The present disclosure relates generally to devices for use in a wellbore in a subterranean formation and, more particularly (although not necessarily exclusively), to tools for retrieving sealing assemblies.
Various devices can be utilized in a well traversing a hydrocarbon-bearing subterranean formation. For example, a sealing assembly such as a retrievable bridge plug may be installed or set along tubing string in the well. A plug of the sealing assembly may include an elastomeric material and a non-elastomeric material, for example but not limited to a metal material. The non-elastomeric material may at least partially surround the elastomeric material of the sealing assembly. A force, for example a pressure, may be applied to the sealing assembly that forces the elastomeric material and the non-elastomeric material to deform and expand. Expansion of the elastomeric material and the non-elastomeric material may increase the diameter of the sealing assembly and may restrict the flow of fluid through an annulus between the sealing assembly and the tubing. The sealing assembly may also be retrieved from within the tubing and returned to the surface of the well. The elastomeric material may more easily return to a smaller diameter after expansion more easily than the non-elastomeric material. A smaller diameter of the sealing assembly may improve the ease return of the sealing assembly to the surface through restrictions in the tubing string.
Certain aspects and features of the present disclosure relate to a tool assembly and methods for retrieving a sealing assembly, for example but not limited to a retrievable bridge plug, in a tubing string of a well system using the tool assembly. In some aspects, the sealing assembly may include a non-elastomeric sealing surface that contacts an inner surface of the tubing string for creating, for example a metal-to-metal seal when the sealing assembly is set (or expanded). In the set position the sealing assembly may have an outer diameter that is greater than the original outer diameter of the sealing assembly prior to expansion (i.e. in the run-in-hole set position). The tool assembly may be a retrieval tool that may return the sealing assembly to a diameter that is less than the diameter in the run-in-hole position. In some aspects, the retrieval tool may return the sealing assembly to a diameter that is substantially equal to the diameter at the run-in-hole position also be used to return the sealing assembly back to the original (or run-in-hole) diameter.
In some aspects, the sealing assembly may include a plug, or other suitable sealing element. The plug or other sealing element may include an elastomeric material and a non-elastomeric material. The non-elastomeric material may include a metal material, though other suitable materials may be used. The non-elastomeric material may extend around the elastomeric material for contacting the inner surface of the tubing string when the sealing assembly is expanded in the set position. In some aspects, the non-elastomeric material may be a metal material for forming a metal-to-metal seal between the sealing assembly and the tubing string in which it is expanded may be a stronger seal than that formed between an elastomeric material and the inner surface of the tubing string. The metal-to-metal seal may also prevent or reduce the elastomeric material extruding. A stronger seal may be desirable to withstand increased pressures within the well system. The sealing assembly may be unset to return to a smaller diameter than the diameter in the set position. In some aspects, the sealing assembly may be returned to the original diameter. The smaller the diameter the sealing assembly is returned to, the easier it may be to return the sealing assembly to the surface through the tubing assembly. For example, the tubing assembly may include narrow passageways or restrictions and the smaller the diameter of the sealing assembly the easier it may be to return the sealing assembly to the surface. The elastomeric material of the plug may have shape memory and may more easily return to the original diameter than the non-elastomeric material (e.g., metal material) of the sealing assembly. The elastomeric material may also support the non-elastomeric material and may aid in preventing the collapse of the non-elastomeric material when the plug is in the set position.
A retrieval tool may couple to the sealing assembly for returning the sealing assembly to the surface. The retrieval tool may elongate (or lengthen) and may force the sealing assembly to elongate. The elongation of the sealing assembly may also lengthen the plug (or sealing element) and thereby reduce the diameter of the plug. The elongation of the plug may aid in returning the non-elastomeric material to a smaller diameter than the set diameter, in some aspects the elongation of the retrieval tool may cause the non-elastomeric material to return to its original (run-in-hole) diameter.
These illustrative aspects and examples are given to introduce the reader to the general subject matter discussed here and are not intended to limit the scope of the disclosed concepts. The following sections describe various additional features and examples with reference to the drawings in which like numerals indicate like elements, and directional descriptions are used to describe the illustrative aspects but, like the illustrative aspects, should not be used to limit the present disclosure.
A sealing assembly, for example a plug assembly 116 can be deployed in the wellbore 102. In some aspects, the plug assembly 116 may be a retrievable bridge plug, though any suitable sealing assemblies may be used. The plug assembly 116 may be set within the tubing string 114 to isolate a portion of the wellbore 102 below the plug assembly 116 from a portion of the wellbore 102 above plug assembly 116. The plug assembly may be set by a tool assembly, for example by applying a pressure to the plug assembly that forces a plug 122 of the plug assembly 116 to expand. The plug assembly 116 may also be retrieved from within the tubing string 114 and returned to the surface 104.
