LONGITUDINALLY SPLIT SWELLABLE PACKER AND METHOD
A swellable packer (10) includes upper and lower end rings (20, 22) and elastomeric bodies (12, 14) spaced between the upper and lower end rings to expand and thereby close off an annulus about the downhole tubular. The elastomeric body may be positioned such that a slot (26) in the body receives a control line (28).
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This application claims the priority of U.S. Provisional Application Ser. No. 61/241,093 filed on Sep. 10, 2009, the disclosure of which is incorporated herein by reference for all purposes.
FIELD OF THE INVENTIONThe present invention relates to a swellable elastomer element packer that may be placed around a tubular at any location and may be used in both conventional completions and intelligent well completions.
BACKGROUND OF THE INVENTIONVarious types of swellable packers have been devised, including packers which are fixed to the OD of a tubular and the elastomer formed by wrapped layers, and designs wherein the swellable packer is slipped over the tubular and locked in place. If the operator desires to have control lines pass through the packer for intelligent well completions, the control line typically was axially aligned with a slot, generally in the exterior of the packer, since the packer was otherwise fixed to the casing or pipe. Manipulation of a control line to obtain proper alignment with a slot in the packer may be difficult, and may risk damage to the control line. An alternative solution is to cut the slot in the exterior of the elastomer cover at the rig site for alignment with the control line. This practice is complicated by the size variance in the cross-section of the control line and/or the encapsulation of the control line.
Swellable packers are disclosed in U.S. Pat. Nos. 7,472,757 and 7,552,768. U.S. Pat. No. 6,173,788 illustrates control lines on the exterior of a packer, and Publication 2007/0012436 discloses a control cable within the elastomeric body of the packer. Other patents of interest include U.S. Pat. Nos. 4,024,916, 5,137,970, and 6,431,282, 6,474,414, 6,828,531, 6,923,283, and 7,562,710.
The disadvantages of the prior art are overcome by the present invention, and an improved swellable packer and method of installing a packer is hereinafter disclosed.
SUMMARY OF THE INVENTIONIn one embodiment, a swellable packer includes a two piece swellable element manufactured as a single unit and then split longitudinally into two halves. Each of the two halves includes swellable rubber between split end rings. Since the packer may be split in two halves, any control lines are visible from the bore of the respective packer half during installation of the packer on a tubular.
According to the method of the invention, a lower split end ring and an upper split end ring may be provided for surrounding the downhole tubular. The method includes providing two or more C-shaped elastomeric bodies each spaced longitudinally between the end rings to expand and seal the annulus about the downhole tubular. The end rings are fixedly connected to the downhole tubular, and a side face of one C-shaped elastomeric body is positioned adjacent a side face of another C-shaped elastomeric body to form an elastomeric seal when the elastomer is expanded.
As the swellable packer is run into the well, the swelling fluid, whether an oil or a water based fluid, will act on the surface of the split elastomer sleeves. When the elastomer swells, it will touch the borehole, or the bore of the casing or other tubular in the hole, with continued swelling by absorption and adsorpotion of the fluid exposing the swelled areas between inner and outer diameters of the elastomeric element and the OD of the tubular and the ID of the outer tubular or borehole wall, and between the two mating side faces of adjacent split elastomeric elements, thereby continuing to have the swell fluid enter the swellable elastomer through those exposed areas. When the packer halves are fully swelled, the split faces will be swelled into one homogenous piece of elastomer and also swelled around the control lines. If pressure is applied from either or both ends of the packer at the same time, both ends of the swellable elastomeric element move simultaneously toward each other, thereby providing bi-directional sealing capability. For the
The packer as disclosed herein has significant advantages compared to the prior art. There is no need for well operations involving packer setting, and the packer has no moving parts and is thus simple and highly reliable. The packer may be shipped to the field and placed at any position on a tubular, as desired by the operator. As shown in
Control line slots may be cut in the interior of the elastomeric body at a manufacturing facility, since in most cases the size, type and position of the control lines, e.g., control lines 180° apart, will be known as the packer is manufactured. In other situations, the control line gap may be cut in the field. Expansion of the elastomeric material fills any voids around the control line. The control lines may also be passed through apertures or slots in the upper and lower end rings.
The term “control line” as used herein includes any type of control line, encapsulated line, or other line comprising cable of any type, including fiber optic or electrical conductor, which conducts power or signals between the surface and downhole points.
A reliable swellable packer is obtained without having to ship the customer the tubular on which the swellable elastomer is molded and/or which there is a wrapping. This allows a substantially thicker rubber to be used compared to embodiments which slip an entire packer body over the end of the material, since the inner sleeve has size restrictions and overcoming the size of the tubular ends is not necessary. This allows for much higher flexibility to the operator, who may maintain a stock of packers of a selected size and promptly install and use the packer of this design on any proper size tubular.
