RU2528545C2 - Pipeline transportation of gases and fluids and device to this end - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to pipeline transportation of gases and fluids. Proposed method consists in creating overpressure of transferred product at pipeline inlet. Note here that transferred product is swirled by swirling activators arranged inside pipeline. Note here that swirling activators are arranged at pipeline joints. At the Earth northern hemisphere, product is swirled clockwise in direction of product transportation. While at southern hemisphere, product is swirled counter clockwise. Transferred product is swirled by activator blades arranged in pipe joint circle. Note here that blade angle to transferred product flow direction varies with design lengthwise rate.

EFFECT: higher efficiency of pipeline transportation of gases and fluids.

6 cl, 7 dwg

Description

The invention relates to the field of construction and transportation of gaseous and liquid products, mainly using main pipelines made of steel or plastic (polyethylene) materials.

There is a known scheme of gas transport through a gas pipeline from a source to a consumer, where a method of transporting gas with creating increased pressure at the inlet of a gas pipeline is implemented, comprising a pipeline with branches, intermediate gas compressor stations, linear valves, gas distribution stations at the outlet of the gas pipeline, underground gas storages. Gas is transported through the existing main pipeline system to the gas distribution station under the pressure created by the intermediate gas compressor stations, to the gas distribution station at the outlet of the main pipeline (KGKyazimov. Fundamentals of gas management: Textbook for medium vocational schools. - 2nd ed., Revised and enlarged. - M .: Higher school, 1987. - 335 s: ill.) - [1].

A disadvantage of the known gas transportation scheme [1] is that it does not assume a combined helical (combination of translational with rotational) gas movement through the pipeline.

The well-known "Installation for extinguishing fire" according to the patent of the Russian Federation for utility model: RU 79044 from 12.20.2008, IPC ⁸ A62C 3/02, F02C 6/00 - [2], including a gas turbine installation, characterized in that as of a gas turbine installation, a turbojet engine is used, preferably an aviation engine that has fulfilled its flight resource, while the engine output nozzle is connected to a tornado chamber, preferably made in the form of a shell, on the inner surface of which blades are placed with the possibility of imparting an outgoing jet to the turbo active engine translational and rotational motion.

Known "Swirler" according to the patent of the Russian Federation: RU 2266155 from 12.20.2005, IPC ⁷ B01D 45/12 - [3], made of a tape mounted inside the pipe, characterized in that the tape is bent in straight lines placed at an angle to the edges the tape, with the formation of the same parallelograms, located on the tape alternately in opposite directions, while the tape is folded into cylindrical coils connected to each other along the longitudinal edges in the form of a hollow pipe, with the formation of the outer and inner surfaces of its unidirectional claimed multistart helical lines and multiple helical surfaces triangular shape.

Known "Swirler" according to the patent of the Russian Federation: RU 2321779 dated 04/10/2008, IPC ⁷ F15D 1/04 - [4], comprising a housing, on the inner wall of which from the inlet side of the fluid flow guide grooves are made, and flanges are installed at the ends, characterized in that the guide grooves are made in the form of petals covering the entire perimeter of the inner surface of the housing, and the number of grooves is determined by the ratio D / 2, where D is the inner diameter of the main pipeline; the height of the groove h is 0.3d, where d is the wall thickness of the main pipeline, while the wall thickness of the body is d + 0.3d, and the length of the grooves in the swirl section is 10-15D, depending on the speed and mode of flow in the pipeline.

Known "Axial-blade swirl" fluid flow in pipelines with rotation according to the patent of the Russian Federation: RU 2142582 from 12/10/1999, IPC ⁶ F15D 1/04 - [5], containing a cylindrical body, inside which are mounted concentrically blades and a central the body, while the swirl is installed directly at the entrance to the turn, the central body is made in the form of a hollow cylinder, characterized in that the ratio of the inner diameters of the body and the casing, as well as the height of the swirl and the inner diameter of the casing, are respectively 0.15-0.25 and 0 , 4-0 , 6, and the number of blades is selected equal to 7 or 8.

The well-known "Vortex Flow Generator" according to the patent of the Russian Federation: RU 2453736 from 06/20/2012, IPC ⁸ F15D 1/04 - [6], made in the form of a gondola with an input device containing a confuser, a diffuser, a swirl chamber, with a twisting device and an output device, while the twisting device is made in the form of guide vanes, characterized in that the guide vanes are installed behind the diffuser at the beginning of the vortex chamber, made separately from the diffuser. The front end of the guide vanes can be connected to the longitudinal walls.

