RU68585U1 - SLOT FILTER FILTER - Google Patents

Abstract

The utility model relates to the oil and gas industry and can be used in oil and gas production.

The task of creating a utility model is to increase the throughput and quality of purification of liquids and gases entering the filtration and increase the service life of the downhole filter.

The solution of these problems was achieved in a slotted well filter, including a supporting frame made of a perforated pipe, and a slotted filter element made of wire wound on longitudinal elements in a spiral, characterized in that a mesh filter element is installed under the longitudinal elements in the form of at least , one filter mesh, which is mounted on a perforated pipe, a fixing wire wound in a spiral. A drainage layer is made between the filter screen and the perforated pipe. The drainage layer is made of spiral wound wire. The winding of the wire in the drainage layer differs in direction from the winding of the fixing wire. The drainage layer is made of mesh. The slotted filter element is made of wire with a diameter of 2.0 to 4.0 mm. The diameter of the wire of the drainage layer is made of a smaller diameter than the wire of the slit filter element. The diameter of the wire of the filter mesh is made smaller than the diameter of the wire of the drainage layer. At the beginning and at the end of the slit filter element, rings are installed. The filter nets are fixed with rings from a strip made of steel sheet.

1 s.p.-kt f.-ly, 9 head. subsection, ill. - 7

Description

The utility model relates to the oil and gas industry and can be used in the extraction of liquids and gases from the bowels.

Known downhole filter, which is a steel pipe with holes on which a profiled wire is wound (Gavrilko V.M. Filters for boreholes. M., "Nedra", 1985, p.7-9).

The main disadvantage of this design is the change in the inter-turn gaps when installing the filter in the well, the lack of protection of the filter mesh from mechanical influences during transportation and installation of the filter, which negatively affects the quality of filtration.

Known downhole filter, consisting of a supporting tubular perforated frame and a fibrous filter coating made in the form of individual plates of wire non-woven material, rigidly lapped by welding and soldering on a tubular filter frame against perforations (ed. USSR Certificate No. 941548, MKI 3 ЕВВ 43/08, publ. 1982).

The main disadvantage of this design is the presence of welded zones, which over time activates the processes of metal corrosion. The snug fit of the filter element to the perforated pipe significantly reduces the filtration zone, which is limited by the area of the hole in the pipe. There is no protection of the filter element from mechanical influences during transportation and installation of the filter.

A known filter design according to the patent of the Russian Federation for utility model No. 51644, consisting of a supporting frame made of perforated pipe, and a filter coating of wire non-woven material, the filter coating is made in the form of a tubular element and is mounted on the supporting frame in the grooves of the support rings fixed by the sub. Between the filter coating and the supporting frame there is a drainage layer made in the form of a spiral of wire wound on a supporting frame. This spiral forming the drainage layer may be made of spring wire. The tubular filter element is made of wire non-woven material obtained by pressing wire (metal rubber). Metal rubber was developed at the Samara State Aerospace University (formerly Kuibyshev Aviation Institute) and was used primarily for engine mount dampers. The downhole filter is protected by a casing with holes.

A disadvantage of the known filter design is the rapid clogging of the filter element with mechanical impurities. The protective casing with holes (radial gaps) does not fulfill the function of protecting the filter element from clogging of mechanical particles by large particles, performing the function of protecting the filter from mechanical damage during transportation and installation. In addition, the protective casing with radial clearances creates increased resistance when the fluid passes through the protective casing, which reduces the rate of fluid flow to the filter element and, accordingly, reduces the throughput of the downhole filter.

Known downhole well filters according to US patent No. 4771829, prototype. These filters contain a perforated pipe and a wire wound in a spiral with a gap between them. The wire is wound on the longitudinal elements.

Disadvantages: large tolerance on the width of the gap between the rows of wires (up to 40%), which leads to the fact that the filter allows particles to pass 40% more than the declared ones, and in addition, if the filter is transported or lowered, there is a local increase in the gap between the rows of wires by several times, respectively, larger abrasive particles penetrate with the produced product behind the filter, which causes wear on the ground equipment: pump and valves.

The task of creating a utility model is to increase the throughput and the quality of cleaning liquids and gases entering the filtration and increase its service life.

The solution of these problems was achieved in a combined downhole filter, including a supporting frame made of a perforated pipe, and a slotted filter element made of wire wound on the longitudinal elements in a spiral, in that a mesh filter element is installed under the longitudinal elements in the form of at least , one filter mesh. The filter nets are fixed with a fixing wire wound in a spiral. A drainage layer is made between the filter screen and the perforated pipe. The drainage layer is made of spiral wound wire. The winding of the wire in the drainage layer differs in direction from the winding of the fixing wire. The drainage layer is made of mesh. The diameter of the wire of the drainage layer is made smaller than the height of the cross section of the wire of the slit filter element. The diameter of the wire of the filter mesh is made smaller than the diameter of the wire of the drainage layer. The drainage layer is fixed by guide rings. The filter nets and the fixing wire are fixed by guide rings. Guide rings are made of a strip of steel sheet.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model.

