RU2669987C1 - Method of pneumatic testing disconnected section of main gasline and device therefor - Google Patents

Abstract

FIELD: gas industry.SUBSTANCE: invention relates to the gas industry and can be used for pneumatic tests of the disconnected section of the main gasline (MG). Method and apparatus for pneumatically testing a disconnected section of MG by compressing therein the air contained in the disconnected section with a pressure of 1.15–1.2 MPa. After displacing natural gas from it, this air is compressed in the disconnected section to the pressure set for pneumatic tests, which is 1.3–1.5 times higher than the working pressure of natural gas in MG. As a supercharger for air compression, a hydrodrive compressor equipped with a regulating organ is used, the suction and pressure ports of the hydraulic compressor are connected to the disconnected section of the MG by two additional pipelines with locking bodies. Pressure gauges on the pressure connection of the hydrodrive compressor and on the disconnected section of the MG are connected by pulse lines to the regulating organ of the hydraulic compressor.EFFECT: invention makes it possible to conduct pneumatic tests with compressed air, reduce energy costs and prevent corrosion of the inner wall of the MG by using air compressed to the pressure required for pneumatic tests.2 cl, 1 dwg

Description

The invention relates to the gas industry and can be used for pneumatic testing of a disconnected section of a main gas pipeline (MG).

A known method of pumping gas from a disconnected section of the gas pipeline and a mobile compressor unit for pumping gas with a reciprocating compressor (patent RU No. 2303710, F04B 41/00, 07.27.2007). The gas contained in the disconnected section of the MG is compressed in a reciprocating compressor and fed into the operating section of the MG. After gas pumping is completed from the disconnected section to the existing MG section, the final gas pressure in the disconnected section is usually 1.5-1 MPa.

The disadvantage of this technical solution is that before conducting pneumatic tests of the disconnected MG section, it is necessary to discharge the gas contained in it into the atmosphere.

SP 111-34-96 “Cleaning the cavity and testing the gas pipelines” (approved by RAO Gazprom on September 11, 1996) determined that pneumatic tests of the disconnected section of the main gas pipeline are carried out in stages - pressure increase, inspection, stabilization, strength tests, pressure reduction and leak check. When depressurizing, compressed air is transferred from the test site to the site to be tested.

The disadvantage of this method is the necessity of dividing the pipeline into separate sections connected through valves. It is obvious that the described method will require large expenditures for compressing air in compressors for each section.

A known method of testing the gas pipeline for tightness and strength (copyright certificate No. 520524, G01M 3/08, 07/05/1976). According to this method, the disconnected section is connected to the existing section of the gas pipeline and gas is supplied to the disconnected section from the existing section of the gas pipeline to the disconnected section, increasing the gas pressure in it, then the pump is supplied with liquid to the disconnected section and the pressure in it is increased to the level required for testing.

The disadvantage of this method is associated with the loss of natural gas used to create pressure in the disconnected area, as well as with the need for its subsequent drying to prevent pipe corrosion.

A known method of pumping gas from a disconnected section of the main gas pipeline to its existing section (application for invention No. 2014154353, F17D 1/12, 12/30/2014), in which using two gas pistons - nitrogen and air, completely displace natural gas from the disconnected section in the current section of the MG. In this case, after the completion of gas pumping from the disconnected section of the gas pipeline to the existing section, the disconnected section will be filled with compressed air with a pressure of 1.15-1.2 MPa.

There is also known a method of hydraulic impact testing and rehabilitation of a pipeline, carried out when it is loaded with high pressure in the field (patent RU No. 2467299, G01M 7/08, 20-11.2012). This method involves pumping a pump into a disconnected section of a gas pipeline with increasing pressure in it to the pressure required for hydraulic tests.

This method is adopted as a prototype of the invention.

Its disadvantage is the significant energy costs for injection and the need to remove water from this section after testing and drying the pipes of the disconnected section to prevent corrosion.

The technical task of the invention is to reduce energy costs and prevent corrosion of the inner wall of the main gas pipeline by using air compressed to the pressure required for pneumatic tests.

The method of pneumatic testing of the disconnected section of the MG, which consists in supplying a compressed working fluid to it with increasing pressure in the disconnected section of the MG to the set for pneumatic tests, which is 1.3-1.5 times higher than the working pressure of natural gas in the MG, Compressed air with a pressure of 1.15-1.2 MPa is used as a working fluid, with which the disconnected MG section is filled after natural gas is displaced from it, and a hydraulic drive compressor is used as a supercharger, with which air is compressed to a pressure of 1.25 MPa and fed t to the disconnected section of the MG, then with the help of the regulatory body increase the compression ratio in the hydraulic compressor and increase the pressure of compressed air in the disconnected section of the MG to the set for pneumatic tests.

