RU2733572C2 - Method of gas pumping from compressors of gas transfer units and system for its implementation - Google Patents

Abstract

FIELD: pipeline transportation of gas.

SUBSTANCE: group of inventions is intended for emptying pipeline sections during its repair, in particular, emptying sections containing gas transfer units (GTU) including during repair of latter, as well as for emptying of said sections at any planned shutdown of gas compressor unit, in which existing work technology provides for gas release from gas compressor to atmosphere. Besides, gas is excluded from switched off compressors into atmosphere. Essence of inventions consists in that system for pumping gas from compressors of gas transfer units of compressor shop of main pipeline includes inlet header, gas-pumping units with compressors, which input is connected to input header by means of inlet pipelines, outlet header, with which outputs of gas transfer units are connected by means of outlet pipelines, and ejector, which suction chamber is interconnected with deactivated sections of pipelines of stopped compressors of gas transfer units, equipped with stopcocks. At that, ejector has gas inlet and outlet with possibility of gas pumping from the disconnected pipeline section. According to the invention, the system is equipped with a single ejector, wherein the ejector input is communicated via the tap with the outlet header, and ejector output is interconnected through tap with inlet header with possibility of gas pumping from several disconnected sections simultaneously.

EFFECT: technical result is provision of uninterrupted operation of the main pipeline during repair works of one or several compressors compressor units of compressor shop and possibility of gas pumping from one or several gas compressor compressors simultaneously by one pumping device of ejector type.

2 cl, 1 dwg

Description

The invention relates to pipeline transport of gas and is intended for pumping gas from disconnected sections of pipelines during their repair, in particular, emptying areas containing gas pumping units (hereinafter referred to as GPU), including during the repair of the latter, as well as for pumping gas from disconnected sections at any planned shutdowns of the GPU, in which the currently existing work technology provides for the release of gas from the GPU 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, the low-pressure cavity of which is connected to the pumped out section, high-pressure ejector nozzles are connected to the compressor outlet, and the compressor inlet and outlet ejectors are connected to sections of the operating gas pipeline (patent No. RU 2108489, IPC F04D 25/02, priority date 21.08.1995, publ. 10.04.1998).

The disadvantage of the known technical solution is that it cannot be used for pumping gas from the section of the pipeline containing the GPU.

A known system for pumping gas from a section of the main pipeline, including manifolds with shut-off valves, a compressor installed permanently at the compressor station is an ejector, the suction of which is in communication with a section of the pipeline bounded by shut-off valves, from which gas is pumped out, the outlet of the ejector is connected to the pipeline behind the pumped out section in front of the compressor , the inlet of the ejector is in communication with the section of the pipeline behind the compressor (patent No. RU 11588, IPC F17D 1/00, priority date 05.05.1999, publ. 16.10.1999).

The disadvantage of the known technical solution is the impossibility of carrying out repair work on the GPU without shutting down the main pipeline.

The closest in terms of the set of essential features to the claimed technical solution is the system and method for pumping gas from the compressor of a gas-pumping unit, which includes a compressor, the suction of which is connected to the disconnected section of the inlet pipeline in front of the compressor from which gas is pumped out, limited by shut-off valves, the inlet of the ejector is connected to the outlet pipeline behind disconnected section, the ejector outlet is connected to the section of the inlet pipeline in front of the compressor, characterized in that the ejector outlet is connected to the inlet pipeline in front of the disconnected section.

A method for pumping gas out of a 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, gas flow from the compressor to the suction of the ejector from the disconnected section of the inlet pipeline in front of the compressor, ejection in the ejector of gas from the compressor with active gas from the outlet pipeline behind the disconnected section and pumping it out into the inlet pipeline, characterized in that the ejected gas is directed into the inlet pipeline in front of the disconnected section (patent No. RU 2652473, IPC F17D 1/065, F04D 25/02 , priority date 07/31/2017, published 04/26/2018, bulletin No. 12).

The task was to create a system for pumping gas from several compressors of the gas-pumping units of the compressor shop of the main pipeline, which would ensure the uninterrupted operation of the main pipeline when repairing several gas compressor units of the compressor shop simultaneously.

The technical result coincides with the task and is achieved due to the fact that in the system for pumping gas from the compressors of the gas-pumping units of the compressor shop of the main pipeline, a single device is used that ensures the pumping of gas from one or several disconnected sections at the same time.

In the system for pumping gas from the compressors of the gas-pumping units of the compressor shop of the main pipeline containing the inlet manifold, gas-pumping units with compressors, the inlet of which is connected to the inlet manifold by means of inlet pipelines, the outlet manifold, to which the outlets of the gas-pumping units are connected by means of outlet pipelines and an ejector, suction which is communicated with the disconnected sections of pipelines of stopped compressors of gas-pumping units equipped with shut-off valves, and the ejector has a gas inlet and outlet with the possibility of pumping out gas from the disconnected section of the pipeline.

Distinctive features are that the system is equipped with a single device for pumping gas from several disconnected sections (in any combination), installed between the inlet and outlet manifolds, while the ejector inlet is communicated through the valve with the outlet manifold, and the ejector outlet is communicated through the valve with the inlet manifold , allowing to ensure uninterrupted operation of the main pipeline during repair work of one or several gas compressor units of the compressor shop.

The use of a single ejector for pumping gas from a group of compressors can significantly reduce the evacuation time of several compressors due to the possibility of parallel (simultaneous) gas pumping.

