RU159940U1 - SLOT FILTER FILTER - Google Patents

Abstract

1. A slotted well filter containing a perforated pipe, on the upper and lower ends of which nipple threads are cut, a coupling is installed on one of them for connection between each other and with the casing string, and one or more filter elements mounted on the perforated pipe, fixed by snap rings, characterized in that the function of the filtering element is performed by a casing in which filter slots are made, the width of which determines the degree of filtration, and support is installed between the perforated pipe and the casing e rings, the outer diameter of the support rings being equal to the difference between the inner diameter of the retaining ring and the two casing thicknesses, and the inner diameter of the supporting rings equal to the outer diameter of the pipe. 2. The slotted downhole filter according to claim 1, characterized in that the casing is made of stainless steel. 3. The slotted well filter according to claim 1, characterized in that the casing is made with a slit width of 0.1 ... 1.0 mm. 4. The slotted well filter according to claim 1, characterized in that the perforations in the pipe are round. The slotted well filter according to claim 1, characterized in that the perforations in the pipe are rectangular in shape. The slotted well filter according to claim 1, characterized in that the total area of the perforation holes in the pipe is greater than the total area of the filter slots in the casing. 7. The slotted well filter according to claim 1, characterized in that the casing is made of a strip wound in a spiral. The slotted well filter according to claim 1, characterized in that the casing is made of a bent sheet with a longitudinal weld. The slotted well filter according to claim 1, characterized in that the edges of the rectangular, perforated holes in the pipe are rounded. U

Description

The invention relates to the oil industry and can be used in the operation of oil, gas and water wells to filter the produced product from mechanical impurities.

Known well filter according to the patent of the Russian Federation for the invention No. 2514057. The device includes a metal pipe with holes, provided with a plug at the bottom, and a coupling at the top, and a cylindrical filter element located coaxially with it inside the pipe. The upper part of the pipe with holes, made in the form of a separate section that does not have a filter element inside, is covered with a mesh on the outside and inside contains a rubber diaphragm made in the form of a sleeve, the thickness of which is reduced along a vertical line parallel to the axis of the metal pipe and coinciding with the large axis of the holes elongated molds made at the top of a metal pipe. The filter is made in the form of sections connected by couplings. The upper part of the pipe with holes is connected on one side to a pump or liner with a sleeve, and on the other hand to a filter section located below. The disadvantage of the downhole filter is the location of the filter element inside the pipe, which reduces its flow area.

Known slotted well filter according to the patent of the Russian Federation for the invention No. 2507384. The invention relates to the oil and gas industry and can be used in the extraction of gas and oil. The device includes a perforated carrier pipe and a slotted filter element made of wire wound on the longitudinal elements in a spiral. The cross section of the wire is made pentahedral. One of the faces of the wire is made parallel to the longitudinal axis of the filter and forms its outer surface. Each side is made with two faces. The upper faces form a filter gap, and the lower ones converge, forming an acute angle. The upper faces are made perpendicular to the longitudinal axis of the filter and parallel to the upper faces of adjacent turns. The angle of inclination from the transverse axis of the upper faces is smaller than the lower ones. The angle connecting the lower faces is rounded. The disadvantage of a slotted well filter is a high wire profile and a small gap between the pipe and the filter element, which increases the hydraulic resistance and reduces the flow rate of the well.

Known downhole filter according to the patent of the Russian Federation for the invention No. 2499130. The invention relates to the oil and gas industry and is intended for filtering fluid in an injection well. The device contains filter sections, each of which includes a filter jacket, equipped with longitudinal rods with end rings at the ends, rigidly fixed to the base element, made in the form of a pipe with holes. The filtering shirt is made of longitudinal rods of circular cross section and stiffeners in the form of rings. Longitudinal rods are rigidly and coaxially with a gap between each other fixed on the periphery of stiffeners and end rings. Stiffeners are installed between the end rings based on the length of each filter section, with each filter section mounted on a separate base element. Metal grids are rigidly installed in each hole in the pipe, the cell sizes of which increase from the outside to the inside of the pipe. The minimum mesh size is greater than the gap between the longitudinal rods. The drawback of the downhole filter is the design complexity.

