RU2273503C1 - Method for ground forest fire localization - Google Patents

Abstract

FIELD: fire-fighting, particularly to combat ground fires.

SUBSTANCE: method involves watering ground combustibles with water steam to create watered strip. Before steam delivery to ground steam is cooled to thermodynamically instable condition.

EFFECT: increased efficiency.

Description

The invention relates to the field of fire extinguishing and can be used to extinguish forest bottom fires.

A known method of localization of forest fires, including flameless annealing of forest combustible materials in front of the fire front with a high temperature stream with a temperature in the range from the pyrolysis temperature of forest combustible materials to their ignition temperature (see No. 1556687, class A 62 C 3/02).

The disadvantage of this method is its low productivity, because its implementation requires not only the operation of heating combustible materials, but also the operation of holding the material in a high temperature stream until the pyrolysis process is completed.

A known method of limiting the spread of forest fires, including the laying of preventive barriers by charring forest combustible materials by applying an aqueous solution of phosphate-ammonium salt to forest combustible materials, followed by thermal exposure to them (see No. 1074545, class A 62 C 3/00).

The thermal effect on forest combustible materials treated with a solution of phosphate-ammonium salt leads to an increase in the concentration of harmful substances in the air, which worsens the state of fire crews and, as a result, limits the application of the known method.

There is a method of stopping the front of a forest fire, which consists in the production of annealing with the simultaneous creation of a forced air flow in the opposite direction to the propagation of the front of a forest fire to extinguish the fire at the rear edge of the annealing (see No. 592416, class A 62 C 1/26).

The disadvantage of this method is the complexity of its implementation, because it is necessary to precisely coordinate the production of annealing with the creation of a forced air flow; while the air flow should provide a fairly complete burnout of combustible materials in the annealing strip, which reduces the rate of creation of the annealing strip.

As a prototype, a method for localizing a forest bottom fire has been adopted, which consists in moistening the forest with combustible soil materials with water to form a strip of high humidity (see No. 1703136, class A 62 C 3/02).

The disadvantages of this method include its danger to fire brigades because the temperature of water vapor at atmospheric pressure (approximately 100 ° C) exceeds a safe temperature for humans (about 60 ° C). In addition, steam in a saturated state is a gaseous medium and, when mixed with ambient air, dissolves in it, which leads to a loss of the liquid phase. Losses of the liquid phase also occur on the wetted elements of the phytocenosis: steam condenses on the vegetation due to the transfer of its heat to it. In this case, condensation occurs with additional heat (heat of vaporization) spent on increasing the temperature of phytocenosis elements. When the vegetation temperature rises to the vaporization temperature, the condensation process stops. This leads to insufficient moisture in elements such as last year’s dry grass, etc.

Another significant drawback in the implementation of the known method is the fragility of the strip of high humidity. Combustible materials heated by the supplied steam and thermal radiation from a developed flame front lose moisture. This also leads to a decrease in the efficiency of localization of the fire.

The aim of the proposed method is to increase the efficiency of fire localization.

This goal is achieved by the fact that in the known method of localizing a fire, including the operation of humidifying forest combustible soil materials with water vapor to form a strip of high humidity, an additional operation is introduced: before supplying steam, it is cooled to a thermodynamically unstable state.

The operation of cooling the steam to a thermodynamically unstable state makes it possible to obtain a vapor medium with other physicomechanical characteristics different from that of a thermodynamically equilibrium vapor. Steam in a thermodynamically unstable state intensively condenses on the surface of combustible materials; the condensation rate is determined not by the thermodynamic parameters of the process, but by the proximity of the vapor to the interface. This minimizes the heating of combustible materials by the supplied steam.

The effectiveness of the proposed method was tested on natural vegetation, in conditions of increased fire hazard (last year’s dry grass without fresh undergrowth). The supplied steam was cooled to a temperature of 70 ° C. Humidification was carried out from one point simultaneously by two parallel strips. The average laying speed of the humidification strip was approximately 1.5-2.5 km / h. Along with moistening, dry grass was set on fire so that the combustion front from one strip spreads towards the combustion front of the other strip. No flame transition through the humidification strip was observed. After the meeting of the two fronts of the flame and their self-extinguishing, a band was formed free of combustible elements of the phytocenosis.

Claims (1)

The method of localization of a forest bottom fire, which consists in moistening forest combustible soil materials with water vapor with the formation of a strip of high humidity, characterized in that it is cooled to a thermodynamically unstable state before supplying steam.