RU2731687C1 - System for pumping gas from disconnected compressor shop of main pipeline - Google Patents

Abstract

FIELD: pipelines.SUBSTANCE: invention relates to the field of main gas transport and can be used in operation of compressor stations, in particular for gas pumping from the disconnected adjacent compressor shop or pipeline section of the adjacent compressor shop before repair. In a system for pumping gas from a disconnected compressor shop of a main pipeline, comprising a multipurpose compressor station, inlet and outlet gas pipelines with inlet and outlet valves, inlet and outlet headers, recirculation gas line, gas transfer units with inlet and outlet gas pipelines, on which inlet and outlet valves are installed, ejection effect creation device, input and output inter-shop valves installed on inter-branch gas pipelines, inlet and outlet inter-branch gas pipelines are equipped with bypass valves, and device for creation of ejection effect is made in form of controlled vortex ejector, which inlet is connected to recirculation gas line, suction is connected to bypass valve of outlet gas line of disconnected compressor shop, and output is connected to inlet manifold of operating compressor shop.EFFECT: technical result is reduction of amount of natural gas emitted into atmosphere and, consequently, reduction of environmental pollution.1 cl, 1 dwg

Description

The invention relates to the field of main gas transportation and can be used in the operation of compressor stations, in particular for pumping gas from a disconnected neighboring compressor shop or a pipeline section of a neighboring compressor shop before carrying out their repair.

There is a method and device for pumping gas from a disconnected section of a gas pipeline into an operating gas pipeline, including a multi-shop compressor station of a multi-line gas pipeline with gas-pumping units of compressor shops connected by inlets and outlets with corresponding gas pipeline lines, gas purification and cooling installations, shut-off valves and jumpers between workshops. Compressor shop a compressor gas pipeline with a disconnected section is connected in series with other compressor shops in such a way that the outlet of the said compressor shop is connected to the inputs of other compressor shops, and an additional crane is installed on the line of the inter-shop bridge connecting the inputs of neighboring compressor shops, in series with the cranes installed on them, and between the sequentially installed taps, a jumper with taps is cut in, connecting the inlet inter-workshop jumper with the outlets of gas air cooling devices of neighboring shops (patent RU No. 2135885, IPC F17D 1/065, priority date 11.07.1997, publ. 27.08.1999).

The closest to the claimed technical solution in terms of a set of essential features and selected by the applicant as a prototype is a method for selecting starting gas, fuel, pulse and for own needs from the technological communications of the compressor shops of the compressor station as fuel when the adjacent shop is taken out for repair for which the system is used , including a multi-shop compressor station, inlet and outlet gas pipelines with inlet and outlet taps, inlet and outlet manifolds, a recirculation gas pipeline with a tap, gas pumping units with inlet and outlet gas pipelines, on which, respectively, inlet and outlet valves are installed, inlet and outlet inter-workshop valves installed on inter-shop gas pipelines, a device for creating an ejection effect due to the partial closing of one of the taps on the working high-pressure gas pipeline and additional adjustment of the other on the ejected low-pressure gas pipeline, while g The hole for pumping gas from the disconnected communications of the compressor shop is ensured by adjusting the standard shut-off valves located at a distance of less than 500 mm from the T-shaped connection of the shop gas pipelines (patent RU No. 2641770, IPC F17D 1/02, priority date 07.25.2016, publ. 01/22/2018 Bul. Number 3).

The disadvantage of the known technical solutions is the increased emission of pumped gas into the atmosphere from the shutdown compressor shop, which leads to environmental pollution.

The technical problem to be solved by the claimed technical solution is to reduce the amount of natural gas emitted into the atmosphere and, as a result, reduce environmental pollution.

The technical result coincides with the problem being solved and is achieved due to the fact that in the system for pumping gas from the shutdown compressor shop of the main pipeline, which includes a multi-shop compressor station, inlet and outlet gas pipelines with inlet and outlet valves, inlet and outlet manifolds, a recirculation gas pipeline, gas pumping units with inlet and outlet gas pipelines, on which, respectively, inlet and outlet valves are installed, a device for creating an ejection effect, inlet and outlet inter-shop valves installed on inter-shop gas pipelines, inlet and outlet inter-shop gas pipelines are equipped with bypass valves, and a device for creating an ejection effect is made in the form of an adjustable vortex of the ejector, the inlet of which is connected to the recirculation gas pipeline, the suction is connected to the bypass valve of the outlet gas pipeline of the shutdown compressor shop, and the outlet is connected to the inlet manifold of the operating compressor shop.

