RU160555U1 - MAIN GAS PIPELINE - Google Patents

Abstract

A gas main containing two gas pipeline strings with linear valves, each of which is equipped with a bypass assembly made in the form of a pipeline communicated with sections of the gas pipeline before and after the linear valve through shut-off valves, and an ejector installation, characterized in that each bypass assembly is equipped with a candle and candle plugs and additional shutoff valves installed in front of it, the ejector installation is made in the form of a liquid-gas ejector with a nozzle, a low-pressure chamber and an output connected to the separator a torus for separating gas from a liquid, a container underneath the separator, filled with liquid for pumping it to the nozzle, and the sections between the candle and additional shut-off valves, one and the second parallel string of the gas pipeline, through tees are connected respectively to the low-pressure chamber and the outlet of the liquid-gas ejector.

Description

The utility model relates to the field of gas pumping and can be used to empty sections of the gas pipeline during the repair of gas pipelines.

A gas main is known, containing several pipelines with jumpers and equipped with linear valves and bypass units with shut-off valves for discharging gas onto a candle through a candle valve, in which (main gas pipeline) a method for emptying sections using combinations of switching valves on bypass nodes and using compressors is implemented, included in the composition of gas pumping units (see patent RU No. 2362087, IPC F17D 1/00, publ. July 20, 2009).

The disadvantage of this method and device is the impossibility of complete pumping of gas from the site selected for emptying, as described on page 11 of the description of the analogue under consideration, the maximum declared pumping level is 2.4 MPa, while the required level is 1.0 MPa

The closest analogue, taken as a prototype, is a gas pipeline containing a bypass unit with two shut-off valves, in which a connector is made in the pipeline between the shut-off valves, to which a gas ejector is mounted by means of flange connections for pumping gas from the area to be repaired (see RU patent No. 2167342, IPC F04F 5/54. Published May 20, 2001).

A disadvantage of the known main gas pipeline is also the inability to completely pump gas from a dedicated section of the gas pipeline. In addition, for the implementation of ejection pumping on existing gas pipelines, it is necessary to modify the bypass assembly for tapping into the pipeline between two shut-off valves of the gas ejector, which is sometimes time-consuming due to the possible leakage of these valves and the difficulty of placing the bends for connecting to the gas ejector at the insertion point.

The problem the claimed utility model aims to provide is to pump gas from a section of the main gas pipeline to the pressure level set by the customers in the pumped section until it is completely emptied while ensuring an easy and safe connection of the ejector to the bypass assembly of the main gas pipeline.

This problem is achieved by the fact that in a known main gas pipeline containing two gas pipeline threads with linear valves, each of which is equipped with a bypass assembly made in the form of a pipeline connected to the gas pipeline section before and after the linear valve through shut-off valves, and an ejector installation, according to the proposed By technical solution, each bypass unit is equipped with a candle and a candle and additional stopcocks installed in front of it, respectively, the ejector installation is made in the form of a liquid-gas an ejector with a nozzle, a low-pressure chamber and an outlet connected to a separator for separating gas from the liquid, a container under the separator filled with liquid to pump it to the nozzle, and the sections between the candle and additional shut-off valves, one and the second parallel gas pipe are connected through tees respectively, with a low-pressure chamber and the exit of a liquid-gas ejector.

The technical result is an easy labor-consuming safe completion of the bypass assembly of the main gas pipeline for connecting a liquid-gas ejector and the task of completely pumping gas out of the main gas pipeline disconnected for repair.

The figure shows the main gas pipeline containing two threads 1 and 2, each of the threads is equipped with linear valves 3, 4 and 5, 6, respectively. The linear valve 4 of thread 1 is equipped with a bypass assembly 7, and the linear crane 6 of thread 2 is equipped with a bypass assembly 8. The bypass assembly 7 includes a pipe 9 connected through a shut-off valve 10 with a section to a linear valve 4 and through a shut-off valve 11 with a section after a linear crane 4. The bypass assembly 7 also includes a candle 12, a candle valve 13 and an additional shut-off valve 14, and the section 15 between these cranes is equipped with a tee 16, to which an ejector installation 17 is connected.

