RU2728582C2 - System and method of gas pumping from compressor shop of compressor station - Google Patents

Abstract

FIELD: pipeline transportation of gas.SUBSTANCE: invention is intended for gas pumping from compressor shop (CS) during its repair. System for pumping gas from compressor plant of compressor station includes at least two CSes (1, 2) with gas pumping units and with headers (11 and 12) of suction and discharge respectively. CSes (1, 2) are connected to gas pipeline (3 and 4) by means of inlet and outlet pipelines (5 and 6) with cranes (7 and 8). CSes (1, 2) are interconnected by intershop bridges (IB) (14 and 15) equipped with cranes (16 and 17). Suction unit (14) connects collectors (11) of adjacent CS (1, 2), and IB (15) of the delivery unit connects collectors (12) of adjacent CS (1, 2). Ejector (18) is installed between IB (14 and 15). Entrance to ejector (18) for active gas by means of cranes (19) is connected to collectors (12) of adjacent CS (1, 2), and outlet by means of cranes (20) is connected to collectors (11) of adjacent CS (1, 2). Input to ejector (18) for ejected gas by means of cranes (21, 22) is connected to collectors (11, 12) of neighboring CS (1, 2). Invention covers also method of pumping gas from compressor station compressor station.EFFECT: technical result consists in provision of gas pumping from stopped for repair of one of compressor shops of compressor station without emission of gas into atmosphere.2 cl, 1 dwg

Description

The invention relates to pipeline transportation of gas and is intended for pumping gas from the compressor shop (CC) during its repair.

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 communicates with the section of the pipeline behind the compressor (patent No. RU 11588, IPC F17D 1/00, publ. 16.10.1999).

The closest in terms of the totality of essential features to the claimed technical solution is the system and method for pumping gas from the compressor of a gas-pumping unit, in which the system includes a compressor, an ejector, 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, input the ejector is connected to the outlet pipeline behind the disconnected section, the ejector outlet is connected to the inlet pipeline in front of the disconnected section, and the method includes 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, gas supply 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, ejectors This gas is directed into the inlet pipeline in front of the disconnected section (patent No. RU 2652473, IPC F17D 1/065, F04D 25/02, publ. 26.04.2018 g.).

The disadvantage of the known technical solution is to ensure the pumping of gas only from the compressors of the gas-pumping units and the impossibility of using it for pumping gas from the entire compressor shop.

The task was set to ensure the pumping of gas from one of the compressor shops of the compressor station, which was stopped for repair, without releasing gas into the atmosphere.

The technical result coincides with the task and is achieved due to the fact that in the system for pumping gas from the compressor shop of the compressor station, including the compressor shop (CC), connected to the gas pipeline through inlet and outlet pipelines with taps, an ejector, gas pumping units installed in the CC, collectors suction and discharge, the system contains at least two CCs, each of which is connected to its own gas pipeline, while CCs are interconnected with inter-workshop jumpers (MP) equipped with valves, one of which, MP suction, connects the suction collectors of neighboring CCs and the other , MP injection, connects the injection collectors of neighboring CCs, in addition, the ejector is installed between the mentioned MPs, while the inlet to the ejector for active gas is connected by means of taps to the injection collectors of neighboring CCs, and the ejector outlet is connected by means of taps to the suction collectors of neighboring CCs, the inputs to ejector for ejected gas by means of soy taps They are connected with the suction and discharge manifolds of the corresponding CC.

And in the method of pumping gas out of the compressor shop of a compressor station, which includes stopping the repaired facility, shutting off the inlet and outlet pipelines connected to the repaired facility by means of shut-off valves, ejecting the pumped gas into the ejector with active gas, the repaired facility is one of the compressor shops (CC) included into the compressor station, when it is turned off, the taps are closed, inter-shop jumpers (MP) connecting the suction and discharge manifolds of neighboring CCs, then the valve is opened, providing an entrance to the ejector for active gas from the injection manifold of the operating CC, and the valve connecting the ejector outlet with the suction manifold of the operating CC, while an outflow of active gas occurs from the discharge manifold of the operating CC into the suction collector of the operating CC through the ejector, then the taps are opened, providing an entrance to the ejector for the ejected gas from the suction and injection collectors of the repaired CC, while the gas from of the suction and discharge collectors of the repaired CC enters the ejector, where it is ejected with active gas and then through the valve enters the suction collector of the operating CC.

New features of the system and method for pumping gas from the compressor shop of the compressor station are that the system contains at least two CCs, each of which is connected to its own gas pipeline, while CCs are interconnected with inter-shop jumpers (MP) equipped with cranes, one of the of which the suction MP connects the suction collectors of the neighboring CC and another injection MP, connects the injection collectors of the neighboring CC, in addition, the ejector is installed between the mentioned MPs, while the inlet to the ejector for the active gas is connected by means of taps to the injection collectors of the adjacent CC, and the ejector outlet is connected by taps connected to the suction manifolds of the neighboring CC, the inlets to the ejector for the ejected gas by means of taps are connected to the suction and discharge manifolds of the corresponding CC, and in the method the object being repaired is one of the compressor shops (CC) included in the compressor station, when it is turned off, the valves are closed, inter-shop jumpers (MP), connect the suction and discharge manifolds of neighboring CC, then open the valve providing an entrance to the ejector for the active gas from the injection manifold of the operating CC, and the valve connecting the outlet of the ejector with the suction collector of the operating CC, while the active gas outflows from the injection collector of the operating CC into the collector suction of the operating CC through the ejector, then open the taps that provide an entrance to the ejector for the ejected gas from the suction and discharge headers of the repaired CC, while the gas from the suction and discharge headers of the repaired CC enters the ejector, where it is ejected by active gas and then enters the manifold through the valve suction of a working CC.