Known downhole filter according to the patent of the Russian Federation for the invention No. 2439293. The invention relates to general engineering and is intended to protect pumps from sand and other mechanical impurities during the operation of wells. The downhole filter includes a perforated pipe with a sleeve, a wire winding, ribs arranged in a spiral, a perforated protective casing and a fishing chamber. The ribs are made on the inner surface of the protective casing. Between the casing and the pipe, rings are installed in the upper and lower parts. Moreover, the lower ring is made with holes connecting the space between the pipe and the protective casing with the fishing chamber. The direction of the wire winding and the rows of holes in the pipe is opposite to the direction of the ribs and rows of holes in the casing. The inner space of the pipe is separated from the fishing chamber by a lid. The drawback of the downhole filter is the design complexity.

Known universal downhole filter according to the patent of the Russian Federation for the invention No. 2364709. The invention relates to the mining industry, namely to oil and gas, and can be used in the development of oil and gas wells. The universal downhole filter contains a perforated pipe with a nipple and coupling parts, the concentric of which a filter element is installed. The filter element is made of rings, the ends of which are in contact. At one or both ends of the rings, knurling is performed. Knurling is made crosswise or tangentially. The disadvantage of a universal downhole filter is its low throughput and high hydraulic resistance.

Known combined downhole filter according to the patent of the Russian Federation for the invention No. 2359109. The invention relates to the oil and gas industry and can be used in oil and gas production. The combined downhole filter includes a supporting frame made of a perforated tube and a slotted filter element made of wire wound on the longitudinal elements in a spiral. A mesh filter element is installed under the longitudinal elements in the form of at least one filter mesh fixed by a fixing wire wound in a spiral. Between the filtering mesh and the perforated pipe there is a drainage layer made of a wire wound in a spiral. In this case, the winding of the wire in the drainage layer differs in direction from the winding of the fixing wire. The disadvantage of a universal downhole filter is its low throughput and high hydraulic resistance.

Known downhole filter according to the patent of the Russian Federation for the invention No. 2334865. The invention relates to the oil and gas industry. The downhole filter includes a pipe with spiral rows of holes made on its lateral surface. Cut open plastic hollow plugs are hermetically sealed in the holes. At least one layer of support and drainage mesh and three layers of filtering mesh and an outer perforated protective casing are installed concentrically to the pipe. A fine mesh filter mesh is installed between two layers of large mesh filter mesh. The filter further comprises an overlapping tape made of stainless steel. The width of the tape is equal to twice the diameter of the holes on the pipe, the thickness is 0.1-1.0 mm The tape is located on the pipe between the outer perforated protective casing and the filter mesh with large cells above the holes in the same spiral as the holes on the side of the pipe. The drawback of the downhole filter is the design complexity.

Known downhole filter with the cleaning function according to the patent of the Russian Federation for invention No. 2332560. The invention relates to the oil industry and can be used in gas production and filtering water from sand. The downhole filter with the cleaning function is made in the form of a pipe with nipple threaded sections, one of which has a coupling and with holes on the side of the pipe. The filter element is installed concentrically to the pipe. The filter element is made in the form of two electrodes isolated from each other by means of a grid of non-conductive material. The electrodes are made in the form of a metal mesh and have the ability to connect to a source of electricity. The energy source is placed on the surface or made autonomous, for example, in the form of a battery of batteries or an electric generator and installed inside the downhole filter. A drawback of a downhole filter with a cleaning function is the design complexity.

Known downhole slit filter according to the patent of the Russian Federation for utility model No. 136851. The downhole slit filter contains a casing in the form of a pipe made of impermeable material with slit openings, characterized in that the slit openings in it are directed along the generatrix and their length is at least three times the width, and also that a rod is fixed along the axis of the housing, on which the impellers are mounted with the possibility of rotation and movement along the rod, separated by springs. The disadvantage of the downhole slit filter is the low manufacturability of production associated with the high complexity of performing slotted perforation.

