RU62828U1 - LIQUID EXTINGUISHING DEVICE IN TANKS - Google Patents

Abstract

The utility model relates to equipment for extinguishing fires, in particular to devices used in fire extinguishing systems of burning liquids in tanks, and can be used in the oil industry. A device for extinguishing a fire of liquids in a tank containing a container for storing liquid carbon dioxide, while it is equipped with a device for producing solid carbon dioxide granules with a diameter of 10-20 mm and a length of 20-30 mm, a piping system, a granule flow generator, and a thermally insulated container, granules are fed to the surface of a burning liquid. The advantage of such an extinguishing installation is its relative simplicity, low material costs and compact loading system.

Description

The utility model relates to equipment for extinguishing fires, in particular to devices used in fire extinguishing systems of burning liquids in tanks, and can be used in the oil industry.

Known devices used in extinguishing fires of burning liquids in tanks, similar to those claimed [1], [2].

The device [1] extinguishes a fire using a foam generator, and an aqueous solution of a foaming agent is used as a fire extinguishing agent.

The disadvantages of the device [1] are the following. Firstly, a large supply of extinguishing agent is needed. Moreover, the foaming agent has an expiration date, after which it loses its quality. Secondly, after putting out the fire, the liquid in the tank becomes unusable and requires disposal. Thirdly, stationary fire extinguishing devices, in most cases, fail in the first minutes of the fire.

The device [2] extinguishes a fire in closed containers on ships, carbon dioxide in liquid state is used as a fire extinguishing agent.

The disadvantage of the device [2] is that it is intended to extinguish only closed volumes.

The objective of the utility model is to increase the efficiency of extinguishing fires of burning liquids in tanks.

The technical result consists in reducing the flow rate and cost of the extinguishing agent, reducing material and environmental damage as a result of extinguishing the fire.

The technical result is achieved in that a device for extinguishing a fire of liquids in a tank containing a container for storing liquid carbon dioxide, while it is equipped with a device for producing granules of solid carbon dioxide with a diameter of 10-20 mm and a length of 20-30 mm, a system

pipelines, a granule flow generator, and a thermally insulated container, the granules being fed to the surface of a burning liquid.

Figure 1 - presents a granule of carbon dioxide.

In figure 2. - Installation diagram for extinguishing fires.

In figure 3. - diagram of the process of extinguishing a burning liquid.

Solid carbon dioxide, in the form of uniform cylindrical granules with dimensions of ⌀ 10-20 mm and a length of 20-30 mm, is used as a fire extinguishing agent to extinguish fires of burning liquids in a tank.

The proposed installation can be mounted permanently or on a truck chassis. The installation consists of a container with liquid carbon dioxide 1, a device for the production of solid granular carbon dioxide 2, a piping system for moving granules 5, a thermally insulated container 3, which is used for the accumulation and storage of granules.

The device operates as follows.

From the tank 1, carbon dioxide in the liquid state is supplied to the device for the production of granules 2. Here, carbon dioxide passing through the pipe space of the heat exchanger 2.1 is supercooled and passes through the throttle device 2.2 into the chamber of the granulator 2.3. Due to a sharp decrease in pressure during throttling, carbon dioxide is transformed from liquid into crystals, which are compressed and squeezed out through calibrated matrix openings in the form of cylindrical granules with dimensions ⌀ 10-20 mm and length 20-30 mm in the zone of granule formation using pressing rollers.

The finished granular carbon dioxide is collected in an isothermal container 3.

The carbon dioxide granules are delivered via line 5 to the inlet line of the granule stream generator 4. They are then driven through the hose by means of a vacuum produced by the ejector nozzle 4.1. A jet of carrier gas, delivered by line 4.2 to the nozzle, is passed through the nozzle. With the corresponding size of the chambers, the gas jet forms a vacuum in

the granule feed chamber by pulling granules into the chamber and accelerating them. As the carrier gas, carbon dioxide in a gaseous state can be used.

Granular carbon dioxide from a granule flow generator is fed through a pipe 4.3 to the surface of a burning liquid.

Due to the intense heat exchange between the liquid and the granules of carbon dioxide solid 1 (figure 3), the sublimation of carbon dioxide solid granular to a gaseous phase occurs. The released gas rushes to the surface of the liquid mirror 2. As a result of the highly developed contact between the tiny bubbles on the surface of carbon dioxide with a combustible liquid, a large difference in the temperature of the gas and liquid, and a large heat capacity of carbon dioxide, there is an active absorption of heat to heat the gas flows to the temperature of the liquid. In addition, active mixing of the layers occurs, which leads to a decrease in the temperature of the surface layer.

In the process of sublimation, a gas shell 3 is formed around the granules, creating a lifting force that lifts the granules to the surface of the liquid. Granules rise to the surface. An additional heat and mass transfer occurs, which reduces the energy reserve of the surface layer. The released gas, penetrating through the boundary of the liquid, accumulates above the surface of the liquid mirror 4. The combustion zone is diluted and cooled.

Due to the action of all the described mechanisms: cooling and mixing of the liquid layers, cooling and dilution of the flame combustion zone, the flame goes out.

The identified extinguishing effect of the proposed installation, provides the elimination of combustion using a minimum amount of carbon dioxide and material costs in comparison with analogues. In addition, the environmental damage from the use of the installation in comparison with analogues is reduced by 20-30 times. The liquid in the tank does not require disposal.

The advantage of such an extinguishing installation is its relative simplicity, low material costs and compact loading system.

Information sources:

1. Copyright certificate No. 1606132, cl. A 62 C 31/00 (analog).

2. Copyright certificate No. 1818108, class. A 62 C 3/10 (prototype).

Claims (1)

A device for extinguishing a fire of liquids in a tank containing a liquid carbon dioxide storage tank, characterized in that it is equipped with a device for producing solid carbon dioxide granules with a diameter of 10-20 mm and a length of 20-30 mm, a piping system, a granule flow generator, and a thermally insulated container moreover, the granules are fed to the surface of the burning liquid.