RU148519U1 - FOAM GENERATOR FOR THE TANK FOR SAFE STORAGE OF LIQUID EXPLOSIVE GOODS - Google Patents

Abstract

A foam generator for a tank for the safe storage of liquid explosive goods, comprising a housing, a distribution and a guiding device, the housing being made in the form of a cylindrical shell with circular stiffening ribs along the edges, pressed on the shell in the form of circles of a hemispherical profile and mounted on two horizontal supporting strips with mounting holes moreover, on the one hand, a foam dispenser is attached to the housing by means of at least three spokes located along the generatrices of the truncated conical surface, axisymmetric and coaxial cylindrical shell, with one large base of the conical surface is the base of the cylindrical shell of the body, and the other smaller is the foam dispenser, which has the form of a coaxial cylindrical shell of the shell of the toroidal surface connected to a vertically arranged relative to horizontal strips with an inlet pipe with a flange at one end and a plug at the other, while the inlet pipe divides the toroidal surface into e symmetrical parts, and perpendicular to the inlet pipe and coaxially to the horizontal axis of the toroidal surface of the distributor, there is an additional pipeline with plugs at both ends, inscribed in the inner contour of the toroidal surface of the distributor, the diameters of the internal cavities of the toroidal surface and the input and additional pipelines being equal to each other, and the cavities themselves interconnected, and to the internal cavities of the toroidal surface, inlet and additional pipelines

Description

The utility model relates to means for the safe storage of liquid cargo such as petroleum products and is an effective device in case of emergency.

The closest in technical essence of the proposed design is a steel cylindrical tank according to the patent of the Russian Federation No. 2121048, including a wall, bottom, roof and foam generators located in the upper part of the tank wall (prototype).

The disadvantages of the known technical solution is that in the event of an emergency fire situation, the thrust seam between the roof and the wall does not fully open, and the foam generators located in the upper zones of the tank wall do not provide foam distribution over the entire surface of the product, which reduces the fire fighting efficiency.

In addition, the location of the foam generators in the upper zones of the wall reduces the used tank volume by 10-12%. In the event of an emergency ignition of the product inside the tank, for example, as a result of sparking, the overpressure sharply increases and the paint stains together with the wall from the ground, and after the installation of the mounting stop joint between the roof and the wall is partially opened, the pressure inside the tank drops and the tank itself drops sharply belts with edges are deformed up to a gap, which leads to oil spills.

A technically achievable result is an increase in the reliability of safe storage of liquid cargo such as oil products by preventing the destruction of the tank due to the effective spraying of foam over the entire surface of the stored product.

This is achieved by the fact that in the foam generator for the tank for the safe storage of liquid explosive cargo containing a housing, a distribution and a guiding device, the housing is made in the form of a cylindrical shell with circular stiffeners along the edges, pressed on the shell in the form of hemispherical profile circles and mounted on two supporting horizontal strips with mounting holes, and on one side of the housing is connected a foam dispenser by at least three spokes, located along the generatrices of the truncated conical surface, the axisymmetric and coaxial cylindrical shell, with one large base of the conical surface being the base of the cylindrical shell of the body, and the other smaller is the foam dispenser, which has the form of a coaxial cylindrical shell of the shell of the toroidal surface connected to vertically the inlet pipe located relative to the horizontal bars with a flange at one end and a plug at the other, while the inlet pipe divides the oidal surface into two symmetrical parts, and perpendicular to the inlet pipe and coaxially to the horizontal axis of the toroidal surface of the distributor, there is an additional pipeline with plugs at both ends, fit into the inner contour of the toroidal surface of the distributor, and the diameters of the internal cavities of the toroidal surface and the input and additional pipelines are equal to each other , and the cavities themselves are interconnected, and to the internal cavities of the toroidal surface, input and additional pipelines connected from the side of the cylindrical shell of the housing and parallel to its axis, bends: shortened, medium and long, ending with spray nozzles oriented to a guiding device, which consists of internal and external generating grids, which are made in the form of coaxial truncated conical surfaces having one a common base in the form of a first rigid ring of a circular profile connected by at least three spokes located along the generators of the external truncated conic th surface, with one of the bases of the cylindrical shell of the housing, the inner generating grid having a second rigid ring of circular profile connected to the first rigid ring by at least three spokes located along the generatrices of the inner truncated conical surface, and located in front of the base of the cylindrical shell the housing from the side opposite to the distributor, each of the spray nozzles contains a hollow cylindrical housing connected to the divider, the housing consists of cylindrical part with an external thread for connecting to the nozzle of the distribution pipe for fluid supply, and an internal thread for connecting to the divider by means of a disk and a ring rigidly connected to it through a round plate in which a groove is made in a spiral of Archimedes, having a twist direction matching the direction of twist the fluid flow of the swirler, located with a gap relative to the inner cylindrical surface of the housing, and is fixed in its lower part by means of, rigidly attached to it, a circle a plate with a lower screw having a head made in the form of a conical fairing, while the swirl is made in the form of a sleeve with a screw external thread with a large step of the trapezoidal profile, and an internal thread, which includes the threaded part of the conical fairing in the upper part of the swirl, and a cylindrical chamber serves to supply fluid, and coaxially with the lower screw, a spray gun is attached to its head with a conical fairing in the form of a perforated conical bell, the top of the cone of which is facing towards fairing of the lower screw.

