RU2759584C1 - Method for emptying section of gas pipeline (variants) - Google Patents

Abstract

FIELD: pipeline transport.SUBSTANCE: invention relates to pipeline gas transport and can be used to reduce the losses in the transported gas during the emptying of a section of a gas pipeline prior to starting the repair and restoration works on several inter-valve sections of gas pipelines. The method according to the first variant includes disconnecting the section subject to emptying from the main gas pipeline by means of shut-off apparatuses, emptying the section from the gas contained therein, is achieved by the fact that prior to emptying the section from the gas, the gas is passed into an adjacent emptied, previously repaired section of the gas pipeline by means of the standard equipment. The method according to the second option includes disconnecting the section subject to emptying from the main gas pipeline by means of shut-off apparatuses, emptying the section from the gas contained therein, is achieved by the fact that prior to emptying the section from the gas, the gas is passed into a non-adjacent emptied, previously repaired section of the gas pipeline through sections of the gas pipeline not subject to repairing, by means of standard equipment.EFFECT: proposed methods for emptying a section of a gas pipeline are aimed at reducing the losses in the transported gas during the emptying of the section of the gas pipeline prior to starting the repair and restoration works.2 cl, 2 dwg

Description

The invention relates to pipeline transportation of gas and can be used to reduce losses of transported gas during emptying of a gas pipeline section before starting repair and restoration work on several inter-crane sections of gas pipelines.

There is a known method of emptying a section of a gas pipeline, in which gas is pumped from the emptied section into a container, for this purpose, initially in front of the emptied section, projectiles with sealing pistons, with an autonomous propeller are launched into the medium of the transported gas, after the projectiles pass the first along the gate valve, the emptied section is blocked on both sides and start pumping gas out of it into the tank using a gas pumping device located at the second closed valve, turning on the autonomous propeller of projectiles with sealing pistons, which push the gas towards the second valve [Russian Federation patent RU No. 2685784, IPC F17D 1/00, priority date 28.05 .2018, publ. 04/23/2019 bul. No. 12].

A known method of emptying a section of a gas pipeline to be repaired by displacing natural gas and a method of driving self-propelled pistons-displacers, selected by the applicant as prototypes according to the proposed first and second variants of the method for emptying a section of a gas pipeline, including disconnecting the emptied section from the main gas pipeline by means of locking devices , emptying this section from the compressed natural gas contained in it, and after turning off the emptied section, the natural gas contained in it is displaced by the movement of a self-propelled displacement piston introduced into the gas pipeline cavity [patent of the Russian Federation RU No. 2704064, IPC F17D 1/065, priority date 06.05 .2019, publ. 23.10.2019 bul. No. 30].

The disadvantages of the known methods are the need to use additional equipment (propelling pistons, an autonomous propeller of projectiles with sealing pistons), the need to install temporary chambers for receiving and launching cleaning devices on gas pipelines where there are no stationary chambers, which leads to additional losses of the transported medium.

The technical problem of the present invention is the creation of an effective method for reducing the loss of transported gas during the emptying of a section of a gas pipeline before starting repair work.

The technical result according to the first and second variants of the proposed method for emptying a gas pipeline section consists in reducing the losses of the transported gas during the emptying of a gas pipeline section before starting repair and restoration work.

The technical result in the method for emptying a section of a gas pipeline according to its first version, which includes disconnecting the emptied section from the main gas pipeline by means of locking devices, emptying this section from the gas contained in it, is achieved by the fact that before the section is emptied from gas, gas is bypassed into the adjacent emptied one, previously repaired section of the gas pipeline using standard equipment.

The technical result in the method for emptying a section of a gas pipeline according to its second version, which includes disconnecting the section to be emptied from the main gas pipeline by means of locking devices, emptying this section from the gas contained in it, is achieved by the fact that before emptying the section from gas, gas is bypassed into a non-adjacent emptied one, a previously repaired section of a gas pipeline through sections of a gas pipeline that cannot be repaired using standard equipment.

The invention is illustrated in FIG. 1 and 2, where: 1, 3, 5, 7, 9 - line valve; 2, 4, 6, 8 - gas pipeline section.

