UA57785C2 - Expandable well screen - Google Patents

Abstract

An expandable well screen for preventing migration of sand or other solid panicles into a hydrocarbon fluid production well comprises a number of filter sheets (3) with circumferential slots (6), which sheets (3) are secured in an iris-shaped configuration and co-axial to an expandable slotted carrier tube (1) such that as result of expansion of the tube (1) the amount of overlap between adjacent filter sheets (3) is reduced. The circumferential slot pattern of the slots (6) enables the filter sheets (3) to slide easily relative to each other and to avoid buckling and/or tearing of the filler sheets during the expansion process.

Description

Description of the invention

The invention relates to a stretchable well filter designed to prevent 2 solid particles from entering a production well for the extraction of hydrocarbon fluids.

More specifically, the invention relates to an extensible borehole filter containing a certain number of filter layers, which are installed in an iris-like configuration and coaxially with an extensible transport pipe with slits in such a way that as a result of the pipe being stretched, the overlap of adjacent filter layers is reduced. 70 A similar stretchable well filter is described in the concurrently considered international patent application PCT/ЕРОБ/04887 submitted by the applicant.

Figure 3 of this prior art reference shows that the filter layers consist of plates that have a series of circular perforations. The size of these perforation holes is chosen to prevent solid particles larger than the size of the hole from entering the well. 19 A stretchable slotted transport tube suitable for use with a filter is described in international patent application PCT/EROZ/01460.

It has been found that the filter layers attached to the stretchable transport tube are significantly deformed during the stretching process of the slotted transport tube by the movement of the stretch core through it. The transport pipe during stretching is usually shortened due to the expansion of the slits oriented along the axis with their acquisition of a diamond-shaped shape.

This causes the filter layers to "accommodate" the shortening of the transport tube, and the friction between the overlapping filter layers and the transport tube or tubes causes the filter layers to wear.

The task of the present invention is to create a borehole filter with an iris-shaped configuration of filter layers that do not bend and which during the process of stretching the transport pipe easily slide one relative to the other and relative to the transport pipe.

A borehole filter according to the present invention includes filter layers with slits oriented substantially along a circle relative to the transport pipe.

In this description, reference to the circumferential arrangement of the slits means that all slits are oriented substantially o tangential to the conveying pipe and that such slits are oriented substantially c transverse to the central axis and any axially oriented slits of the conveying pipe.

In the optimal version, the filter layers consist of elongated strips with a checkerboard arrangement in rows of slits in the transverse direction relative to the longitudinal axis of each strip. Cha

The arrangement of the slits in the optimal version is such that the different rows are spaced at a step of half a slit in the transverse direction, and the length of the slits is greater than half of the transverse step o between the rows of slits, and the arrangement of the slits is such that they continue through the longitudinal edges of the strips .

In the optimal version, it is also provided that each strip is attached at evenly spaced points along it to the stretchable transport tube with slots and that each strip is attached to the "stretchable transport tube with slots at the mentioned points or by means of spot welding, With 70 brazing, brazing soft solder, gluing, riveting, or by screwing the strip to the pipe at each of the mentioned points.

From" These and other aspects, features and advantages of the borehole filter according to the present invention become apparent from the accompanying claims, the abstract and the following detailed description with reference to the drawings.

Figure 1 shows a cross-section of a borehole filter with an iris-shaped configuration of filtering layers according to the present invention; -I Figure 2 shows a longitudinal section of the well filter shown in Figure 1;

Figure 3 shows a side view of the downhole filter shown in Figures 1 and 2, without the protective pipe that it is. accommodates him; and at 20 Fig. 4 and Fig. AA, B, B and D show the initial shape and deformation of the circumferential slits near the longitudinal edge of the filter layers mentioned above, during and after the end of the stretching process. Fig. 1 shows an extensible transport pipe 1 with slits, surrounded by a well filter 2, containing a series of filter layers 3, which are installed in an iris-like configuration around the transport pipe 1. As shown in Fig. 2 and 3, the filter layers C consist of elongated 29 rectangular strips, each of which, as shown in Fig. 1, is attached to the transport pipe 1 at points

GF) attachments 4 located on or near the longitudinal center line of the filter layer C, using, for example, spot welding, brazing, soldering with soft solder, gluing, riveting or screwing at points evenly spaced along the transport pipe 1 The attachment points are located at the nodal areas between the edges of the slits of the transport tube 1. 60 The filter layers C overlap each other both in the axial direction and in the circumferential direction, in such a way that during and after the end of the stretching process shown in FIG. 4, at least some overlap of adjacent filter layers 3 remained.

