ADJUSTABLE HANGER SYSTEM AND METHOD
An adjustable hanger system secures a hanger to a wellhead such that a downward extending tubular may be tensioned at a selected level. The wellhead includes a housing having a plurality of axially spaced grooves, with selected grooves receiving a support member therein. The wellhead housing also has an axially elongate and generally cylindrical sealing surface spaced above the plurality of grooves for sealing engagement with a seal element. The hanger is axially movable relative to the plurality of grooves. The hanger is supported by the support member which is radially movable into selected ones of a plurality of grooves. A lockdown member may also move into selected ones of the plurality of grooves for preventing axially upward movement of the hanger relative to the wellhead.
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The present invention relates to an adjustable hanger system for connecting a hanger to a wellhead. More particularly, the adjustable hanger system is used for tensioning a tubular extending downward from the hanger and secured at a lower end in the well.
BACKGROUND OF THE INVENTIONVarious types of hanger systems have been devised for tensioning a tubular in a well. Many prior art adjustable hanger systems include numerous components within the wellhead housing which are adjusted to achieve tensioning of the tubular. U.S. Pat. No. 5,176,218 discloses a threaded sleeve which is landed inside the wellhead. The sleeve interfaces with the hanger by rotating the hanger relative to the sleeve. U.S. Pat. Nos. 5,671,812, 5,255,746 and 5,944,111 utilize various arrangements of an internal load shoulder and a hanger with multiple grooves to achieve adjustability.
U.S. Pat. No. 6,065,542 discloses another design wherein adjustment for tensioning is achieved within the hanger. U.S. Pat. No. 8,066,764 discloses another technique for making adjustments to the hanger to tension the tubular in the well.
U.S. Pat. No. 7,040,412 discloses an adjustable hanger system wherein a series of axially spaced groove sets are provided in the wellhead, with the hanger including a support ring and a lockdown ring each for fitting within one of the sets of axially spaced grooves. The sealing surface between groove sets provides a sealing surface on the wellhead for sealing with the hanger.
Prior art adjustable hanger systems tend to be complicated, which in turn leads to questionable reliability. The system discloses U.S. Pat. No. 7,040,412 is reliable since the hanger is connected directly to in the wellhead. When a selected set of grooves for connection with the hanger create too much or too little tension in the string, the hanger may be axially raised or lowered so that another vertically spaced set of grooves will provide the more appropriate tension desired for the hanger system. This design is particularly intended for very deep wells, and fine adjustment of the hanger relative to grooves in the wellhead is not disclosed.
The disadvantages of the prior art are overcome by the present invention, an improved adjustable hanger system and method are hereinafter disclosed.
SUMMARY OF THE INVENTIONIn one embodiment, an adjustable hanger system is connected to a wellhead such that a tubular extending downward from the hanger and secured at a lower end of the well may be tensioned at a selected level. The hanger system includes a wellhead housing with a plurality of axially spaced grooves, with each groove having a profile to receive a support member therein. The support member may be carried in the well on the hanger. The wellhead housing includes an axially elongated and generally cylindrical sealing surface spaced above the plurality of axially spaced grooves for sealing engagement with a seal element between the wellhead housing and the hanger. The hanger is axially movable relative to the plurality of grooves, and the support member is axially movable into selected ones of a plurality of grooves in the wellhead housing to axially connect the hanger to the wellhead.
According to the method of the invention, the wellhead housing is provided with a plurality of axially spaced grooves to accept the support member, and includes a generally cylindrical sealing surface spaced axially above the plurality of grooves. The support member is positioned in the well on the hanger above selected ones of a plurality of grooves. When the hanger is lowered slightly in the well, the support member moves radially outward into the selected ones of the plurality of grooves, thereby preventing axially downward movement of the hanger with respect to the wellhead. A seal is sealed between the hanger and a generally cylindrical sealing surface while the support member is within selected ones of the plurality of grooves.
These and further features and advantages of the present invention will become apparent from the following detailed description, wherein reference is made to the figures in the accompanying drawings.