Known downhole filter according to the patent of the Russian Federation for the invention No. 2199652 (prototype). The invention relates to the field of production of a liquid or gaseous product from wells, namely, filters for filtering oil, water or gas for subhorizontal sections of the barrel. The technical result is to increase the efficiency of the well and ensuring the manufacturability and reliability of the well filter. The downhole filter for the subhorizontal section of the barrel, made in the form of slotted holes, is made below the packer on the casing string with spring centralizers at each coupling connection, slotted holes with a width of 0.1-0.3 mm and a length of 100-150 mm are made by plasma cutting and are located along a circular arc in rows along the length of the pipe, equal to 0.45-0.55 of the length of the uncovered productive part. In this case, the slit openings can be arranged in circular rows of six slit openings in a row with a row offset of 30 ° relative to each other, while ensuring a cross-sectional area of the filter part per unit length of pipe equal to 900-1050 mm ² / m, or slit openings can be arranged in rows 10-12 slot holes per linear meter of the pipe while providing a total cross-sectional area of 17000-19000 mm ² . The disadvantage of the downhole filter is the low manufacturability associated with the high complexity of performing slotted perforation in a thick-walled pipe. The plasma cutting speed with a pipe thickness of 8.6 mm is only 720 mm per minute, while a through hole with a diameter of 4 ... 5 is burned at the beginning of the gap, which must then be welded. Plasma cutting cannot ensure that slotted hole punching is performed in the pipe with the required accuracy of ± 0.05 mm. The gap after plasma cutting narrows to the inner surface of the pipe and forms a wedge, which will quickly become clogged by rock particles and cause the filter to clog. Laser perforation of the pipe provides the necessary accuracy and profile of the slit, but its productivity is even lower and amounts to 50 ... 60 mm per minute, with a pipe wall thickness of 5 mm. Casing and tubing are prone to corrosion, which will lead to a change in the width of the perforations and change the degree of filtration. As analysis shows, it is advisable to perform filtering perforation slots in a corrosion-resistant sheet material, which will increase the filtration accuracy and prevent the slit from changing its size from corrosion, and the pipe can be perforated with large holes or slots to transfer the filtered produced product into the pipe for lifting from the well.

The task of creating a utility model is to prevent changes in the degree of filtration over time, reduce time and increase the manufacturability of the production of a well filter.

The solution to these problems was achieved due to the fact that the slotted well filter contains a perforated pipe, on the upper and lower ends of which nipple threads are cut, a coupling is installed on one of them for connection between each other and with the casing string, and one or more is installed on the perforated pipe filter elements fixed by retaining rings, the function of the filter element is performed by a casing in which filter slots are made, the width of which determines the degree of filtration, and between the perforated pipe and support rings are mounted on the casing, the outer diameter of the support rings being equal to the difference between the inner diameter of the retaining ring and two thicknesses of the casing, and the inner diameter of the support rings is equal to the outer diameter of the pipe. The casing is made of stainless steel. The casing is made with a slit width of 0.1 ... 1.0 mm. Perforation holes in the pipe are made round. The perforations in the pipe are rectangular. The total area of the perforations in the pipe is greater than the total area of the filter slots in the casing. The casing may be made of a strip wound in a spiral. The casing may be made of a bent sheet with a longitudinal weld. The edges of the rectangular, perforated holes in the pipe are rounded. Round perforations in the pipe can be covered with hollow plugs.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that well-known technologies are used in the manufacture of a slotted well filter.

The essence of the utility model is illustrated in FIG. 1 ... 5, where:

in FIG. 1 shows a longitudinal section through a slotted well filter, the casing of which is wound in a spiral with perforations in a round pipe,

in FIG. 2 shows a longitudinal section of a slotted well filter, the casing of which is made of a bent sheet with a longitudinal weld and perforations in a rectangular pipe,

in FIG. 3 shows a remote view "A" of the filter element with open perforations in the pipe,

in FIG. 4 shows a remote view "A" of the filter element with perforations in the pipe closed by hollow plugs,

in FIG. 5 shows a filtering slit of a filter casing, a remote view “B”.

