BORE SELECTION APPARATUS

Information

  • Patent Application
  • 20150176353
  • Publication Number
    20150176353
  • Date Filed
    June 18, 2013
    11 years ago
  • Date Published
    June 25, 2015
    9 years ago
Abstract
A bore selection device for use with a dual bore subsea system is disclosed. The bore selector (18) can be remotely actuated to provide selection between a production bore (12) and an annulus bore (16) without a rotating mechanism or flapper valve. Embodiments of the invention are disclosed. In one embodiment a pair of rams (20) having a ram head (20a, 20b) defining parts of a guide funnel (30a, 30b) are hydraulically actuatable so that when the rams are actuated and closed the guide funnel (30) is formed which couples a part of the production bore (126) to the annulus bore (16a).
Description
FIELD OF THE INVENTION

The present invention relates to a bore selection device for selecting between a production bore and an annulus bore of a sub-sea well system.


A bore selector is typically disposed within the intervention riser and can be coupled between casing or tubing and a sub-sea production tree. There have been various proposals for providing a device with a single passage at an upper end and two or more passages at a lower end and means within the device for selecting one of the passages so that a tool passing through the device can be directed through a selected passage. Examples of such devices are disclosed in U.S. Pat. No. 4,470,247, U.S. Pat. No. 5,129,459, U.S. Pat. No. 6,170,578 and published UK application number GB2258675A.


The traditional way of selecting between two bores in a dual bore system is to use a whipstock, which is normally a plug that is inserted into the well to change direction and guide a tool into a selected bore. However, running a whipstock has to be done in wire line to block a production bore and this is both time consuming and consequently expensive. Whipstock solutions are disclosed in the above mentioned U.S. Pat. Nos. 4,470,247, 5,129,459 and 6,170,578 patents. However with the '247 and '459 patents, the mechanism for selecting between bores is an internal rotary mechanism. These mechanisms are very complex and expensive and, in order to work efficiently and effectively, need to be accurately aligned and rotated so that there is a correct alignment within the bore in order for the selection to work properly. With regard to the '578 patent, this requires the use of a flapper valve which includes a hinged flapper plate located within the device, which is actuated to move about a pivot so as to selectively open or close an annulus bore and a production bore. This arrangement has the problem that the force generated by the flapper valve is generally weak leading to reliability issues with valve closure.


An object of the present invention is to provide an improved core selection device for facilitating access for a monobore riser to a production bore or to an annulus bore which obviates or mitigates at least one of the aforementioned problems with the prior art solutions.


This is achieved by providing a bore selection device which can be remotely actuated to provide selection between a production bore and an annulus bore without requiring a rotation mechanism or a flapper valve mechanism.


The bore selector device can be actuated from the surface or from an ROV to provide a coupling between the tubing bore and the production bore and the smaller annulus bore.


According to the present invention, there is provided a bore selection device for use with a dual bore sub-sea system, said bore selection device comprising:

    • a housing having a longitudinal axis, said housing defining a production bore and an annulus bore, said production bore being of a diameter larger than said annulus bore and extending the length of the housing, said annulus bore extending part-way along the length of said housing;
    • bore selector means movable between a first position wherein the production bore is open and said annulus bore is closed and a second position wherein the production bore is closed and said annulus bore is open;
    • the bore selector means being coupled to actuation means by coupling means said actuation means and coupling means being disposed in said housing, said actuation means being movable substantially parallel to said production bore, said coupling means coupling said actuation means to said bore selector means to transform longitudinal movement of said actuation needs to transverse movement of said bore selector means to said production bore whereby said bore selector means is moved between said first and said second positions.


Conveniently, the housing has an internal wall defining cavities for receiving at least two actuation means, said actuation means being arranged to move in said well in the direction parallel to the longitudinal axis.


Preferably also the bore selector means includes two separate rams. Conveniently said rams are equal in size and are dimensioned and proportioned so that in a first position when the production bore is open, each ram is located within a recess in said housing wall such that the production bore is not obstructed. Preferably also the coupling means for coupling each actuator means to a respective ram linkage, said linkage being located within the wall of said housing. Conveniently said actuation means is a hydraulic system.


Preferably also when said actuation means are hydraulically actuated to close said production bore, hydraulic pistons engage the linkage which acts on respective rams to move the ram in a direction substantially orthogonal to the direction of said actuation means so that the rams move together to close said production bore and define an guide funnel through said closed rams whereby a portion of said production bore is coupled to said annulus bore.


Alternatively the bore selector means can be provided by any suitable number of rams for example 3, 4 or more such with the ram heads defining part of a guide funnel such that when the rams are actuated and closed the guide funnel is formed. In a yet further implement a single ram may be provided with a complete guide funnel which is dimensional and proportioned to fit in the wall of the housing when the production bore is open.