A retrieval tool 118 may be used to retrieve the plug assembly 116 from the tubing string 114 and return the plug assembly 116 to the surface 104 of the well system 100. In some aspects, the retrieval tool 118 may also be used to set the plug assembly 116. Although
To set the plug 122 of the plug assembly 116 a downhole tool may apply a force to the plug assembly 116. The force may be a pressure or a compressive force. The force may compress the plug assembly 116 and may force the plug 122 to compress and expand to a set position (shown in
It may be desirable to retrieve or return the plug assembly 116 to the surface. To return the plug assembly 116 to the surface, the plug assembly 116 may have to pass through restrictions in the tubing string 120 or other tubing strings through which the plug assembly 116 passes on its path back to the surface. It may be easier to return the plug assembly 116 to the surface, past the restrictions in various tubing strings, when the diameter of the plug 122 is reduced to a diameter that is smaller than its set diameter Ds. For example, the diameter of the plug 122 may be reduced or returned back to the run-in-hole diameter Do. In some aspects, the elastomeric material 126 may more easily reduce to a smaller diameter, for example the run-in-hole diameter, based on the memory and characteristics of the elastomeric material 126. The metal material 128 may not have the same memory and characteristics of the elastomeric material 126.
A downhole tool, for example the retrieval tool 118 may be used to reduce the diameter of the plug 122 and return the plug assembly 116 to the surface. As shown in
The rod 132 may extend from a first end 140 to a second end 142 of the plug assembly 116. The retrieval tool 118 may be powered or controlled by the DPU. For example, the DPU may force the rod 132 in the first direction. In some aspects, the retrieval tool 118 may also be used to set or expand the plug 122 from the run-in-hole position (shown in
The retrieval tool 118 may reduce the diameter of the plug assembly 116 by reducing the diameter of the plug 122. In some aspects, the retrieval tool 118 may return the plug 122 to the run-in-hole diameter Do. In some aspects, the retrieval tool 118 may return the plug 122 to a diameter that is smaller than the set diameter Ds and that is substantially equal to the run-in-hole diameter Do. In some aspects, the retrieval tool 118 may return the plug 122 to a diameter that is between 3% and 30% larger than the run-in-hole diameter Do, for example between 5% and 20% larger than the run-in-hole diameter Do, between 7% and 15% larger than the run-in-hole diameter Do, or between 10% and 12% larger than the run-in-hole diameter Do. As shown in
To reduce the diameter of the plug 122, the rod 132 of the retrieval tool 118 may elongate or lengthen in the first direction (shown by the arrow in
A method of retrieving a sealing assembly from within a tubing string of a wellbore may include coupling a retrieval tool to the sealing assembly within a wellbore and extending a rod of the retrieval tool in a first direction. The sealing assembly may include a plug having a first diameter, wherein at the first diameter the plug contacts an inner surface of the tubing string.
The movement of the rod may force the plug of the sealing assembly to elongate to a second diameter, the second diameter being less than the first diameter.
The method of Example #1 may further feature the plug comprising a non-elastomeric portion that at least partially surrounds an elastomeric portion of the plug, and wherein the non-elastomeric portion contacts the inner surface of the tubing string to form a seal at the first diameter.
The method of any of Examples #1-2 may further feature the second diameter of the plug being substantially equal to a diameter of the plug when the sealing assembly is initially run into the wellbore.
The method of any of Examples #1-3 may further feature, the second diameter of the plug being equal to or less than 15% greater than a diameter of the plug when the sealing assembly is initially run into the wellbore.
The method of any of Examples #1-4, may further feature the second diameter of the plug is equal to or less than 10% greater than a diameter of the plug when the sealing assembly is initially run into the wellbore.
The method of any of Examples #1-5 may further feature the retrieval tool comprising a mechanical latch device for coupling the retrieval tool to the sealing assembly.
The method of Example #6 may further feature the retrieval tool being coupleable to a down-hole power unit for extending the rod in the first direction.
The method of any of Examples #1-7 may further comprise the sealing assembly being a retrievable bridge plug.
A tool assembly for use downhole within a tubing string may include a retrieval tool and a sealing assembly coupled to the retrieval tool at a first end of the sealing assembly. The sealing assembly may further comprise a plug having a set diameter. The retrieval tool may also comprise a rod that extends through an inner region of the sealing assembly and extends beyond the plug of the sealing assembly. The rod may be extendable in a first direction towards a second end of the sealing assembly for lengthening the plug from the set diameter to a reduced diameter that is less than the set diameter.
The tool assembly of Example #9 may further feature the plug including a non-elastomeric material for contacting an inner surface of the tubing string at the set diameter.
The tool assembly of Example #10, wherein plug further comprises an elastomeric material. The non-elastomeric material may at least partially surround the elastomeric material.
The tool assembly of any of Examples #9-11 may further feature the retrieval tool comprising a mechanical latch device. The mechanical latch device may be sized and shaped to be received in a recess proximate to the first end of the sealing assembly for coupling the retrieval tool to the sealing assembly.
The tool assembly of any of Examples #9-13 may further feature the rod of the retrieval tool being couplable to a down-hole power unit for extending the rod in the first direction.
The tool assembly of any of Examples #9-13 may further feature the reduced diameter of the plug being substantially equal to a diameter of the plug when the sealing assembly is initially run into the tubing string.
The tool assembly of Examples #9-14 may further feature the reduced diameter of the plug being equal to or less than 15% greater than a diameter of the plug when the sealing assembly is initially run into the tubing string.
The foregoing description of certain aspects, including illustrated aspects, has been presented only for the purpose of illustration and description and is not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Numerous modifications, adaptations, and uses thereof will be apparent to those skilled in the art without departing from the scope of the disclosure.
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Number | Date | Country | |
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20190093447 A1 | Mar 2019 | US |