1. Field of Disclosure
This disclosure relates in general to wellhead assemblies, and in particular to wellhead assembly members for providing control of wellhead assembly operations.
2. Description of Related Art
Some conventional subsea wellhead assemblies include a high pressure wellhead housing that supports one or more casing hangers located at upper ends of strings of casing extending into the well. A tubing hanger lands in the wellhead housing above the casing hanger and supports a string of production tubing that extends through the smallest diameter casing. The tubing hanger has a production bore which is offset slightly from the longitudinal axis. An annulus bore also extends through the tubing hanger, parallel to and offset from the axis, for communicating the tubing annulus to above the tubing hanger. The annulus bore is needed during installation of the tubing hanger and tubing to establish circulation down the tubing and back up the annulus. After the well has been completed, a removable plug is installed in the annulus bore, then a production tree is mounted to the wellhead housing. Access through the production tree to the tubing may be made for various workover operations that are needed. Various production valves and chokes will be mounted to the tree. Typically the bore of a subsea wellhead is limited, and may be for example, 18¾ inches. Having both a production line and annulus bore traveling through the wellhead assembly constrains the sizes of production tubing that can be used, and limits the number of well controls and monitoring lines that can be included within the wellhead.
The methods and systems of the current disclosure removes complexity of providing annulus access and controls from a constrained area on the tubing hanger, thus allowing the largest possible production tubing and well productivity. Embodiments of this disclosure also allow more measuring and control lines for the reservoir compared to some current systems, thus improving the long term productivity of the reservoir.
In an embodiment of this disclosure, a wellhead assembly includes a tubular housing assembly having a housing sidewall, an axial bore, and a housing annulus passage extending from the axial bore through the housing sidewall. A tubing hanger is adapted to be secured to a string of tubing and is selectively landed in the housing assembly. The tubing hanger has a vertical bore in fluid communication with the axial bore. A vertical tree assembly is selectively landed on the tubular housing assembly, the vertical tree assembly having a tree member located axially above the tubing hanger. The tree member has a lateral bore for directing a flow of production fluid from a well. A tree annulus passage extends through a sidewall of the tree member. An external annulus passage extends external of the tree member and the housing assembly. The external annulus passage is in fluid communication with the housing annulus passage and the tree annulus passage.
In an alternate embodiment of this disclosure, a wellhead assembly includes a tubular housing assembly having, an axial bore, and a housing annulus passage having a first end located at an outer diameter of the tubular housing assembly and a second end located at surface of the axial bore. A tubing hanger is adapted to be secured to a string of tubing and selectively sealingly engages the axial bore of housing assembly above the second end of the housing annulus passage. The tubing hanger has a vertical bore in fluid communication with the axial bore. A vertical tree assembly is selectively landed on the tubular housing assembly. The vertical tree assembly includes a tree member located axially above the tubing hanger. The tree member has a lateral bore for directing a flow of production fluid from a well. The vertical tree assembly also includes a tree annulus passage with a first end at an upper interface of the tree member and a second end at an outer diameter of the tree member. The vertical tree assembly further includes an external annulus passage extending external of the tree member and the housing assembly. The external annulus passage is in fluid communication with the housing annulus passage and the tree annulus passage. The vertical tree assembly also includes a valve assembly engaging the outer diameter of the tree member. The valve assembly has a tree open position to allow an annulus fluid to flow into and out of the tree annulus passage and a housing open position to allow the annulus fluid to flow into and out of the housing annulus passage.
In another alternate embodiment of this disclosure, a method for completing a subsea well includes providing a tubular housing assembly having a housing sidewall, an axial bore, and a housing annulus passage extending from the axial bore through the housing sidewall. The housing assembly can be installed subsea at an upper end of the subsea well. A string of tubing can be secured to a tubing hanger and the tubing hanger can be landed in the housing assembly. The tubing hanger has a vertical bore in fluid communication with the axial bore. A vertical tree assembly can be provided. The vertical tree assembly has a tree member. The tree member has a lateral bore for directing a flow of production fluid from the well, and a tree annulus passage extending through a sidewall of the tree member. The vertical tree assembly also has an external annulus passage. The vertical tree assembly can be landed on the housing assembly so that the tree member is axially above the tubing hanger and so that the external annulus passage extends external of the tree member and external of the housing assembly and is in fluid communication with the housing annulus passage and the tree annulus passage.