In FIG. 1 shows a General view of the reservoir device; in FIG. 2 is a plan view of FIG. one; in FIG. 3 is a diagram of a foam generator, FIG. 4 is a diagram of a foam generator nozzle.

The foam generator for the tank for safe storage of liquid explosive goods contains a tank (Fig. 1 and 2), consisting of a wall 1, a bottom 2, a roof 3, fire panels 4, pipes 5 for supplying foam into the tank, foam generators 6 with nozzles 7 directed under different corners. On the shields 4, hatches 8 with covers 9 are also mounted, to which rods 10 are attached to open them from the zone outside the enclosure of the tank. Each shield also has a skin with weakened welds 11 and a service area 12, and the thickness of the skin of the weakened portion is from 1 to 0.5 of the thickness of the skin of the shield.

The foam generator (Fig. 3) consists of a housing 13 made in the form of a cylindrical shell with circular stiffeners at the edges (not shown in the drawing), pressed on the shell in the form of circles of a hemispherical profile. The housing is mounted on two horizontal support strips 2 with mounting holes (not shown in the drawing).

On the one hand, a foam dispenser 15 is connected to the housing 13 through at least three spokes 16 located along the generatrices of the truncated conical surface, an axisymmetric and coaxial cylindrical shell, the base of the cylindrical shell of the housing 13 being one large base of the conical surface, and another smaller one is a foam dispenser 15, which has the form of a coaxial cylindrical shell of the housing 13 of the toroidal surface connected to a vertically arranged relative to the horizontal ontal straps 14 inlet pipe 17 with a flange at one end and a plug at the other (not shown). In this case, the inlet pipe 17 divides the toroidal surface into two symmetrical parts 19 and 20. Perpendicular to the inlet pipe 17 and coaxially with the horizontal axis of the toroidal surface of the distributor 15, an additional pipe 18 with plugs at both ends (not shown) is inserted into the toroidal contour the surface of the distributor 15, and the diameters of the internal cavities of the toroidal surface and the input 17 and additional 18 pipelines are equal to each other, and the cavities themselves are interconnected Oh. Moreover, to the internal cavities 19 and 20 of the toroidal surface, inlet 17 and an additional 18 pipelines, bends are connected from the side of the cylindrical shell of the housing 13 and parallel to its axis: shortened 23, medium 22 and long 21, ending with spray nozzles 24 oriented to the guiding device 28.

The guide device 28 consists of an inner 27 and an outer 25 generating grids, which are made in the form of coaxial truncated conical surfaces having one common base in the form of a first rigid ring of circular profile connected by at least three spokes 26 located along the generatrices of the outer 25 a truncated conical surface, with one of the bases of the cylindrical shell of the housing 13. The inner 27 generating grid has a second rigid ring of circular profile connected to the first rigid ring by, of at least three spokes (not shown) arranged along the generatrices of the frustoconical inner surface 27, and arranged in front of the base of the cylindrical shell body 13 on the side opposite the distributor 15.

Each of the spray nozzles 24 (Fig. 4) contains a housing consisting of a cylindrical part 29 with an external thread for connecting to a nozzle of a distribution pipe (not shown) for supplying liquid, and an internal thread for connecting to a divider 36 via a disk 34 and rigidly the associated ring 37 through a circular plate 38, in which a groove is made in a spiral of Archimedes, having a twist direction coinciding with the direction of twist of the fluid flow of the swirler 31. The swirl 31 is located with a gap relative to the inside the lower cylindrical surface of the housing 29, and is fixed in its lower part by means of, rigidly attached to it, a circular plate 38 with a lower screw 39 having a head made in the form of a conical fairing. The swirl 31 is made in the form of a sleeve with a screw external thread with a large step of a trapezoidal profile, and an internal thread 33, which includes the threaded part of the conical fairing 30 in the upper part of the swirl 31. The cylindrical chamber 32 serves to supply fluid. Coaxially with the lower screw 39, a spray gun 35 is attached to its head with a conical fairing in the form of a perforated conical bell whose apex of the cone faces the conical fairing of the lower screw 39.

Foam generator for a tank for safe storage of liquid explosive cargo works as follows.

The foam generator is installed directly above the zone of possible ignition, the length of the created jet in the horizontal or vertical position of the generator does not exceed 1.8 m. In the event of a fire, the pumping unit (not shown in the drawing) supplies the foam generator solution from the metering tank or fire truck to the inlet pipe 17 of the foam generator from where it is fed through the distributor 15 of the foam solution under pressure to the taps 21, 22, 23, the nozzles 24 of which form atomized jets. The jets from the short taps 23 fall on the external generating grid 25, and from the long 21 and middle 22 taps - on the inner grid 27.

The nozzle is as follows.