Distinctive features, consisting in the fact that the inlet and outlet inter-shop gas pipelines are equipped with bypass valves, and the device for creating the ejection effect is made in the form of an adjustable vortex ejector, the inlet of which is connected to the recirculation gas pipeline, the suction is connected to the bypass valve of the outlet gas pipeline of the disconnected compressor shop, and the outlet connected to the inlet manifold of the operating compressor shop, allowed, in the stated set of essential features, to reduce the amount of natural gas released into the atmosphere and, as a result, to reduce environmental pollution.

The claimed invention is illustrated by a diagram of a system for pumping gas from a shutdown compressor shop of the main pipeline.

The system for pumping out gas from the shutdown compressor shop of the main pipeline includes a multi-shop compressor station, an inlet gas pipeline 1 with an inlet valve 2 and a block of dust collectors 3 and an outlet gas pipeline 4 with an outlet valve 5 and a block of gas coolers 6.

Each compressor shop (CC) contains gas-pumping units (GCU) 7, connected by inlet gas pipelines 8 to inlet manifold 9, and outlet pipelines 10 to outlet manifold 11. Inlet valves 12 and outlet valves 13 are installed on pipelines 8 and 10. 12, a valve of smaller diameter 14 is installed, designed to fill the GPA 7 before starting. Parallel to gas pipelines 10, there are gas pipelines 15 with a valve 16, designed to start and increase the power of the GPA 7 when the valve 13 is closed and the anti-surge valve 17. Gas pipelines 15 are connected to the recirculation gas pipeline 18. Parallel to the gas pipelines 10 and 15, there is a candle line with a valve for venting gas into the atmosphere ...

CC are located in parallel and are interconnected by inter-shop input and output gas pipelines 19 and 20 with valves 21 and 22, respectively. The inlet gas pipeline 19 is connected to the inlet manifold 9, and the outlet gas pipeline 20 is connected to the outlet manifold 11. The inlet and outlet inter-shop gas pipelines 19 and 20 are equipped with bypass valves 23 and 24, respectively.

A device for creating an ejection effect, made in the form of a vortex ejector 25 with adjustable geometric parameters, is installed between the CC. The inlet of the ejector 25 is connected to the recirculation gas pipeline 18, the suction of the ejector 25 is connected to the outlet gas pipeline 20 through the bypass valve 23 of the disconnected CC, and the outlet is connected to the inlet manifold 9 of the operating CC. Gas pipelines connecting the ejector 25 with the collectors 9 and 11 and the recirculation gas pipeline 18 are equipped with taps.

The system for pumping gas from the shutdown compressor shop of the main pipeline works as follows.

When the adjacent shop stops, compressed gas from the recirculation gas pipeline 18 is fed to the inlet of the vortex ejector 25 into the tangentially located nozzle of the vortex chamber. The evacuated gas from the outlet pipeline 20 through the bypass valve 24 enters the suction of the vortex ejector 25, while the evacuated natural gas stream is sucked into the axial region of the vortex through the converging nozzle of the vortex ejector 25. The mixed gas flow, passing through the ejector 25, is directed to its outlet pipe and further into the inlet pipeline 9 and through the inlet pipelines 8 to the GPU 7, where the gas is compressed and directed to the outlet manifold 11 and then through the outlet gas pipeline 4, the outlet valve 5 to the main gas pipeline.

The claimed invention allows to reduce the amount of natural gas emitted into the atmosphere and, as a result, to reduce environmental pollution.

The analysis of known technical solutions, carried out on the basis of scientific, technical and patent documentation, showed that the set of essential features of the proposed technical solution is unknown from the prior art, therefore, it meets the criteria of patentability.

The claimed invention meets the requirement of industrial applicability and is possible for implementation on standard technological equipment.

Claims (1)

A system for pumping gas from a shutdown compressor shop of the main pipeline, including a multi-shop compressor station, inlet and outlet gas pipelines with inlet and outlet valves, inlet and outlet manifolds, a recirculation gas pipeline, gas pumping units with inlet and outlet gas pipelines, on which, respectively, inlet and outlet valves are installed, a device for creating an ejection effect, inlet and outlet inter-shop taps installed on inter-shop gas pipelines, characterized in that the inlet and outlet inter-shop gas pipelines are equipped with bypass valves, and the device for creating an ejection effect is made in the form of an adjustable vortex ejector, the inlet of which is connected to the recirculation gas pipeline, suction it is connected to the bypass valve of the outlet gas pipeline of the shutdown compressor shop, and the outlet is connected to the inlet manifold of the operating compressor shop.

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