RU2725994C1 - Filtering device for well cleaning - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the oil and gas industry and can be used in liquid cleaning in the well bore from floating garbage and suspended particles. Device includes a central branch pipe with a filtering section, which is run in from the outside to the cylindrical bottom, fixed on the pipe below the filtering section, from the outside by means of a pulling member or a pipe string, and a valve installed inside the nozzle above its filtering section. Between the branch pipe and the housing there is a sleeve with an upper blind cover connected tightly to the branch pipe above its filtering section. Sleeve is equipped with holes not passing coarse waste. Lower edge of the sleeve is installed at a distance from the bottom of the housing, which is determined empirically for collection of large garbage without getting into the filtration section of the branch pipe. In the branch pipe above the valve and the bottom of the housing, there are corresponding drain channels uniformly along the perimeter, which do not allow passing large refuse.EFFECT: enlarging functional capabilities due to two-step cleaning, increasing ease of maintenance.3 cl, 1 dwg

Description

The invention relates to the oil and gas industry and may find application in the cleaning of liquids in a wellbore from floating debris and suspended particles.

A well-known filtering downhole device (patent RU No. 2543247, IPC ЕВВ 43/08, published on 02.27.2015 Bull. No. 6), comprising a housing with upper inlet openings, a discharge pipe located coaxially to the housing with a section of radial openings and a safety valve at the lower end, a screw mounted on the outlet pipe, a slotted filter in the form of an internal support and an outer filter layer of a prismatic profile overlapping a section with radial holes of the outlet pipe, and a container at the bottom of the case, the outlet pipe installed inside the case and the screw placed between the upper inlets and the slotted hole filter.

The disadvantages of this device are the complexity of manufacturing due to the presence of complex parts, the inability to collect large debris (clumped clay, exfoliated rust and / or the like), gel, reaction products after treatment of the formation or the like. due to lateral inlet openings of the housing and inconvenience in servicing due to the rise to the surface of a large amount of well fluid located in the housing and the outlet pipe and pouring out during disassembly of the device.

The filter for cleaning the borehole fluid (patent RU No. 2590924, IPC ЕВВ 43/08, ЕВВ 27/00, publ. 07/10/2016 Bull. No. 19), including a slotted nozzle, a mesh, a valve, a sealant for the annulus of the well and a sleeve, additionally containing the case and the cylindrical bottom, while the mesh is placed around the part of the slotted nozzle with slots, the slotted nozzle and the housing are fixed with the lower parts respectively inside and outside the cylindrical bottom, the slotted nozzle is located inside the housing and connected in the upper part above the slots to the housing by struts, the valve used the poppet type valve, the valve and the coupling are located in the upper part of the slotted nozzle, and the annular seal of the well is located on the outer part of the cylindrical bottom, while the ratio of the width of the slots of the nozzle to the width of the mesh cell is (3.5-5) :( 0.7- 3,5).

The disadvantages of this device are the narrow scope due to the impossibility of collecting large debris, including gel, reaction products after treatment of the formation or the like, due to the rigid parameters of the nozzle slots and to the width of the filter mesh cell, which quickly becomes clogged with large debris excluding circulation in the filter and further garbage collection, as well as inconvenience in maintenance due to the rise to the surface of a large amount of well fluid located in the housing after clogging of the mesh and above the valve and pouring out during disassembly of the device.

The technical task of the alleged invention is the creation of a design of a filtering device for cleaning a well, which allows collecting large debris, thanks to a two-stage cleaning, and is convenient to maintain because of the possibility of draining when lifting most of the liquid in the device.

The technical problem is solved by a filtering device for cleaning a well, including a central nozzle lowered into the well by a traction body or pipe string with a filtering section enclosed outside by a housing with a cylindrical bottom fixed on the pipe below the filtering section, and a valve installed inside the pipe above its filtering section.

What is new is that between the nozzle and the housing there is a sleeve with an upper blind cover connected hermetically to the nozzle above its filter section, the sleeve is equipped with holes that do not allow large debris, and the lower edge of the sleeve is installed empirically to collect large debris without falling into the filtering section of the nozzle, while in the nozzle above the valve and the bottom of the housing corresponding drain channels are made uniformly around the perimeter, which do not allow large debris to pass through.

New is also the fact that the pipe bottom is made with the possibility of connection with additional downhole equipment.

Also new is the fact that the bore holes are made with a diameter increasing from top to bottom.

The drawing shows a filtering device in longitudinal section.

The filtering device for cleaning a well includes, for example, a central pipe 2 connected, for example, through a sleeve 1 and lowered into a well (not shown) on a traction body or pipe string (not shown), with a filter section 3, enclosed outside by a housing 4 with a cylindrical bottom 5 fixed on the pipe 2 below the filter section 3, and the valve 6 installed inside the pipe 2 above its filter part 3. Between the pipe 2 and the housing 4 there is a sleeve 7 with a top blank cover 8, tightly connected to the pipe 2 above its filter section 3. The sleeve 7 is equipped holes 9 that do not allow large debris. The lower edge 10 of the sleeve 7 is installed at a distance H from the bottom 5 of the housing 4, which is determined empirically for collecting large debris without falling into the filtering section 3 of the pipe 2. In the pipe 2 above the valve 6 and the bottom 5 of the housing 4, corresponding drain channels 11 are made uniformly around the perimeter and 12, not letting go of large rubbish.