When the fluid is supplied to the housing 29 under the influence of a pressure drop of 0.4 ... 0.8 MPa, vortex flows of fluid are created in the chamber 32 due to the swirler 31, which flow into the divider 36, made in the form of a groove in a spiral of Archimedes where vortex flows of fluid are created, rushing towards atomizer 35, which ensures the generation of atomized fine fluid flows.

At the beginning of the plume, the sprayed spray of the foaming agent solution has the highest speed and when it gets on the mesh, foam with small bubbles (2 ÷ 3 mm across) is formed, with the distance from the nozzle, the jet velocity drops and then foam with larger bubbles forms on the mesh (4 ÷ 12 mm across). Thus, the foam generator produces polydisperse (differently sized for bubbles) foam, which has the property of rapid spreading over the surface.

Tests have shown that even in conditions of intense smoke, foam is formed in predetermined volumes and has good resistance to decay.

As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. It also works on a 6% aqueous solution of fluorinated foaming agent "Sublayer" in the conditions of smoke in the room.

The foam generator is intended for automatic fire extinguishing systems of closed technological rooms (supplying foam to the place of ignition), where vapor and gas mixtures can form, for example, in pump rooms of pumping stations, pressure control chambers, etc.

The foam generator works efficiently with the following optimal technical parameters:

The working pressure of the foaming agent, MPa 0.9 ± 0.1 Foaming agent solution consumption, l / s, not less 3,5 Productivity on foam, m ³ / s, not less 1.4 Multiplicity of foam, not less 400

In the event of an emergency fire situation inside the tank by remote control of the traction 10, all interlocked covers 9 of the manholes 8 are opened, thereby relieving excess pressure inside the tank. In case of insufficient pressure relief through the covers 9 of the hatches 8, the weakened seams of the sections 11 of the fire panels 4 are opened.

In this case, the nozzles 7 of the foam generators 6, located at different angles, provide foam covering the entire surface and effective extinguishing of the fire. However, the transfer of foam generators 6 from the wall 1 of the tank to its roof 3 allows you to increase the used volume of the tank by 10-12%.

An advantage of the invention is: prevention of destruction of reservoir structures by timely overpressure relief through covers and weakened roof sections, more effective fire fighting due to rational supply of foam to the surface of the stored product, elimination of erosion of the stored product and increase in the used volume of the tank by transferring foam generators from the tank wall to the roof .

Claims (1)

A foam generator for a tank for the safe storage of liquid explosive goods, comprising a housing, a distribution and a guiding device, the housing being made in the form of a cylindrical shell with circular stiffening ribs along the edges, pressed on the shell in the form of circles of a hemispherical profile and mounted on two horizontal supporting strips with mounting holes moreover, on the one hand, a foam dispenser is attached to the housing by means of at least three spokes located along the generatrices of the truncated conical surface, axisymmetric and coaxial cylindrical shell, with one large base of the conical surface is the base of the cylindrical shell of the body, and the other smaller is the foam dispenser, which has the form of a coaxial cylindrical shell of the shell of the toroidal surface connected to a vertically arranged relative to horizontal strips with an inlet pipe with a flange at one end and a plug at the other, while the inlet pipe divides the toroidal surface into e symmetrical parts, and perpendicular to the inlet pipe and coaxially to the horizontal axis of the toroidal surface of the distributor, there is an additional pipeline with plugs at both ends, inscribed in the inner contour of the toroidal surface of the distributor, the diameters of the internal cavities of the toroidal surface and the input and additional pipelines being equal to each other, and the cavities themselves interconnected, and to the internal cavities of the toroidal surface, inlet and additional pipelines taps from the side of the cylindrical shell of the body and parallel to its axis, bends: shortened, medium and long, ending with spray nozzles oriented to the guiding device, which consists of internal and external generating grids, which are made in the form of coaxial truncated conical surfaces having one common base in in the form of a first rigid ring of a circular profile connected by at least three spokes located along the generators of the external truncated conical surface with one of the main of the cylindrical shell of the housing, and the inner generating grid has a second rigid ring of circular profile connected to the first rigid ring by at least three spokes located along the generatrices of the inner truncated conical surface, and located in front of the base of the cylindrical shell of the housing from the side opposite to the distributor characterized in that each of the spray nozzles comprises a hollow cylindrical body connected to a divider, the body consists of a cylindrical h Parts with an external thread for connecting to the nozzle of the distribution pipe for fluid supply, and an internal thread for connecting to the divider by means of a disk and a ring rigidly connected to it through a round plate in which a groove is made in the Archimedes spiral, having a twist direction matching the direction of flow twist fluid swirl, located with a gap relative to the inner cylindrical surface of the housing, and is fixed in its lower part by means of rigidly attached to it, a round plate the bottom screw having a head made in the form of a conical fairing, while the swirl is made in the form of a sleeve with a screw external thread with a large pitch of the trapezoidal profile, and an internal thread, which includes the threaded part of the conical fairing in the upper part of the swirl, and the cylindrical chamber serves for supplying fluid, and coaxially with the lower screw, a spray gun in the form of a perforated conical bell is connected to its head with a conical fairing, the top of the cone of which is facing conically of the lower fairing screws.

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