The essence of the utility model is illustrated in the drawings of figures 1 ... 7. Where:

figure 1 presents the downhole filter,

figure 2 ... 4 presents a view of a,

figure 5 presents a section bB,

figure 6 presents a view,

Fig.7 shows the relative position of the wire of the drainage layer and the fixing wire.

The combined well filter (Fig. 1) contains a supporting frame made of a perforated pipe 1 with holes "G", a nipple part 2, a sleeve part 3 with corresponding external and internal threads and a filter element 4. In the holes "G" plugs can be installed 5, cut off before operation. The filter element 4 is installed between the restrictive rings 6. The filter element 4 (figure 2) is made of wire 7 wound on the longitudinal elements 8 in a spiral, under the longitudinal elements 8 there is a mesh filter element in the form of at least one filter mesh 9, which mounted on a perforated pipe 1, a fixing wire 10 wound in a spiral. Plugs 5 in figure 2 ... 6 are not shown. Between the filtering mesh 9 and the perforated pipe 1, a drainage layer 11. A drainage layer 11 may be made of wire 12 wound in a spiral (FIG. 3) or a relatively large mesh 13 (FIG. 4). The winding of the wire 12 in the drainage layer 11 differs in direction from the winding of the fixing wire 10. The slotted filter element is made of wire with a cross-sectional height of 2.0 to 6.0 mm. The width of the slit "B" is from 0.1 to 1.0 mm and depends on the viscosity of the product being mined, mainly oil. The diameter of the wire of the drainage layer 11 is made of a smaller diameter than the wire 7 of the slit filter element. The diameter of the wire of the filter mesh 9 is made smaller than the diameter of the wire 12 of the drainage layer 11. The filter mesh 9, the fixing wire 10 (if any) and the drainage layer 11 (if any) are fixed by guide rings 14 made of a strip of steel sheet. Combined downhole filters can be made with plugs 13 installed in openings "B" and without them.

The fixing wire 10 and the wire 12 of the drainage layer 11 are wound in opposite directions, this improves the drainage of the produced product.

During operation, the downhole filter is installed in the casing string and cemented in the well. Then the column is pressed together with the slotted well filter. In the presence of traffic jams 6 they are cut off. The produced product passes through the slots between the rows of wire 7 and enters the filter mesh 9 and then through the drainage layer 11 into the holes “G” made in the perforated pipe 1. In this case, the filtered product is double filtered: first, in the slots between the rows of wire 7, then on the filter mesh 9. Even with the same nominal dimensions of the slit and cell of the filter mesh, in case of local deformation of the wire rows and local increase in the gap, for example, when transporting or lowering the filter into the well, the filter mesh 9 dotvratit passage of relatively large particles to the wellhead and premature wear.

Application of the utility model allowed:

1. Create a filter that has a very high throughput and has good filtering properties. The good filtering properties of the combined filter are due to the use of two filtering systems: slotted and mesh.

2. Ensure long-term operation of the filter without clogging.

3. To prevent clogging of the filter when it is lowered into the well and to prevent the negative consequences of local damage or deformation of the wire forming the filter slots.

4. Simplify the design of the filter.

5. Reduce the cost of the filter.

6. Automate and mechanize filter production.

The well filter passed bench and industrial tests and showed high filtering ability and operational reliability.

Claims (12)

1. A slotted well filter, including a supporting frame made of a perforated pipe, and a slotted filter element made of wire wound on longitudinal elements in a spiral, characterized in that a mesh filter element is installed under the longitudinal elements in the form of at least one filter element the grid. 2. The slotted well filter according to claim 1, characterized in that the filter nets are fixed with a fixing wire wound in a spiral. 3. The slotted well filter according to claim 1 or 2, characterized in that a drainage layer is made between the filter mesh and the perforated pipe. 4. The slotted well filter according to claim 3, characterized in that the drainage layer is made of wire wound in a spiral. 5. The slotted well filter according to claim 4, characterized in that the winding of the wire in the drainage layer differs in direction from the winding of the fixing wire. 6. The slotted well filter according to claim 2, characterized in that the drainage layer is made of mesh. 7. The slotted well filter according to claim 3, characterized in that the diameter of the wire of the drainage layer is made smaller than the cross-sectional height of the wire of the slotted filter element. 8. The slotted well filter according to claim 1 or 2, characterized in that the diameter of the wire of the filter mesh is made smaller than the diameter of the wire of the drainage layer. 9. The slotted well filter according to claim 2, characterized in that the drainage layer is fixed by the guide rings. 10. The slotted downhole filter according to claim 1 or 2, characterized in that the filter mesh and the fixing wire are fixed by guide rings. 11. The slotted well filter of claim 10, wherein the guide rings are made of a strip of steel sheet. 12. The slotted well filter according to claim 1 or 2, characterized in that at the beginning and at the end of the slotted filter element restrictive rings are installed.