The hanger system disclosed herein provides an axial elongate sealing surface on the interior of the wellhead housing above an axially spaced plurality of grooves on the wellhead housing. Regardless of the position of the hanger with respect to the grooves, a seal will seal between the hanger and the cylindrical sealing surface above the plurality of grooves, and the hanger will be axially secured to the wellhead housing to provide the desired tension in the tubular string supported in the well from the hanger.
The hanger system allows for very fine adjustment of the position of the hanger relative to the wellhead, thereby obtaining fine adjustment of the tension applied to the tubular extending downward from the hanger. For many applications, the axially spacing of the grooves will be one-quarter inch or less. Because the grooves have the same groove profile and axial spacing, the support ring and the lockdown ring will fit within any of the selected grooves, which is contrary to disclosure with U.S. Pat. No. 7,040,412, in which the support ring had a different profile than the lockdown ring, so that each ring fit within its corresponding groove profile.
Referring now to
The operational sequence for tension a tubular is described below. The riser (or other tubular) is lowered in the well on a running tool and is connected at its lower end to an external tieback connector (not shown). Pressure tests are commonly made by pressurizing the riser through the running tool, and the running tool is then removed.
The hanger passes through the drilling spool and weight is set down onto the inner riser tieback. The riser is rotated to the right and torqued to approximately 5000 foot pounds. The riser is then pulled to obtain the desired riser tension. While holding tension on the riser, a ball is dropped through the drill pipe which lands in a lower sleeve in the clutch tool. Pressure is applied through the drill pipe which moves the shuttle sleeve downward, allowing pressure to communicate with the radial pistons located in the riser hanger to drive the support ring radially outward. While holding pressure in the drill pipe, the inner riser is slowly lowered by the support ring until the ring snaps into the first set of circumferential grooves located in the housing and the riser load is then transferred to the riser hanger. The pressure in the drill pipe may be released, and approximately 5000 pounds set down on the clutch tool. The clutch tool is then rotated to the left which releases the clutch tool from the inner riser hanger, allowing the tool to be brought back to the surface.
Following installation to the hanger, the riser hanger seal is made up to the seal with the installation running tool. The tool is lowered into the housing while metal seal has landed on the outside of the hanger. The piston seal is formed on the ID of the hanger with the seal running tool. The BOP rams are closed around the drill pipe and the annulus above the hanger is pressurized, which drives the running tool and the seal assembly down onto the inner riser hanger. Pressure in the annulus is then released and the drill pipe is torqued to approximately 5000 foot pounds to lock the metal seal onto the hanger. An external test port adjacent the metal seal may be removed and a hydrostatic test performed to verify pressure integrity of the metal seal to the hanger and the drilling spool. Upon completion of the pressure test, the tool may then be picked up and brought back to the surface.
For the embodiments shown in
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. An adjustable hanger system for connecting a hanger to a wellhead such that a tubular extending downward from the hanger is tensioned at a selected level, and the hanger system comprising:
- the wellhead including a housing having a plurality of axially spaced grooves, each groove having a profile to receive a support member therein, the support member carried in the well by the hanger;
- the wellhead housing further including an axially elongate and generally cylindrical sealing surface spaced axially above the plurality of axially spaced grooves for sealing engagement of a seal element with the cylindrical sealing surface and the hanger; and
- the hanger being axially movable relative to the plurality of grooves, the hanger supported by the support member which is radially movable into selected ones of the plurality of axially spaced grooves in the wellhead housing to interconnect the hanger to the wellhead.
2. An adjustable hanger system as defined in claim 1, further comprising:
- a lockdown member carried in the well on the hanger and radially movable into one or more of the plurality of grooves for securing the hanger to the wellhead to prevent axially upward movement of the hanger relative to the wellhead.
3. An adjustable hanger system as defined in claim 1, wherein the support member is biased radially inward.
4. An adjustable hanger system as defined in claim 1, wherein the support member is movable radially outward in response to one or more fluid pressure responsive pistons supported in the well on the hanger.
5. An adjustable hanger system as defined in claim 1, wherein an exterior stop surface on the hanger prevents the support member from moving radially inward while the support member is in the selected ones of the plurality of grooves, the exterior stop surface moving axially from an unlocked position to a locked position.
