NO20121152A1 - Recyclable production module for use with a production tree - Google Patents

Abstract

A wellhead unit with a production module which includes valves, modules and ducts and which can be mounted on a production tree. When the production module lands on the production tree, flow channels in the production tree are aligned with associated flow channels in the module. A production fitting has an outlet connected to a production flow connection. The production fitting can be supported by being connected to the production tree and having an entry unit which is connected to a production flow channel when the production module lands on the production tree. The production module can be removed from the production tree without disturbing the connection between the production fitting and. the production flow connection.

Description

BACKGROUND

1. The scope of the invention

[0001] The invention generally relates to equipment for controlling the production of well fluid. More particularly, the invention relates to a module which can be removed from a production tree and which has channels that are aligned with channels in the production tree.

2. Description of prior art

[0002] Wellheads that are used in the production of hydrocarbons extracted from underground formations typically comprise a wellhead unit attached at the upper end of a wellbore drilled into a hydrocarbon-producing formation. An annular wellhead housing typically forms the outermost element where wellhead units are connected to a wellbore. A production tree is usually connected to the upper end of a wellhead assembly to regulate flow into and out of the wellbore and provide access into the wellbore. Support hangers are generally incorporated into the wellhead housing to suspend production pipe and casing into the wellbore. The casing lines the wellbore and with it isolates the wellbore from the surrounding formation. The production pipe typically lies concentrically inside the casing and forms a channel for the production of the hydrocarbons contained in the formation.

[0003] Production trees typically include flowlines that are connected to other pipelines outside the wellhead unit to transport fluid produced from the wellbore to a location for processing the fluid. Production trees also typically contain channels that are also connected to a pipeline outside the production tree. The channels are typically used to reach annulus between concentric well pipes. The channels are also often used to provide a return flow path for fluid injected into a pipe (eg, a production pipe or casing) that leaves the lower end of the pipe and flows up the wellbore in an annulus around the pipe. In general, valves regulate flow through the pipelines and channels, which are incorporated along the pipelines and channels. Thus, removal of the production tree for maintenance or other reasons usually requires a separate step of disconnecting the pipelines and channels inside the tree from the pipelines and channels outside the tree.

SUMMARY OF THE INVENTION

[0004] An example of a wellhead unit with a removable production module for mounting on a production tree and a method for operations in wellbore will be shown here. An example embodiment of a wellhead assembly includes a tubular wellhead housing with a production tubing hanger landed in the housing, where the lower end of the production tubing hanger can be attached to a production tubing string. A production module is incorporated which has a mounting bore extending through the production module; a flow channel exits from the attachment bore through the production module. A production tree is incorporated which can be selectively inserted into the attachment bore, where the production tree is attached to an upper end of the wellhead housing. The production tree has an axial bore that is aligned with a bore axially through the production pipe hanger. A gate is incorporated in the production tree that intersects the axial bore and also intersects an exterior surface of the production tree. When the production tree is inserted into the fixing bore and the production module lands on the production tree, the port is aligned with the flow channel. A production fitting may optionally be incorporated which is connected to the production tree, where the production fitting is aligned with a production line in the production module when the production module lands on the production tree. In one example, the gate sits above the upper end of the production pipe hanger. Optionally, the port may comprise a production port for the flow of production fluid. In one embodiment, the port has a reserve or auxiliary line in communication with an axial channel in the production pipe hanger that communicates with an annulus between the production pipe hanger and the wellhead housing. In an alternative embodiment, the wellhead unit further comprises a selectively removable actuator arranged on the production module to activate a valve arranged in the production module.

[0005] Also incorporated here is a method for operations in wellbore. In an exemplary embodiment, the method comprises providing a production module having an axial attachment bore and a channel crossing the attachment bore. The production module is placed on a production tree which is mounted on a wellbore and which has a port crossing an outer surface of the production tree. The method further comprises inserting the production tree into the attachment bore to bring the channel into alignment with the gate and with the landed production module on the production tree. Optionally, the method may also include connecting a production spool with a production staff to the production tree so that the production center is aligned with a production flow line formed in the production module when the production module lands on the production tree. In an alternative, the method further comprises producing fluid from a wellbore in communication with the production tree and removing the production module from the production tree. In an example, closing a single valve in the production tree will isolate the production module from communication with the wellbore. In an example embodiment, a production fitting is connected to a well flow connection (jumper) and the production fitting comprises a production center (production stab); where the production fitting is stored by being connected to the production tree and the production center is aligned with a production flow line formed in the production module when the production module lands on the production tree, so that when the production module is removed from the production tree, the production fitting remains connected to the well flow connection. Optionally, the production tree can be mounted on a wellhead housing where a production pipe hanger has been landed. An actuator may be connected to the production tree which is mechanically connected to a valve arranged with the production module, and the method may further comprise operating the valve with the actuator. Fluids can optionally be produced from the wellbore through the production module and actuators arranged on the production module can be removed.