Gas pipeline sections 2, 4, 6, 8 contain linear taps 1, 3, 5, 7, 9, which are connected in series with each other and have, for example, the same length.

Let us consider the implementation of the proposed method for emptying a section of a gas pipeline according to its first version using the standard equipment shown in Fig. 1.

Repair work is underway on adjacent sections of the gas pipeline, for example, on sections 2 and 4. Before carrying out repair work on the gas pipeline, measures are taken to empty it from the transported medium by the method of triggering the consumer. Linear valve 1 is in the "Closed" position, line valves 3 and 5 are in the "Open" position. In this case, the gas pressure in the gas pipeline is reduced to a pressure that ensures the safe operation of consumer equipment. Let's take the working pressure in the gas pipeline equal, for example, 5.4 MPa. After triggering on the consumer, the pressure in the gas pipeline decreases, for example, to 1.5 MPa. After reaching the pressure, at a decrease of which the safe operation of the consumer's equipment is impossible, linear valves 3 and 5 are moved to the "Closed" position. For example, the first to be repaired is the section of the gas pipeline 2. The residual pressure in the section of the gas pipeline 2, equal to 1.5 MPa, is discharged into the atmosphere through the purge plugs of the line valves 1 and 3. After work on the section of the gas pipeline 2, the line valve 3 is moved to the position " Open ”, while part of the gas from the section of the gas pipeline 4 will pass into the section of the gas pipeline 2. In the case when the lengths of sections 2 and 4 are the same, the gas pressure in them will equalize and become equal, for example, 0.75 MPa. After equalizing the pressure in sections 2 and 4, the linear valve 3 is moved to the "Closed" position. The residual pressure in the section of the gas pipeline 4, reduced from 1.5 MPa to 0.75 MPa, is discharged into the atmosphere through the purge plugs of the line valves 5 and 3.

Let us consider the implementation of the proposed method for emptying a section of a gas pipeline according to its second version using the standard equipment shown in Fig. 2.

Repair work is underway on non-contiguous gas pipeline sections, for example, pipeline sections 2 and 8. Gas pipeline sections 4 and 6 are not being repaired and cannot be emptied. Gas pipeline sections 2, 4, 6 and 8, for example, have the same length. Before carrying out work on the gas pipeline, measures are taken to empty it from the transported medium by the method of triggering the consumer. Linear valve 1 is in the closed position and line valves 3, 5, 7 and 9 are in the open position. In this case, the gas pressure in the pipeline is reduced to a pressure that ensures the safe operation of consumer equipment. After reaching the pressure, at a decrease of which the safe operation of the consumer's equipment is impossible, the linear valves 3 and 9 are moved to the "Closed" position. For example, the first section of the gas pipeline to be repaired is 2. The residual pressure in the section of the gas pipeline 2 is discharged into the atmosphere through the purge plugs of the line valves 1 and 3. After work on the section of the gas pipeline 2, the line valve 3 is moved to the "Open" position, while part of the gas from gas pipeline sections 4, 6, 8 will go to gas pipeline section 2. Residual pressure in gas pipeline section 8, which must be discharged into the atmosphere through the purge plugs of line valves 9 and 7 before repair work is carried out on it, is reduced.

Thus, the technical problem has been solved and the technical result has been achieved.

The claimed technical solution is industrially applicable, manufactured using modern materials and technologies, and is used by OOO Gazprom transgaz Kazan.

Claims (2)

1. A method for emptying a section of a gas pipeline, including disconnecting the section to be emptied from the main gas pipeline by means of locking devices, emptying this section from the gas in it, characterized in that before emptying the section from gas, gas is bypassed into the adjacent emptied, previously repaired section of the gas pipeline by standard equipment. 2. A method for emptying a section of a gas pipeline, which includes disconnecting the section to be emptied from the main gas pipeline by means of locking devices, emptying this section from the gas in it, characterized in that before emptying the section from gas, gas is bypassed into a non-adjacent emptied, previously repaired section of the gas pipeline through sections of the gas pipeline that cannot be repaired using standard equipment.

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