RU2458719C1 - Stand for research of processes of termination of burning - Google Patents

Abstract

FIELD: fire-fighting means.

SUBSTANCE: invention relates to an experimental equipment of laboratories engaged in developing ways and means of fire fighting. To improve the accuracy and reliability of determining the parameters of the termination of burning of model combustion source placed into the reaction cylinder with given initial values of high pressure and oxygen gas environment, by maintaining a constant volume of concentration of oxygen and the extinguishing agent in the reaction cylinder in the research process, on the stand for research of processes of termination of burning the reaction cylinder has a remote-controlled two-leaf filler cap, a lift for lowering and lifting the model combustion source, unit of fire raising the combustion source, pipeline for gas and fire extinguishing agents supply, sampling for analysis of components of the gaseous medium and a system of video surveillance of the flame.

EFFECT: increased precision and reliability of determining the parameters of the termination of combustion.

3 dwg

Description

The invention relates to experimental equipment of laboratories involved in the development of fire extinguishing means and methods.

Currently known installation for determining the minimum extinguishing concentration of gas compositions, consisting of a reaction glass cylinder, inside which is installed "cup" burner, blowers, air flow meters and gas composition. At the installation, the minimum ratio of the gas extinguishing composition and air is determined, at which the extinguishing of the model center in the "cup" burner installed in the flow of a mixture of air with a gas extinguishing composition / 1 / is achieved.

A significant drawback of this installation is the high inertia of the air supply system and the gas extinguishing composition, which does not allow to accurately set the minimum ratio of the gas extinguishing composition to the air at the expense of which the quenching of the model burning center is achieved. In addition, it is impossible to investigate the cessation of combustion of various materials at an installation under conditions of high pressure and oxygen content of the gas medium.

Known fire chamber, which is an unpressurized room of non-combustible materials with a volume of 30-50 m ³ , equipped with piping with fittings for supplying a fire extinguishing agent and steel cylindrical burners installed at different levels of the room / 2 /. The chamber is designed to determine the extinguishing concentration, expressed as the ratio of the minimum amount of extinguishing agent required to extinguish the flame of a combustible liquid, to the volume of the chamber.

The chamber has drawbacks, the main of which are the inability to maintain a constant composition of the gaseous medium, the concentration of oxygen and extinguishing agent. The oxygen concentration decreases unevenly as a result of the burning of liquid fuel in four fire sources installed at different points in the chamber. The extinguishing agent is fed into the chamber in the form of several flooded jets, the flows of which with high concentration can connect with convective flows of the gaseous medium entering the combustion zone of the foci, ensuring that the combustion ceases until a uniform concentration of extinguishing agent is created in the chamber volume. The obtained value of the volumetric extinguishing concentration for a given substance cannot be extended to sealed rooms.

And most importantly, in this fire chamber it is impossible to determine the value of the volume of fire extinguishing concentration for a given substance when fighting fires of various materials under conditions of high pressure and oxygen content of the gas medium.

A well-known stand for studying the processes of combustion and extinguishing of materials is a sealed tank, separated by an internal partition with a hatch on the fire and airlock compartment / 3 /. Inside the compartments, the pressure of a given composition of the gas medium rises. The fire compartment of the stand is equipped with pipelines with fittings for supplying air, oxygen, liquid combustible materials, fire extinguishing compositions, trays for burning liquid combustible substances and vertical removable panels for fixing solid combustible materials.

The main disadvantage of the stand is the inability to maintain a predetermined constant concentration of oxygen and extinguishing agent throughout the fire compartment. Oxygen concentration decreases unevenly as a result of burning liquid fuel in baking sheets and solid materials on panels installed at different points in the compartment. The extinguishing agent is fed into the chamber in the form of several flooded jets, the flows of which with a high concentration can ensure the cessation of combustion until a uniform concentration of extinguishing agent is created in the chamber volume.

The objective of the invention is to improve the accuracy and reliability of determining the parameters of the cessation of combustion at given initial values of high pressure and oxygen content of the gas environment.

This task is achieved by the fact that the reaction cylinder has a remotely controlled double-leaf neck cover, an elevator for lowering and raising a model combustion zone, a device for igniting a combustion zone, pipelines for supplying gases and extinguishing substances, sampling for analysis of components of a gaseous medium and a video surveillance system for a flame.

Figure 1 schematically shows the proposed stand, General view; figure 2 - double-leaf cap of the neck of the reaction cylinder; figure 3 - model focus of combustion.

The stand is a sealed, cylindrical tank 1 with a neck in its upper part, closed from the inside by a cover 14, which rises on the cable 13 with a hand winch. Inside the tank 1, a reaction device is installed. To create the necessary pressure in the tank with a given concentration of oxygen and inert gases, the stand is equipped with pipelines with supply valves 19 and bleed 15 and 31, as well as pipelines 4 and 27 with valves 6 for sampling the gas medium for analysis from reaction cylinder 2. To control the pressure a pressure gauge 21 is designed in the stand. The reservoir 1 is equipped with a safety membrane 28. The reservoir 1 has inspection portholes 26 in which quartz heat-resistant glasses are used.

The reaction device with a cylindrical body 2 on the upper bottom has a neck, which is closed by a cover 33. On the upper bottom of the body 2 there are two racks 10 with a traverse for installing an electric winch 12. The racks 10 simultaneously serve as guides for raising and lowering with an electric winch 12 an elevator 16 with a carriage , a model burning center 5 and a thermocouple 11. On the stand 10, a switch 18 is installed, which, after the lowering of the burning center 5 into the reaction cylinder 2, by means of the lever 17, includes a thermocouple 11 with recording flame eratury 9 on device 20.

