RU2482926C1 - Long-range gas-drop jet generator - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to gas-drop jet generation and may be used in fire fighting, agriculture, etc. Proposed device central body is shaped to streamlined drop-shape component with central through hole aligned with body conical part.

EFFECT: higher efficiency of fire fighting.

2 dwg

Description

The invention relates to a technology for generating gas-droplet jets of increased long-range and can be used in fire fighting equipment, agriculture, irrigation and other industries associated with the need to create long-range gas-liquid jets.

The closest object of the claimed device is a device for creating a gas-droplet jet according to the patent of the Russian Federation No. 2107554, which contains a fluid and gas supply system and a gas-dynamic nozzle with a chamber for mixing liquid and gas.

A disadvantage of the known device is the impossibility of increasing, with the help of known means, the range of a gas-droplet jet over 50 m, which is necessary, for example, to extinguish fires in high-rise buildings and high-rise structures.

EFFECT: increased fire extinguishing efficiency by increasing the range of a gas-droplet jet and its fine dispersion when interacting with an object.

This is achieved by the fact that in the device for creating a long-range gas-droplet jet containing fluid and gas supply systems and a nozzle, the fluid supply system is carried out in two directions, including axial fluid supply through the inlet pipe and the confuser and cylindrical nozzle connected in series and coaxial with it, and tangential fluid supply is carried out through a coaxial housing with a cylindrical nozzle in the form of a cylinder-conical sleeve, on the cylindrical part of which a vortex annular chamber is fixed with a nozzle for supplying fluid, while at the edges of the annular chamber there are two rows of fluid supplying tangential channels, each row having at least three tangential channels connecting the annular chamber to the cylindrical cavity of the housing, and in the conical part of the housing to create the increased velocity of the two-phase flow axisymmetrically and coaxially to the body is fixed to the central streamlined body of a drop-shaped shape with a small frontal resistance to the movement of the flow, which is fixed to the inner surface Cavities of the conical part of the casing by means of at least three rods, the gas supply system including a turbocompressor, an annular inlet, coaxial fluid inlet pipe, and a mixing chamber formed by a cylindrical cavity of the casing with rows of tangential channels supplying liquid in it, and a central the teardrop-shaped streamlined body is made with a central through hole coaxial with the conical part of the body.

Figure 1 shows a functional diagram of a device for creating a long-range gas-droplet jet, figure 2 - section aa of figure 1.

A device for creating a long-range gas-droplet jet (Fig. 1) contains a two-way fluid supply system, including an axial fluid supply through a supply pipe 1 and a confuser 3 and a cylindrical nozzle 4 connected in series and coaxial with it. The tangential fluid supply is through a coaxial with a cylindrical nozzle 4 housing 5 in the form of a cylindrical-conical sleeve, on the cylindrical part of which a vortex annular chamber 6 with a nozzle 7 for supplying liquid is fixed, while along the edges of the annular chamber 6 you olneny two rows 8 and 9 of supply fluid tangential channels (2), wherein each row has at least three tangential channel connecting the annular chamber 6 with a cylindrical cavity 10 of the body 5.

In the conical part 11 of the housing 5, in order to create an increased speed of the two-phase flow, the central streamlined body 12 is fixed axisymmetrically and coaxially to the body with a small frontal resistance to the movement of the flow, which is fixed to the inner surface of the cavity 14 of the conical part 11 of the housing 5 by means of at least three rods 13. The central streamlined body of the teardrop shape is made with a Central through hole 15, coaxial with the conical part 11 of the housing 5.

The gas supply system includes a turbocharger (not shown in the drawing), an annular, coaxial fluid supply pipe 1, input 2, and a mixing chamber formed by a cylindrical cavity 10 of the housing 5, with rows 8 and 9 of the fluid supply tangential channels located therein.

A device for creating a long-range gas-droplet jet works as follows.

The device moves to its original position with the help of a vehicle (not shown in the drawing) and is directed towards the object to which the gas-droplet jet is to be supplied by means of the control action of the nozzle movement control system (not shown in the drawing). The turbocompressor unit, which is part of the gas supply system, is turned on, and the accelerated air flow from the output device of the power plant is sent to the gas supply inlet 2 to the mixing chamber 10, where a two-phase flow occurs.

Liquid vortices are injected into the mixing chamber 10 through tangential channels placed in rows 8 and 9, which are mixed with the incoming air flow, resulting in a gas-droplet flow. The maximum values of the air pressure at the inlet to the nozzle and the relative concentration of water in the two-phase flow are selected from the condition of extremely tight packing of water particles in the air flow: gP = 5.7108 Pa, where P is the gas pressure at the inlet to the nozzle; g is the relative concentration of water in a two-phase flow. To achieve the required (over 50 m) range of a gas-droplet jet, the gas (air) pressure at the inlet to the nozzle must exceed P = 5.5105 Pa;

g = Gin / Gin = 4.9,

where Gin = 26 kg / s is the mass flow rate of water; Gvoz = 5.3 kg / s - mass air flow; Tcm = 298 K is the temperature of the two-phase flow; L = 1500 mm - the length of the body 5 of the cylinder conical sleeve; D = 50 microns - the average diameter of water droplets in the air stream.

The two-phase flow created in the mixing chamber 10 with the above parameters is accelerated in the profiled channel with the central body 12. The use of an annular nozzle makes it possible to compact a gas-droplet jet with a relatively uniform distribution of water droplets over the jet cross section.

The results obtained indicate that a two-phase flow, the parameters of which are selected according to the above conditions, is accelerated in the gas-dynamic housing to a speed at which the range of the gas-droplet jet is 65 m.

The proposed invention can be used in various fields of technology where the generation of long-range gas-droplet jets is required, the flight range of which exceeds 50 m. The invention is most effectively used in fire fighting equipment, especially when fighting fires in hard-to-reach centers and objects, and in agriculture during land irrigation.

Claims (1)

A device for creating a long-range gas-droplet jet containing fluid and gas supply systems and a nozzle, the fluid supply system being carried out in two directions, including axial fluid supply through the supply pipe and a confuser and a cylindrical nozzle connected in series and coaxial with it, and a tangential fluid supply through a coaxial housing with a cylindrical nozzle in the form of a cylindrical-conical sleeve, on the cylindrical part of which a vortex annular chamber with a pipe for fluid supply, while along the edges of the annular chamber there are two rows of fluid supplying tangential channels, in each row there are at least three tangential channels connecting the annular chamber to the cylindrical cavity of the housing, and in the conical part of the housing to create an increased two-phase flow velocity axisymmetrically and coaxially with the body, a central teardrop-shaped streamlined body with a small frontal resistance to the flow movement, which is fixed to the inner surface of the conical cavity, is fixed at least three rods, wherein the gas supply system includes a turbocompressor, an annular, coaxial fluid supply pipe, an inlet and a mixing chamber formed by a cylindrical cavity of the housing with rows of fluid supplying tangential channels, characterized in that the central streamlined the teardrop-shaped body is made with a central through hole coaxial with the conical part of the body.

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