RU112713U1 - INSTALLATION OF GAS LIFT OPERATION OF WELLS - Google Patents

Abstract

Installation of gas-lift operation of wells, including a column of lifting pipes, start-up and working valves and a periodic gas supply valve, characterized in that it is additionally equipped with a metering pump connected to a surfactant supply unit to the lifting pipe string located in the periodic gas supply valve.

Description

The utility model relates to the oil industry and can be used in the development of deposits by the gas-lift method of operation.

The installation of gas lift operation, recognized in practice as the most advanced, is known; on its basis, most modern gas lift installations for oil production have been developed, for example, a standard L type gas lift installation, including wellhead and downhole equipment, consisting of gas lift valves installed in downhole chambers on the column of lifting pipes above dynamic fluid level in the annular space of the well, and a packer with a receiving valve mounted on the liner. In some cases, the packer is not installed and its functions are performed by a liquid located in the annular space between the liner and the production string. (Zaitsev Yu.V. et al. Reference manual on the gas-lift method of operating wells. -M .: Nedra 1984, p.29 ... 32).

The disadvantage of this gas lift scheme, like most others, is that a decrease in the relative immersion of the column of lifting pipes, for example, due to a drop in reservoir pressure and a decrease in the reduced dynamic level of the liquid, leads to a deterioration of all technical and economic indicators of the well’s operation, regardless of the type of well used gas lift equipment. Improving the operation of the installation can be achieved by artificially increasing the relative immersion, i.e. by transferring the well to a periodic mode of operation. With some depression on the reservoir, periodic accumulations of accumulated columns of liquid are carried out in the lifting pipes. At the same time, due to the artificial increase in the relative immersion of the pipe string due to the accumulation of large columns of fluid, the conditions of inflow from the reservoir are worsened, which in turn leads to a decrease in the flow rate of the well and destabilization of the bottomhole pressure.

A well-known installation of gas-lift operation of wells, including a column of lifting pipes, start-up valves and a working valve for periodically supplying gas to the column of lifting pipes, adopted by us as a prototype. (Patent No. 2239696 RU).

A disadvantage of the known installation is the large required gas flow rate per unit of well production.

The objective of the utility model is to reduce gas consumption for the production of a unit of well products.

This task is achieved in that the installation of gas-lift operation of wells, including a column of lifting pipes, start valves and an operating valve for periodic gas supply, according to the invention, is additionally equipped with a metering pump connected to a node for supplying surfactant to the column of lifting pipes located in the periodic valve gas supply.

In FIG. Installation of gas lift well operation is presented.

The installation consists of a metering pump 1, a tube for supplying a surfactant 2, a column of lifting pipes 3, start-up valves 4, a working valve 5 equipped with a node for supplying a surfactant 6, a valve for periodic gas supply to the column of lifting pipes 7 and a valve for supplying fluid to the riser string 8.

Installation works as follows.

The fluid coming from the reservoir accumulates in the annulus of the well. When a certain predetermined pressure is reached, the valve for supplying fluid to the column of lifting pipes 8 opens and fluid flows into the upper part of the working valve 5. In this case, the pressure in the annulus decreases. Upon reaching a certain set value, the valve for supplying fluid to the column of lifting pipes 8 is closed.

Upon accumulation of a certain predetermined height of the liquid column, it is triggered by a gas supply valve to the column of lifting pipes (7) and gas from the annulus enters the column of lifting pipes (3). At the same time, the metering pump (1) is turned on and the surfactant flows through the tube (2), being mixed with gas from the annulus, enters the column of lifting pipes (3) and forms a foam layer of the calculated height in it, which acts as a plunger. Upon reaching the set value of the pressure difference between the pressure in the annulus of the well and the pressure in the column of lifting pipes (3), the gas supply valve to the column of lifting pipes (7) is closed, the gas supply to the pipe string (3) is stopped.

The cycle described above can be repeated up to several times.

The proposed installation differs from the prototype in that when the well is operated in a continuously-discrete gas-lift manner at the time of opening the valve (7), the metering pump (1) is turned on for a predetermined time and a surfactant is fed into the column of the lifting pipes (3) through the pipe (2) substance. At the same time, a foam layer of an estimated height is created in the column of lifting pipes, which acts as a plunger

This gas lift technology has the following advantages:

- low cost of equipment compared to other mechanized methods of oil production;

- high overhauls periods of gas lift equipment;

- ease of carrying out and low cost of work and equipment for hoisting operations (all repair work is carried out without lifting the tubing string using rope technology);

- energy saving,

- low gas consumption for the production of a unit of well production.

The device in question can be effectively used with a significant gas factor of the well into which this device has been lowered, or if there are wells with a high gas factor close to it that will act as donor wells. In this case, a non-compressor downhole gas-lift method of operating wells will be implemented. In all other cases, compressor capacities are needed that will provide gas-lift equipment with the necessary gas volume.

Claims (1)

Installation of gas-lift operation of wells, including a column of lifting pipes, starting and working valves and a periodic gas supply valve, characterized in that it is additionally equipped with a metering pump connected to a surfactant supply unit to the lifting pipe string located in the periodic gas supply valve.