For a uniform distribution of the extinguishing agent and the components of the gaseous medium throughout the volume of the reaction cylinder 2, a stirrer 29 with an electric motor is installed on its lower bottom. The temperature control of the gaseous medium in the reaction cylinder 2 is provided by an electric heater 30. For visual observation of the burning and extinguishing of the flame of the model hearth 5, a sight glass 32 is located opposite the porthole 26. A piping with a valve 22 is designed for dosing the extinguishing agent into the reaction cylinder 2, a measuring cylinder 23 with a valve 24 and a transport cylinder 25. The temperature of the gaseous medium in the stand is determined using thermal resistance 7 and recorded on the recorder 3.

Figure 2 shows a view along AA on the top bottom 1 of the reaction cylinder with a neck closed by two lid flaps 2, mounted on blocks 7 and mounted on axles 6. Blocks 7 are connected by flexible tapes 5 to the cores 4 of electromagnets 3. In a permanently closed the position of the sash 2 are due to the action of the forces of the springs 8. The opening of the neck is made by switching on the electromagnets 3 by applying a constant voltage. In this case, the cores 4 are pulled into the coils of the electromagnets 3 and with the help of flexible tapes 5 they turn the blocks 7 with the wings 2 to the required angle, opening the neck.

A general view of the model combustion zone is shown in FIG. 3. A housing 2 is fixed on the base 1, in which the burner 8 is mounted and sealed with a rubber ring 3. The housing 2 is connected by a tube 12 to the reservoir 11, which compensates for the level of combustible liquid in the burner 8. To determine the effect of the flame on the extinguishing efficiency, the burners are interchangeable with different diameters (10-50 mm). To ignite the test fluid, a nichrome spiral 7 is installed on the rotary beam with a bracket, which is fed to the surface of the fluid using an electromagnet 4 with core 5 when a constant voltage is applied to the coil. The flame temperature is measured by thermocouple 9 with a recording on the tape of the potentiometer, and the surface temperature of the liquid is controlled by thermal resistance recorded on the recorder.

To study the processes of stopping combustion, a stand, pipelines, apparatus, and electrical equipment are prepared for the experiment as follows. All recording devices are turned on. With the cover open 14, all remotely controlled devices and mechanisms are checked in action. A combustible liquid with a level of 1-2 mm from the upper cut of the burner is poured into the reservoir of the model combustion zone 5 and the cover 14 of the chamber 1 is closed. The required amount of the extinguishing agent to be studied is fed into the reaction cylinder 2. For this, the extinguishing agent in the required quantity in a gaseous form is first transferred from the transport cylinder 25 into a measuring can 23. under pressure, the valve 24 and the valve on the cylinder 25 are closed, and the valve 22 opens. The pressure drop measured by the pressure gauge 21 determines the amount of extinguishing agent supplied to the reaction cylinder 2, after which the valve 22 closes. The valves 19 are opened, the necessary pressure is created in the chamber 1 and the reaction cylinder 2 with the given composition of the gas medium. According to the thermal resistance 7 on the device 3, the temperature of the gas medium in the stand is determined and, if necessary, the heating pad 30 is turned on. After that, the mixer 29 with the mode set for the given pressure is turned on operation The nichrome spiral 7 is turned on and it is brought to the burner when a constant voltage electromagnet 4 is supplied to the coil, after the flame 8 appears, the spiral 7 is turned off and removed from the burner. With a steady-state combustion mode, which occurs after 60 seconds, by applying a constant voltage to the electromagnets, the throat covers 33 open and the model combustion center 5 on the elevator 16 is lowered into the reaction cylinder 2 at a given speed, after which the covers 33 are closed. When the lower edge of the flame crosses the plane of the upper bottom of the reaction cylinder 2, the contact of the switch 18 of the thermocouple 11 is automatically closed using the bracket 17, on the recorder 20 and the stopwatch, the operator starts reporting the time until the flame goes out. The flame extinguishing moment is recorded visually through the porthole 26 and by a sharp drop in the flame temperature recorded on the recorder of the potentiometer 20. Before opening the covers 33 to lower the model combustion zone 5 into the reaction cylinder 2 and after the cessation of combustion through the pipe 27, gas samples are taken from the flame region and they are analyzed to determine the concentration of extinguishing agent, oxygen and combustion products. At the end of the experiment, the lids 33 are opened, the electric motor 12 is turned on and the elevator 16 with the model combustion zone 5 rises from the reaction cylinder 2, the lids 33 are closed, the pressure is vented by opening the valves 15 and 31, the valves 19 are opened and compressed air is supplied for ventilation of the bench, after which it opens stand cover 14.

Information sources

1. Installation for determining the minimum extinguishing concentration of gas compositions. Fire safety standards, NPB 51-96. M., 1997.

2. Fire chamber for determining the volume of fire extinguishing concentration. Fire safety standards, NPB 51-96. M., 1997.

3. A stand for the study of combustion processes and extinguishing materials. Copyright certificate No. 333952.

Claims (1)

A stand for studying the processes of stopping combustion under conditions of high pressure and oxygen content of the gas medium, containing a durable sealed tank, a reaction cylinder, a model combustion zone, pipelines with fittings for supplying gas components and extinguishing substances, as well as for sampling for analysis, equipment for registration of parameters of the gaseous medium, characterized in that the reaction cylinder has a remotely controlled double-leaf cap of the neck, an elevator lowering and raising the model burning center I and the device for ignition of the burning zone, pipelines for the supply of gases and extinguishing substances, sampling for analysis of the components of the gas medium and the video surveillance system of the flame.

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