RU2750733C1 - Device for determining fire extinguishing concentration when feeding fine compositions from above under pressure - Google Patents

Abstract

FIELD: laboratory equipment.SUBSTANCE: invention relates to the field of creating laboratory equipment and instruments used to determine the physical and chemical properties of fine extinguishing agents. The device for determining the fire extinguishing concentration when feeding fine compositions from above under pressure consists of a compressor, a valve, an electromagnetic pneumatic valve, a rotameter, a metal cuvette with a powder aerator, a powder spray, a metal tray, a high-speed video camera. The device works in accordance with the principle of feeding a finely dispersed composition from above under pressure with taking account of the action of the convective flame column, which brings the experimental conditions closer to real fire conditions.EFFECT: ensuring reliability and repeatability of the results of experiments to determine the fire-extinguishing concentration of the fine-dispersed composition in the volume, taking account of the convective flame column to increase the extinguishing efficiency when using fire extinguishing powders in fire conditions.1 cl, 2 dwg

Description

The claimed technical solution relates to the field of laboratory equipment and instruments used to determine the physicochemical properties of fine extinguishing compositions.

A number of installations are known: (Schreiber G., Poret P. Fire extinguishing agents. Chemical and physical processes during combustion and extinguishing. - M: Stroyizdat, 1975 - 240 S.) to determine the fire extinguishing efficiency of fine compositions. The determination was carried out in laboratory or in practical conditions.

1. Installation of Frederick. With the help of a rotating scraper disk, a certain amount of powder, pre-screened to an average particle size of 0.044 mm, is supplied to a flame (5 cm high, 1.7 cm wide) of gas, which is a mixture of hydrogen, lamp gas and carbon monoxide. The powder is delivered in the form of a powder cloud. Before the powder reaches the flame, it passes through a wire sieve (width of the hole in the light 5.3 mm, wire thickness 1.6 mm). The amount of powder sufficient to extinguish a flame was considered a measure of extinguishing efficiency.

The disadvantage of this method is the determination of the weight of the sample, rather than the fire extinguishing concentration and the use of hydrogen in laboratory conditions. The effect of the convective flame column was not taken into account.

2. Installation of Peters. For this method, a vessel (300 ml wash bottle) is used, which is filled with the test powder (70 g). The powder is fed to a cup 135 mm in diameter with 10 ml of gasoline with an air flow of 40 l / min. Fire extinguishing efficiency is determined by the number of possible extinguishing with the above amount of powder. It has been proven that there is a direct relationship between particle size and fire extinguishing efficiency.

The disadvantage of this method is the operator's influence on the repeatability of test results.

Installation by Lee and Robertson. The mobile vessel is equipped with two crucibles with a diameter of about 2.5 cm, which are slowly moved under the scattering device. One crucible is used to measure the mass of the powder used for extinguishing, the other contains fuel - burning heptane. The extinguishing process is monitored using a photocell.

The disadvantage of this method is that the weight of the sample of powder is determined, and not the minimum extinguishing concentration in the volume. The effect of the convective flame column was not taken into account.

A device for determining the extinguishing concentration when feeding fine compositions into an ascending stream is known (RF patent No. 2662012, IPC A62D 1/06 (2006.01), G01N 33/00 (2006.01), G01N 11/00 (2006.01), published on 23.07.2018), which is chosen as a prototype.

In a device for determining a fire extinguishing concentration when feeding fine compositions into an ascending stream, consisting of a compressor, a receiver, a rotameter, a glass casing, a burner, a vessel for adjusting the fuel level in the burner, a sample of the composition is fed into an ascending stream using an electromagnetic pneumatic valve, and the lifting time composition is determined by time-lapse video recording using a high-speed video camera.

The tests were carried out on a laboratory glass setup with a 10 mm diameter burner. A finely dispersed extinguishing agent was supplied to the flame by an air stream, which simultaneously goes to the oxidation of the fuel. The sequence of operations is as follows. The solenoid valve was installed in a position where the air flow from the nozzle moves upward. A sample of the powder composition was introduced through the window. Using a vessel connected to the burner with a flexible hose, the required fuel level was regulated. The casing was removed from the section and the liquid was ignited. Having returned the casing to its original place, the required air flow rate was set in the rotameter. The scale was used to determine the height of the flame, and then the electromagnetic pneumatic valve was opened. Thus, a stream of air going for the oxidation of the fuel was directed to a sample of a finely dispersed extinguishing agent, which was carried away into the tubes, and then into the casing. The minimum weight was selected, at which quenching was achieved. The extinguishing time was no more than 1 s. High-speed video recording was also carried out.