Although specific embodiments of the invention have been described herein in some detail, this has been done solely for the purposes of explaining the various aspects of the invention, and is not intended to limit the scope of the invention as defined in the claims which follow. Those skilled in the art will understand that the embodiment shown and described is exemplary, and various other substitutions, alterations and modifications, including but not limited to those design alternatives specifically discussed herein, may be made in the practice of the invention without departing from its scope.
Claims
1. A swellable packer for use in a well, comprising:
- a lower split end ring including two or more lower end ring sections for circumferentially surrounding a downhole tubular;
- an upper split end ring including two or more upper end ring sections for circumferentially surrounding the downhole tubular;
- an elastomeric body spaced longitudinally between the upper split end ring and the lower split end ring to expand and close off an annulus about the downhole tubular;
- the two or more lower split end ring sections being fixedly connected to the downhole tubular;
- the two or more upper split end ring sections being fixedly connected to the downhole tubular; and
- the elastomeric body split such that a side face of a C-shaped elastomeric body section substantially abuts a side face of another C-shaped elastomeric body section.
2. A swellable packer as defined in claim 1, wherein the elastomeric body is manufactured as a unitary sleeve-shaped member, and is longitudinally split.
3. A swellable packer as defined in claim 2, wherein the split between the elastomeric sections of the body forms a castellated slot defining a tooth pattern.
4. A swellable packer as defined in claim 1, further comprising:
- one or more control lines extending axially through the elastomeric body.
5. A swellable packer as defined in claim 4, further comprising:
- each of the one or more control lines pass through one or more of lower split end ring and the upper split end ring.
6. A swellable packer as defined in claim 1, wherein each of the two or more C-shaped elastomeric bodies has a side face adjacent a side face of another C-shaped elastomeric body.
7. A swellable packer for use in a well, comprising:
- a lower split end ring including two or more lower end ring sections for circumferentially surrounding a downhole tubular;
- an upper split end ring including two or more upper end ring sections for circumferentially surrounding the downhole tubular;
- an elastomeric body spaced longitudinally between the upper split end ring and the lower split end ring to expand and close off an annulus about the downhole tubular;
- the two or more lower split end ring sections being fixedly connected to the downhole tubular, and an inner surface of the lower split end ring configured for secured engagement with the downhole tubular;
- the two or more upper split end ring sections being fixedly connected to the downhole tubular, and an inner surface of the upper split end ring configured for secured engagement with the downhole tubular; and
- the elastomeric body split such that a side face of a C-shaped elastomeric body section substantially abuts a side face of another C-shaped elastomeric body section.
8. A swellable packer as defined in claim 7, further comprising:
- one or more control lines extending axially through the elastomeric body.
9. A swellable packer as defined in claim 8, further comprising:
- each of the one or more control lines pass through one or more of lower split end ring and the upper split end ring.
10. A swellable packer as defined in claim 7, wherein the tubular has an elastomeric wrapping adhered to an outside of the tubular, and the C-shaped elastomeric body sections cover the elastomeric wrapping.
11. A method of positioning a swellable packer on a tubular for use in a well, comprising:
- providing a lower split end ring including two or more lower end ring sections for circumferentially surrounding a downhole tubular;
- providing an upper split end ring including two or more upper end ring sections for circumferentially surrounding the downhole tubular;
- providing two or more c-shaped elastomeric bodies each spaced longitudinally between the upper split end ring and the lower split end ring to expand and close off an annulus about the downhole tubular;
- fixedly connecting the two or more lower split end ring sections to the downhole tubular, and an inner surface of the lower split end ring configured for secured engagement with the downhole tubular;
- fixedly connecting the two or more upper split end ring sections to the downhole tubular, and an inner surface of the upper split end ring configured for secured engagement with the downhole tubular; and
- providing a side face of one elastomeric body adjacent a side face of another elastomeric body.
12. A method as defined in claim 11, wherein the elastomeric body is manufactured as a unitary sleeve-shaped member, and is longitudinally split.
13. A method as defined in claim 12, wherein the split between the elastomeric sections of the body forms a castellated slot defining a tooth pattern.
14. A method as defined in claim 11, further comprising:
- extending one or more control lines through the elastomeric body.
15. A method as defined in claim 14, further comprising:
- each of the control lines pass through one or more of lower split end ring and the upper split end ring.
16. A method as defined in claim 11, further comprising:
- positioning each of the two or more elastomeric bodies about the tubular such that a control line passes through a slot in an elastomeric body for receiving the control line.
17. A method as defined in claim 16, wherein an elastomeric wrapping covers the tubular and the elastomeric bodies cover the wrapping.
18. A method as defined in claim 16, wherein the slot is provided in a radially internal portion of the elastomeric body.
19. A method as defined in claim 16, wherein each of the upper split end ring and lower split end ring includes radially internal teeth for gripping engagement with the tubular.
Type: Application
Filed: Aug 31, 2010
Publication Date: Mar 10, 2011
Applicant: TAM INTERNATIONAL, INC. (Houston, TX)
Inventor: Robert T. Brooks (Houston, TX)
Application Number: 12/872,260
International Classification: E21B 33/12 (20060101);