To expand the functionality of the pipe 2 can be made from the bottom with the possibility of connection with additional downhole equipment (scraper, template, print and / or the like - not shown), for example, using thread 13, couplings, flanges or the like. (not shown).

In the presence of a large amount of large debris, leading to the rapid closure of the holes 9 of the sleeve 7, to reduce the resistance to the flow of fluid entering the filter from the well, these holes 9 can be made with a diameter increasing from top to bottom. The diameters and location of the holes 9 in the sleeve 7 are determined by technologists from the necessary degree of pre-treatment of the well fluid - the authors do not claim this.

The filter section 3 of the pipe 2 can be made in the form of small holes, slots, channels or. etc. (not shown), which can be closed externally with longitudinal or wound wire of any shape with calibrated slots, mesh, etc. (not shown). The design of the filter sections is known from many open sources - the authors do not claim this. Dimensions, holes, slots, crevices, etc. determined by technologists from the necessary degree of purification of the well fluid - the authors do not claim this.

Valve 6 can be made ball, poppet or the like, passing from the bottom up — the authors do not pretend to design the valve 6.

Structural elements and technological connections that do not affect the performance of the filter device in the drawing are not shown or shown conditionally.

The filter device operates as follows.

The filtering device through the coupling 1 is connected to the traction body or pipe string, which descends into the well. If necessary, downhole equipment 2 is pre-connected to the pipe 2 from the bottom, for example, by means of a thread 13. When lowering into the well and entering the borehole fluid due to the large diameter of the casing 4 and the deaf bottom 5, the effect of "pistoning" and communicating vessels between the borehole and the empty cavity 14 of the pipe 2 above the valve 6 is created. As a result, the liquid with debris is directed into the pipe 2, opens valve 6 and flows with debris into cavity 14. As the column moves upward, the liquid column in cavity 14 becomes higher than the liquid level in the well and closes valve 6. At the same time, the well liquid with the remaining debris in the well is captured by housing 4, but does not directly go to the filter section 3 pipe 2 due to the cover 8 of the sleeve 7. The sleeve 7, which plays the role of a coarse filter, passes the well fluid through the openings 9 without large debris to the filter section 3, where small debris is retained and inside the pipe 2 and then the cleaned well flows into the well liquid.

If there is a large amount of large debris in the well (for example, after isolating the zones of complications or overflows in the formation or in the casing annulus), it is recommended to make holes 9 in the sleeve 7 with different diameters increasing from top to bottom so that larger holes come into operation when smaller holes become clogged without greatly increasing the resistance to the flow of the borehole fluid into the nozzle 2. Even if all holes 9 are clogged, the borehole fluid will flow through the lower edge 10 of the liner to the filter section 3 of the nozzle 2 while maintaining operability. At the same time, the distance H, selected empirically (from the operational history of such products), eliminates the ingress of large debris to the filter section 3 of the pipe 2.

As a result, when rising from the well, debris remains inside the cavity 14 of the nozzle and in the housing 4. When the filter device exits the borehole fluid under the influence of vibration, interaction with the walls of the borehole, lifting with acceleration or deceleration, the channels 11 and 12 are periodically released from the debris in the liquid , and the fluid from the cavity 14 through the channels 11 flows into the housing 4, from where through the openings 12 into the pipe 2 and then into the well. Usually 100 m is enough to drain almost all the liquid from the cavity 14 and the housing 4, and the debris located in the housing 4 and the cavity 14 of the pipe 2, raise to the surface.

As practice has shown, the use of two step-by-step liquid purification using the holes 9 of the sleeve 7 and the filter section 3 of the nozzle 2 allows one to clean well fluid even with large debris from debris in one pass.

The proposed filtering device for cleaning the well allows you to collect large debris, thanks to a two-stage cleaning, and is convenient to maintain because of the possibility of draining when lifting most of the liquid in the device.

Claims (3)

1. A filtering device for cleaning a well, including a central nozzle lowered into the well by a traction body or pipe string with a filter section enclosed externally by a housing with a cylindrical bottom fixed on the pipe below the filter section, and a valve installed inside the pipe above its filter section, characterized in that a sleeve with a top blank cover is installed between the nozzle and the housing, which is tightly connected to the nozzle above its filter section, the liner is equipped with holes that do not allow large debris, and the lower edge of the liner is installed at a distance from the bottom of the housing, which is determined empirically to collect large debris without it falls into the filtering section of the nozzle, while in the nozzle above the valve and the bottom of the housing, corresponding drain channels are made uniformly around the perimeter, which do not allow large debris to pass through. 2. The filtering device for cleaning a well according to claim 1, characterized in that the pipe bottom is configured to connect to additional downhole equipment. 3. The filtering device for cleaning the well according to one of paragraphs. 1 or 2, characterized in that the holes of the liner are made with a diameter increasing from top to bottom.

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