6. An adjustable hanger system as defined in claim 1, wherein the support member is a substantially C-shaped member.
7. An adjustable hanger system as defined in claim 1, wherein the seal element is sealed between the hanger and the wellhead housing.
8. An adjustable hanger system as defined in claim 1, wherein each of the plurality of axially spaced grooves has a common groove configuration, and each of the plurality of axially spaced grooves is axially spaced from an adjacent groove by a common axial spacing.
9. An adjustable hanger system for connecting a hanger to a wellhead such that a tubular extending downward from the hanger and secured at a lower end in the well is tensioned at a selected level, and the hanger system comprising:
- the wellhead including a housing having a plurality of axially spaced grooves, each groove having a profile to receive a support member therein the support member carried in the wall by the hanger;
- the wellhead housing further including an axially elongate and generally cylindrical sealing surface spaced axially above the plurality of axially spaced grooves for sealing engagement of a seal element with the cylindrical sealing surface and the hanger for sealing between the wellhead housing and the hanger;
- the hanger being axially movable relative to the plurality of grooves, the hanger supporting the support member which is radially movable into selected ones of the plurality of axially spaced grooves in the wellhead housing to interconnect the hanger to the wellhead; and
- a lockdown member carried in the well by the hanger and radially movable into one or more of the plurality of grooves for securing the hanger to the wellhead to prevent axially upward movement of the hanger relative to the wellhead.
10. An adjustable hanger system as defined in claim 9, wherein the support member is biased radially inward.
11. An adjustable hanger system as defined in claim 9, wherein an exterior stop surface on the hanger prevents the support member from moving radially inward while the support member is in the selected ones of the plurality of grooves, the exterior stop surface moving axially from an unlocked position to a locked position.
12. An adjustable hanger system as defined in claim 9, wherein each of the plurality of axially spaced grooves has a common groove configuration, and each of the plurality of axially spaced grooves is axially spaced from an adjacent groove by a common axial spacing.
13. An adjustable hanger system as defined in claim 9, wherein the support member is movable radially outward in response to one or more fluid pressure responsive pistons supported in the well on the hanger.
14. An adjustable hanger system as defined in claim 9, wherein the lockdown member is a substantially C-shaped member.
15. A method of adjustably connecting a hanger to a wellhead with a tubular suspended in a well from the hanger and secured at its lower end in the well, the method comprising:
- providing the wellhead housing with a plurality of axially spaced grooves each configured to accept a support member, the wellhead housing having a generally cylindrical sealing surface spaced axially above the plurality of grooves;
- positioning the support member on the hanger;
- positioning the support member and hanger in the well on the hanger above selected ones of the plurality of grooves;
- thereafter raising or lowering the hanger in the well to achieve a selected tension level in the tubular;
- moving the support member radially outward into the selected ones of the plurality of grooves while the tubular is at the selected tension level, thereby preventing axially downward movement in the hanger with respect to the wellhead; and
- sealing a seal with the generally cylindrical sealing surface while the support member is within the selected ones of the plurality of grooves.
16. A method as defined claim 15, further comprising:
- increasing fluid pressure to a running tool to move the support member radially outward into the selective ones of the plurality of grooves.
17. A method as defined claim 15, wherein fluid pressure acts on a plurality of pistons supported on the hanger, such that the fluid pressure responsive pistons move the support member radially outward.
18. A method as defined claim 15, further comprising:
- positioning a lockdown member on the hanger, the lockdown member engaging one or more of the plurality of grooves to prevent upward movement of the hanger with respect to the wellhead housing.
19. A method as defined claim 15, further comprising:
- lowering the seal element on a running tool into the well after the support member has expanded outward into the selected one of a plurality of support grooves; and
- axially moving the sealing element to seal between the hanger and the wellhead.
20. A method as defined claim 15, further comprising:
- providing the support member with a generally C-shaped configuration.
Type: Application
Filed: Dec 11, 2012
Publication Date: Jun 12, 2014
Applicant: DRIL-QUIP, INC. (Houston, TX)
Inventor: Dril-Quip, Inc.
Application Number: 13/710,541
International Classification: E21B 19/00 (20060101); E21B 23/00 (20060101);