RU180651U1 - Bench for evaluating the effectiveness of blowing agents for extinguishing fires in tanks with high-octane gasolines in a sublayer way - Google Patents

Abstract

The utility model relates to the field of research equipment designed to simulate fire sources, namely, stands for evaluating the effectiveness of foaming agents for extinguishing reservoirs with high-octane gasolines in a sublayer manner. a device for forming a model combustion zone, consisting of a vertically located pipe, at the upper end of which A baking sheet, a foam generator configured to control the intensity of the foam supply and connected to the lower end of a vertically arranged pipe of the device for forming a model combustion zone, a container with a working solution of a foaming agent, a pumping unit for supplying a working solution of a foaming agent, an air compressor connected via pipelines with The technical result is the expansion of the arsenal of research equipment designed to simulate very good gov fire, namely in the creation of the stand to assess the effectiveness of foaming agents for extinguishing fires in tanks with high-octane gasoline subsurface method. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of research equipment designed to simulate fires, namely, stands for evaluating the effectiveness of blowing agents for extinguishing reservoirs with high-octane gasolines in a sublayer manner.

In the case of extinguishing alcohol-containing fuels, which include gasoline, the determining indicator is the minimum foam supply rate at which the extinguishing of the model focus is achieved within the time accepted as the maximum allowable.

Based on the test conditions, experimental methods include large-scale field tests to extinguish a fire in a full-scale tank using standard fire fighting equipment, fire extinguishing in reduced model tanks and laboratory tests that use different size tank models and specially designed foam supply equipment with adjustable extinguishing agent consumption.

Large-scale field tests in order to study the possibility of effective application of a sublayer extinguishing method, as a rule, are rarely carried out, which is associated primarily with large material costs and environmental damage. Therefore, laboratory methods for determining the fire extinguishing efficiency of foams with the subsequent verification of the results of extinguishing fires of flammable liquids in various reservoir models were most widely used.

A test bench is known from the prior art for investigating the processes of burning and extinguishing a fire, including means for creating a fire source, pipelines for supplying combustible gas and recording equipment, while a gas burner made with the possibility of connecting one pipeline to a gas tank is used as a means of creating a fire source ignition, and another connecting pipe with a container for storing combustible gas, each pipe is connected to the respective containers with gas through a balancing valve, about atny valve and ball valve, a further connecting line and through a reduction gear, the burner is adapted to mount thereon interchangeable nozzles and provided with manometer [utility model patent RU 158135 U1, publication date 12.20.2015].

A test bench is known from the prior art for investigating combustion cessation processes under conditions of high pressure and oxygen content of a gas medium, containing a durable sealed reservoir, a reaction cylinder, a model combustion zone, pipelines with fittings for supplying components of a gas medium and fire extinguishing substances, as well as for sampling for analysis, equipment for recording the parameters of the gaseous medium, and the reaction cylinder has a remotely controlled double-leaf neck cover, an elevator for lowering and raising a model the combustion zone and the device for ignition of the combustion zone, pipelines for supplying gases and extinguishing agents, sampling for analysis of the components of the gas medium and the video surveillance system of the flame [patent for invention RU 2458719 C1, publication date 08/20/2012].

The prior art bench for researching the processes of burning and extinguishing fires, containing a chamber with a lid and a bottom, means for creating a fire center and extinguishing it, while it is equipped with a device for controlling the mass of the extinguishing agent supplied to the fire, means for controlling the mass of residues of unreacted substance and a grid to accommodate the fire, and the bottom is conical with a hole in the lower part, the grid is placed above the bottom, and a means of controlling the mass of residual material is placed under the bottom hole looking for [patent for a.s. 1319872 A1, publication date 06/30/1987].

Common disadvantages of the known stands for studying combustion processes are that they do not allow tests to study the fire extinguishing ability of foaming agents when extinguishing combustible liquids, and are not intended to determine the efficiency of extinguishing combustible liquids, including high-octane gasolines, in tanks using a layer-by-layer fire extinguishing method.