The well-known "Grooved vortex flow generator" according to the patent of the Russian Federation: RU 2453737 from 06/20/2012, IPC ⁸ F15D 1/04 - [7], made in the form of a nacelle with an input device containing a confuser, a diffuser, a swirl chamber, a twisting device and an output device, while the twisting device is made in the form of guide grooves arranged circumferentially on the inner surface of the nacelle, the direction of which is a predetermined angle with the axis of the nacelle, characterized in that the guide grooves are made on the diffuser surface RA behind the neck.

The disadvantage of analogues [2, 3, 4, 5, 6, and 7] is that the methods of swirling the incoming flow of a liquid or gaseous medium that are implemented in them are intended for strictly specific (narrowly targeted) problems and are not aimed at achieving the technical problem solved in the claimed invention, namely, to increase the efficiency of transportation of gaseous and liquid products through pipelines. Namely, to reduce hydraulic (or aerodynamic) resistance, to exclude deposition of solid fractions on bends, in the lower part of pipes, and to reduce acoustic noise during transportation of a liquid (or gaseous) product.

The well-known "Method of draining the liquid" (according to the patent of the Russian Federation: RU 2428093 from 09/10/2011, IPC ⁸ A47K 1/00, E03C 1/00 - [8]) from the sink, creating a fluid movement with foreign inclusions with a variable speed in the cross-section of the drain and squeeze fluid in the drain when draining from the cavity of the bend of the drain pipeline, when the fluid moves along the axis of symmetry of the drain pipeline, it is twisted relative to the axis of symmetry, the centrifugal force of the foreign inclusions moving together with the liquid to the drain pipe forming is less than their pulling force tin, foreign inclusions are moved along with the liquid along the generatrix of the drain pipeline in the plane of the cross section of the drain pipeline and under the influence of gravity, foreign inclusions are moved to the cross-sectional zone of the drain pipeline with a higher velocity of the drain liquid along the axis of longitudinal symmetry of the drain pipeline, the axis of longitudinal symmetry of which is angle not equal to 90 °, with a horizontal plane. The fluid can be twisted by the flow of fluid into the sink, the vector of the force acting on which the fluid has a component tangent to the generatrix of the radial section of the drain pipe. Foreign inclusions can move along the generatrix of the drain pipe to an angle of more than 90 ° in the plane of the cross section of the drain pipe in the direction of movement relative to the lower point of the cavity of the drain pipe.

The disadvantage of the analogue [8] is that the method relates only to the field of plumbing equipment and is used to organize the discharge of water, for example from sinks and containers of plumbing devices installed in industrial and domestic premises. The method works only from gravitational force in the vertical sections of the pipes, and its application in horizontal sections is problematic.

Known methods implemented in "Devices for reducing hydraulic losses in the pipeline" according to the patents of the Russian Federation for utility model: RU 114493 dated 03/27/2012, IPC ⁸ F15D 1/06 - [9] and RU 114494 dated 03/27/2012. , IPC ⁸ F15D 1/06 - [10], which consists in creating excess pressure of the transported product at the inlet to the pipeline and at the same time giving the product rotational activators located inside the pipeline, imparting rotational movement throughout the pipeline. In this case, the devices [9] and [10] contain means for swirling the fluid flow, made of wire in the form of a cylindrical spring with an outer diameter equal to the inner diameter of the pipe, and a step of revolution, determined theoretically, depending on the flow rate of the transported product, and the coil spring is made in the form of an electric heater.

The disadvantage of analogues [9] and [10] is that the rotation activator is installed along the entire length of the pipeline, which significantly increases its material consumption and cost. In addition, the activator, made in the form of an electric heater, requires significant energy costs, which is mainly economically and technologically unjustified.

The prototype of the claimed invention is a method implemented in the "Device for reducing hydraulic losses in the pipeline" according to the patent of the Russian Federation: RU 2285198 dated 10.10.2006, IPC ⁷ F17D 1/20, F15D 1/06 - [11], which consists in that creates excess pressure of the transported product at the inlet to the pipeline and at the same time the product is rotationally distributed throughout the pipeline using rotation activators located inside the pipeline. Moreover, the device for reducing hydraulic losses in the pipeline includes means for swirling the fluid flow, made of wire in the form of a cylindrical spring with an outer diameter equal to the inner diameter of the pipe and a step of revolution determined theoretically, depending on the flow rate of the transported product.