Similarly, the bypass assembly 8 includes a pipe 18 with shut-off valves 19 and 20, as well as a candle 21, a candle valve 22, an additional shut-off valve 23 and a section 24 with a tee 25 for connection to the ejector installation 17.

The ejector installation 17 is made in the form of a liquid-gas ejector 26 with a nozzle 27, a low-pressure chamber 28 and an outlet 29 connected to a separator 30 for separating gas from the liquid, a container 31 under the separator 30, filled with liquid to pump it 32 through the valve 33 to the nozzle 27. A valve 34 is installed between the pump 32 and the tank 31 to turn on the fluid supply to the pump 32.

In this case, the section 15 of the bypass assembly 7 through the tee 16 is connected to the low-pressure chamber 28 of the liquid-gas ejector 26, and the section 24 of the bypass assembly 8 through the tee 25 is connected to the output 29 of the liquid-gas ejector 26.

The main gas pipeline when pumping gas from the disconnected section between the linear valves 3 and 4 operates as follows. In the initial state of the gas pipeline, all linear valves 3, 4, 5 and 6 of both threads 1 and 2 are open, and all valves of the bypass units 7 and 8 and valves 33 and 34 of the ejector installation 17 are closed. To start pumping gas from the disconnected section between the linear valves 3 and 4, they are closed. Open the shut-off valve 10, the candle valve 13 of the bypass unit 7, then open the candle valve 22 and the shut-off valve 20 of the bypass unit 8, providing a connection of the disconnected (pumped out) section of line 1 with the gas injection section behind the linear valve 6 of line 2. Then, the ejector installation 17, opening the taps 34 and 33 and starting the pump 32. The liquid from the tank 31 by the pump 32 is fed to the nozzle 27 of the liquid-gas ejector 26 and carries the gas from the low-pressure cavity 28 to the outlet 29 (diffuser). The liquid-gas mixture enters the separator 30, where the gas is separated from the liquid and the separated gas through the tee 25, section 24, the candle valve 22 and the shut-off valve 20 enters the area behind the linear valve 6 of the thread 2.

Due to the ability to achieve high compression ratios on a liquid-gas ejector, it is possible to provide pressures of about 21.0 MPa with a pump, with a maximum gas pressure in modern gas pipelines from 7.5 to 11.7 MPa, the pumping level from the disconnected section will be ≤1.0 MPa. The selected option for finalizing the bypass units for connecting the ejector when the connection section is outside the candle valve and thereby ensuring the safety and convenience of finalizing the bypass unit is optimal specifically for a liquid-gas ejector, because it has an autonomous source of active agent - liquid.

In the main gas pipeline under consideration, it is possible to pump gas from the section between the linear valves 5 and 6 of the parallel line 2.

For this, it is enough to connect the low-pressure chamber 28 of the ejector 26 to the section 24 of the bypass assembly 8, and the output 29 of the ejector 26 to connect to the section 15 of the bypass assembly 7 of the gas line 1.

Claims (1)

A gas main containing two gas pipeline strings with linear valves, each of which is equipped with a bypass assembly made in the form of a pipeline communicated with sections of the gas pipeline before and after the linear valve through shut-off valves, and an ejector installation, characterized in that each bypass assembly is equipped with a candle and candle and additional shutoff valves installed in front of it, respectively, the ejector installation is made in the form of a liquid-gas ejector with a nozzle, a low-pressure chamber and an outlet connected to the separator a torus for separating gas from a liquid, a container underneath the separator, filled with liquid for pumping it to the nozzle, and the sections between the candle and additional shut-off valves, one and the second parallel string of the gas pipeline, through tees are connected respectively to the low-pressure chamber and the outlet of the liquid-gas ejector.

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