Preferably also said coupling means is provided by a 4-pin linkage which acts to convert the longitudinal force of the hydraulic actuator within the bore selector device to an orthogonal force whereby said rams move transverse to open and close the selected bores.


Conveniently the coupling mechanism is a two latch linkage. Alternatively the coupling mechanism can be a three or other suitable latch linkage sufficient to convert the longitudinal movement of the actuator into orthogonal movement to move the rams to open and close the bores.


According to a further aspect of the present invention there is provided a method of selecting a bore within a dual bore sub-sea device having a production bore and a separate annulus bore, said method comprising the steps of:

    • actuating a first actuation means to move in a first direction substantially parallel to the production bore of the dual sub-sea device;
    • coupling the longitudinal movement of the actuation means to at least one ram via linkage means for converting the longitudinal movement to substantially transverse movement of said ram, said transverse movement of said ram moving between a first position wherein the production bore is open and a second position wherein the production bore is closed.


Preferably said linkage coupling means transforms the longitudinal movement to transverse movement which is substantially orthogonal to the longitudinal movement so that said rams move between said first and second positions in a plane which is substantially orthogonal to the longitudinal access of said device.


Preferably also the method includes creating a funnel when said rams are closed which couples the production bore to the annulus bore.


Preferably also the method includes the step of actuating at least two hydraulic means and two separate rams to move orthogonally to said hydraulic means in opposite directions to provide said open and closed positions.





These and other aspects of the present invention will become apparent from the following description when taken in combination with the accompanying drawings in which:



FIG. 1 is a longitudinal partial sectional view of a bore selector device in accordance with an embodiment of the present invention;



FIG. 2
a is a cross sectional view taken through the device of FIG. 1 on lines a-a;



FIG. 2
b is a cross sectional view taken through the device of FIG. 1 on lines b-b with the bore selector mechanism in a closed position;



FIG. 2
c is a cross sectional view taken through the device of FIG. 1 on lines b-b with the bore selector mechanism in an open position;



FIGS. 3
a, 3b are detailed longitudinal section views of the bore selection device with the bore selection mechanism shown in the open and closed positions respectively;



FIGS. 4
a, 4b are top views taken of FIGS. 3a, 3b respectively in the directions of arrow A;



FIGS. 5
a and 5b are an enlarged perspective view illustrating the funnel shape provided by the rams when in the open and closed position respectively;



FIGS. 6
a, 6b and 6c are enlarged side views of one half of the ram link mechanism of FIG. 3 with the mechanism shown in the open, partially closed and closed positions respectively;



FIG. 7 is a schematic illustrating how the ram-link mechanism translates axial to transverse movement, and



FIGS. 8
a-8e illustrate the bore selector actuator to allow a long drift to pass through the bore selector into the annulus bore.





Reference is first made to FIG. 1 of the drawings, which depicts a longitudinal partial sectional view of a bore selector apparatus 10 in accordance with an embodiment of the invention. The bore selector apparatus as illustrated is about 1.5 metres long with an 18.5 inch (outside) diameter. In FIG. 1 it will be seen that the bore selector apparatus has a main/production bore 12 which extends the length of the apparatus defined by a housing generally indicated by reference numeral 14 and an annulus bore 16 which extends through the lower part of the apparatus to a bore selector mechanism generally indicated by reference numeral 18 the detail structure and operation which will be described later. As described, operation of the selector mechanism 18 will allow the top part of the bore indicated by reference numeral 12a to be selectively connected to the lower part of the bore 12b or to the annulus 16 (not shown in this view in the interests of clarity).


Reference is now made to FIGS. 2a, 2b and 2c, which are cross sectional views taken on the lines a-a, b-b of FIG. 1. Referring first to FIG. 2a it will be seen that in this sectional view, bores 12b and 16 are separate and that bore 16 has a portion 16a, which slopes towards the main bore 12b and selector mechanism 18. FIG. 2b is a cross sectional view of lines b-b which depicts the selector mechanism 18 in a closed position to provide access from the production bore 12a to the annular 16 is through the slopes annulus portion 16b. FIG. 2c illustrates the bore selector mechanism in an open position illustrating the continuity of the bore 12 through bore portions 12a and 12b with the rams 20 being moved to a retracted position. As will be explained, operation of the mechanism 18 moves between an open and closed position to allow the rams 20 to close and prevent access to bore 12b while allowing access through to sloping annulus portion 16b and portion 16 to allow tools to be inserted into the annulus to be guided by the selector mechanism from bore portion 12a to annulus 16 as will be later described.