So that the manner in which the features, advantages and objects of the invention, as well as others which will become apparent, are attained and can be understood in more detail, more particular description of the invention briefly summarized above may be had by reference to the embodiment thereof which is illustrated in the appended drawings, which drawings form a part of this specification. It is to be noted, however, that the drawings illustrate only a preferred embodiment of the invention and is therefore not to be considered limiting of its scope as the invention may admit to other equally effective embodiments.
The methods and systems of the present disclosure will now be described more fully hereinafter with reference to the accompanying drawings in which embodiments are shown. The methods and systems of the present disclosure may be in many different forms and should not be construed as limited to the illustrated embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey its scope to those skilled in the art. Like numbers refer to like elements throughout.
It is to be further understood that the scope of the present disclosure is not limited to the exact details of construction, operation, exact materials, or embodiments shown and described, as modifications and equivalents will be apparent to one skilled in the art. In the drawings and specification, there have been disclosed illustrative embodiments and, although specific terms are employed, they are used in a generic and descriptive sense only and not for the purpose of limitation.
Referring to
Tubular housing assembly 13 includes housing annulus passage 23. Housing annulus passage 23 extends from axial bore 17 and through a sidewall of tubular housing assembly 13 so that a first end of housing annulus passage 23 is located at an outer diameter of tubular housing assembly 13 and a second end of housing annulus passage 23 is located at surface of axial bore 17. Housing control line 25 extends from axial bore 17 through the housing sidewall. There can be multiple control lines 25 extending from axial bore 17 through the housing sidewall. No valves are part of or attached directly to tubular housing assembly 13, maximizing the amount of space within tubular housing assembly 13 that can be used for the production of hydrocarbons. Inner multi control coupling 28a is located at an inner end of housing control line 25 at axial bore 17. Outer multi control coupling 28b is located at an outer end of housing control line 25 at an outer diameter of housing assembly 13. Multi-control couplings 28a, 28b can be, for example, a sphere-seal such as is disclosed in U.S. Pat. No. 8,800,662, which is incorporated herein in its entirety.
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Tubing hanger 43 can be run and supported within axial bore 17. Tubing hanger 43 has a vertical bore 45 that extends completely through tubing hanger 43 and is coaxial with and is in fluid communication with axial bore 17. Tubing hanger 43 is adapted to be secured to a string of tubing 47 which extends into the well. Tubing hanger 43 has seal assembly 49 circumscribing tubing hanger 43 and forming a seal between an outer diameter of tubing hanger 43 and a surface of axial bore 17. Housing annulus passage 23 extends to axial bore 17 at a location axially below seal assembly 49. Seal assembly 49 can be a known tubing hanger seal.
Blocking sleeve 35 can be removed and vertical tree assembly 51 can be landed on tubular housing assembly 13. Vertical tree assembly 51 can include tree member 53 which is tubular and located axially above tubing hanger 43 when vertical tree assembly 51 is landed on tubular housing assembly 13. A standard wellhead to tree metal seal can be located between an lower end of tree member 53 and an upper end of tubular housing assembly 13. Tree member has a central tree bore 54 that extends through vertical tree assembly 51 and is collinear with axial bore axis 19. Tree member 53 has main lateral bore 55 for directing a flow of production fluid from the well. Central tree bore 54 registers with main lateral bore 55.
Tree member 53 also has tree annulus passage 56 extending through a sidewall of tree member 53. Tree member 53 has a number of production valves for controlling the flow of production and other fluids through vertical tree assembly 51. Production swab valve 58a is located along central tree bore 54 axially above main lateral bore 55. Production master valve 58b is located along central tree bore 54 axially below main lateral bore 55. Production wing valve 58c is located along main lateral bore 55.
