RU89872U1 - FILTER WELL - Google Patents

Abstract

1. Well filter, comprising a perforated pipe with sealing cut-off plugs, a filter element with one or more filter screens and at least one drainage screen, an outer casing with holes offset from the holes in the pipe, characterized in that the filter element is made of sections that are separated by restrictive rings, and consisting, in turn, of three consecutive parts, the middle of which consists of at least one drainage grid with distance rings on both sides, and each of the other two parts consists of at least one filter mesh, while the holes in the perforated pipe are made in pipe sections located under the filter screens, and are equipped with supporting collars and grooves, the protective casing is made of one-piece tubular , with holes located above the drainage nets. ! 2. The downhole filter according to claim 1, characterized in that rubber plugs are used as cut-off plugs. ! 3. The downhole filter according to claim 1, characterized in that it is connected in series with at least one downhole filter. ! 4. The downhole filter according to claim 3, characterized in that the diameter of the holes in the perforated pipe and the distance along the longitudinal axis of the filter between these holes and holes in the casing in any of the attached filters can be structurally different, while changing the diameter of the holes in the pipe is depending on the change in the distance between these holes and the holes in the casing.

Description

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

Known downhole filter (RU 2326233 C2, IPC ЕВВ 43/08, 10.11.2007), including a casing, a perforated frame and a sleeve installed in the perforation zone, inside the frame and aligned with it, with the formation of an annular gap between the surface of the sleeve and the inner wall the frame along the entire length of the sleeve and the filter bore corresponding to the inner diameter of the casing, while the sleeve is conical, and the device provides the possibility of acceleration of the formation fluid in it, for which the part of the outer surface associated with perforation In particular, the sleeve is made in the form of a turbine blade, accelerating the formation fluid in the annular gap without turbulent turbulence and creating a zone of reduced pressure in the center of the frame to stimulate the flow of formation fluid.

The known filter can be used in the operation of horizontal wells. The disadvantage of this filter is the difficulty of manufacturing its structural elements.

Known downhole filter (RU 38833 U1 ЕВВ 43/08, 07/10/2004) containing a perforated tubular frame with sealing shear plugs, a support-drainage mesh, a filter layer and an outer casing made of metal expanded metal sheet. In this case, the filter layer may contain one or more filter mesh.

The disadvantages of this filter include: fast clogging of the filter element with mechanical impurities, since the protective casing with holes (radial clearances) 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.

Also known is a downhole filter (RU 2259472 C2, IPC Е21В 43/08, ЕВВ 3/18, 27.18.2005), adopted as a prototype, comprising a pipe with spiral rows of holes made on its lateral surface, in which cut-off plugs are sealed, at least at least one filter mesh and a protective casing with holes mounted concentrically on the pipe, while the protective casing is made of several sheets laid end-to-end along the length of the pipe, the longitudinal joints of which, as well as the rows of holes on adjacent sheets are offset relative to each other in the circumferential direction laziness.

The disadvantages of this filter include the complexity of the assembly when installing a protective casing. In addition, there is a high probability of destruction of the protective casing made of individual sheets when lowering the filter into the well.

The task of creating a real utility model is to increase the reliability of the device, simplify the assembly of the downhole filter, increase the return of the formation.

The present problem is solved in that in a well filter containing a perforated pipe with sealing cutoff plugs, a filter element with one or more filter screens and at least a drainage screen, an outer casing with holes offset relative to the holes in the pipe, according to the claimed utility model , the filter element is made of sections that are separated by restrictive rings. Each section consists of three successive parts, in the middle part there is at least one drainage mesh with spacing rings on both sides, and each of the other two parts consists of at least one filter mesh, with holes in the perforated pipe made in pipe sections located under the filtering nets, and equipped with supporting collars and grooves, the protective casing is made of solid tubular, with holes located above the drainage nets.

Rubber plugs can be used as cut plugs.

The downhole filter can be connected in series with at least one downhole filter.

The diameter of the holes in the perforated pipe and the distance along the longitudinal axis of the filter between these holes and the holes in the casing in any of the attached filters can be structurally different, while the change in the diameter of the holes in the pipe depends on the change in the distance between these holes and the holes in the casing.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the downhole filter; figure 2 is a section bB in figure 1; figure 3 is a view of figure 1.

The downhole filter contains a perforated pipe 1, with holes 2 on the side surface, equipped with supporting collars 3 and grooves 4, cut-off plugs 5, a filter element 6, consisting of sections separated by restrictive rings 7, drainage nets 8 with spacer rings 9 on both sides, filter nets 10, a protective casing 11 with holes 12.

Well filter works as follows.

The fluid enters through the openings 12 of the protective casing 11, passes through the drainage nets 8, where "rough" cleaning of the fluid is carried out. To exclude the flow of fluid along the wall of the perforated pipe 1, the drainage nets 8 are limited by distance rings 9. Then, breaking into two oppositely directed flows, the fluid enters the filtering nets 10 with a fine mesh - the fluid is cleaned of smaller mechanical impurities. Through holes 2 of the perforated pipe 1, formed after cutting the plugs 5, the fluid enters the perforated pipe 1.

The implementation of holes with supporting collars and grooves provides high tightness of the cut-off plugs. The protective casing, made of a tubular, eliminates the destruction when lowering into the well. Due to such design features of the filter as the implementation of the filter element from sections that are separated by restrictive rings, and the design of sections consisting of three consecutive parts - the middle with a drainage grid with spacer rings on both sides, two other parts with filter grids, is ensured effective filtration; the life of the filter element increases. The placement of holes in the casing outside the zone of location of the plugs eliminates the need to check their relative position during assembly.

In the manufacture of a filter using rubber plugs as plugs, the need to use drilling technology is eliminated. Stubs get lost when passing through the template.

The placement along the length of the useful horizontal section of the well of several series-connected filters with structurally different diameters of the holes in the perforated pipe, which are dependent on changes in the distance between these holes and holes in the casing along the longitudinal axis of the filter in any of the attached filters, provides a more uniform fluid flow, increases reservoir return.

Thus, the claimed utility model is a downhole filter in comparison with the known solutions and the selected prototype allows you to:

- simplify the manufacture of elements and assembly of the filter;

- to ensure the reliability of the design of the filter when lowering into the well;

- increase the life of the filter element;

- increase the productivity of the reservoir.

Claims (4)

1. Well filter, comprising a perforated pipe with sealing cut-off plugs, a filter element with one or more filter screens and at least one drainage screen, an outer casing with holes offset from the holes in the pipe, characterized in that the filter element is made of sections that are separated by restrictive rings, and consisting, in turn, of three consecutive parts, the middle of which consists of at least one drainage grid with distance rings on both sides, and each of the other two parts consists of at least one filter mesh, while the holes in the perforated pipe are made in pipe sections located under the filter screens, and are equipped with supporting collars and grooves, the protective casing is made of one-piece tubular , with holes located above the drainage nets. 2. The downhole filter according to claim 1, characterized in that rubber plugs are used as cut-off plugs. 3. The downhole filter according to claim 1, characterized in that it is connected in series with at least one downhole filter. 4. The downhole filter according to claim 3, characterized in that the diameter of the holes in the perforated pipe and the distance along the longitudinal axis of the filter between these holes and holes in the casing in any of the attached filters can be structurally different, while changing the diameter of the holes in the pipe is depending on the change in the distance between these holes and the holes in the casing.