In Fig. 3, the protective covering tube 5, which is visible in Figs. 1 and 2, is not shown, in order to show that each of the filter layers C includes a series of staggered slots 6 oriented along the 65 circle, which are oriented in practically in the tangential direction relative to the transport pipe 1 and practically in the transverse direction to the slits 7 oriented along the axis of the transport pipe 1 and to the central axis 8 of the transport pipe 1.

As shown in Fig.4, the transport pipe 1 is stretched during stretching by means of the Stretching cone 9, in such a way that the slits 7 oriented along the axis are deformed to acquire a diamond shape.

Stretching across the width causes the transport pipe 1 to shorten and, as shown in Fig

Figures 4A-G, oriented along the circle of the gap 6 on the longitudinal edges of the filter layers C and near them, first expand to acquire a diamond-shaped shape, as shown in Fig. 4B, and then narrow with 70 acquiring an X-shaped shape, shown in Fig. 4B, after which they again partially expand to the shape of the key hole, which is shown in Fig. 4G.

The successive expansion and narrowing of the circular slits 6 shown gives the filter layers

From the flexibility along the axis, which prevents bending or wear of the brittle layers C during the stretching of the transport pipe 1.

The circumferentially oriented slits b also allow the overlapping C layers to easily slide relative to each other during stretching.

It was also found that instead of installing the filter layers C in the longitudinal direction around the transport pipe 1, as shown in Fig. 3, the filter layers C can be installed in the form of a surface spiral around the transport pipe 1. In this case, the angle of inclination of the spiral should be chosen small enough to that the deviation of the direction of the slits 6 from the tangential direction of the transport pipe 1 does not exceed 20 degrees.

Claims (7)

The formula of the invention p 1. An expandable downhole filter designed to prevent solid particles from entering (o) a production well for the production of hydrocarbon fluids, which includes a number of filter layers installed in an iris-like configuration and coaxial with an expandable transport pipe with slots in such a way that in as a result of stretching the pipe, the amount of overlapping of adjacent filter layers decreases, which is distinguished by the fact that the filter layers have slits oriented practically in the direction of the circle relative to the transport pipe. co 2. A borehole filter according to claim 1, which is characterized by the fact that the filter layers consist of elongated thin strips with a staggered arrangement of rows of slits in the transverse direction relative to the longitudinal axis of each strip. C. A borehole filter according to claim 2, which differs in that the arrangement of the slits is such that different in. c5 rows are located with a step of half the gap in the transverse direction, and the length of the gaps is greater than half of the transverse step between the rows of gaps, and the arrangement of the gaps is such that they continue through the longitudinal edges of the strips. 4. A downhole filter according to item C, characterized in that each strip is attached at attachment points that are evenly spaced along it, to an extensible transport pipe with slits. " 5. A downhole filter according to claim 4, characterized in that each strip is attached to a transport pipe extending from c with slits at the specified attachment points by means of either spot welding, or soldering with hard or soft solder, or gluing, or riveting, or screwing the strip to the pipe at each of the mentioned points. 6. A borehole filter according to claim 5, which is characterized by the fact that the evenly spaced attachment points are placed at the nodal areas between the edges of the slits of the stretchable transport pipe with slits. sl 7. The borehole filter according to item b, characterized in that the longitudinal axis of each strip is practically parallel to the central axis of the transport pipe both before and after stretching the transport pipe. -I -I o 50 sl F) ime) 60 b5