Thus, the stated set of essential features allows for the pumping of gas from one of the compressor shops of a compressor station that has been shut down for repair without releasing gas into the atmosphere.

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 conditions of patentability of the invention "novelty" and "inventive step".

The invention is illustrated by a diagram of a system for pumping gas from the compressor shop of the compressor station.

The system for pumping gas from the compressor shop (CC) of the compressor station (CS) contains a gas pipeline compressor station, consisting of several parallel operating CCs 1 and 2, each of which is connected to its own gas pipeline 3 and 4 with input and output pipelines 5 and 6, which are equipped with valves 7 and 8. Gas pipelines 3 and 4 are equipped with valves "A" and "B" and are interconnected by jumpers with valves "a" and "b".

Each CC contains a block of dust collectors 9 installed in the inlet pipeline 5, several gas-pumping units (GPU) 10 with compressors and valves installed parallel to each other, suction manifolds 11 and injection manifolds 12 and a gas cooler block 13 installed in the outlet pipeline 6.

KTs 1 and 2 are interconnected by inter-shop jumpers (MP) 14 suction and MP 15 discharge. MP 14 connects the collectors 11 of neighboring CCs 1 and 2 and is equipped with a valve 16. MP 15 connects the collectors 12 of adjacent CCs 1 and 2 and is equipped with a valve 17. When the gas pumping system is operating, the gas pressure in MP 15 is always higher than in MP 14, for example, for linear compressor stations of the main gas pipelines of PJSC Gazprom, these pressures are 7.6 MPa in MP 15 and 5.4 MPa in MP 14.

An ejector 18 is installed between the MP 14 and 15. The inlet to the ejector 18 for active gas by means of taps 19 is connected to the collectors 12 of the adjacent CC 1 and 2 through the MP 15. The outlet of the ejector 18 is connected by means of the valves 20 to the collectors 11 of the neighboring CC 1 and 2 through the MP 14 The inlet to the ejector 18 for the ejected gas by means of taps 21 is connected to the collectors 11 of the adjacent CC 1 and 2 through the MP 14, and by means of the valves 22 it is connected to the collectors 12 of the adjacent CC 1 and 2 through the MP 15.

The method of pumping gas from the compressor shop of the compressor station is carried out as follows.

When both CC 1 and 2 are in operation, valves 16 and 17 are open, and valves 19, 20, 21 and 22 are closed.

If it is necessary to repair CC 1, first stop CC 1, shutting off the shut-off valves 7 and 8 of the inlet and outlet pipelines 5 and 6 of CC 1. Then close the valves 16 and 17 of inter-shop jumpers 14 and 15, cutting off CC 1 from the operating CC 2. Then open cranes 19 and 20 from the side of the working shop, while the active gas flows from the collector 12 into the collector 11 of the operating CC 2 through the MP 15, the ejector 18 and the MP 14.

Then, valves 21 and 22 of the repaired CC are opened, while the gas from the collectors 11 and 12 of the repaired CC 1 through MP 14 and 15 enters the ejector 18, where it is ejected with active gas and then through the valve 20 enters the collector 11 of the operating CC 2 through MP 14. Thus, gas is pumped out of the equipment and pipelines of the repaired CC 1.

Gas pumping out of the repaired CC 2 with the operating CC 1 is carried out in a similar way.

After pumping out the gas from the CC, all valves 19, 20, 21 and 22 of the ejector 18 are closed.

The inventive gas pumping system can be used at different values of suction and discharge pressures of compressor stations, and the higher the pressure in the pipelines, the greater the volume of gas locked in the compressor shop and pumped out by the ejector and the greater the effect of reducing emissions.

The claimed technical solution makes it possible to ensure the pumping of gas from one of the compressor shops of the compressor station stopped for repair without releasing gas into the atmosphere.

The system and method for pumping gas from the compressor shop of the compressor station can be carried out on standard equipment using known materials and technologies.

Claims (2)

1. A system for pumping gas from the compressor shop of a compressor station, including a compressor shop (CC) connected to the gas pipeline by means of inlet and outlet pipelines with taps, an ejector, gas pumping units installed in the CC, suction and discharge manifolds, characterized in that it contains at least at least two CCs, each of which is connected to its own gas pipeline, while CCs are interconnected with inter-shop jumpers (MP) equipped with cranes, one of which, MP suction, connects the suction collectors of neighboring CCs and the other, MP injection, connects the injection collectors of neighboring CCs , in addition, the ejector is installed between the mentioned MPs, while the inlet to the active gas ejector is connected by means of taps to the injection manifolds of the neighboring CC, and the ejector outlet is connected by taps to the suction manifolds of the adjacent CC, the inlets to the ejector for the ejected gas are connected to the manifolds by taps suction and discharge of the corresponding CC. 2. A method for pumping gas from the compressor shop of a compressor station, including stopping the repaired facility, shutting off the inlet and outlet pipelines connected to the repaired facility by means of shut-off valves, ejection of the pumped gas in the ejector with active gas, characterized in that the repaired facility is one of the compressor shops (CC) included in the compressor station, when it is turned off, the valves of the inter-shop jumpers (MP) connecting the suction and discharge manifolds of neighboring CCs are closed, then the valve is opened, providing an entrance to the ejector for active gas from the injection collector of the operating CC, and the valve connecting the outlet an ejector with a suction collector of an operating CC, while there is an outflow of active gas from the discharge manifold of an operating CC into the suction collector of an operating CC through the ejector, then the taps are opened that provide an entrance to the ejector for the ejected gas from the suction and discharge headers of the repaired CC, while the gas from the suction and discharge collectors of the repaired CC enters the ejector, where it is ejected with active gas, and then through the valve enters the suction collector of the operating CC.

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