SU1696678A1 - Gas lift for gas-lift well operation - Google Patents

Abstract

The invention relates to mechanized oil production, namely to gas-lift well operation. The aim of the invention is to increase operational efficiency by ensuring the cleaning of perforated holes and reducing gas consumption when the plant is restarted. The installation includes a casing (OK) 1 of pipes with perforated openings 2. In OK 1 a column of pump-compressor pipes (Tubing) 3 with side borehole chambers 4 is concentrically mounted. In the annular space between OA 1 and Tubing 3 above the perforated ones holes 2 installed packer 5. In the lower side chamber 4 a working gas-lift valve (K) 6 is placed. In chambers 4 above K 6, gas-start K 7 are installed. The installation is equipped with normally closed K 8. Positioned K 8 in the tubing string 3 between K 6 and 7. Completed K 8 with the possibility of opening at higher The pressure in the space between the tubing 3 and OK 1. For cleaning the perforated holes 2, the gas supply through the annular space between the tubing 3 and OK 1 is stopped. At the same time, K 8 overlaps the cross section of the tubing 3, and consequently, the rise of fluid from the reservoir along the tubing 3 above K 9 is prevented. Due to the influx of fluid from the reservoir, pressure increases at the bottom. When gas is repeatedly supplied in the space between the tubing 3 and OK 1, due to the lack of liquid in zone K 7, they do not open, but immediately open K 8. At the same time, a rarefaction wave is created at the bottom that helps clean the holes 2. In addition, the well begins operate immediately through K 6, which reduces gas consumption to restart the gas lift. 1 il. (l S o o o O VJ 00

Description

The invention relates to mechanized oil production, namely to gas-lift well operation.

The aim of the invention is to increase operational efficiency by ensuring the cleaning of perforated holes and reducing gas consumption when the plant is restarted.

The drawing shows schematically a gas-lift installation.

The gas-lift well installation includes a casing string 1 with perforated openings 2, a tubing string 3 installed concentrically in it with side wellbores 4. a packer 5 located in the annular space between

casing string 1 and tubing string column 3 and installed above the perforated holes 2, working gas-lift valve 6, located in the lower side chamber, and starting gas-lift valves 7, installed in the side chambers above the working valve 6. The unit is equipped with a normal closed valve 8, placed in the column of pump-compressor pipes 3 between the working 6 and start-up 7 gas-lift valves and configured to open when the pressure in the space between the pump-compressor column increases pipes 3 and casing string 1.

In drawing 9, the valve is shutter 8, 10 is the valve shutter drive, 11; the spring and 12 are openings for communicating the valve cavity with the annular space.

The installation works as follows.

The injected gas penetrates the annular space through the injection line. When passing successively through the starting valves 7, the liquid is aerated and carried out through the internal cavity of the tubing 3, while the valve 9 is in the closed position. When the injected gas reaches the normally closed valve 8 through the ports 12, it acts on the actuator 10 of the valve 8. In this case, the valve 9 of the valve 8 is brought to the open position. Next, the injected gas reaches the borehole chamber with the working valve 6 and the well begins to work.

To clean the perforated holes 2, it is necessary to temporarily shut off the gas supply through the annular space, while the valve .8 comes to the closed position due to the spring 11 and blocks the internal passage of the tubing. The opening, closing, and duration times are established in a practical way depending on the characteristics of the wells.

After stopping the operation of the well and blocking valve 8 of the tubing-compressor tubing column, the lifting of the fluid from the reservoir stops due to the presence

packer 5 and the normal of the closed valve 8. Due to the influx of fluid from the reservoir, pressure begins to rise at the bottom.

When re-supplying gas through the annular space due to the lack of liquid

in the zone of the starting valves 7, they do not open, but the valve 8 immediately opens, at the same time a vacuum wave is created at the bottom that facilitates the cleaning of the perforated holes 2. In addition, the well starts

work immediately through a gas lift worker

valve 6, which reduces the flow

gas for re-gas lift. Well

with normally closed valve

can also work in periodic mode.

Claims (1)

The invention The installation for gas-lift wells, including a casing with perforated holes, concentrically mounted in her tubing with side downhole chambers, a packer located in the annular space between the casing and the column tubing and installed above the perforated holes, working gas-lift valve, located in the lower side chamber, and gas-lift starting valves, installed in the side chambers above the operating valve, in order to increase its efficiency by ensuring that the perforated holes are cleaned and to reduce gas consumption when the installation is restarted, it is equipped with a normally closed valve placed in the tubing string between the working and starting gas-lift valves and capable of opening with increasing pressure in the space between the tubing string and the casing string. eight