The present disclosure relates generally to devices for use in a wellbore in a subterranean formation and, more particularly (although not necessarily exclusively), to sealing assemblies positionable downhole in the wellbore.
Various devices can be utilized in a well traversing a hydrocarbon-bearing subterranean formation. For example, a sealing assembly such as a bridge plug may be installed or set along tubing string in the well. The sealing assembly may include a plug having an expandable region that comprises an elastomeric material. The plug may also include a support device or mechanical retention device positioned proximate to the expandable region. The elastomeric material may extend into recesses or openings in the support device. A force, for example a pressure, may be applied to the sealing assembly that forces the expandable region to deform and expand. Expansion of the expandable region 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.
Certain aspects and features of the present disclosure relate to a downhole tool including a sealing assembly, for example but not limited to a bridge plug. The sealing assembly may include an expandable region that contacts an inner surface of the tubing string for creating a seal when the sealing assembly is set (or expanded). In the set position the expandable region of 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 position). The sealing assembly may also include a support device adjacent the expandable region. An elastomeric material may be positioned over the support device and may extend into recesses or openings in the support device. The sealing assembly may also include a cover that may be positioned over the support device.
Downhole in the expanded position the sealing assembly may be exposed to high pressure and high temperatures. This extreme environment can cause the elastomeric material present in the sealing assembly to soften and flow. The elastomeric material may soften and seek to flow through the support device. In some aspects, the elastomeric material that extends within the recesses of the support device may soften and seek to flow out of the recesses and away from the support device. The flow of the elastomeric material through the support device (e.g. through recesses or spaces within the support device) may weaken a seal between the sealing assembly and the inner surface of the tubing string. The cover positioned over the support device may reduce the flow of elastomeric material through the support device. In other words, the cover may prevent or reduce a flow of elastomeric material through the cover and therefore block or reduce the flow of elastomeric material through the support device. The reduction or prevention of a flow of elastomeric material through the cover and thereby through the support device may reduce or prevent failure of the seal of the seal assembly within the tubing string.
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 bridge plug, though any suitable sealing assemblies may be used. The plug assembly 116 includes a plug 120 that may be expanded from a run-in-hole position to a set position. 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 the plug 120 of the plug assembly 116 to expand. Although
A cover 131A may be positioned over the support device 130A. While in
Downhole in the set position the plug 120 may be exposed to high temperatures and/or high pressures. This extreme downhole environment may cause the elastomeric material of the plug 120 (e.g., the elastomeric material 129 and the elastomeric material of the expandable region 128) to soften and attempt to flow or extrude through the support device 130A. For example, the elastomeric material 129 that extends over support device 130A, may soften. Without the presence of the cover 131A, the elastomeric material 129 may extrude through the support device 130A, for example but not limited through recesses or openings in a support device including a coiled spring (e.g. support device 130A). In some aspects, the material of the expandable region 128 may also soften and seek to extrude through the support device 130A (e.g. away from the expandable region 128). The extrusion of elastomeric material of the plug 120 through the support device 130A may weaken the seal of the plug 120 in the tubing string 118. The cover 131A can reduce or prevent the extrusion of elastomeric material of the plug 120 through the support device 130A when the plug 120 is exposed to high temperatures and/or high pressures downhole. In other words, the elastomeric material 129 may not extrude through the support device 130A due to the presence of the cover 131A. For ease of description, various features and options of the present disclosure are discussed with respect to the support device 130A and cover 131A. In some aspects, the second support device 130B and second cover 131B may include the same or different features as the support device 130A and the cover 131A.
In some aspects, a cover may extend over other parts of a plug of a plug assembly. For example, the cover may extend beyond the support device to an end of the plug adjacent the support device.
In some aspects, the cover 148 may define an outer surface of the plug 142, for example by being positioned over an elastomeric layer of the plug 142. In some aspects, the cover 148 may be positioned between the support device and an outer layer of an elastomeric material. While
A plug that does not include a cover positioned over the support device following exposure to a high temperature and high pressure environment, may result in elastomeric material of the plug extruding through the support device away from an expandable region of the plug towards an end of the plug. This extrusion of the elastomeric material through a support device, such as a coiled spring can weaken or cause failure of the seal between the plug (without a cover) and the tubing string in which it is set. However, a plug that includes a cover positioned either over or within a support device may have less or no extrusion of the elastomeric material through the support device and may result in a stronger seal between the plug with the cover and the tubing string in which it is set. Thus, in some aspects of the present disclosure a plug that includes a cover, even after exposure to a high temperature and a high pressure environment during setting, may not result in elastomeric material of the plug being extruded through the support device or the cover. In some aspects, a plug without a cover over a support device may have a maximum sealing pressure of 7,500 PSI at 325 degrees Fahrenheit. In some aspects, plug with a cover may have a maximum sealing pressure of 12,500 PSI at 325 degrees Fahrenheit. Thus, the cover can aid in maintaining the integrity of the seal of the plug.
As used below, any reference to a series of examples is to be understood as a reference to each of those examples disjunctively (e.g., “Examples 1-4” is to be understood as “Examples 1, 2, 3, or 4”).
