RU70302U1 - BORE FILTER FOR VISCOUS OIL - Google Patents

Abstract

The invention relates to the mining industry, in particular to oil and gas and can be used in the development of oil wells. The objective of the invention: increase its throughput for the production of viscous oil. The solution to this problem was achieved in a well filter for viscous oil, containing a perforated pipe with nipple and sleeve parts concentrically with a filter element and a protective casing, in that the filter element is made of at least one filter mesh wound in a spiral, the edges of the grid are interconnected. The edges of the mesh are fastened with staples or connected with a wire with a cross section not exceeding the mesh size of the filter mesh. The protective casing is made of expanded metal. An internal drainage layer is made under the filter mesh. The inner drainage layer is made of a drainage net wound in a spiral. An external drainage layer is made over the filter mesh. The external drainage layer is made of a drainage network wound in a spiral. An external drainage layer is made over the filter mesh. The external drainage layer is made of a drainage network wound in a spiral. The winding of the drainage nets of the outer and inner layers is made in opposite directions. The filter screen, protective cover and drainage screen are made of stainless steel. 1 sec P.-Kt F.-ly, 14 head. P.C., ill. 6

Description

The utility model relates to the mining industry, namely to the oil and gas industry and can be used in the development of oil wells.

Well-known filter according to A. St. USSR No. 1645470, containing a perforated pipe on which a wire filter element with protrusions is laid. The protrusions placed quite often on the wire provide a constant gap between the rows.

The disadvantage of the filter is the possibility of deformation of the wire during transportation of the filter or its installation in the well. This can lead to a local increase in the gap between the rows of wire and the passage at the wellhead of large particles of foreign impurities.

Known gravel downhole filter for St. RF for utility model No. 3830, containing a perforated pipe with a sleeve and nipple parts and a filter element in the form of a filter mesh and a protective casing. The mesh size of the filter element is 0.15 ... 0.25 mm.

Disadvantage: the filter is not suitable for the production of viscous oil for two reasons: the small size of the mesh of the filter mesh and the overlap of the filter mesh at the joints on top of each other, which leads to an additional reduction in the cross-section at the location of the layers of the filter mesh.

The task of creating a utility model: increasing the filter capacity for the production of viscous oil.

The solution of this problem was achieved in a well filter for viscous oil, containing a perforated pipe with nipple and sleeve parts concentrically with a filter element and a protective casing, in that the filter element is made of at least one filter mesh wound in a spiral, the edges of the grid are interconnected. The edges of the mesh are fastened with staples or connected with a wire with a cross section not exceeding the mesh size of the filter mesh. The protective casing is made of perforated or expanded metal sheet. An internal drainage layer is made under the filter mesh. The inner drainage layer is made of a drainage net wound in a spiral. An external drainage layer is made over the filter mesh. The external drainage layer is made of a drainage network wound in a spiral. The winding of the drainage nets of the outer and inner layers is made in opposite directions. The filter screen, protective cover and drainage screen are made of stainless steel.

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 non-deficient materials and known technologies are used in the manufacture of the filter.

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

- figure 1 - shows the downhole filter assembly (conditionally protective casing is partially removed),

- figure 2 - shows a second variant of the downhole filter assembly (conditionally protective casing and filter mesh partially removed),

- figure 3 - shows a section aa for the first version of the filter,

- figure 4 is a section bB for the second variant of the downhole filter,

- figure 5 - shows a section bB for the third version of the downhole filter.

The proposed design of a well filter for viscous oil (1 ... 5) contains a perforated pipe 1 with holes "B", nipple and coupling parts, respectively 2 and 3, a filter element 4 mounted concentrically perforated pipe 1 and a protective casing 5 s holes "G". The protective casing 5 may be made of perforated or expanded metal sheet. The filter element 4 is made of at least one layer of the filter mesh 6, wound in a spiral with a junction "D" between the turns. The connection is made without overlap or with a slight overlap. At the junction "D" the connection is made with paper clips 7 or wire 8 (Fig.1 and 2).

Under the filter layer may be made of the inner drainage layer 9 (Fig.3, 4 and 5).

During operation, the produced product containing impurities passes through holes “G” in the protective casing 5 and then passes through the cells of the filter mesh 6 of the filter element 4 into the inner cavity of the perforated pipe 1. Due to the cell size of the filter element 4 is 0.35 ... 1.0 mm larger particles are filtered out and do not get to the pumping equipment and valves installed at the wellhead, which will prevent their premature wear. The presence of relatively large cells of the filter mesh and the absence of overlapping mesh allows you to increase the filter service life until it becomes clogged with asphalt-resinous and paraffin hydrate deposits located in viscous oil.

The application of the utility model will allow to obtain a number of advantages in comparison with the previously used well filters, namely:

1. Provide minimal hydraulic resistance to the passage of viscous oil and thereby increase the oil flow rate.

2. Reduce clogging of the cells of the filter element with asphalt-resinous and paraffin-hydrate compounds.

3. Simplify the design of the filter.

4. To provide high adaptability of the filter.

5. Reduce the weight of the filter by simplifying the design.

6. Reduce filter manufacturing costs.

7. Accelerate the process of preparing the well for operation.

8. To reduce the economic costs of well development.

Claims (15)

1. A downhole filter for viscous oil, containing a perforated pipe with a nipple and coupling parts, concentric with which a filter element and a protective casing are installed, characterized in that the filter element is made of at least one filter mesh wound in a spiral, while the edges grids are interconnected. 2. The downhole filter for viscous oil according to claim 1, characterized in that the edges of the grid are fastened with staples. 3. The downhole filter for viscous oil according to claim 1 or 2, characterized in that the edges of the mesh are connected by a wire with a cross section of not more than the mesh size of the filter mesh. 4. The downhole filter for viscous oil according to claim 1 or 2, characterized in that the protective casing is made of expanded metal sheet. 5. The downhole filter for viscous oil according to claim 1 or 2, characterized in that an internal drainage layer is made under the filter mesh. 6. The downhole filter for viscous oil according to claim 5, characterized in that the inner drainage layer is made of a drainage network wound in a spiral. 7. The downhole filter for viscous oil according to claim 1 or 2, characterized in that an external drainage layer is made above the filter mesh. 8. The downhole filter according to claim 7, characterized in that the external drainage layer is made of a drainage network wound in a spiral. 9. The downhole filter for viscous oil according to claim 5, characterized in that an external drainage layer is made above the filter mesh. 10. The downhole filter according to claim 9, characterized in that the external drainage layer is made of a drainage network wound in a spiral. 11. The downhole filter of claim 10, characterized in that the winding of the drainage nets of the outer and inner layers is made in opposite directions. 12. The downhole filter for viscous oil according to claim 1 or 2, characterized in that the filter mesh is made of stainless steel. 13. The downhole filter for viscous oil according to claim 1 or 2, characterized in that the protective casing is made of stainless steel. 14. The downhole filter for viscous oil according to claim 8, characterized in that the drainage mesh is made of stainless steel. 15. The downhole filter of claim 10, wherein the drainage mesh is made of stainless steel.