Reference is now made to FIGS. 3a and 3b of the drawings which are longitudinal sectional views of part of the bore selector shown in FIG. 1 and show the bore selector mechanism 18 in more detail. FIG. 3a illustrates the bore selector mechanism in the open position and FIG. 3b illustrates the mechanism in the closed position. It will be understood that the bore selector mechanism consists of two opposing parts 22a and 22b which are retained in the wall of housing 14. The top view shown in FIG. 4a taken in the direction of arrow A, shows that in the open position the bore 12a passes through the selector mechanism but narrows slightly through to bore 12b. The structure of one half of the selector mechanism 22a will now be described in detail in the interests of clarity, although it will be understood that the description is also applicable to the other half 22b. Portion 22a has a hydraulic piston 24a coupled to a 4-pin linkage mechanism generally indicated by reference numeral 26a which in turn is coupled to ram 28a. In FIG. 3a, the hydraulic pistons are at their lowermost position such that the 4-pin linkage 26 is in the position as shown in FIG. 3a with the coupled ram heads 28a, 28b retracted to allow passage through the main bore shown in FIG. 4a.


Referring now to FIG. 3b it will be seen that in this position the hydraulic pistons have been actuated to push the pistons up to actuate the pin linkages 26a, 26b to act on the ram head 20a, 20b, as will be later described in detail so that the ram heads are moved into contact as shown in FIG. 3b to effectively close passage from bore 12a to 12b but permit passage from bore 12b to annulus portion 16a. This is achieved by virtue of the rams defining a guide funnel provided by an eccentric cone, 30 by cone portions 30a, 30b best seen in FIGS. 5a and 5b which forms the guide funnel to connect the bore 12b with the annulus portion 16b which is then connected to the annulus 16 so as to guide tools passing through the bore selector device into the annulus as will be later described.


It will thus be appreciated that the axial movement of the pistons 24a, 24b is converted by the linkage mechanism 26a, 26b into orthogonal movement of the ram heads i.e. they move at 90 degrees to the piston movement to close off the main bore 12b.


This is achieved using the ram ink mechanism as best illustrated in FIGS. 6a, 6b and 6c. For convenience only, portion 22a is disclosed in detail but it will be appreciated that the operation of mechanism 2b is the same. The 4-pin linkage 26a consists of pins 32a, 34a, 36a and 38a. Pin 32a is coupled to the hydraulic cylinder 24a, pin 36a is coupled to the ram head and pin 38a is coupled to the housing 14 and is fixed. Pin 34a is coupled by the link 40a to pin 38a. The operation of the link mechanism will also be described with reference to the schematic diagram of FIG. 7. As the hydraulic ram 24a moves up, the hydraulic pressure causes pin 34a to move inwardly and, as pin 38a is fixed, pin 36a is also moved inwardly towards the centre line 40 of the bore selector device, and as ram head 20a is coupled by 36a the head is faced inwards to the central axis 40 of the tool. At mid stroke, as best seen in FIG. 6b, it can be seen that pins 34a and 36a are displaced towards the centre axis 40 and this continues with upward movement of the hydraulic piston 34a with the pins 34a and 36a move such that the ram heads 20a is in the closed position. In this position, which is mirrored by mechanism 22b the bore 12b is closed so that the bore 12b is fed into the eccentric cone 30 best seen in FIG. 5b which connects tube 12b to annular portion 16b.


When it is desired to open the bore the procedure is reversed with the pistons 24a, 24b being actuated to move downwardly and this retracts the linkage mechanism and the ram heads 20a, 20b back to the position shown in FIG. 6a.


Reference is now made to FIGS. 8a to 8c of the drawings which is a schematic diagram of a bore selection device 10 in accordance with the invention illustrating the bore selector in the open position and showing how a 2 inch diameterĂ—42 inch long drift 50 passes through the selector mechanism 18. It will be seen from FIGS. 8a to 8e that the long drift is guided through the funnel portion 30 into the annulus portion 16a (FIG. 8b) and then from annulus portion 16a into annular 16 as is finally seen in FIG. 8e.


It will be understood that the present invention offers various advantages over the prior art, namely that this is a compact arrangement which does not require the use of a ball valve and which translates vertical movement of pistons disposed axially in a housing into transverse horizontal movement to form a guide funnel within the device to close off the main production bore but still allow access from the main bore, and to the rig, to the annulus bore to provide all of the access and control functions required to the annulus. The use of the hydraulic closing mechanism and rams provides effective and reliable control which is not hitherto demonstrated with prior art devices.