The disadvantage of the prototype [11] is that the rotation activator is installed along the entire length of the pipeline, which significantly increases its material consumption and cost. In addition, the activator, made of wire in the form of a cylindrical spring, has great hydraulic resistance to the transported stream. The fixed installation of a wire in the form of a coil spring along the entire length of the pipeline is also problematic, especially for pipelines of large length and large diameter.

Thus, these drawbacks of analogues and prototype pose the problem (technical result) of increasing the efficiency of transportation of gaseous and liquid products through pipelines by imparting rotational motion to it, as well as simplifying the design of the pipeline with rotation activators and increasing their versatility and manufacturability of manufacturing and installation. This leads to the exclusion (reduction) of deposits of solid fractions on the bends in the lower part of the pipes. As a result, pipe cleaning is eliminated or reduced, and acoustic noise during operation is reduced, which is important for environmental purposes when pipelines cross large rivers, ponds, and seas.

SUMMARY OF THE INVENTION

This problem is achieved by the fact that the method of transporting gaseous and liquid products through pipelines is that they create excess pressure of the transported product at the inlet to the pipeline and the product with the help of rotation activators located inside the pipeline, give rotational movement throughout the pipeline, this rotation activators are located at the joints of the pipelines. In the northern hemisphere of the Earth, rotational motion is given a clockwise direction in the direction of movement of the product, and in the southern hemisphere it is given a direction of motion counterclockwise. In the rotation activators, the transported product is imparted rotational motion by means of guide vanes located around the circumference of the pipeline junction, and the angle of inclination of the vanes to the direction of flow of the transported product is proportional to its calculated longitudinal velocity. Guide vanes in the center of the pipe can be connected to the central cowl. In the activators of the guide vanes can be made adjustable in angle.

A device for implementing the method of transporting gaseous and liquid products through pipelines, comprising a pipeline with inside it activators of rotation of the transported product along the entire length of the pipeline (the entire route or pipeline thread), while the activators of rotation are located at the joints of the pipelines and contain circumferential mounted on their inner surface guide vanes. The rotation activator located at the junction of the pipelines with the guide vanes installed around the circumference on its inner surface may comprise a housing in the form of a pipe section of the abutting pipeline, which is welded into the pipeline on both sides. The rotation activator located at the junction of the pipelines with the guide vanes mounted on a circumference on its inner surface may comprise a body in the form of a pipe segment whose outer diameter is equal to the internal diameter of the pipeline, the inner edges of the cylindrical body are beveled, and the activator housing is fixedly fixed inside the pipeline.

It is known "Device for transporting liquid through a pipeline" according to the USSR copyright certificate: SU 1610194 dated 11/30/1990, IPC ⁵ F17D 1/06 - [12], containing an active organ partially made of ferromagnetic material, and a magnetic field source covering outside the pipeline, the active organ is made in the form of a spiral tape placed in the pipeline near its walls, mounted for rotation around the axis of the pipeline, while the inner surface of the tape is provided with a pile coating in the form of elastic rods.

The disadvantage of the analogue [12] is that it solves the problem of increasing transportation efficiency by aligning the longitudinal component of the velocity plot and preventing sediment insoluble particles from precipitating on the pipeline walls, however, the problem to be solved in the claimed invention is to give the flow of the pumped product not only translational motion, but also rotational. At the same time, the use of a spiral tape located in the pipeline near the walls of the pipeline, mounted with the possibility of rotation around the axis of the pipeline, is inefficient, has low manufacturability and reliability, as well as high cost.

Known "Device for creating a swirling cavitation flow in the pipeline" according to the patent of the Russian Federation for utility model: RU 55090 from 06/27/2006, IPC ⁷ B01D 1/20 - [13], containing rolling bearings, sliding seals, guide vanes and a curved section of the pipeline , the hollow cylindrical body of variable cross section has a smooth narrowing, which creates a cavitation threshold, and a continuous diffuser, along the inner diameter of which guide vanes are located, giving the thread additional twisting.

