RU2176049C2 - Device for natural gas utilization from disconnected sections of gas main - Google Patents

Abstract

FIELD: gas producing industry. SUBSTANCE: device has low-pressure blower, organic blower of compressor station and organic pipeline. Suction part of low-pressure blower is connected both with suction and also with pressure pipelines of organic blower, and on pressure part with suction pipeline of organic blower. EFFECT: utilization of natural gas from disconnected section of gas main located upstream and downstream of compressor station with insignificant expenditures for preparatory operations. 1 dwg

Description

 The invention relates to gas pumping units transporting gas through pipelines.

Known mobile compressor station (ISS) for pumping natural gas from disconnected sections of the main gas pipeline, described in the journal "Gas Industry" N 5, 1998, p. 16 and "Mobile installation for pumping gas from the disconnected section of the main gas pipeline (options)" according to patent N 2108489. "
The disadvantages of technical solutions are the need to deliver the ISS, consisting of several equipment semi-trailers, to the location of the disconnected section of the gas pipeline, deploying the equipment and connecting it to the gas pipeline under pressure. For the deployment and operation of the ISS, a crane, a mobile power station, and a mobile residential unit are also required.

 The closest technical solution is the "Gas pumping unit of the main gas pipeline" according to AS 916783.

 The disadvantage of this technical solution is the inability to utilize gas from disconnected areas located behind the compressor station (CS).

 The aim of the invention is the creation of a device for gas utilization from disconnected sections of the gas pipeline, located both before the compressor station and after the compressor station, which does not require the delivery of equipment for gas utilization to the location of the disabled section.

 This goal is achieved by the fact that the low-pressure supercharger interacting with the standard supercharger KS is connected at the suction to both the suction and discharge pipelines of the standard supercharger, and at the pressure, to the suction pipe of the standard supercharger.

 The features described in the known technical solutions include the presence of superchargers and pipelines.

 Distinctive features are the connection of the low-pressure supercharger at the suction with both the suction and pressure pipelines of the standard compressor KS, and at the pressure with the suction pipe of the standard supercharger.

 The invention is illustrated in the drawing, which shows a fragment of the pumping compressor, containing two branches of the main gas pipeline, separated by locking elements (hereinafter valves) 1 and 2 into sections 3 and 4, located before the compressor station and sections 5 and 6, located beyond the compressor along the gas flow, standard blower 7 with suction pipes 8 and 9 and valves 10, 11 and discharge pipes 12 and 13 with valves 14, 15. For the possibility of pumping gas from disconnected sections of the pipeline, the device is equipped with a low-pressure blower 16 with a suction gas recovery pipelines 17, 18 with valves 19, 20 connected to the suction pipelines 8 and 9 of the standard blower 7, suction gas recovery pipelines 21, 22 with valves 23, 24 connected to the discharge pipelines 12 and 13 of the standard blower 7, discharge piping of utilization gas 25 with a valve 26 and a jumper 27 with a valve 28 connected to the suction pipes of a standard blower 7.

 The gas utilization device provides for two stages of utilization and works as follows.

 The first stage of gas utilization is carried out by a standard supercharger 7 to a residual pressure in the disconnected section, which is the limit for a standard supercharger (about 5 MPa). When utilizing gas from section 3 or 4 through a standard pipeline 8 or 9 through valves 10 or 11, it enters the standard supercharger 7 and is pumped through regular pipe 12 or 13 through valves 14 or 15 into the working sections of the gas pipeline 5 or 6. When utilizing gas from the section 5 gas through the utilization pipeline 21 with the valve 23 and a jumper 27 with the valve 28 and the pipeline 25 with the valve 26 enters the standard blower 7 and is pumped through the valve 13 to the working section of the gas pipeline 6. Through the gas utilization from section 6, the gas is pumped in a similar way I'm in work area 5.

 In the second stage of gas utilization from sections 3 or 4, gas is supplied through a pipe 17 or 18 to a low-pressure supercharger 16 through valves 19 or 20 and a preliminary compressed gas is supplied to a standard supercharger 7, which pumps gas through a pipeline 12 or 13 through valves 14 or 15 into the working section of the gas pipeline 5 or 6.

 When utilizing gas from section 5, gas is supplied through a pipe 21 with a valve 23 to a low-pressure supercharger 16 and pre-compressed is supplied to a standard supercharger 7, which, through a pipe 13 through a valve 15, pumps gas into a working section of a gas pipeline 6. When utilizing gas from section 6, the gas is similar The method is pumped into the work area 5.

 The low-pressure supercharger 16 is connected in series with the standard supercharger and provides a constant minimum suction pressure to the standard supercharger, equal to about 5 MPa. The residual pressure in the utilized section of the gas pipeline depends on the type of low-pressure supercharger and can be equal to 0.1 ... 1.0 MPa.

 As a low-pressure supercharger, either a gas-jet ejector or a volume type compressor can be used.

 Centrifugal compressors with a compression ratio of about 1.5 are used as standard blowers on the compressor station.

 The device for gas utilization is located at the compressor station and provides gas utilization from 2, 3 sections of the gas pipeline both to the compressor station and after the compressor station. The number of pipeline sections between the compressor stations is 4-6. Therefore, the device for gas utilization ensures its utilization from the entire gas pipeline.

 The device for gas utilization can be performed as a stationary one installed on each compressor station or as a mobile one serving several compressor stations. In this case, the processors on the regular pipelines for connecting the device for gas utilization are provided at the compressor station.

 Due to the fact that the main gas pipeline is a complex set of interconnected pipelines with remotely controlled equipment, as well as the seasonal mode of operation, the gas pipeline’s throughput does not decrease during gas utilization.

 An advantage of the present invention is the possibility of utilizing gas from sections of the gas pipeline located both before the compressor station and after the compressor station along the gas without delivering equipment for gas utilization to the gas pipeline route, as well as in the absence of the need to connect it to the pipeline under pressure.

Claims (1)

 A device for utilization of natural gas from disconnected sections of the main gas pipeline, comprising a low-pressure supercharger, a standard compressor station supercharger, and a pipeline, characterized in that the low-pressure supercharger is connected at the suction to both the suction and pressure pipes of the standard supercharger and to the pressure with the suction pipe of the regular supercharger .