RU1787218C - Method of starting interconnected gas-lift compressor station - Google Patents

Abstract

Usage: in oil; gas production industry, namely, in the methods of starting cluster gas-lift compressor stations. SUMMARY OF THE INVENTION: a gas fraction from a gas-liquid oil stream is separated in separation device 4, then it is cleaned in separation plants 5 and 6, while ensuring constant pressure and gas flow at the inlet to compressor 7 by bypassing the excess gas-liquid mixture flow at the time of start-up bypass line-12 by means of a control valve 13: 1 ill.

Description

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

Known gas-lift compressor stations (CS) with a closed cycle of gas supply to gas-lift wells.

The closest technical solution of all known analogues with respect to the claimed method is the method of starting a gas lift compressor station.

The disadvantages of the prototype are the need for additional gas flow during start-up, i.e. the use of gas in a vacuum network; the need for a greater degree of compression to cover hydraulic losses due to the distance of the gas lift wells from the station; duration of the start-up period and greater inertia due to remoteness.

The aim of the invention is to increase profitability by intensifying the gas-lift process in gas-saturated fluid wells.

The goal is achieved in that a gas-saturated liquid is pumped through the gas separation system at a constant pressure at the compressor inlet, which is supported by the bypass of a portion of the borehole fluid, the increase in the pressure of the gas phase in it is controlled and, when the set pressure value is reached, the compressor is started in nominal mode.

The drawing shows a diagram of a gas lift compressor station that implements the proposed method.

The Kustova gas-lift compressor station contains an oil collector 1, a metering device 2 connected to it, and oil wells 3 connected to it. An oil collector 1 is connected to a gas-liquid-damping dividing device 4 connected to a vortex separating device 5 and a separator 6 fine cleaning. The separator output b is connected to the input of the compressor 7 with the drive 8. The output of the compressor 7 is connected to a gas distribution device 9 connected to the wells 3. The outputs of the devices 4, 5, and 6 are connected in liquid to the liquid manifold 10 and, accordingly, are equipped with control valves 11.

The vortex separating device 5 is additionally connected to the gas manifold 10 by a bypass line 12 with a control valve 13. The compressor 7 is equipped with a bypass line 14 with a control valve 15.

The launch of a cluster gas-lift compressor station is carried out as follows.

Gas pumps. Valuable liquid from gas-lift wells 3 is fed through the metering point to the oil reservoir 1. From the reservoir 1, part of the gas-saturated liquid is taken and supplied to the separation device

4 damping vibrations of a gas-saturated liquid, where a gas fraction is released, which sequentially fills the cavity of the vortex separating device 5, fine separator 6 and

the suction chamber of the compressor 7. When the nominal gas pressure is exceeded, the control valve 13 opens automatically. When the compressor 7 starts, the control valve 11 closes from the actuator 8, and when the gas pressure decreases in the fine separator, the control valve 13 closes. In the compressor 7, the gas is compressed and gas distribution device 9 is pumped into gas

wells 3. When starting a cluster gas-lift compressor station, the gas factor of the gas-saturated liquid increases and automatic maintenance of the liquid level in devices 4, 5 and 6 is carried out by control valves 11, and a constant pressure level on the inlet to the compressor 7 is maintained by valve 13.

In the study of the proposed solution, the following technical and economic advantages are possible with respect to the prototype: shortening the start-up period and providing a quick exit to the operating mode of the cluster gas-lift compressor station; providing a constant pressure and gas flow rate at the compressor inlet, increasing the efficiency and reliability of the compressor; intensification of the gas lift process.

Claims (1)

The claims A method of starting a cluster gas-lift compressor station with a gas separation system, comprising increasing the pressure of the gas phase released from the wellbore fluid when it accumulates in a closed volume of the system, subsequent purification of the gas phase and compressor re-injection of the purified gas phase into the well, characterized in that, in order to increase efficiency by intensifying the gas-lift process in wells with gas-saturated liquid, the latter is pumped through the gas separation system at constant pressure at the compressor inlet, which is supported by bypassing part of the well fluid, the increase in the pressure of the gas phase in it is controlled and, upon reaching the set pressure value, the computer is started essor in nominal mode.