The disadvantage of the analogue [13] is that it is designed to preserve the dispersed composition of the transported liquid and reduce precipitation in the piping system and, in particular, to reduce precipitation by mixing the stream during transportation of media containing paraffin particles. In addition, the device is complex in design and has two bearing units and a rotating section of the pipeline, which will not allow for the tightness of the pipeline itself, especially medium and high pressure.

Additionally known "Dispersants of impurities in the fluid", for example, according to the patents of the Russian Federation: RU 2215202 from 10.27.2003, IPC ⁷ F15D 1/00, F17D 1/20 - [14] and according to RU 2215203 from 10.27.2003, IPC ⁷ F15D 1/00, F17D 1/20 - [15], containing a device installed in the gap (flange joint) of the pipeline, made in the form of two rims mounted in series along the fluid flow, the first rim on the inner surface side is made with a blade rim for swirling fluid flow, and the second rim is made from the side of the inner surface with crossbars, on which resonant plates cantileverly fixed along the fluid flow, the free end facing the first rim, the second rim mounted in the bore of the cylindrical spacer, the latter made with flanges at the edges, the first rim fixed on the pipeline between the pipe flange and the spacer flange on the flow inlet side fluid in the dispersant, the second rim is fixed in the bore by the pipe flange when it is connected to the spacer flange, the inner diameter of the spacer and the rims is equal to the inner diameter pipeline in place of the dispersant system.

The disadvantage of the devices according to [14] and [15] is that they are not intended to reduce hydraulic losses during the transportation of products through the pipeline, but to grind the impurities present in them (dispersion of impurities in a fluid and emulsification of liquid impurities by ensuring stable cavitation regimes the flow of suspensions and emulsions to reduce their viscosity), although in them and the claimed technical solution there are guide vanes for swirling the flow.

The introduction into the claims of the sign “rotational activators are located at the joints of pipelines” is necessary in order to increase the manufacturability of manufacturing pipelines with rotational activators and thereby reduce the material consumption of pipelines with activators and increase the efficiency of product transportation.

The introduction of the sign “in the northern hemisphere of the Earth gives a clockwise direction in the direction of product movement, and in the southern hemisphere - gives a counterclockwise direction” is necessary in order to use the Earth’s rotation energy (Coriolis force), which will not interfere with the rotational the movement of the pumped medium, and, therefore, to minimize losses on the organization of rotational motion.

The introduction of the sign “in rotational activators, the transported product is imparted rotational motion by means of guide vanes located around the circumference of the pipeline junction, and the angle of inclination of the blades to the direction of flow of the transported product is proportional to its calculated longitudinal velocity” is necessary in order to create a passive rotation activator for the transported a product that takes full advantage of the use of guide vanes, such as turbine blades.

The introduction of the sign “guide vanes in the center of the pipeline is connected on the central fairing” is necessary in order to maximize the use of the central high-speed flow of the transported product to give it a rotational movement.

The introduction of the sign “in the activators the guide vanes are adjustable in angle of inclination” is necessary in order to increase the universality of the rotation activators and their functionality by creating the possibility of changing the angle of inclination of the guide vanes when installing them in the pipeline, for example, by bending them to create the optimal rotation mode of the pumped products.

The introduction of the characteristic “device for implementing the method of transporting gaseous and liquid products through pipelines, comprising a pipeline with rotational activators of the transported product located inside it along the entire length of the pipeline, while rotational activators are located at the joints of the pipelines and contain guide vanes mounted around a circle on their inner surface” necessary in order to implement the claimed method above to improve the manufacturability of pipelines with an asset rotation proof operation and improve transport of products. In this case, it is assumed in the rotation activators for transported products to use all the advantages of using guide vanes, for example, turbine ones.

The introduction of the sign “a rotational activator located at the junction of pipelines with guide vanes mounted around a circle on its inner surface comprises a body in the form of a pipe segment of a joined pipeline that is welded into the pipeline on both sides” is necessary to simplify the manufacturing technology of the rotator activator housing, which is a short section (section, cut) of the pipeline.

The introduction of the sign “the rotation activator located at the junction of the pipelines with the guide vanes installed around the circumference on its inner surface, contains a casing in the form of a pipe segment whose outer diameter is equal to the inner diameter of the pipeline, the inner edges of the cylindrical casing are beveled, while the activator casing is fixedly fixed inside the pipeline at joint or in the joint of the pipeline ”is necessary so that the housing of the activator of rotation can be fixedly installed in the joint of the pipeline.