Various modifications may be made to the apparatus here before described without departing from the scope of the invention. For example, it will be understood that the linkage mechanism and rams may be disposed to close and provide a funnel or eccentric cone such that the rams do not have to move at exactly 90 degrees to the piston movement. They can use the same principle but can be angled such that an eccentric cone is provided to connect the main bore of the bore selector device with the annulus bore. In addition it will be understood that the hydraulic mechanism may be replaced by an electrically operated mechanism or by a mechanical arrangement which could be coupled to a revolving operator vehicle (ROV) for driving the operation of the device. Also, it will be understood that in the hydraulic arrangement, an annular piston may replace the hydraulic actuating means illustrated.


Furthermore the bore selector means can be provided by any suitable number of rams with ram heads defining part of a funnel shape for example, 3, 4, 5, etc. When the rams are closed the rams heads form a guide funnel similar to that shown in FIG. 5b. Also a ram head may include a single guide funnel such as is shown in FIG. 5b with the ram head being carried by a single ram, which would be disposed in a single recess in the housing and when activated would, using the linkage, move orthogonally across the bores to close off the lower part of the product bore and couple the upper part of the bore to the annulus bore as already described with reference to FIGS. 1-7.

Claims
  • 1. A bore selection device for use with a dual bore sub-sea system, said bore selection device comprising: a housing having a longitudinal axis, said housing defining a production bore and an annulus bore, said production bore being of a diameter larger than said annulus bore and extending the length of the housing, said annulus bore extending part-way along the length of said housing;bore selector means movable between a first position wherein the production bore is open and said annulus bore is closed and a second position wherein the production bore is closed and said annulus bore is open;the bore selector means being coupled to actuation means by coupling means said actuation means an coupling means being disposed in said housing, said actuation means being movable substantially parallel to said production bore, said coupling means coupling said actuation means to said bore selector means to transform longitudinal movement of said actuation needs to transverse movement of said bore selector means to said production bore whereby said bore selector means is moved between said first and said second positions.
  • 2. A device as claimed in claim 1 wherein the housing has an internal wall defining cavities for receiving at least two actuation means, said actuation means being arranged to move in said well in the direction parallel to the longitudinal axis.
  • 3. A device as claimed in claim 1 wherein the bore selector means includes two separate rams.
  • 4. A device as claimed in claim 1 wherein said rams are equal in size and are dimensioned and proportioned so that in a first position when the production bore is open, each ram is located within a recess in said housing wall that the production bore is not obstructed.
  • 5. A device as claimed in claim 1 wherein the coupling means for coupling each actuator means to a respective ram linkage, said linkage being located within the wall of said housing. Conveniently said actuation means is a hydraulic system.
  • 6. A device as claimed in claim 5 wherein said actuation means are hydraulically actuated to close said production bore and hydraulic pistons engage the linkage which acts on respective rams to move in a direction substantially orthogonal to the direction of said actuation means so that the rams move together to close said production bore and define an guide funnel through said closed rams whereby a portion of said production bore is coupled to said annulus bore.
  • 7. A device as claimed in claim 5 wherein the bore selector means is provided by 3 or more rams with each ram head defining part of a guide funnel such that when the rams are actuated and closed the guide funnel is formed.
  • 8. A device as claimed in claim 1 wherein a single ram may be provided with a complete guide funnel which is dimensional and proportioned to fit in the wall of the housing when the production bore is open.
  • 9. A device as claimed in claim 1 wherein said coupling means is provided by a 4-pin linkage which acts to convert the longitudinal force of the hydraulic actuator within the bore selector device to an orthogonal force whereby said rams move transverse to open and close the selected bores.
  • 10. A method of selecting a bore within a dual bore sub-sea device having a production bore and a separate annulus bore, said method comprising the steps of: actuating a first actuation means to move in a first direction substantial parallel to the production bore of the dual sub-sea device;coupling the longitudinal movement of the actuation means to at least one ram via linkage means for converting the longitudinal movement to substantially transverse movement of said ram, said transverse movement of said ram moving between a first position wherein the production bore is open and a second position wherein the production bore is dosed.
  • 11. A method as claim in claim 10 wherein said linkage coupling means transforms the longitudinal movement to transverse movement which is substantially orthogonal to the longitudinal movement so that said rams move between said first and second positions in a plane which is substantially orthogonal to the longitudinal access of said device.
  • 12. A method as claimed in claim 10 wherein the method includes creating a funnel when said rams are closed which couples the production bore to the annulus bore.
  • 13. A method as claimed in claim 10 wherein the method includes the step of actuating at least two hydraulic means and two separate rams to move orthogonally to said hydraulic means in opposite directions to provide said open and closed positions.
Priority Claims (1)
Number Date Country Kind
1210884.1 Jun 2012 GB national
PCT Information
Filing Document Filing Date Country Kind
PCT/GB2013/051585 6/18/2013 WO 00