UA61262A - Method for gaslift oil extraction and appliance for its implementation - Google Patents

Abstract

Method for gaslift oil extraction includes feeding to annular space working agent to lift the gas-liquid mix by the string of lift pipes, with dispersing in those the upward flow of gas bulbs. Decrease of mouth pressure is performed by feeding part of working agent to jet apparatus installed in discharge line. In the tail end of the lift string one makes depression by means of jet apparatus. Appliance for implementation of the method includes thelift pipe string with start gaslift valves, jet apparatus, packer, mouth fittings with discharge line and line for feeding working agent. The jet apparatus is arranged as a gas-jet ejector with multi-opening nozzle and is installed with its inlet openings at calculated distance from the dynamical level of the well. Openings of the multi-opening nozzle are placed concentrically with respect to the central opening and at angle . Beneath of the jet apparatus packer is installed, and the spring-wire dispersing elements are placed at calculated distance from each other along the whole length of the lift pipes.

Description

Description of the invention

The invention relates to the oil production industry, namely to methods and devices for the production of 2 oil.

A known method of gas lift oil extraction and a device for its implementation (author's certificate of the USSR

Mo1819322, cl. Е218В43/00, 1993), which includes the supply of a working agent (RA) into the annular space between the column of lift pipes (LCT) and the operational one, the lifting of the gas-liquid mixture along the CLT and dispersing the flow of gas bubbles in them. The KLI is equipped with gas supply tubes located in the annular space, the level of 70 liquid in which is brought to a mark below the lower open end of the tubes, and then ensure the continuous supply of RA into the cavity of the elevator pipes through the gas supply tubes, while the dispersion of the upward flow of gas bubbles is performed by mobile dispersers placed in separate chambers limited by washers along the entire length of the elevator pipes. The dispersers are made in the form of balls with through radial holes with the possibility of their axial movement and rotation inside the chamber in different directions. 19 Despite all the positive aspects of this extraction method, the disadvantage is large pressure losses on spherical dispersers and gas supply pipes, which leads to additional energy costs to maintain the necessary working pressure in the elevator pipes.

A close technical solution, chosen as a prototype of the proposed method of gas lift operation of wells and a device for its implementation (USSR copyright Mo1488442, class E21843/00, 1989), which includes feeding into the annular space of RA for discharge into the discharge line of the gas-liquid mixture. At the same time, the reduction of the mouth pressure is carried out by feeding a part of the RA into the jet device (CA) installed in the discharge line, and the moment of liquid plug entry is determined by the speed of propagation of elastic vibrations by sensors in the form of an acoustic emitter and receiver.

The device for gas lift operation of the well, which includes a CLT with start-up and working gas lift valves, a wellhead fitting with a discharge line and a RA supply line with a mechanism for reducing the wellhead pressure in the form of SA, sensors for monitoring the moment of liquid plug entry and the start of discharge, as well as a direction change node RA movements in the form of two membrane mechanisms.

This method and device for gas lift operation of the well requires additional consumption of RA, expensive and complex equipment, which leads to an increase in the cost of oil production. high school

The basis of the invention is the task of creating a method of gas lift operation of a well, which would (Ge) allow to stabilize the mode of operation of the gas lift lift, reduce the costs of the working agent and increase the flow rate of the well. Also, the task for the device for implementing the method of gas lift oil production is to increase the productivity of the gas lift lift without the use of complex control and measuring equipment. 325 The task is achieved by the fact that in the method of gas lift oil production, which is carried out during the supply of gas, into the annular space of the RA to raise the gas-liquid mixture to the surface, a depression is created in the shank of the KLT with the help of a jet device, made in the form of a gas jet ejector. Also, to reduce RA consumption, the jet device with its inlet holes is placed at a calculated distance from the dynamic level of the well, a packer is placed below CA, and spring-wire dispersers are located at a calculated distance Z from each other along the entire length of the elevator pipes. The use of a packer reduces the pressure on the breakout of the well c and, accordingly, increases its flow rate.

From" Fig. 1 shows the diagram of the arrangement of equipment for gas lift oil production; in Fig. 2 - an ejector pump with a multi-hole nozzle.

The method is carried out as follows.

A working agent would be fed into the annular space between the operational column 1 and the column of elevator pipes 2 through the input line C. With the help of starting gas lift valves 4, the gas-liquid mixture is gradually displaced to the inlets of the jet device 5, which is located at a calculated distance from the dynamic level of the well 6. With the help of the jet device 5, a depression is created in the shank 7, which improves the operation of the gas lift lift, because it is more dispersed the gas-liquid mixture is fed to the discharge line 8. For preservation

Gee! 20 of the dispersion structure of the flow along the entire length of the elevator pipes 2 spring-wire dispersers 9 are located at a calculated distance from each other. Packer 10 is used to reduce the pressure of the working agent on the wellhead, which makes it possible to increase its flow rate.

The jet device in the form of a gas jet ejector (Fig. 2) consists of a pump housing 11 attached to a column of elevator pipes 2, a multi-hole nozzle 12, in which the holes are placed concentrically to the central hole 25 and at an angle of szhz9'...77, an inlet with filter 13 blocked by plug 14 from c. suction channel 15, as well as a diffuser 16 with a lock nut 17. When the working agent passes through the multi-hole nozzle 12, a high degree of dispersion of the gas-liquid mixture occurs, which makes it possible to stabilize the operating mode of the gas lift elevator, reduce the consumption of the working agent and increase the productivity of well operation.

Claims (2)

The formula of the invention 1. The method of gas lift oil production, which includes the supply of a working agent into the annular space for lifting the gas-liquid mixture along the column of lift pipes, dispersing the upward flow of gas bubbles in them, while lowering the mouth pressure is carried out by feeding part of the working agent into the jet apparatus installed in ejection line, which differs in that a depression is created in the shaft of the column of elevator pipes with the help of a jet apparatus, made in the form of a gas jet ejector with a multi-hole nozzle, in which the holes are placed concentrically to the central hole and at an angle of 59/79 db, 2. A device for gas lift oil production, which includes a column of lift pipes with start-up gas lift valves, a jet device, a packer, a mouth fitting with a discharge line and a working agent supply line, which is characterized by the fact that the jet device is located with its inlets at a calculated distance of 70 from the dynamic level of the well, the packer is located below the jet device, and the spring-wire dispersers are located at a calculated distance from each other along the entire length of the lift pipes. « s to te s "- (Se) - and? (o) - name) (o) Ko) 60 b5