RU2652473C2 - System and method for pumping gas from compressor of gas transfer unit - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions is intended for discharging pipeline section during its repair, in particular discharging the section containing gas transfer unit including when repairing the latter, and discharging this section at any planned shutdown of the gas transfer unit, according to the currently known operation technology, discharge of gas from the gas transfer unit to the atmosphere is envisaged. System for pumping gas from the gas transfer compressor of the gas-turbine engine 5 includes a compressor, an ejector 14, which suction is connected to disconnected section of inlet 6 of pipeline before the compressor, from which gas is limited by the shut-off valves 7, 9 and discharged. The input of the ejector 14 is connected to the outlet pipe 8 behind the disconnected section. The ejector 14 inlet is connected to outlet line 6 behind the shut-off section. Method for gas pumping from compressor of the gas transfer unit 5 includes shutdown of the compressor, closure of sections of inlet and outlet pipelines 6, 8 connected to compressor by means of shut-off valves 7, 9, opening of valves 17, 16, 15 of the inlet, outlet and suction of the ejector 14, supply gas from the compressor to the suction of the ejector 14 from the disconnected section of the inlet pipe 6 before the compressor, ejection in the ejector 14 of gas from the compressor with the active gas from the outlet pipe 8 before the disconnected section and pumping it into the inlet pipe 6 before the disconnected section.

EFFECT: possibility for using the system for pumping gas from the compressor in both multi-line and single-line main pipelines, including the gas compressor unit.

2 cl, 1 dwg

Description

The group of inventions relates to pipeline gas transportation and is intended for emptying a section of a pipeline during its repair, in particular emptying a section containing a gas pumping unit (GPU), including during repair of the latter, as well as for emptying this section at any scheduled shutdown of a gas compressor the current work technology provides for the release of gas from the gas compressor unit into the atmosphere.

Known mobile installation for pumping gas from a disconnected section of the main gas pipeline, including suction and discharge pipelines, a supercharger consisting of a compressor and a gas ejector, a low-pressure cavity of which is connected to the pumped-out section, high-pressure nozzles of the ejector are connected to the compressor outlet, and the compressor inlet and outlet ejectors are connected to sections of the working gas pipeline (patent No. RU 2108489, IPC F04D 25/02, publ. 04/10/1998).

A known method of emptying sections of a pipeline from gas in multi-line systems of gas pipelines, including turning off the emptied section by means of linear valves and ejecting gas from it by means of a high-pressure gas of a parallel gas pipeline. Gas ejection is carried out from the end of the emptied section of the pipeline, and the ejected gas is introduced into the pipeline after the emptied section (AS No. SU 970036, IPC F17D 1/00, published on 10/30/1982).

A disadvantage of the known technical solutions is that they cannot be used for pumping gas from a section of a pipeline containing gas compressor units.

The closest set of essential features to the claimed technical solution is a system for pumping gas from a section of a multi-line main pipeline, including manifolds with shut-off valves, a compressor in each pipe line, a gas ejection system in each pipe line, while the suction of the ejection system is connected via manifolds with shut-off valves faucets with sections of pipelines of each thread, limited by shut-off valves, from which gas is evacuated, manifold for supplying ejected gas connected to the piping sections of each thread behind the pumped-out section, a high-performance ejector is permanently installed at the compressor station, the inlet of the active gas ejector is connected via manifolds to shut-off valves with pipe sections behind the compressor, the outlet from the ejector is connected by means of a manifold to shut-off valves with pipe sections behind the pumped-out section in front of the compressor. The suction ejector is connected to the pipeline section in front of the compressor, limited upstream by a shut-off valve. When the compressor is decommissioned for repair by means of shut-off valves, the pipeline section with the compressor is closed. The ejector is launched into operation with a gas discharge through a manifold with a tap into a parallel thread of a multi-line pipeline and gas is pumped out of the compressor cavity (patent No. RU 11588, IPC F17D 1/00, publ. 16.10.1999).

The disadvantage of this technical solution is that it cannot be used for pumping gas from the repaired section, including the gas compressor unit, of the single-line main pipeline, due to the fact that gas from the gas unit is pumped into a parallel string of the main pipeline.

The task was to create a system and method for pumping gas from the compressor of the gas pumping unit and the adjacent section of the gas pipeline for use in both multi-line and single-line main pipelines, including gas compressor units.

The technical result coincides with the task and is achieved due to the fact that in the system for pumping gas from the compressor of the gas pumping unit, including a compressor, an ejector, the suction of which is connected to the disconnected section of the inlet pipe in front of the compressor, from which the gas pumped off by shut-off valves is pumped, the inlet of the ejector is connected with the outlet pipe behind the disconnected section, the ejector exit is connected to the inlet pipe section in front of the compressor, while the ejector exit is connected to the inlet pipe water in front of the disconnected area.

In the method of pumping gas from the compressor of a gas pumping unit, including stopping the compressor, shutting off the sections of the inlet and outlet pipelines connected to the compressor by means of shut-off valves, opening the inlet, outlet and suction valves of the ejector, supplying gas from the compressor to the suction port of the ejector from the disconnected section of the inlet pipe in front of the compressor , ejection in a gas ejector from a compressor with active gas from an outlet pipe behind a disconnected section and pumping it into an inlet pipe, ejection Rowan gas is directed into the inlet duct before the disconnected portion.

A new feature of the gas pumping system from the compressor of the gas pumping unit is that the ejector outlet is connected to the inlet pipe in front of the disconnected section, and a new feature of the method is that the ejected gas is sent to the inlet pipe in front of the disconnected section.