[0006] An example of the design of a wellhead unit is also shown here, which in one embodiment comprises a tubular wellhead housing, a production pipe hanger landed in the wellhead housing with a lower end that can be attached to a production pipe string, and a production module. The production module includes an axial attachment bore and a flow channel that extends from the attachment bore. A production tree is incorporated which is selectively insertable into the attachment bore; the production tree is attached to an upper end of the wellhead housing. An axial bore in the production tree is aligned with a production pipe hanger bore, where the production pipe hanger bore is formed axially through the production pipe hanger. Also incorporated is a production channel in the production tree, which extends between the axial bore and an exterior surface of the production tree. A production line is provided in the production module with an inlet which can be selectively connected to the production channel when the production module is landed on the production tree. A production center (production staff) selectively communicates with an outlet for the fluid in the production line, so that when the production module is landed on the production tree, the production channel is in fluid communication with a production fluid connection that can be connected to an outlet from the production center. A reserve or auxiliary channel may possibly be incorporated into the production module. In an example embodiment, the auxiliary channel engages an auxiliary staff when the production module lands on the production tree to set the auxiliary channel in communication with a production annulus.

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] While some of the features and advantages of the present invention are stated explicitly, others will become clear as the description is read when viewed together with the accompanying drawings, where:

[0008] Figure 1 is a section through a production module connected to a production tree in accordance with the present invention.

[0009] Figure 2 is a side perspective of an example of the formation of an intervention between the production module and the production tree in Figure 1.

[0010] Figure 3 is a side perspective of an alternative embodiment of the production module and the production tree in Figure 1 according to the present invention.

[0011] Figure 4 is a side perspective of an example of recovery of a production module from an underwater production tree in accordance with the present invention.

[0012] Although the invention will be described with reference to the preferred embodiments, it will be understood that it is not intended to limit the invention to these embodiments. On the contrary, it is intended to cover all alternatives, modifications and equivalents that fall within the scope and spirit of the invention, as defined by the appended claims.

DETAILED DESCRIPTION OF THE INVENTION

[0013] The method and system according to the present invention will now be described in more detail in the following with support in the attached drawings, which show embodiments. The method and system according to the present invention can be realized in many different forms and should not be understood as being limited to the illustrated embodiments explained here; on the contrary, these embodiments are shown in order for this description to be thorough and complete, and will fully convey the scope of the invention to the person skilled in the art. Like reference numbers refer to like elements in all the figures.

[0014] Furthermore, it must be understood that the scope of the present invention is not limited to the concrete details of structure, operation, exact materials or embodiments shown and described here, as modifications and equivalents will be seen by the person skilled in the art. In the drawings and the description, examples of embodiments are shown, and even if specific wording is used, this is only intended in general and to describe, and not to limit. The improvements that will be described here must therefore only be limited by the scope of the attached requirements.

[0015] Figure 1 shows a section through an example of the design of a wellhead unit 20 which includes a wellhead housing 22 with its lower end arranged on a surface 23 above a formation. In the example in Figure 1, the surface 23 can be a seabed. An annular casing hanger 24 is landed within the wellhead housing 22 and is shown with a string of casing 26 connected to its lower end hanging down into a wellbore. Figure 1 further illustrates a production tubing hanger 28 shown landed on an interior surface of the wellhead housing 22 and above the upper end of the casing hanger 24. A production tubing string 30 is attached to a lower end of the production tubing hanger 28 and extends downward concentrically within the casing hanger 24 and the casing 26. An annulus 32 is defined between the production pipe 30, the wellhead housing 22, the casing hanger 24 and the casing 26.

[0016] On an upper end of the wellhead housing 22 there is arranged a production tree 34 which is attached to the wellhead housing 22 by a clamp connection 36. On the production tree 34 is landed a production module 38 which is shown with a bore 40 formed axially through the production module 38 and in which the upper end of the production tree 34 is inserted. Inside the production module 38, a reserve or auxiliary line 42 is shown extending laterally outward from the bore 40 and crossed by another reserve or auxiliary line 44. The production module 38 is positioned on the production tree 34 so that the auxiliary line 42 is aligned with an air line 46 shown formed axially through the production tree 34. A valve 48 is arranged inside the air line 46 which can be used to regulate or control flow through the air line 46. Correspondingly, valves 50, 52 are arranged inside the auxiliary lines 42, 44 to regulate flow through the auxiliary lines 42, 44. An axial channel 54 extends through the production pipe hanger 28, and with it enables fluid communication from the production pipe annulus 32 and into the vent line 46. Communication to the production pipe annulus 32 is thus possible through the auxiliary lines 42, 44 and selective control of the valves 48, 50 , 52.