A device for pneumatic testing of the disconnected section of the MG, containing a discharge organ, a pipe with a locking organ connecting the outlet pipe of the discharge organ with the disconnected section of the MG, pressure gauges, and a hydraulic drive compressor equipped with a regulating body is used as the discharge organ, the suction pipe of the hydraulic drive compressor is connected to the disconnected section MG is the first additional pipeline with a locking body, and its discharge pipe is connected to the disconnected section of the MG of the second additional pipe with a closure body, gauges on the discharge port of hydraulic compressor and off gas main impulse lines connected with the regulator of hydraulic compressor.

In FIG. 1 shows a diagram of a device for pneumatic testing of the disconnected section of the MG, where 1 is the current section of the MG, 2 is the disconnected section of the MG, 3 is the first additional pipeline, 4 is the pressure gauge on the disconnected section of the MG, 5 is the shut-off element on the first additional pipeline, 6 is the hydraulic compressor, 7 - pressure gauge on the discharge pipe of the hydraulic drive compressor, 8 - the second additional pipeline, 9 - shut-off element on the second additional pipeline, 10 - the regulating body of the hydraulic compressor.

The air pressure in the disconnected section of the main gas pipeline 2 before starting work on its pneumatic test is 1.15-1.2 MPa. The disconnected section of MG 2 is connected by the first additional pipe 3 through the shut-off element 5 to the inlet of the hydraulic drive compressor 6, the outlet pipe of which is connected by the second additional pipe 8 through the shut-off element 9 with the disconnected section 2 of the MG. A pressure gauge 7 is installed at the outlet of the hydraulic drive compressor 6 to measure the pressure of the compressed air. A pressure gauge 9 is installed on the disconnected section of MG 2 to measure air pressure in this section of the gas pipeline. The regulatory body 10 of the hydraulic drive compressor is connected by impulse lines to the hydraulic drive compressor 6, with a pressure gauge 7 on the discharge pipe of the hydraulic drive compressor and with a pressure gauge 4 on the disconnected section of 2 MG. After emptying the disconnected section of MG 2 from the gas contained in it, the pressure of compressed air in it before starting work on its pneumatic test is 1.15-1.2 MPa.

The method of pneumatic testing of the disconnected section of MG 2 is as follows. The shut-off element 5 is opened on the first additional pipeline 3, the hydraulic drive compressor 6 is turned on and air is compressed in it to a pressure of 1.25 MPa. Then, the shut-off element 9 is opened on the second additional pipeline 8 and compressed air is pumped into the disconnected section of MG 2. At the same time, the air pressure in the pressure port of the hydraulic drive compressor 6 is controlled by the readings of the pressure gauge 7 installed in its pressure port and pressure gauge 4 installed in the disconnected section MG 2. Using the regulatory body 10 of the hydraulic compressor, the compression ratio in the hydraulic compressor 6 is changed and the pressure of compressed air in the disconnected section of the MG 2 is increased to the level specified by For pneumatic testing of this area. After that, close the shut-off element 9 on the second additional pipeline 8, turn off the hydraulic drive compressor 6, close the shut-off element 5 on the first additional pipeline 3 and check for leaks and strength of the pipes of the disconnected section of MG 2.

The pneumatic tests of the disconnected MG section proposed in this method are carried out after the natural gas contained in it is displaced into the existing MG section and the disconnected section is filled with compressed air with a pressure of 1.15-1.2 MPa. This allows you to carry out pneumatic tests of the disconnected section of the main gas pipeline with compressed air and significantly reduce the time taken to prepare and conduct the tests. In addition, compared with the water supply to this section to create the necessary pressure in it, the proposed method allows not to dry the pipelines after testing to prevent corrosion.

Claims (2)

1. The method of pneumatic testing of the disconnected section of the main gas pipeline, which consists in supplying a compressed working fluid to it with increasing pressure in the disconnected section of the main gas pipeline to the set for pneumatic tests, which is 1.3-1.5 times higher than the working pressure of natural gas in main gas pipeline, characterized in that compressed air with a pressure of 1.15-1.2 MPa is used as a working fluid, with which the disconnected section of the main gas pipeline is filled after natural gas is displaced from it aza, and as a supercharger use a hydraulic drive compressor, which compresses the air to a pressure of 1.25 MPa and serves in the disconnected section of the main gas pipeline, then with the help of the regulator increase the compression ratio in the hydraulic compressor and increase the pressure of compressed air in the disconnected section of the main gas pipeline to the specified for pneumatic tests. 2. A device for pneumatic testing of a disconnected section of a main gas pipeline, containing a discharge organ, a pipeline with a shut-off element, connecting the outlet pipe of the discharge organ with a disconnected section of the main gas pipeline, pressure gauges, characterized in that a hydraulic drive compressor equipped with a regulating organ is used as the discharge organ, suction the hydraulic compressor pipe is connected to the disconnected section of the main gas pipeline by the first additional pipes a cord with a shut-off element, and its discharge pipe is connected to a disconnected section of the main gas pipeline by a second additional pipeline with a shut-off element, pressure gauges on the discharge pipe of the hydraulic drive compressor and on the disconnected section of the main gas pipeline are connected by impulse lines to the regulating body of the hydraulic drive compressor.

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