A lower portion of vertical tree assembly 51 can circumscribe an upper portion of tubular housing assembly 13. Tree connector member 57 can circumscribe an upper portion of tubular housing assembly 13 and can have dogs assembly 59 that can engage an outer diameter profile of tubular housing assembly 13, removeably securing vertical tree assembly 51 to tubular housing assembly 13. A lower end of vertical tree assembly 51 can include tree wellhead interface surface 60. Tree wellhead interface surface 60 is a downward and inward facing sloped surface on an inner diameter of the vertical tree assembly 51. Tree wellhead interface surface 60 is sized and shaped to mate with housing tree interface surface 21. Housing tree interface surface 21 selectively engages tree wellhead interface surface 60, supporting vertical tree assembly 51 on the housing assembly 13.
At an opposite end of vertical tree assembly 51, tree member 53 has an upper interface 61 that includes a larger diameter section of central tree bore 54. Upper interface 61 has a profile on both an outer diameter of upper interface 61 and on a surface of the larger diameter section of central tree bore 54. Upper interface 61 can be used to engage and secure vertical tree assembly to a tree cap, BOP, workover package, or other subsea equipment. Tree annulus passage 56 has a first end at the upper interface and a second end at an outer diameter of tree member 53.
Vertical tree assembly 51 also includes tree frame 63. Tree frame 63 includes structural members to position and support components of vertical tree assembly 51. In the example of
Sleeve port 71 is also in fluid communication with external annulus passage 75. External annulus passage 75 extends outside of or external of tree member 53 and housing assembly 13. External annulus passage 75 is in fluid communication with both housing annulus passage 23 and tree annulus passage 56, providing a flow path between housing annulus passage 23 and tree annulus passage 56. Valve assembly 77 engages an outer diameter of tree member 53. Valve assembly is located between tree annulus passage 56 and external annulus passage 75 and can be used to control the flow of annulus fluids through external annulus passage 75, through housing annulus passage 23, and through tree annulus passage 56.
Valve assembly 77 has at least one annulus valve 79. In the embodiment of
Various actuators, both hydraulic and mechanical, are mounted to vertical tree assembly 51 for actuating the various valves 58a, 58b, 58c, 79a, 79b, and 79c. Vertical tree assembly 51 has all of the required passages and valves of a subsea vertical tree. Vertical tree assembly 51 can be installed and removed as a single unit, without having to make multiple trips to remove various parts of wellhead control components in separate trips.
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The operator then lowers vertical tree assembly 51. Vertical tree assembly 51 can be lowered in place by a riser that allows pressure testing from the surface. Once vertical tree assembly 51 is landed on housing tree interface surface 21, the operator can engage dogs assembly 59 with an ROV. The operator tests the various valves 58a, 58b, 58c, and 79a, 79b, 79c.
In the event reentry into the well is needed for workover operations, the operator can use a completion or workover riser with a choke and kill line, that fits around an outer profile of upper interface 61 of housing assembly 13. By opening annulus valves 79a, and 79b and leaving production wing valve 58c closed the operator can pump annulus fluids into the well below tubing hanger 43 through tree annulus passage 56, valve assembly 77, external annulus passage 75, sleeve port 71, and housing annulus passage 23. Alternately, annulus fluids can be pumped into the well through central tree bore 54, vertical bore 45, and tubing 47 and return to the surface through housing annulus passage 23, sleeve port 71, external annulus passage 75, valve assembly 77, and tree annulus passage 56.
In other alternate embodiments, instead of using a package that attached to upper interface 61, annulus fluids can be pumped into the well by way of annulus port 81. In such an embodiment, annulus valve 79a will remain closed and annulus valves 79b and 79c will be opened to allow annulus fluids to flow though valve assembly 77, external annulus passage 75, sleeve port 71, and housing annulus passage 23.
The terms “vertical”, “horizontal”, “upward”, “downward”, “above”, and “below” and similar spatial relation terminology are used herein only for convenience because elements of the current disclosure may be installed in various relative positions.
The system and method described herein, therefore, are well adapted to carry out the objects and attain the ends and advantages mentioned, as well as others inherent therein. While a presently preferred embodiment of the system and method has been given for purposes of disclosure, numerous changes exist in the details of procedures for accomplishing the desired results. These and other similar modifications will readily suggest themselves to those skilled in the art, and are intended to be encompassed within the spirit of the system and method disclosed herein and the scope of the appended claims.