The slotted well filter consists of a perforated pipe 1, on the upper 2 and lower 3 ends of which nipple threads are cut, a coupling 4 is installed on one of them for connection between itself and with the casing string, and one or more filter elements 5 are installed on the perforated pipe 1 fixed by the retaining rings 6, the filter element performs the function of a casing 7, in which filter slots 8 are made, the width "B" of which determines the degree of filtration, and support rings are installed between the perforated pipe 1 and the casing 7 9, and the outer diameter “D ₁ ” of the support rings 9 is equal to the difference between the inner diameter “D” of the retaining ring 6 and the two thicknesses “S” of the casing 7, and the inner diameter “D ₂ ” of the support rings is equal to the outer diameter of the pipe “D ₃ ”. The casing 7 is made of corrosion-resistant steel, for example 12X18H10T GOST 5632-72. The casing 7 is made with a slit width of 0.1 ... 1.0 mm Perforation holes 10 in the pipe 1 can be made round. Perforation holes 10 in the pipe 1 can be made rectangular. The total area of the perforation holes 10 in the pipe 1 is larger than the total area of the filter slots 8 in the casing 7. The casing 7 can be made of a strip 11 wound in a spiral. The casing 7 can be made of a bent sheet 12 with a longitudinal weld 13. The edges of the rectangular, perforation holes 10 in the pipe 1 can be rounded with a radius of "R". Round perforations 10 in the pipe 1 can be closed by hollow plugs 14.

Slot-hole filter operates as follows. Using a nipple thread and a coupling, the filter is connected to the filter string and casing, on which the downhole filter is lowered into the installation interval. If there are plugs 14 in the perforations of the tube, the face is flushed, after which the hollow plugs protruding into the pipe are cut off with a milling cutter. The produced product passes through the filter slots 8 of the casing 7, the width "B" of which determines the degree of filtration. Particles of rock, the size of which is larger than the size "B", are delayed in front of the casing 7. The product obtained purified from mechanical impurities passes through the annular gap formed by the casing 7 and the perforated pipe 1 to the perforation holes 10 or to the holes in the cut-off plugs 14 inside the pipe 1, from where it rises at the wellhead. Support rings 9 installed between the outer surface of the perforated pipe 1 and the inner diameter of the casing 7 with filter slots 8 provide the alignment of the casing 7 relative to the perforated pipe 1 and protect the casing 7 from collapse in horizontal wells. The implementation of the filter slots 8 in the casing 7 of corrosion-resistant steel, the thickness of which is 10 ... 12 times less than the thickness of the pipe and is 0.5 ... 0.8 mm, allows to reduce the production time, increase the accuracy of the manufacture of filter slots 8 and prevent a change in the degree of filtration in time caused by corrosion of the pipe metal.

Application of the utility model allowed:

1. To ensure the filtration of the produced product from mechanical impurities.

2. Improve the accuracy of filtration.

3. Reduce filter clogging.

4. To increase the service life of the slotted well filter.

5. Increase manufacturability and reduce production time.

6. To prevent a change in the degree of filtration over time.

7. Improve the quality of cleaning liquids and gases entering the filtration.

Claims (10)

1. A slotted well filter containing a perforated pipe, on the upper and lower ends of which nipple threads are cut, a coupling is installed on one of them for connection between each other and with the casing string, and one or more filter elements mounted on the perforated pipe, fixed by snap rings, characterized in that the function of the filtering element is performed by a casing in which filter slots are made, the width of which determines the degree of filtration, and support is installed between the perforated pipe and the casing e rings, and the outer diameter of the support rings is equal to the difference between the inner diameter of the retaining ring and two thicknesses of the casing, and the inner diameter of the support rings is equal to the outer diameter of the pipe. 2. The slotted downhole filter according to claim 1, characterized in that the casing is made of stainless steel. 3. The slotted well filter according to claim 1, characterized in that the casing is made with a slit width of 0.1 ... 1.0 mm. 4. The slotted well filter according to claim 1, characterized in that the perforations in the pipe are round. 5. The slotted well filter according to claim 1, characterized in that the perforation holes in the pipe are rectangular. 6. The slotted well filter according to claim 1, characterized in that the total area of the perforation holes in the pipe is greater than the total area of the filter slots in the casing. 7. The slotted well filter according to claim 1, characterized in that the casing is made of a strip wound in a spiral. 8. The slotted well filter according to claim 1, characterized in that the casing is made of a bent sheet with a longitudinal weld. 9. The slotted well filter according to claim 1, characterized in that the edges of the rectangular, perforated holes in the pipe are rounded. 10. The slotted well filter according to claim 1, characterized in that the round perforations in the pipe are closed by hollow plugs.

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