The disadvantage of this device is that data on the minimum fire-extinguishing concentrations can be obtained without taking into account the effect of the convective flame column on the fine-dispersed fire-extinguishing composition flying into the hearth. As a result, the obtained data can be used for application in real conditions of a fire with a big stretch, since in most cases, in practice, fire extinguishing powders are supplied to the fire center from above under pressure.

The aim of the invention is to ensure the reliability and repeatability of the results of experiments to determine the fire extinguishing concentration of the fine composition in the volume, taking into account the convective column of the flame to increase the efficiency of extinguishing when using fire extinguishing powders in fire conditions.

The essence of the proposed device lies in the fact that the device for determining the fire extinguishing concentration when feeding fine compositions from above under pressure, consisting of a compressor, a valve, an electromagnetic pneumatic distributor, a rotameter, a metal cuvette with a powder aerator, a powder spray, a metal pan, a high-speed video camera, the principle feeding a finely dispersed fire-extinguishing composition from above under pressure, taking into account the action of a convective flame column on the composition stream, which makes it possible to obtain real, rather than minimum, fire-extinguishing concentrations, and brings the experimental conditions closer to real fire conditions.

The technical effect of the claimed device lies in the fact that the application of the principle of feeding a fine extinguishing agent from above under pressure makes it possible to obtain data on the actual extinguishing concentration, and not on the minimum. Taking into account the effect of a convective flame column on a stream of a finely dispersed fire-extinguishing composition, the obtained concentration data can be used in calculations for use in real fire conditions.

FIG. 1 shows a device for determining the fire extinguishing concentration when feeding fine compositions from above under pressure. FIG. 2 - Calibration chart of the rotameter.

The device for determining the extinguishing concentration when feeding fine compositions from above under pressure consists of a compressor 1, a valve 2, an electromagnetic pneumatic valve 3, a rotameter 4, a metal cuvette with a powder aerator 5, a powder sprayer 6, a metal tray 7, a high-speed video camera 8.

The device works as follows.

A pre-weighed sample with a mass m1 of a fine extinguishing agent was loaded into a metal cuvette 5, which is a tube with an inner diameter of 5 mm, an aerator and a hole for loading the powder. In a round baking sheet 7, 70 mm in diameter and 10 mm in height, 10 cm3 of a flammable liquid was poured. Then they ignited and allowed to burn freely for 30 s. After this time, air from the compressor 1 through the electromagnetic pneumatic valve 3 was supplied to the cuvette 5 and then the powder-air mixture through the atomizer 6 to the combustion seat 7. The air flow rate was regulated (before filling the composition) using the rotameter 4 and valve 2 and it was 9, 5 l / min. The distance from the nozzle 6 to the surface of the gasoline is 300 mm. The extinguishing process was filmed with a high-speed video camera. The powder release time, extinguishing time, and flame height were determined by video recording.

If the sample m1 did not extinguish the hearth, a large sample mass was taken and the test was repeated. In the event that the hearth was extinguished, the method of successive approximations was used to determine the desired mass of the extinguishing agent mc similarly to the formulas, until extinguishing was achieved in three successive experiments.

To determine the fire extinguishing concentration, it is necessary to determine the volume of the flame, the extinguishing time, and the consumption.

The consumption q of the extinguishing agent was determined:

where τw is the release time of the composition, s;

mc is the mass of the sample of the composition, at which the quenching was achieved, kg.

The flame volume was calculated using the formula:

where R is the radius of the metal baking sheet, m;

h - flame height, m.

The mass of the composition mt used for extinguishing:

where τt is the quenching time, s.

The extinguishing time was determined by the results of time-lapse video filming.

Filming was carried out on two types of video cameras: conventional (25 frames per second) and high-speed (500 frames per second).

The fire extinguishing concentration Ce was determined as:

The use of an electromagnetic pneumatic valve eliminates the operator's influence on the experience, since its response time was constant (no more than 0.1 s). Time-lapse video recording allows, with an accuracy of at least 0.04 s (25 frames per second) and 0.002 s (500 frames per second), to determine the time τ _p and significantly increase the accuracy (repeatability) of experiments.

Claims (1)

A device for determining the extinguishing concentration when feeding fine compositions from above under pressure, consisting of a compressor, a valve, an electromagnetic pneumatic valve, a rotameter, a metal cuvette with a powder aerator, a powder spray, a metal pan, a high-speed video camera, characterized in that it uses the principle of feeding finely dispersed fire extinguishing formulations from above under pressure, taking into account the action of the convective flame column on the stream of the composition, which makes it possible to obtain actual, rather than minimum, extinguishing concentrations.

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