The technical problem to which the claimed utility model is directed is to create a bench for determining the suitability of blowing agents for extinguishing fires in tanks with high-octane gasolines in a sublayer manner.

The technical result achieved by the implementation of the claimed utility model consists in expanding the arsenal of research equipment designed to simulate fires, namely, in creating a stand for evaluating the effectiveness of blowing agents for extinguishing fires in reservoirs with high-octane gasolines in a layered manner, which makes it possible to conduct tests to determine the time coating the free surface of the combustible liquid with a foam fed into the layer of combustible liquid in a sublayer manner, and oli of the destroyed foam, as well as the possibility of conducting tests to determine the extinguishing time, depending on the intensity of sublimation of the foam of low multiplicity in the layer of combustible liquid.

The technical result is achieved due to the fact that the bench for evaluating the effectiveness of blowing agents for extinguishing fires in tanks with high-octane gasolines in a sublayer way includes a device for forming a model burning center, consisting of a vertically arranged pipe, at the upper end of which there is a baking sheet, a foam generator made with the ability to control the intensity of the foam and connected to the lower end of the vertically arranged pipe of the device for forming a model ha combustion tank with a stock solution of foam concentrate pump device for supplying working foaming solution, a compressor for supplying air connected by pipelines with foam generator.

The presence of a device for the formation of a model combustion zone, including a vertically arranged pipe, on the upper end of which a baking sheet is installed, provides a check of the possibility of foam passing through a layer of fuel simulating the spill of combustible liquid in a tank.

In addition, in the particular case of the implementation of the utility model, the device for forming a model burning center is made of metal.

In addition, in the particular case of the implementation of the utility model, the device for forming a model burning center is made of transparent material.

In addition, in the particular case of the implementation of the utility model, the stand is equipped with a manometer installed in the pipeline for supplying the working solution of the foaming agent at the inlet of the foam generator.

The implementation of the utility model is illustrated in the drawing, in which the positions have the following notation:

1 - a foam generator, 2 - a container with a working solution, 3 - a pumping unit, 4 - a compressor for supplying air, 5 - a pipeline for supplying a working solution of a foaming agent, 6 - a pipeline for supplying air, 7 - a vertically located pipe, 8 - a baking sheet, 9 - manometers .

The bench for evaluating the effectiveness of blowing agents for extinguishing fires in tanks with high-octane gasolines in a sublayer way includes a foam generator 1, a container 2 with a working solution of a blowing agent, a pump unit 3 for supplying a working solution of a blowing agent, a compressor 4 for supplying air, connected through a pipeline 5 and 6, respectively with inputs of a foam generator 1, a device for forming a model combustion zone, including a vertically located pipe 7, at the upper end of which is installed Ewen 8, and the lower end is connected to the foam generator 1.

The vertical pipe 7 enters the bottom of the pan 8 and is above the level of its base.

Manometers 9 are installed at the outlet of the alluvial installation 3 and at the inlet of the foam generator 1 of the pipeline 5 for supplying the working solution of the foaming agent.

As the foam generator 1 can be used laboratory foam generator.

As a pump installation, a pump installation in accordance with GOST R50588-2012 can be used.

As a flammable liquid for experiments, a mixture containing 10% isopropyl alcohol and 90% straight-run gasoline is used.

The means for forming a model combustion zone can be made of metal for conducting an experiment to determine the time from the moment the foam is introduced into the layer of combustible liquid until the flame stops completely.

The means for forming a model combustion zone can be made of a transparent material, for example, plexiglass, for conducting an experiment to determine the time of coating the free surface of a combustible liquid with foam supplied to a layer of combustible liquid and a fraction of the destroyed foam.

The work of the stand to assess the effectiveness of the blowing agents to extinguish fires in tanks with high-octane gasoline sublayer method is as follows.