Figure 1 schematically shows an activator of rotation of the transported product in the form of turbine blades with a casing in the form of a section of pipe of the joined pipeline, which is welded into the pipeline on both sides. Figure 2 is a section of figure 1 along aa. Figure 3 - rotation activator in the housing in the form of a pipe segment, the outer diameter of which is equal to the inner diameter of the pipeline, which is fixedly fixed inside at the joint of the pipeline at the weld. Figure 4 is a section of figure 3 on BB. Figure 5 - rotation activator of figure 3, which is fixedly fixed inside at the junction of the pipeline under the weld. Figure 6 - rotation activator, the guide vanes of which in the center of the pipeline are connected to the central fairing. In Fig.7 is a section of Fig.6 on BB.

A device for implementing the proposed method is schematically represented in figures 1 and 2, where a rotation activator installed at the junction of pipelines 1 and 2, the housing 3 of which is made in the form of a pipe segment of joined pipelines 1 and 2 for the transported product. The housing 3 by a known technology is hermetically connected to the pipelines 1 and 2, for example, by welding, welding seams 4. In the housing 3 along the circumference of its inner surface guide vanes 5 are fixedly mounted, for example, turbine ones. The number of guide vanes 5 can be any, for example 2 ... 12. The angle of inclination of the guide vanes to the direction of flow of the transported product, depending on the estimated flow rate, is determined in advance, the angle of inclination can be 5 ... 85 °.

A device for implementing the inventive method can be made with a rotation activator in the housing 6, made in the form of a pipe segment, the outer diameter of which is equal to the inner diameter of the pipeline, as shown in figures 3 and 4. The inner edges of the cylindrical body 6 are beveled, that is, have bevels 7 with both sides over its entire thickness, to give the inner surface of the housing 6 streamlining and reduce hydraulic and aerodynamic drag of the transported product. In this case, the activator body 6 is fixedly fixed (for example, by interference, during its fit, welding, etc.) inside the pipeline at the joint of the pipeline at the weld 4. In figures 3 and 4, the housing 6 is installed in the pipeline 1 in junction with the pipe 2 at weld 4, which can be technologically justified when installing the housing 6 in the pipeline 1 in the factory. In figure 5, the housing 6 is installed at the junction of pipelines 1 and 2 under the weld 4, which facilitates the installation of the activator at the site of assembly of the pipeline and additionally helps to center the connected pipelines 1 and 2 when they are sealed.

In figures 6 and 7 presents the implementation of the method according to dependent clause 2 of the claims with guide vanes 5, which are in the center of pipelines 1 and 2, as in figures 1 and 2, but connected to the central fairing 8. This design solution allows maximum use of the central the flow of the transported product, which has a maximum flow velocity to give it a rotational movement. The structural implementation shown in figures 6 and 7 is also possible with the housing 6 in figures 3, 4 and 5.

Creating the ability to adjust the angle of inclination of the guide vanes 5 according to dependent clause 3 of the claims (not shown in the figures) when installing rotation activators will significantly increase the versatility of rotation activators and their functionality. When installing rotation activators in the pipeline, it will be possible to change the angle of inclination of the guide vanes of the pumped product and thereby create the optimal mode of its rotation during pumping.

The combination of features of the claimed invention improves the efficiency of transportation of gaseous and liquid products through pipelines by giving it a rotational movement. The design of the pipeline with rotation activators is also simplified and their versatility, manufacturability of manufacturing and installation are increased.

All this leads to the exclusion (reduction) of deposits of solid fractions on the bends in the lower part of the pipes. As a result, pipe cleaning is eliminated or reduced, and acoustic noise during operation is reduced, which is important for environmental purposes when pipelines cross large rivers, ponds, and seas.

Thus, the implementation of the method of reducing hydraulic and aerodynamic losses in the pipeline and the device for its implementation, together with the foregoing features of the claims, is new for the technology of transporting products in pipelines, for various industries and, therefore, meets the criterion of "novelty".

The above set of features is unknown at this level of technology and does not follow from well-known rules for designing pipelines for transporting liquid and gaseous products, which proves compliance with the criterion of "inventive step".

The constructive implementation of the claimed invention with the specified set of features does not present any structural, technical and technological difficulties, whence the compliance with the criterion of "industrial applicability" follows.