Analysis of known technical solutions in this field of technology showed that the claimed technical solution has features that are absent in analogues, and their use in the claimed set of essential features allows you to get a new technical result. Therefore, the claimed technical solution meets the condition of patentability of the invention "novelty".

The invention is illustrated by a diagram of a system for pumping gas from compressors of gas-pumping units of the compressor shop of the main pipeline.

The compressor shop of the main pipeline contains connected in series inlet connecting pipeline 1 with a shut-off valve 2, a block of dust collectors 3, an inlet manifold 4, a group of blocks 5 GPA.

Each block 5 consists of a compressor and a drive motor and is connected to the inlet manifold 4 by the inlet pipeline 6, on which a shut-off valve 7 is installed.

Each block 5 is in communication with the outlet manifold 10 by the outlet pipeline 8, on which a shut-off valve 9 is installed.

The outlet manifold 10 is communicated through the gas coolers 11 with the outlet pipeline 12 with a shut-off valve 13.

The system for pumping gas from the compressors of gas-pumping units consists of an ejector 14, the suction of which is connected through a valve 15 with an inlet pipeline 6 after a shut-off valve 7 in front of the compressors of each GPU installed in the shop.

The inlet of the ejector 14 is communicated through the valve 17 with the outlet manifold 10.

The outlet of the ejector 14 is communicated through the valve 16 with the inlet manifold 4.

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

Parallel to the shut-off valve 9, there are installed: valve 19 for starting and gaining power of each unit 5 of the GPA with valve 9 closed and a relief valve 20, which is used to empty the compressor by venting gas into the atmosphere when the GPA stops.

The GPU units 5 together with the ejector 14 form a system for pumping out the gas locked in the compressor during a planned or unscheduled shutdown of one or more GPU for repair or maintenance.

The system for pumping gas from the compressors of the gas-pumping units of the compressor shop of the main pipeline works as follows: gas from the main pipeline 1 enters through valve 2 into dust collectors 3, of which, through the inlet manifold 4, through the inlet pipelines 6, it enters the inlet of each compressor of unit 5 through open valves 7. After compression in the compressors, the gas through taps 9 enters the outlet pipelines 8 and then through the outlet manifold 10 enters the gas coolers 11, from where, after cooling, through the outlet gas pipeline 12, through the valve 13, the gas enters the main gas pipeline for further transportation. When repairing or scheduled maintenance of compressors, one or more compressors are first stopped, then the section of the pipeline containing the compressor or several compressors is closed by closing valves 7 and 9. The gas volume in each compressor is more than 3000 Nm ³ . The valves 17 and 16 of the ejector 14 are opened, as a result of which the active gas flows from the outlet manifold 10 through the valve 17 into the ejector 14 and then into the inlet manifold 4. The pressure in the outlet manifold 10 is 75 kg / cm ^{2; the} pressure in the inlet manifold 4 is 54 kg / cm ² . Next, the valve 15 of the disconnected compressor or several compressors is opened, gas is pumped out by ejection from these compressors and sections of the pipeline between the closed valves 7 and 9. The gas enters the suction of the ejector 14, where it is ejected by active gas. After that, the ejected gas through the valve 16 enters the inlet manifold 4.

The evacuation time is determined by the diameter of the gas supply pipelines to the ejector, the size of the ejector, and its design and is no more than 60 minutes.

If there is only one unit 5 in the compressor shop, active gas enters the ejector 14 of the disconnected unit 5 through the outlet pipelines 12 and 1.

If there are several blocks 5 in the compressor shop, active gas enters the ejector 14 of the disconnected block 5 from the collector 10, which is filled with gas through the outlet pipelines 8 of the operating blocks 5.

This system can also be used at other pressures in the inlet and outlet manifolds 4 and 10, and the higher the pressure in the pipelines, the greater the volume of gas that is locked in the compressor and pumped out by the ejector and the greater the effect of reducing emissions.

The claimed technical solution ensures the uninterrupted operation of the main pipeline during the repair work of one or several gas compressor units of the compressor shop. In addition, gas emission from a shutdown compressor to the atmosphere is avoided.

The system for pumping gas from the compressors of the gas-pumping units of the compressor shop of the main pipeline can be manufactured using standard equipment using known materials and technologies.

Claims (2)

1. A system for pumping gas from the compressors of gas-pumping units of the compressor shop of the main pipeline, containing an inlet manifold, gas-pumping units with compressors, the inlet of which is connected to the inlet manifold by means of inlet pipelines, an outlet collector, to which the outputs of the gas-compressor units are connected using outlet pipelines, and an ejector , the suction of which is communicated with the disconnected sections of the pipelines of the stopped compressors of gas-pumping units equipped with shut-off valves, and the ejector has a gas inlet and outlet with the possibility of pumping out gas from the disconnected section of the pipeline, characterized in that the system is equipped with a single ejector, while the ejector inlet is communicated through the valve with outlet manifold, and the ejector outlet is communicated through a valve with an inlet manifold with the possibility of pumping gas from several disconnected sections simultaneously. 2. A method for pumping gas from the compressors of gas-pumping units, including stopping one or several compressors, shutting off the sections of the inlet and outlet pipelines of the compressors by means of stopcocks, opening the valves of the inlet, outlet and suction of the ejector, the flow of gas from the sections of the inlet and outlet pipelines and the compressors themselves to the suction ejector, ejection in the ejector of gas from the closed sections of stopped compressors with active gas, characterized in that the active gas is directed to the ejector from the outlet manifold, the ejected gas is directed to the inlet manifold from one or several compressors, including simultaneously, using a single ejector.

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