RU1787219C - Gas-lift compressor station - Google Patents

Abstract

Usage: in pump engineering for the design of hydrotransport systems for public use. SUMMARY OF THE INVENTION: the station comprises a gas main with a compressor 7, connected to the bypass line 14 of the oil collector 1 through inlets and a device 4 for damping oscillations of the gas-liquid mixture, and a collecting tank 13. The collector 1 is equipped with a pressure regulator 16, the inlets are equipped with automatic control valves 19 ; the device for separating the gas phase is provided at the inlet with a blade swirl 11, at the exit with a slotted liquid cut-off 12 and is made in the form of a separation cup. The collection tank 13 is made in the form of a tank of reduced pressure. 1 ill.

Description

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The invention relates to the oil and gas industry, in particular to gas lift compressor stations.

Known circuits for the closed gas supply to gas lift stations,

The closest technical solution of the known analogues with respect to the claimed object is a closed-loop gas supply scheme for gas-lift wells, where both oil and natural gas from near lying gas deposits can be used as a working agent. --- The disadvantage of the known scheme is the need for large capital investments in connection with the need to build compressor shops and gas distribution points; large hydraulic losses of gas pressure during transportation to the central station; the inability to use wells on wells in difficult to reach areas; low efficiency due to the lack of stabilization of the operating mode; low system efficiency due to hydraulic losses during transportation to the central station.

The purpose of the invention is to increase the efficiency and reliability of operation by automating the process of achieving a stable operation of the station and compressor.

This goal is achieved by the fact that in a known station containing an oil manifold with a meter connected to its input and a bypass line equipped with shut-off valves, a gas line with a compressor installed on it and with a distribution device at the outlet, a device for damping oscillations of a gas-liquid mixture and a device gas phase separation connected in series pneumatically 7 to the gas line and hydraulically by means of inlets to the bypass line of the new phase has a collecting tank and a separator, the collector is equipped with a pressure regulator, the inlets are equipped with automatic control valves, and the gas phase separation device is equipped with a blade swirl at the inlet, and with a slotted separator at the outlet and is made in the form of a separation cup, this collection tank is made in the form of a tank of reduced pressure.

The drawing shows a diagram of a cluster gas-lift compressor station.

The Kustova gas-lift compressor station comprises an oil reservoir 1, a metering device 2 connected thereto,

to which oil wells are connected 3.

The oil manifold 1 is connected to a device 4 for damping vibrations of a gas-liquid medium, connected to a device 5 for separating the gas phase, a gas separator 6, is connected to a compressor unit with a drive 8. The output of the unit 7 is connected to a gas distribution device 9, connected to oil wells 3 The gas phase separation device 5 is made in the form of a separation cup 10, at the inlet of which a blade swirl 11 of a gas-liquid flow is placed, and

5, the outlet of the separation cup 10 is equipped with a slit liquid cutoff 12, which is in communication with the collection tank 13, made in the form of a tank of reduced pressure, which is connected to the liquid

0 by a collector 14, the outlet of the separation cup 10 is connected to a gas separator 6, which is additionally equipped with mesh nozzles 15 for fine gas purification, and the output of the gas separator 6 is connected to the liquid collector 14 via a liquid flow 5. and the output of the compressor unit 7 through a gas stream in which a screw type compressor is installed, and the output of the compressor unit 7 is connected to a gas distribution device 9.

The oil manifold 1 is equipped with a pressure regulator 16 for the gas-liquid mixture, on the pipeline connecting the oil manifold 1 and the device 4 for damping the oscillations of the pressure of the gas-liquid mixture 4, and on the liquid manifold 14 connecting the oil manifold 1, the collecting tank 13, the gas separator 6 and a device 4 for damping the pressure fluctuation of a gas-liquid mixture,

0 shut-off valves 17 are installed. Gas separator 6, collection tank 13 for collecting the separated liquid are communicated with the liquid collector 14 through additional automatic control

5 valves 18 and 19 providing a constant liquid level in the liquid modules of the gas-lift compressor station, with the formation of an automatic system for stabilizing the gas-lift operation mode

0 compressor station, control system and protection system of the screw compressor against liquid ingress.

On the device 4 damping pressure fluctuations of the gas-liquid mixture, team

5, tanks 13 for collecting the separated liquid and a gas separator 6 are equipped with level sensors 20.

Claims (1)

SUMMARY OF THE INVENTION Cluster gas lift compressor station comprising an oil manifold with a metering device connected to its input and a bypass line equipped with shut-off valves, a gas line with a compressor installed on it and with a distribution device at the outlet, a gas-liquid mixture damping device and a gas phase separation device, sequentially connected pneumatically to the gas line and hydraulically by means of inlets to the bypass lines, and the gas phase separation device has a collection tank a bone and a separator, characterized in that, in order to increase the efficiency and reliability of operation by automating the process of achieving a stable operation of the station and compressor, the collector is equipped with a pressure regulator, the inlets are equipped with automatic control valves, and the gas phase separation device is equipped with a scapular inlet a swirler, at the outlet a slotted cut-off device and is made in the form of a separation cup, wherein the collecting container is made in the form of a reduced-pressure container.