RU18553U1 - LIFT FOR LOW GAS WELL - Google Patents

Abstract

An elevator for a low-yield well refers to the natural gas extraction technique and can be used in the gas and oil industries.

The elevator includes steel tubing, inside of which a polyethylene pipe is placed, the lower end of which has perforations and rests on the bottom of the well, and the upper end is plugged and located below the root gate of the well.

The dryness of the utility model is that the necessary gas velocities in the well are achieved due to its movement along the annular space between the polyethylene pipe and the tubing.

Abstract.

Description

Elevator FOR low gas production wells.

The inventive utility model relates to techniques for the extraction of natural gas by a downhole method and can be used in the gas and oil industries.

During gas production, liquid (water and hydrocarbon condensate) enters the bottomhole zone from the formation. At low gas flow rates, this fluid is not brought out by the gas flow to the surface and accumulates at the bottom, which leads to a decrease in the gas productivity of the well.

Various technological methods and devices are used to remove fluid from the bottom of a low-production well.

A device is known that allows dispersing a liquid due to the kinetic energy of gas 1. In the tubing pipes (PCT) of a well through which gas flows, a narrowing is established at a certain distance from each other: devices in which dispersion occurs due to increased gas velocities liquid, which in the form of small drops is carried out by a gas stream.

The device has a natural disadvantage - high gas energy consumption, the supply of which is insufficient at low reservoir pressures. For this reason, the device is not used in fields with low reservoir pressures.

A known installation for removing liquid from the bottom of low-yield wells in the form of foam 2. The installation includes a pumping unit and a container with an aqueous solution of a surfactant, which is periodically pumped into the annulus of the well by a pump. After mixing the liquid at the bottom of the well with a surfactant, foam is formed, which is carried out of the well to the surface.

A device for periodic removal of fluid from the bottom of the wells with mechanical chickpea 3. The device is a glass that acts as a piston, which is installed inside the tubing.

Liquid removal from the bottom of the well occurs periodically, as it accumulates over the plunger.

To implement the device, it is necessary to have calibrated tubing and a sufficient supply of reservoir gas energy. A significant disadvantage of the device is the frequency of its operation.

A known design of an elevator for gas wells 4, adopted as a prototype, which includes a column (ICT) suspended inside the well and through which gas is taken from the reservoir. The tubing not only provides directional gas movement, but also serves to continuously remove fluid (water and hydrocarbon condensate) from the bottom of the well, which requires maintaining a certain gas flow rate in the tubing section.

The design has a number of drawbacks, the most significant of which is that when the gas production rate decreases due to a decrease in reservoir pressure during field depletion, the gas flow rate in the tubing section decreases and the fluid ceases to be carried out from the bottom of the well. To increase the gas flow rate, it is necessary to change the tubing to pipes of smaller diameter, which requires significant material and financial costs.

The purpose of the claimed utility model is the creation of an elevator that provides continuous removal of fluid from the bottom of a low-yield gas well with minimal costs for its manufacture and operation.

This goal is achieved due to the fact that a polyethylene pipe is inserted into the steel tubing, the lower end of which is perforated and abuts against the bottom of the well, and the upper end is cut off above the root valve of the well and plugged.

The essence of the claimed utility model is that to ensure continuous removal of fluid from the bottom of a low-yield gas well, in which RZhT are lowered to the lower boundary of the reservoir, there is no need to carry out work on the extraction of tubing from the well and to replace them with steel pipes of smaller diameter, and it is enough to lower polyethylene pipes of the required diameter with perforations at the lower end of the pipe into the existing tubing string and to plug its upper end under the root valve of the borehole s. The polyethylene pipe in the inventive design of the elevator for a low-yield well acts as a displacer, which reduces the free section of the tubing along which the gas-liquid mixture moves.

This goal is achieved due to the fact that the gas does not move along the full section of the tubing, but along the annular space between the tubing and a polyethylene pipe, the area of which is less than the section of the tubing.

The technical result achieved by the implementation of the utility model is to reduce the cost of work in the well and increase the productivity of the well in produced gas by providing continuous removal of fluid from its bottom.

The elevator for a low-yield gas well (Fig.) Includes a tubing string 1, a polyethylene pipe 2 with perforation 3, a plug 4, a reservoir 5 and a main valve 6.

The elevator works as follows:

The produced gas from the reservoir 5 along with the liquid rises to the wellhead along the annular space between the inner surface of the tubing 1 and the outer surface of the polyethylene pipe 2. Before the main valve 6, the gas-liquid mixture enters the tubing 1 through which it is removed from wells. Non-perforated holes in the bottom

parts of the polyethylene pipe serve to equalize the pressure on the outer and inner parts of the polyethylene pipe.

Sources of information:

1 Development and implementation of technology to increase the productivity of watered wells in the Orenburg

gas condensate field by physicochemical methods. "Ivano-Frankivsk Institute of Oil and Gas, Ivano-Frankivsk, 1987, 143с.

2 Temporary instructions for removing liquid from gas and gas condensate wells using foaming agents, SevKavNRShGaz, Stavropol, 1977, 53 sec.

3 Instruction manual for the plunger elevator in wells with high gas factor and saturation pressure in the fields of Western Siberia and other regions, Tyumen, 1987, 15s.

4 Korotaev Yu.P. Exploitation of gas fields, M., "Nedra, 1975, 415s.

Applicant Director

LLC “Sandy E.V. Drozdova

Claims (1)

An elevator for a low-yield gas well, including steel tubing, characterized in that an additional polyethylene pipe is placed inside the tubing, the lower end of which has perforations and abuts the bottom of the well, and the upper end is plugged and below the root valve of the well.