RU2339790C1 - Device for cleaning of wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention refers to oil and gas industry, particularly to devices for cleaning of wells. Device contains washing out device with several nozzles mounted on flow column. The device is designed to rotate and perform free oscillations in plane perpendicular to the axis of well.

EFFECT: increased efficiency and quality of cleaning and upgrading of its processability.

4 cl, 1 dwg

Description

The invention relates to techniques for overhaul of wells, namely, to installations for cleaning wells.

A well-known installation for cleaning wells, containing a flushing device suspended on a column of tubing (tubing), in which the flushing device is configured to create cyclic depressions and is equipped with a jet apparatus for pumping spent flushing fluid / Ivanovsky V.N. and others. Equipment for oil and gas production: At 2 o’clock. - M .: State Unitary Enterprise Oil and Gas Publishing House of the Russian State University of Oil and Gas named after I.M. Gubkina, 2002. - Part 1. - S.116-125 /.

The disadvantages of the known installation are:

- only has a passive effect on the bottomhole zone of the well by creating a differential pressure flushing device;

- low technological quality and insufficient quality of cleaning, because to lower the flushing device after cleaning one section of the well, it is necessary to add at least one pipe to the tubing string;

- uneven cleaning, so the flushing device can be pressed to the well due to its excess curvature (at AKN Bashneft, 70% of the wells have excess curvature, in Western Siberia almost all wells have excess curvature);

- the difficulty of reconfiguring the equipment during the transition from one operating mode (hydroimpulse processing) to another (pumping by an inkjet apparatus).

The closest in technical essence and the achieved result to the claimed invention is an installation for cleaning wells, containing a flushing device with one nozzle suspended on a string of tubing (tubing) / Development and operation of oil and gas fields. Muravyov I.M. et al. 3rd Edition, revised and supplemented. - M .: "Nedra", 1970. - S.332-333 /.

The disadvantages of the known installation are:

- low technological quality and insufficient quality of cleaning, because to lower the flushing device after cleaning one section of the well, it is necessary to add at least one pipe to the tubing string;

- uneven cleaning, so the flushing device can be pressed to the well due to its excess curvature.

The solved problem of the claimed invention is to increase the efficiency of the installation by providing higher quality and manufacturability of the process of cleaning wells, including wells of excess curvature.

The problem is solved in that the installation for cleaning wells, containing a flushing device suspended on a tubing string, is characterized in that the flushing device has two or more nozzles configured to change the outlet direction from them.

The change in the direction of exit from the nozzles is ensured by the implementation of a washing device with the possibility of its rotation.

The direction of exit of the jets from the nozzles coincides.

The flushing device is made with the possibility of free oscillations in a plane perpendicular to the axis of the well.

The flushing device is arranged to move along the axis of the well, for example, due to a telescopic suspension on a tubing string.

The flushing device is equipped with collections of washed-out deposits, for example, special pockets on the tubing string or container.

The implementation of the washing device with two or more nozzles provides the output of more than one jet of washing liquid. Depending on the pressure of the flushing fluid and the nature of the deposits on the well, this allows for optimal cleaning, thereby improving the quality of cleaning.

Changing the direction of exit of the jets from the nozzles, for example, due to the rotation of the outlet nozzles of the flushing device suspended on a rotating tubing string, allows for optimal cleaning, depending on the pressure of the flushing fluid and the nature of the deposits on the well, thereby increasing the uniformity of cleaning.

The discharge of spent flushing fluid together with sediment particles continuously or periodically depends on the volume of deposits. It allows you to optimize the process of diversion and thereby improve the quality of cleaning wells, including wells of excess curvature.

The execution speed of the jet of washing liquid from the washing device, taking into account the attenuation of the jet, sufficient to erode deposits in the well, allows you to erode deposits on the well. This provides an increase in the quality of well cleaning.

The coincident swirling directions of the flushing liquid jets make it possible to exclude jamming of one jet of another. This provides improved cleaning quality.