[0017] Also shown formed through the production module 38 and crossing through the bore 40 is a production line 56 which is aligned with a production port 58 when the production module 38 lands on the production tree 34. A valve 60 is shown arranged inside the production port 58 to control flow or communication through the production port 58. A bypass line 62 crosses the production line 56 inside the production module 38. Valves 64, 66, respectively arranged in the production line 56 and the bypass line 62, can be activated to selectively direct flow through the production line 56 or the bypass line 62. Also arranged in the bypass line 62 are a throat 68 that limits the cross-sectional area of the bypass line 62 to reduce the pressure in the fluid flowing through the bypass line 62 to a pressure that is more manageable for producing fluid from the wellbore.

[0018] Still referring to Figure 1, an annular production stab 70 is shown which provides a connection between the production tubing hanger 28 and the lower end of the production tree 34 to enable seamless flow from inside the wellbore up to the production port 58. The production tubing 30, the production tubing hanger 28, the production center 70 and the inner bore of the production tree 34 are substantially coaxial and define a main production bore 71 through the wellhead assembly 20. A main production valve 72 is shown set in the main production bore 71 in the portion inside the production tree 34. The main production valve 72 can be selectively opened or closed to regulate communication to the wellbore through the main production bore 71. Near the upper end of the production tree 34, a crown valve 74 is also set inside the main production bore 71, which can be opened or closed to provide access into the main bore 71 from the upper end of the production tree 34.

[0019] An optionally incorporated sensor 76 is shown connected to an external surface of the production module 38 and in communication with the production tree 34. A transverse channel 80 formed through the production module 38 provides a path for the line 78. Furthermore, an actuator 82 is shown arranged on the production module 38 and connected to a control line 84 which is set inside a channel 86. The channel 86 provides a path for the control line 84 for connection to actuators or devices inside the production tree 34 and/or the production module 38.

[0020] Figure 2 shows a side perspective of an example of the landing of the production module 38 in Figure 1 on the production tree 34.1 this example is a strap device (bridle assembly) 88 connected to an upper end of the production module 38 and suspended by a line 90. By lowering the production module 38 and align the bore 40 in the production module 38 with the upper end of the production tree 34, the production tree 34 is introduced into the bore 40 as the production module 38 is lowered onto the tree. As the bore 40 extends through the production module 38, access to the main production bore 71 in the production tree 34 is unhindered by the production bore 38.

[0021] An alternative embodiment of the wellhead unit 20A is shown in a side perspective in figure 3, where the production module 38A is placed on the production tree 34. In the example in figure 3, a production spool stab 92 is shown as part of a production spool 94. The production spool 94 is supported by a coupling 95 which secures the production fitting 94 to the production tree 34. Valves 96, 98 are shown disposed within the production fitting 98 to selectively regulate flow to the lines 100, 102 attached to the production fitting 94. The lines 100, 102 can provide a flow path for fluids produced from the wellbore to production facilities (not shown) which process or refine the produced fluids. In the example in Figure 3, the production line 56A has an outlet shown crossing a lower end of the production module 38A. When the production module 38A lands on the production tree 34, the production fitting inserter 92 is inserted into the outlet from the production line 56A. In this way, fluid communication is established between the production fitting 92 and the main bore 71 via the production port 58 and the production flow line 56A through the production fitting inserter 92.

[0022] The example in Figure 3 may optionally also include a throttling actuator 104 shown arranged on the production tree via a coupling 105. Mechanical connecting links 106, 108 extend from the throttling actuator 104 to the valves 64, 66 to control flow through the production flow line 56A and/or the bypass line 62 in the production module 38A. By orienting the production module 38A as it lands on the production tree 34, one can thus establish communication between the production flow line 56A and the production fitting enterer 92, and automatically connect the throttle actuator 104 and the mechanical connectors 106, 108 to control flow through the production flow line 56A.

