RU2676040C1 - Device for the pipelines cavity cleaning by blowing - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the oil and gas industry, and can be used for the main pipelines cleaning after their construction. Pipelines cleaning device by means of blowing includes housing (1), made in the form of two perpendicularly connected hollow metal cylinders and having input and two output openings. On each of the housing output openings a fixed with a bolt (4, 5) cover (2, 3) is installed. Both bolts are interconnected in the housing cavity by means of coupling (6). Above each of the bolts, a safety bar (9, 10) is installed, mounted on the corresponding cover. One of the bolts is made with possibility of destruction with necessary pressure in the housing development. Each of the covers is equipped with the mounting lug (13, 14).EFFECT: expansion of the pipelines cavity cleaning by blowing technical means range, increase in the pipeline cleaning efficiency, as well as increase in the cleaning process reliability and safety.1 cl, 1 dwg

Description

The invention relates to the oil and gas industry and can be used to clean trunk pipelines after their construction.

During the construction of pipelines, a significant amount of contamination remains in their cavity. These can be soil particles, sand, welding beads, scale, electrode residues, etc. In order to clean the cavity of the linear part of the main pipelines from the listed contaminants, in-pipe treatment devices are passed through the pipeline section. To this end, cameras for starting and receiving treatment devices are provided on the main pipelines.

However, in addition to the main pipe, pipes of smaller diameter and complex spatial configuration are present on the main pipelines, such as bends to consumers, strapping of crane units and other technological pipelines. After the completion of construction, contamination may remain in these pipes, subsequently leading to damage to the shutoff elements of the pipe fittings during its initial opening during the operation of the main pipeline.

The cleaning of such pipes using in-pipe devices is difficult due to the presence of steeply bent bends and a small length.

This problem is especially relevant for gas pipelines, because in them the speed of the product is much higher than in pipelines transporting liquid media, and also because on main gas pipelines not ball valves or wedge gate valves are used, but ball valves that are susceptible to erosion wear. One of the ways to solve this problem may be blowing piping piping crane units after completing their strength tests pneumatically. However, to perform such a purge, it is necessary to open one of the piping taps, which allows the contents of the pipelines to be released onto the purge plug. But it is precisely at this moment that the most intense erosion wear of the stop valve of the crane — the ball — will occur. Subsequently, such a damaged ball will no longer be able to ensure the tightness of the gas flow shutoff by the tap.

Thus, it is obvious that during the purge process, and especially at its beginning, all valves must be in the open position. To ensure this condition, an additional valve can be temporarily welded at the end of the purged pipeline, which is opened after reaching the pressure necessary for purging. After purging, the tap is cut off with a portion of the pipe. The described solution is sometimes used in the practice of constructing gas pipelines, however, it should be borne in mind that such a valve is a consumable item, since the blowdown damages itself, which significantly increases construction costs.

There is a method of cleaning the cavity of pipelines by blowing (BCH 011-88 Construction of main and field pipelines. Cleaning the cavity and testing. M: Minneftegazstroy, 1990, p. 17), in which they purge using standard shut-off and control valves, which leads to it failure

A known method of cleaning the cavity of pipelines by blowing (SP 111-34-96 Code of practice for cleaning the cavity and testing gas pipelines. M: RAO "Gazprom", 1996, p. 29), in which the purge is performed using high-performance compressors based on aviation engines, which complicates the purge process and increases the capital costs of pipeline construction.

Closest to the proposed device (prototype) is the device used in the method of cleaning the pipeline path (RF patent No. 2212958, BB 5/02, publ. 09/27/2003) by blowing it with gas. Plugs are installed in the inlet and outlet of the pipeline, and a plug made of rubber, which is destroyed at design pressure, is installed in the outlet. Then pressure is injected into the cavity of the pipeline. However, the rubber used in the known solution for the manufacture of a collapsing plug has poorly predicted strength properties, which, in addition, depend on the ambient temperature at the time of work, which can be in the range of -40 ° C to 40 ° C. As a result of this, destruction of the plug can occur long before the required pressure is reached, or, conversely, at a pressure significantly exceeding the required pressure. Then the purge will be performed inefficiently (at low pressure), or there will be an excessive consumption of fuel and machine hours of the compressor unit used to pump air into the pipeline (at too high a fracture pressure).

In addition, it should be borne in mind that, due to the anisotropy of the properties of the plug material, when the pressure builds up in the pipeline, the plug may break off at its weakest point with the formation of a small leak, and only then will the plug be completely destroyed, which will reduce the initial impulse that occurs when purge and, as a consequence, the effectiveness of the purge itself.

Also, the known device does not provide compensation for the dynamic load on the blown pipe arising in the axial direction at the time of destruction of the plug, which does not allow the device to be installed on loose pipelines, or on pipelines having a bend in front of the blown end, since the recoil that occurs when the plug is broken can bend or damage the loose purge pipe.

In addition, the welding of flanges from both ends of the pipeline being cleaned is not technologically justified, since the pipeline sections during construction are already limited by power plugs.

