 to 200 m. With a paddle drill, bore holes with diameters of 10 cm are drilled to mineral soil. At diameters of less than 10 cm, it is difficult to evenly distribute the pyrocomposition in the wells. An increase in well diameters of more than 10 cm increases the complexity of the work without a significant increase in the uniformity of the distribution of the pyro-composition. Pieces of perforated metal pipes with a length of not less than the height of the peat layer are prepared. Then the pipes are installed in the wells. They are filled in layers with smoke-forming pyrotechnic composition. Next, granulometric material is mixed with glyphosate herbicide, which covers the wellheads. The dose of glyphosate is set within 5 -15% by weight of the particle size material. A smaller dose is taken for the northern regions of the country. In the central and southern regions of the country, the dose of the drug is increased. So, for the conditions of the Moscow Region, the diameter of the well is 10 cm. The thickness of the layer of porous expanded clay at the wellhead is 10 cm. The mass of the particle size material is 0.4 kg. The dose of glyphosate is 0.04 kg (10%). Glyphosate crystals are encapsulated with surfactants, heavy oil cracking fractions and mixed uniformly with particle size material. Encapsulation provides suppression of vegetation at the wellhead for 5-6 years. Increasing the dose of the drug over 15% increases the cost of the drug without a significant increase in the intensity of smoke emission. The thickness of the layer of particle size material is taken at least 10 cm. With a thickness of more than 10 cm, smoke emission is difficult. If the thickness of the layer is less than 10 cm, the fire of an uphill fire can ignite the pyrocomposition in the well. Expanded clay, gravel with an average granule size of at least 10 mm is used as a granulometric material. Compounds of iron, manganese, and copper are used as smoke-forming substances. Ammonium nitrate mixed with a flame retardant is used as a pyrotechnic composition. The coordinates of the wells are marked on the forest fire map. Then observe pillars of smoke rising from the wells. The location of these wells determines the boundaries of the fire.

The duration of combustion of the pyrocomposition is taken at least 1 hour. During this period, the front of the underground fire cannot move further than 5 m from the well. After the completion of the peat underground fire, the perforated pipes with a pyro-composition are replaced with new ones.

The distance between the wells is taken from 100 to 200 m. With a decrease in the distance between the wells less than 100 m, the cost of their installation increases significantly without significantly increasing the accuracy of determining the boundaries of an underground fire. With increasing distance between wells more than 200 m, the accuracy of determining the position of the boundary of an underground fire is unacceptably reduced.

The proposed method was tested in a dirt tray. A tray 0.5 m deep was charged with a peat layer 0.4 m thick; peat was covered with a layer of sand on top. In the tray, 6 model wells were installed, filled with a pyro-composition. The mouths of 3 wells were filled with coarse sand with a layer of 3 cm. The mass of sand was 0.02 kg. The dose of glyphosate mixed with sand was 0.001 kg (5%). The surface of the tray was seeded with carrot seeds. Two months later, there were no plants at the mouths of the wells with the preparation. Then, a front in the peat layer was formed in the tray. The smoke intensity was recorded. In all three wells treated with the preparation, high smoke emission rates were observed. Wells that were not treated with the drug produced low smoke intensity.

The proposed method in comparison with the analogue provides an increase in the accuracy of determining the location of a forest fire by processing the backfill of the wellhead with glyphosate, which eliminates vegetation and maintains a high smoke generation rate during long-term well operation.

Claims (1)

A method for determining the location of a forest fire, including the allocation of the most fire-hazardous areas of peat bogs, the placement of vertical well areas, the installation of perforated pipes in the wells, filling the pipes with smoke-generating pyrotechnic composition, filling the mouths of the wells with particle-size material, fixing the coordinates of the wells on the fire map, patrolling the patrol routes, patrolling observation of smoke, determination of the boundary of the fire by the location of smoke above the wells, fixing its coordinates on the forest fire map, characterized in that the granulometric material is mixed with encapsulated glyphosate herbicide powder in an amount of 5-15% by weight of the granulometric material, and then the wellheads are filled with the mixture.