Free vibrations of the flushing device in a plane perpendicular to the axis of the well allow not only to erode deposits, but also to break them mechanically, for example, with the body of the flushing device during its free vibrations. This provides an increase in the quality of well cleaning due to additional mechanical impact. In addition, this will allow for better grinding of sediment particles and thereby facilitate the possibility of raising blurred sediments to the surface.

The maximum oscillation amplitude A _{max of the} flushing device will be if the flushing device is pressed against the well. She makes up

A _max = D _SLE -D _PU

where D _SLE , D _PU - respectively the diameters of the well and flushing device. To determine the maximum amplitude of the oscillations, it is necessary to measure the diameters of the well and the flushing device.

If the flushing device is suspended on a pipe of length l _under , then the maximum deflection angle φ _{max of the} flushing device is

φ _max = arcsin (A _max / l _under )

The creation of pulsations of the pressure of the flushing fluid, for example, by changing the pressure of the flushing fluid in the tubing string, allows to increase and decrease the rate of erosion, which improves the quality of well cleaning.

The possibility of lowering the flushing device lower after erosion of deposits at a specific depth, for example, due to telescopic connection with the tubing string, allows you to clean a larger section of the well than when the flushing device descends only by increasing the length of the tubing string.

The course of the flushing device during descent as erosion of deposits can be selected as a multiple of the length of the tubing.

The possibility of self-penetration of the flushing device into deposits as they are eroded, for example, by equipping with a sharp tip, can improve the quality of well cleaning.

The choice of the speed of descent of the tubing string with a flushing device equal to the standard speed of descent of the tubing string allows you to save the standard time; this ensures the preservation of the deadlines.

The collection of blurred deposits, for example, in special pockets on the tubing string or container, allows you to lift those blurred deposits that were not raised to the surface with the spent flushing fluid when lifting the tubing string. This provides an increase in the quality of well cleaning.

Installation for cleaning wells shown in figure 1.

Installation for cleaning wells located in the well 1; on the tubing string 2, a flushing device 3 is suspended with nozzles on a telescopic suspension 4 with a flexible hinge coupling 5. O-rings 6 are located in the tubing string 2. As a flexible hinged coupling 5, for example, the coupling according to RF patent No. 2230233 can be used.

Installation for cleaning wells works as follows. After lowering the washing device 3 on the tubing string 2 into the well 1 to the cleaning site along the tubing string 2, the supply of washing fluid begins. The flushing fluid flows out through the nozzles of the flushing device 3 and erodes deposits. When changing the direction of exit of the jets from the nozzles of the washing device 3, for example, due to the rotation of the tubing string 2, a uniform erosion of deposits occurs around the entire perimeter of the well being cleaned 1.

The flushing device 3 oscillates around the axis of the well 1 due to the flexible swivel coupling 5 and mechanically cleans the well 1. As the deposits erode, the flushing device 3 goes down due to the telescopic suspension 4. O-rings 6 prevent the outflow of washing liquid not through the telescopic suspension 4. The spent flushing fluid, together with washed out deposits, rises to the surface along the cavity formed by the inner surface of the well 1 and the outer surface of the tubing string 2.

Thus, the claimed invention is effective, since it allows to improve the quality and manufacturability of the process of cleaning wells, including wells of excess curvature.

Claims (4)

1. Installation for cleaning wells, containing a flushing device with several nozzles suspended on a column of tubing, made with the possibility of rotation, characterized in that the flushing device is made with the possibility of free oscillations in a plane perpendicular to the axis of the well. 2. Installation according to claim 1, characterized in that the swirl directions of the jets of washing liquid from the nozzles are the same. 3. Installation for cleaning wells according to claim 1, characterized in that the flushing device is arranged to move along the axis of the well due to telescopic suspension on a string of tubing. 4. Installation for cleaning wells according to claim 1, characterized in that the flushing device is equipped with collections of washed-out deposits - special pockets on the tubing string or container.