The problem to which the invention is directed is the development of a device for the effective cleaning of the cavity of pipelines, including pipelines with a diameter of DN 300 and less, having a complex spatial configuration and steeply bent branches, by blowing with a stream of air at high speed.

The technical result, the achievement of which the present invention is directed, is to expand the arsenal of technical means for cleaning the cavity of pipelines by blowing, increasing the efficiency of cleaning the pipeline due to the ability to set the response pressure of the device with sufficiently high accuracy, as well as increasing the reliability and safety of the cleaning process by eliminating the possibility damage to the pipeline during the cleaning process.

The specified technical result is achieved due to the fact that the device for cleaning pipelines by blowing, including a housing made in the form of two perpendicularly connected two hollow metal cylinders, having an inlet and two outlet openings, with a cover fixed to each of the outlet openings of the housing fixed with a bolt . Both bolts are interconnected in the body cavity by means of a coupling, and a safety bar is mounted over each of the bolts, mounted on the corresponding cover. One of the bolts is made with the possibility of destruction when creating the necessary pressure in the housing. Each of the covers is equipped with a fixing earring.

The drawing shows a section of the proposed device.

A device for cleaning pipelines by blowing consists of a housing 1 having one inlet and two outlet openings made of two hollow metal cylinders, for example, of two pieces of steel pipes rigidly connected, for example, by welding, perpendicular to each other. On the outlet openings, covers 2 and 3 are mounted, fixed on the housing 1 by a bursting bolt 4 and a fixing bolt 5, respectively. An explosive bolt 4 is a standard product according to GOST 7808-70, strength class not lower than 5.8, in which a groove is made in the form of a groove at a distance from the head with a cutting tool. The depth of the groove is selected according to the results of calculating the structural strength of the proposed device in assembled form so as to ensure that the bolt 4 ruptures along this groove when the required internal pressure in the cavity of the housing 1 is reached and its depressurization occurs. Bolts 4 and 5 are interconnected in the cavity of the housing 1 by means of a sleeve 6 provided with an internal thread. The tightness between the housing 1 and the covers 2, 3 is ensured by rubber rings 7 and fluoroplastic washers 8. Above each of the bolts 4 and 5, corresponding safety strips 9, 10 are mounted on the covers 2 and 3, respectively, with the help of bolts 11 and bushings 12. To each of the covers 2, 3, a fixing earring 13, 14 is welded, respectively. Fastening elements 15, for example, ropes, the ends of which are fixed on a blown pipeline, are threaded through the fixing earrings 13, 14, which avoids the expansion of the covers 2, 3 at the time of the destruction of the bolt 4.

The device operates as follows.

The proposed device is welded to the open end of the pipe being cleaned. When the necessary pressure is reached in the housing 1, the value of which is preliminarily calculated based on the required flow rate, the duration of the purge and the volume of the purged pipeline, the bolt 4 ruptures and the covers 2, 3 come off from the housing 1, while the ropes 15 prevent the expansion of the covers 2, 3 Pipeline purging and garbage removal through the openings occur.

During the purge process, a stream of air is observed at the outlet of the pipeline. If at the moment of completion of the purge the air stream is clean and transparent, then after the pressure in the cavity of the pipeline is reduced to atmospheric, the device for cleaning the pipeline is dismantled and a plug is installed at the end of the pipeline. If the cleaning quality is unsatisfactory, then purge is repeated, after replacing the destroyed bolt 4 with a new bolt of the same size and made of the same material.

After achieving satisfactory cleaning results, the proposed device is dismantled and used to clean another pipeline.

The proposed device has the following advantages:

- the purge of the pipeline begins instantly and precisely at the moment the maximum pressure in the pipeline is reached, which allows you to create the optimal impulse of the air stream during purging and provides high efficiency for cleaning the pipeline;

- when the device is triggered, the caps 2, 3 are detached in both directions at the same time, due to which the recoil pulses acting on the end of the blown pipeline and directed perpendicular to its axis are mutually balanced, which allows the device to be installed on any pipeline, including with a curved end and weakly fixed, eliminates damage to the pipeline, and thereby increases the reliability and safety of the cleaning process;

- varying the diameter of the grooves on the bursting bolt 4, it is possible to set the response pressure of the device with sufficiently high accuracy, which allows to increase the efficiency of cleaning the pipeline;

- the device can be used many times, because for its repeated use only the replacement of the bursting bolt 4 is necessary, and all other parts are used repeatedly.

- when using the proposed device eliminates the spread of any of its parts at the moment of operation, since the covers 2, 3 are fixed using ropes 15, and the bursting bolt 4 and bolt 5 are held by safety strips 9, 10.

Claims (1)

A device for cleaning pipelines by blowing, including a housing made in the form of perpendicularly connected two hollow metal cylinders, having an inlet and two outlet openings, with a cover fixed to each of the outlet openings of the housing fixed with a bolt, both bolts are interconnected in the cavity of the housing with the help of a coupling, and over each of the bolts a safety strip is mounted rigidly fixed to the corresponding cover, while one of the bolts is made with the possibility of destruction when creating SRI required pressure in the housing, and each of the covers is equipped with a fixing lug.

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