The claimed combination of essential features allows the system to be used on single-line and multi-line pipelines when shutting down a gas compressor unit for compressor repair.

The analysis of known technical solutions in this technical field showed that the claimed technical solution has features that are not in the analogues, and their use in the claimed combination of essential features allows to obtain a new technical result. Therefore, the claimed technical solution meets the conditions of patentability "novelty" and "inventive step".

The invention is illustrated in figure 1, which shows a diagram of a system for pumping gas from the compressor of a gas pumping unit.

The gas pumping system from the compressor of the gas pumping unit is included in the compressor station that carries out gas pumping through the main pipeline, which contains the inlet connecting pipe 1 connected in series with a stopcock 2, a dust collector block 3, an intake manifold 4, a group of GPU 5 blocks, each block includes a GPU 5, consisting of a compressor and a drive motor. GPA 5 is connected to the inlet manifold 4 by an inlet pipe 6 on which a shut-off valve 7 is installed, and an outlet pipe 8 on which a shut-off valve 9 is installed, GPA 5 is connected to an output manifold 10, which is connected through a gas cooler 11 to the outlet pipe 12 with a shut-off valve by crane 13.

Each unit GPA 5 is equipped with an ejector 14, the suction of which is connected through a valve 15 to the inlet pipe 6 after the shut-off valve 7 in front of the compressor. The output of the ejector 14 is connected through the valve 16 to the inlet pipe 6 before the disconnected section of the pipeline 6 before the shut-off valve 7. The input of the ejector 14 is connected through the valve 17 to the outlet pipe 8 behind the disconnected section after the shut-off valve 9.

On the inlet pipe 6 parallel to the shut-off valve 7 is installed a valve 18 of smaller diameter, designed to fill the compressor with gas before starting.

In parallel with the shut-off valve 9, there are installed: a crane 19 for starting and gaining power of the gas compressor unit 5 with the valve 9 closed and a waste valve 20, which is used to empty the compressor by discharging gas into the atmosphere when the gas compressor stops.

Check valves 21 are installed on the suction pipe of the ejector 14 and on the outlet pipe 8.

The GPU unit together with the ejector 14 forms a system for pumping gas from the compressor of the GPU during a scheduled or unscheduled shutdown of the GPU 5 for its repair, or maintenance, for pumping gas locked in the compressor.

When pumping gas through the main pipeline, the compressor station works as follows: gas enters through the valve 2 into the dust collector 3, from which through the inlet pipe 4 through the inlet pipe 6 to the inlet of the GPU compressor 5 through the open valve 7. After compression in the compressor, gas through the valve 9 enters in the outlet pipe 8 and further through the collector 10 enters the gas cooler 11. Where after cooling through the outlet gas line 12, through the valve 13, gas enters the main gas pipeline for further transportation.

When repairing or scheduled maintenance of the compressor, the gas pumping system from the compressor of the gas pumping unit works as follows: first stop the compressor, then block the portion of the pipeline that includes the compressor using valves 7 and 9. The gas volume in the compressor is more than 3000 n.m ³ .

The valves 17 and 16 of the ejector 14 are opened, as a result of which the active gas flows out from the pipeline 8 after the disconnected section through the valve 17 to the ejector 14. The pressure in the pipe 8 is 75 kg / cm ² . Next, open the valve 15 of the ejector 14. The pressure in the pipe 6 is 54 kg / cm ² .

This system can also be used for other pressures in the inlet 6 and outlet 8 of the pipelines, and the higher the pressure in the pipelines, the greater the volume of gas that is locked in the compressor and pumped by the ejector and the greater the effect of reducing emissions.

Gas from the compressor through the valve 15 enters the suction port of the ejector 14, where it is ejected with active gas. Then, through the valve 16, the ejected gas enters the inlet pipe 6 in front of the disconnected section. The pumping time is determined by the diameter of the pipelines for supplying gas to the ejector, the dimensions of the ejector, its design and is no more than 60 minutes.

If there is one GPU 5 unit in the compressor station, the active gas enters the ejector 14 of the disconnected GPU 5 unit through the outlet pipelines 12 and 8.

If there are several units of the gas compressor unit 5 in the compressor station, the active gas enters the ejector 14 of the disconnected gas unit 5 from the manifold 10, which is filled with gas through the outlet pipelines 8 of the working gas unit 5.

The claimed technical solution allows for the pumping of gas from a disconnected section of the pipeline including the compressor, not only on a multi-line, but also on a single-line main pipeline. In addition, the emission of gas from a disconnected compressor into the atmosphere is eliminated.

The gas pumping system from the compressor of the gas pumping unit can be manufactured using standard equipment using well-known materials and technologies.

Claims (2)

1. The system for pumping gas from the compressor of the gas pumping unit, including a compressor, an ejector, the suction of which is connected to the disconnected section of the inlet pipe in front of the compressor, from which gas is pumped, limited by shut-off valves, the inlet of the ejector is connected to the outlet pipe behind the disconnected section, the outlet of the ejector is connected to the section the inlet pipe in front of the compressor, characterized in that the outlet of the ejector is connected to the inlet pipe in front of the disconnected section. 2. A method of pumping gas from the compressor of a gas pumping unit, including stopping the compressor, shutting off sections of the inlet and outlet pipelines connected to the compressor by means of shut-off valves, opening the inlet, outlet and suction valves of the ejector, supplying gas from the compressor to the ejector inlet from the disconnected section of the inlet pipe before compressor, ejecting gas into the ejector from the compressor with active gas from the outlet pipe behind the disconnected section and pumping it into the inlet pipe, excellent schiysya in that the ejected gas is directed into the inlet duct before the disconnected portion.

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