1. Conducting tests to determine the time of coating the free surface of a combustible liquid with foam supplied to a layer of a combustible liquid and a fraction of the destroyed foam.

The baking sheet 8 of the means for forming a model burning center made of a transparent material is filled with various types of combustible liquid, after which foam obtained from the working solution of the foaming agent in drinking water is supplied from the laboratory generator 1. Foam, rising along a vertical pipe 7, covers the surface of the combustible fuel in the pan 8, while using the stopwatch record the time of coating the surface of the combustible liquid. The working solution of the foaming agent is fed into the laboratory foam generator 1 under a pressure of 9 atm. The fraction of the destroyed foam is determined by the results of measuring the level of the phase separation, which can be visually determined by performing a vertically located pipe 7 of a transparent material.

The test results for determining the time of coating the free surface with the foam supplied to the layer of flammable liquid and the fraction of the destroyed foam are presented in table 1.

The maximum time for covering the surface of a combustible liquid with foam was recorded when using a multiplicity of 2.1 units, the shortest when using a multiplicity of 5.0 units. Thus, for conducting fire tests according to the test results, it is rational to use foam with a multiplicity of 4 units and 5 units to ensure the possibility of the emergence of foam.

2. Testing on model foci to determine the quenching time from the intensity of low-foam foam supply into the combustible liquid layer.

A baking sheet 8 of the means for forming a model burning center made of metal is filled with various types of combustible liquid and set fire to it.

Then from the laboratory generator 1 serves the foam obtained from the working solution of the foaming agent in drinking water. Foam, rising along a vertical pipe 7, covers the combustion surface of combustible fuel in the baking sheet 8, while using a stopwatch, the time is recorded from the moment the foam is fed into the layer of combustible liquid until the flame stops burning. The working solution of the foaming agent is fed into the laboratory foam generator 1 under a pressure of 9 atm.

Foam is supplied by a laboratory foam generator 1 with a flow rate of a foaming agent solution of not more than 0.06 kg / (m ² s). The intensity of the supply of the working solution of the foaming agent can be changed by changing the surface area of the combustible liquid in the model center by changing the diameter of the baking sheet 8.

The test results for determining the extinguishing time by applying low-foam foam to the straight-run gasoline layer in the open air in polygon conditions are presented in table 2.

According to the results of studies for field fire extinguishing tests of RVS-400 and RVS-5000, it is recommended to use monodispersed foam with a multiplicity of 4-5 obtained from a working solution with a temperature of 10 ° C to 15 ° C, the resulting foam should float to a height of 13 m of fuel, containing 10% (vol.) isopropyl alcohol and covering the surface of the flammable liquid, the foam generator should form a monodisperse foam with a multiplicity of 4-5 units, the foaming agent should extinguish the model hearth with an intensity of not more than 0.06 kg / (m ² s).

Claims (5)

1. A bench for evaluating the effectiveness of blowing agents for extinguishing fires in tanks with high-octane gasolines in a sublayer way, including a device for forming a model combustion zone, consisting of a vertically arranged pipe, on the upper end of which a baking sheet is installed, a foam generator configured to control the intensity of the foam supply and connected to the lower end of the vertically arranged pipe of the device for forming a model combustion zone, a container with a working solution of a foam an atomizer, a pumping unit for supplying a working solution of a foaming agent, a compressor for supplying air, connected through pipelines to a foam generator. 2. The stand according to claim 1, characterized in that the device for forming a model burning center is made of metal. 3. The stand according to claim 1, characterized in that the device for forming a model burning center is made of transparent material. 4. The stand according to claim 1, characterized in that it is equipped with a manometer installed in the pipeline for supplying the working solution of the foaming agent at the inlet of the foam generator. 5. The stand according to claim 1, characterized in that the height of the vertical pipe is not less than 1000 mm, and the diameter is not less than 200 mm.

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