[0023] Figure 4 shows an example of an operation where the production module 38 is removed from the production tree 34, for example for maintenance or for other reasons. An advantage of the example shown is that the connectivity of the flow lines 100, 102 can be maintained while the module 38 is removed from the production tree 34. In this example, it is only necessary to close the main production valve 72 to isolate flow from the wellbore to allow the removal of the production module 38. Similarly the production fitting 94 is a reserve or auxiliary fitting 110 arranged on the production tree 34 and has a reserve or auxiliary entry 112 for automatic connection with the auxiliary line 42A when the production module 38 lands on the production tree 34. Furthermore, in the example in Figure 4, a work boat 114 is used to raise and lower the line 94 to remove and/or land the production module 38.

[0024] The present invention as described here is therefore suitable for realizing the purposes and achieving the stated goals and advantages, as well as others that follow naturally. Although a currently preferred embodiment of the invention has been shown for purposes of explanation, a number of changes are possible in the details of the methods to achieve the desired results. These and other corresponding modifications will be obvious to the person skilled in the art, and are intended to fall within the ideas of the present invention as described here and the scope of the appended claims.

Claims (17)

1. A wellhead assembly, comprising: a tubular wellhead housing; a production tubing hanger landed in the wellhead housing with a lower end attachable to a production tubing string; a production module comprising an attachment bore extending through the production module and a flow channel or passage extending from the attachment bore; a production tree which is selectively insertable into the attachment bore and which is arranged on an upper end of the wellhead housing; an axial bore in the production tree which is aligned with a production pipe hanger bore that is formed axially through the production pipe hanger; and a port in the production tree intersecting the axial bore and an outer surface of the production tree such that, when the production tree is inserted into the attachment bore and the production module is landed on the production tree, the port is aligned with the flow channel. 2. Wellhead unit according to claim 1, further comprising a production fitting connected to the production tree and a production line in the production module which is aligned when the production module lands on the production tree. 3. Wellhead assembly according to claim 1, wherein the port is located above the upper end of the production pipe hanger. 4. Wellhead unit according to claim 1, wherein the port comprises a production port for flow of production fluid. 5. Wellhead unit according to claim 1, wherein the port comprises a reserve or auxiliary line in communication with an axial channel or passage in the production pipe hanger that communicates with an annulus between the production pipe hanger and the wellhead housing. 6. Wellhead assembly according to claim 1, further comprising a selectively removable actuator arranged on the production module to activate a valve arranged in the production module. 7. A method of downhole operations, comprising the steps of: providing a production module comprising a tie bore extending through the production module and a channel or passage crossing the tie bore; positioning the production module on a production tree disposed on a wellbore and having a port crossing an outer surface of the production tree; and insert the production tree into the fixing bore and align the channel with the gate and thereby land the production module on the production tree. 8. Method according to claim 7, where a production fitting with a production center is connected to the production tree, and the production center is aligned with a production flow line formed in the production module when the production module is landed on the production tree. 9. Method according to claim 7, further comprising the steps of producing fluid from a wellbore in communication with the production tree and removing the production module from the production tree. 10. Method according to claim 9, where closing a single valve in the production tree isolates the production module from communication with the wellbore. 11. Method according to claim 9, where a production fitting that connects to a well flow connection and has a production center is stored by connecting it to the production tree, and the production center is aligned with a production flow line formed in the production module when the production module is landed on the production tree, so that, when the production module is removed from the production tree, the production fitting remains connected to the well flow connection. 12. Method according to claim 7, where the production tree is arranged on a wellhead housing where a production pipe hanger is landed. 13. Method according to claim 7, where an actuator is connected to the production tree and mechanically connected to a valve provided with the production module, where the method further comprises the step of operating the valve with the actuator. 14. Method according to claim 7, further comprising the steps of producing fluids from the wellbore through the production module and removing actuators arranged on the production module. 15. A wellhead assembly, comprising: a tubular wellhead housing; a production tubing hanger landed in the wellhead housing with a lower end attachable to a production tubing string; a production module comprising an attachment bore extending through the production module and a flow channel or passage extending from the attachment bore; a production tree which is selectively insertable into the attachment bore and which is arranged on an upper end of the wellhead housing; an axial bore in the production tree aligned with a production pipe hanger bore formed axially through the production pipe hanger; a production channel or passage in the production tree extending between the axial bore and an outer surface of the production tree; a production line in the production module with an inlet that selectively connects with the production channel when the production module lands on the production tree; and a production center in selective communication with a fluid outlet from the production line, such that, when the production module is landed on the production tree, the production channel is in fluid communication with a production fluid connection which can be connected to an outlet from the production center. 16. Wellhead unit according to claim 15, further comprising a reserve or auxiliary channel or passage in the production module. 17. A wellhead assembly according to claim 16, wherein the auxiliary conduit engages a reserve or auxiliary entry when the production module lands on the production tree to place the auxiliary conduit in communication with a production annulus.