SU947730A1 - Device for determination of powder fire extinguishing properties - Google Patents

Description

(54) DEVICE FOR DETERMINING THE FLAMMATORY ABILITY OF POWDERS

The invention relates to experimental equipment of laboratories engaged in the development of means and methods for fire extinguishing with powders of flammable and combustible liquids. Experimental data on extinguishing powders of flammable liquids obtained using this device can be used in the design and construction of automatic fire extinguishing installations.

A device for examining the fire extinguishing efficiency of powders, consisting of a burner, in the form of a pan, and a pipe for supplying and spraying a powder located at a distance from the burner and oriented at an angle thereto 1 is known.

 A disadvantage of this device is the fact that a part of the powder does not reach the flame due to the entrainment of particles by turbulent flows, which arise when the boundary layer of the powder jet plume contacts the environment. In addition, the loss of powder is due to the flow of the flame stream due to the mismatch of their frontal projections. Moreover, this effect is enhanced by the fluctuation of the flame and the change in its shape by the flow itself. It is also necessary to take into account the drift of fine particles of powder by ascending streams of flame, as well as the fact that the cone-shaped view of the torch of the powder flow does not allow to determine the plot. particle concentrations. All this leads to the fact that it is impossible to accurately determine the consumption of powder needed to extinguish the flame of a combustible liquid.

A known device for determining the fire extinguishing ability of powders, consisting of a cylindrical

ts burners with nozzles and pipes for powder supply, the burner being located inside and coaxially with the pipe, thereby eliminating powder losses associated with the interaction of the powder flow and the environment, and providing the same flow cross-section before approaching the burner E2.

However, in this installation, a large mass of powder particles flows around the burner body and does not participate in the extinguishing of the flame, and the flame is suppressed only by the powder that penetrates into the fire.

30 flames due to turbulence in the powder flow at the edges of the burner body. Moreover, there is also the entrainment of fine particles of powder by ascending streams of flame.

As a result, in this installation it is also impossible to determine the concentration of particles in the combustion zone and, therefore, to obtain accurate and reliable extinguishing parameters for powders of flammable liquids. In addition, in order to clarify the burning modes of the same fuel, it is necessary to use burners of different sizes, and the change of burners is associated with the dismantling of the subsequent assembly of installations.

The purpose of the invention is to improve the accuracy of determining the extinguishing parameters of powders of flames of flammable liquids by using the entire mass of particles of the powder stream to extinguish the flame.

The goal is achieved by the fact that a device for determining the fire extinguishing capacity of powders, containing a pipe for transporting a mixture of powder and air to a stream in which a burner with a source of combustible mixture is located coaxially with the pipe, is additionally equipped with a thin-walled metal holder fixed at the end of the pipe, and the source of combustible mixture is made in the form of an annular cylinder with an internal cermet wall mounted on a thin-walled metal holder equipped with a fitting for supplying a combustible liquid, an annular cover and two level indicators, one of which is mounted on the outer side wall, and the other is mounted for movement on a thin-walled metal holder.

The drawing shows the proposed device.

The proposed device contains a cylindrical cup 1, fixed on the base 2. In the side walls of the cup are mounted a fitting .3 of the fuel supply and the first pointer 4 level, necessary to determine the height of the fuel poured into the cup. The porous cermet filter 5 is installed by flanging the central opening for glass 1 and is fixed on top by a lid. 6, which prevents, at the same time, the combustible liquid 7 in glass 1 from ignition. The pressure over the flammable liquid 7 in glass 1 is equal to atmospheric pressure due to the gap between the upper end of glass 1 and the lid b. The powder supply pipe is a thin-walled holder 8, the lower end of which is fixed by means of a threaded connection in the fixed pipe 9. This threaded connection allows the upper

the end of the holder 8 in the channel of the filter 5 at a given height. For this, the yoke 8 is rotated around its axis by pins 10, which simultaneously connect the rings 11. The second level indicator 12, installed with a gap in the rings 11, serves to determine the lifting height of the upper cut of the yoke 8. Supply of the combustible liquid to the glass 1 is carried out through fitting 3 and controlled by the first 4 and second 12 level indicators, excluding the overflow of fuel into the cavity of the cage 8. The passage of fuel from the gap between the filter channel 5 and the casing 8 is blocked

5 rubber ring 13 (sealing washer).

The device works as follows.

First through the powder supply pipe

Q air is supplied. The velocity head of the air flow reduces the pressure in the channel of the filter 5, which is not closed by the clip 8. This contributes to penetration. into the channel of the filter 5 by its ka, - pills of flammable liquid 7 from glass 1..

Fuel vapors are ignited in the channel and a cone of flame forms at the exit of the channel.

The steady state of flame burning is provided by maintaining a constant level of combustible liquid 7 in glass 1.

The change in the rate of fuel burnout is controlled by the surface area of the filter channel 5, open from the holder 8, and the air flow rate, which is kept constant during the extinguishing process. -J To investigate the process of extinguishing in the flame, from the bottom upwards, from experience to experience, a certain amount of powder is introduced through the supply pipe, all particles of which penetrate the flame front irrespective of its

5 shapes and sizes. The fire extinguishing parameters of the powder stream are taken to be those at which instantaneous and complete cessation of combustion occurs.

Thus, the proposed device makes it possible to increase the accuracy of determining the quenching parameters along with the maximum convenience of its operation. The obtained data on fire extinguishing concentrations can be used to design powder, automatic fire extinguishing installations in order to increase their efficiency by reducing the powder they consume, as well as a corresponding reduction in the size and size of the installations.

Claims (1)

Invention Formula A device for determining the fire extinguishing ability of powders containing