Information sources

1 KG. Kyazimov. Fundamentals of gas economy: Textbook. for environments prof. schools. - 2nd ed., Revised. and add. - M .: Higher. school., 1987. - 335 p.: ill.

2. Patent of the Russian Federation for a utility model: RU 79044 dated 12/20/2008, IPC ⁸ A62 C3 / 02, F02C 6/00, “Fire extinguishing installation”.

3. Patent of the Russian Federation: RU 2266155 dated 12/20/2005, IPC ⁷ B01 D45 / 12, "Swirler."

4. Patent of the Russian Federation: RU 2321779 dated 04/10/2008, IPC ⁷ F15D 1/04, “Swirler”.

5. Patent of the Russian Federation: RU 2142582 dated 12/10/1999, IPC ⁶ F15D 1/04, “Axial-blade swirler”.

6. Patent of the Russian Federation: RU 2453736 dated 06/20/2012, IPC ⁸ F15D 1/04, “Vortex flow generator”.

7. Patent of the Russian Federation: RU 2453737 from 06/20/2012, IPC ⁸ F15D 1/04, “Grooved vortex flow generator”.

8. Patent of the Russian Federation: RU 2428093 dated 09/10/2011, IPC ⁸ A47K 1/00, Е03С 1/00, “Method for draining a liquid”.

9. Patent of the Russian Federation for a utility model: RU 114493 dated 03/27/2012, IPC ⁸ F15D 1/06, “Device for reducing hydraulic losses in a pipeline”.

10. Patent of the Russian Federation for a utility model: RU 114494 dated 03/27/2012, IPC ⁸ F15D 1/06, “Device for reducing hydraulic losses in a pipeline”.

11. Patent of the Russian Federation: RU 2285198 dated 10.10.2006, IPC ⁷ F17D 1/20, F15D 1/06, “Device for reducing hydraulic losses in the pipeline” - prototype.

12. USSR author's certificate: SU 1610194 dated November 30, 1990, IPC ⁵ F17D 1/06, “Device for transporting liquid through a pipeline”.

13. Patent of the Russian Federation for a utility model: RU 55090 dated 06/27/2006, IPC ⁷ B01D 1/20, “Device for creating a swirling cavitation flow in a pipeline”.

14. Patent of the Russian Federation: RU 2215202 dated 10.27.2003, IPC ⁷ F15D 1/00, F17D 1/20, “Dispersant of impurities in a fluid”.

15. Patent of the Russian Federation: RU 2215203 dated 10.27.2003, IPC ⁷ F15D 1/00, F17D 1/20, “Dispersant of impurities in a fluid”.

Claims (6)

1. The method of transporting gaseous and liquid products through pipelines, which consists in creating excess pressure of the transported product at the inlet to the pipeline and the product using rotational activators located inside the pipeline, give the rotational movement throughout the pipeline, characterized in that rotation activators are located at the joints of pipelines, in the northern hemisphere of the Earth, rotational movement is given a clockwise direction in the direction of movement of the product, and to the south in the hemisphere — they give the direction of movement counterclockwise, while in the rotation activators the conveyed product is imparted rotational movement with the help of guide vanes located around the circumference of the pipe joint, and the angle of inclination of the vanes to the direction of flow of the transported product is proportional to its estimated longitudinal speed. 2. The method according to claim 1, characterized in that the guide vanes in the center of the pipeline are connected on the central fairing. 3. The method according to claim 1, characterized in that in the activators the guide vanes are adjustable in angle. 4. A device for implementing the method of transporting gaseous and liquid products through pipelines according to claim 1, comprising a pipeline with activators of rotation of the transported product located inside it along the entire length of the pipeline, characterized in that the activators of rotation are located at the joints of the pipelines and contain circumferentially mounted the inner surface of the guide vanes. 5. The device according to claim 4, characterized in that the rotation activator located at the junction of the pipelines with the guide vanes installed around the circumference on its inner surface comprises a body in the form of a pipe section of the joined pipeline, which is welded into the pipeline on both sides. 6. The device according to claim 4, characterized in that the rotation activator located at the junction of the pipelines with the guide vanes installed around the circumference on its inner surface comprises a pipe segment, the external diameter of which is equal to the internal diameter of the pipeline, the inner edges of the cylindrical body are beveled, this activator housing is fixedly fixed inside the pipeline.

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