Example 1 is a sealing assembly for use downhole comprising: a plug having a first end and a second end opposite the first end; an expandable sealing member positioned between the first end and the second end of the plug, the expandable sealing member having a run-in-hole diameter and an expanded diameter that is greater than the run-in-hole diameter; a support device positioned between extending at least partially between a first end of the plug and the expandable sealing member, the support device including a recess; an elastomeric material positioned at least partially within the recess of the support device; and a cover positioned at least partially over the support device for reducing extrusion of the elastomeric material from within the recess of the support device in the expanded diameter.
Example 2 is the sealing assembly of example 1, wherein the support device comprises a coiled spring.
Example 3 is the sealing assembly of examples 1-2, wherein the cover comprises at least one of a metallic material or a composite material.
Example 4 is the sealing assembly of example 3, wherein the composite material comprises at least one of Kevlar or carbon fiber.
Example 5 is the sealing assembly of example 3, wherein the metallic material comprises at least one of stainless steel, copper or brass.
Example 6 is the sealing assembly of examples 1-5, wherein the cover comprises a sleeve that encircles the support device along at least a length of the support device.
Example 7 is the sealing assembly of examples 1-6, wherein the cover at least partially covers the first end of the plug.
Example 8 is the sealing assembly of examples 1-7, wherein the elastomeric material is positioned between the support device and the cover.
Example 9 is a plug assembly for use downhole comprising: a first end and a second end, the second end opposite the first end; an expandable region positioned between the first end and the second end of the plug assembly, the expandable region having a run-in-hole diameter and an expanded diameter that is greater than the run-in-hole diameter; a support device positioned between the expandable region and the first end of the plug assembly; and a cover positioned at least partially over the support device.
Example 10 is the plug assembly of example 9, wherein the support device comprises a coiled spring.
Example 11 is the plug assembly of examples 9-10, wherein the cover comprises a sleeve that encircles the support device along at least a length of the support device.
Example 12 is the plug assembly of examples 9-11, wherein the sleeve comprises a metallic material for retaining the elastomeric material within the at least one recess of the support device when the expandable region is at the expanded diameter.
Example 13 is the plug assembly of examples 9-12, wherein the cover comprises a composite material.
Example 14 is the plug assembly of example 13, wherein the composite material comprises at least one of Kevlar, fiberglass, or carbon fiber.
Example 15 is the plug assembly of examples 9-13, wherein the cover comprises a woven material.
Example 16 is the plug assembly of example 15, wherein the woven material comprises a metallic material.
Example 17 is the plug assembly of example 9-16, further comprising an elastomeric material positioned within at least partially within the support device
Example 18 is the plug assembly of example 17, wherein the expandable region comprises an elastomeric material.
Example 19. The plug assembly of examples 9-18, further comprising: an additional support device positioned between the expandable region and the second end of the plug assembly; and an additional cover positioned at least partially over the additional support device.
Example 20 is the plug assembly of example 19, wherein the additional cover comprises a metallic material.
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.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/US2018/065430 | 12/13/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/122919 | 6/18/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3306362 | Urbanosky | Feb 1967 | A |
4379558 | Pippert | Apr 1983 | A |
4509763 | Fischer | Apr 1985 | A |
4880217 | Navarro, Sr. et al. | Nov 1989 | A |
6796376 | Frazier | Sep 2004 | B2 |
7168494 | Starr | Jan 2007 | B2 |
8641113 | Russell | Feb 2014 | B1 |
10619446 | Webster | Apr 2020 | B2 |
20100038074 | Patel et al. | Feb 2010 | A1 |
20110024134 | Buckner | Feb 2011 | A1 |
20110101615 | Clarke | May 2011 | A1 |
20120055667 | Ingram | Mar 2012 | A1 |
20130186646 | Xu | Jul 2013 | A1 |
20140311752 | Streich | Oct 2014 | A1 |
20150047907 | Buytaert | Feb 2015 | A1 |
20150129242 | Farquhar | May 2015 | A1 |
20170260825 | Schmidt | Sep 2017 | A1 |
20170342797 | Murphree | Nov 2017 | A1 |
20170350211 | Ingram et al. | Dec 2017 | A1 |
20170370174 | Yun | Dec 2017 | A1 |
20180195363 | Hofstee | Jul 2018 | A1 |
20180209241 | Farquhar et al. | Jul 2018 | A1 |
20210054704 | Merron | Feb 2021 | A1 |
20210054719 | Nichols | Feb 2021 | A1 |
20210156221 | Phan | May 2021 | A1 |
Number | Date | Country |
---|---|---|
WO-2017123198 | Jul 2017 | WO |
WO-2017196341 | Nov 2017 | WO |
WO-2020122919 | Jun 2020 | WO |
Entry |
---|
International Application No. PCT/US2018/065430, “International Search Report and Written Opinion”, dated Aug. 27, 2019, 10 pages. |
Number | Date | Country | |
---|---|---|---|
20210332660 A1 | Oct 2021 | US |