A COUPLING SYSTEM, AN ASSEMBLY OF A VESSEL AND A COUPLING SYSTEM, AND AN ASSEMBLY OF A COUPLING SYSTEM, JACKET PILE AND FOUNDATION PILE

Abstract

A coupling system to be temporarily coupled to at least one of a jacket pile and a foundation pile comprises an upper fixation member, a lower fixation member and a lifting device for moving the upper and lower fixation members with respect to each other. The coupling system is provided with at least one of a grout transfer line for guiding grout from a grout supply to a space between a jacket pile and a foundation pile upon installing the jacket pile to the foundation pile, and a cleaning device for cleaning the inner and/or outer side of a foundation pile, and a separating device for separating a jacket pile from a foundation pile upon de-installing the jacket pile with respect to the foundation pile, and a measurement device for determining parameters of a jacket pile and/or a foundation pile.

Claims

1. A coupling system to be temporarily coupled to at least one of a jacket pile and a foundation pile comprising an upper fixation member, a lower fixation member and a lifting device configured to move the upper and lower fixation members with respect to each other, wherein the coupling system is provided with at least one of a grout transfer line for guiding grout from a grout supply to a space between a jacket pile and a foundation pile upon installing the jacket pile to the foundation pile, and a cleaning device configured to clean the inner and/or outer side of a foundation pile, and a separating device configured to separate a jacket pile from a foundation pile upon de-installing the jacket pile with respect to the foundation pile, and a measurement device configured to determine parameters of a jacket pile and/or a foundation pile.

2. The coupling system according to claim 1, wherein the grout transfer line is located at one of the upper and lower fixation members.

3. The coupling system according to claim 1, wherein the grout transfer line has a discharge opening which is located between the upper and lower fixation members.

4. The coupling system according to claim 1, wherein the separating device comprises a cutting device configured to cut at least one of a jacket pile and a foundation pile upon de-installing the jacket pile with respect to the foundation pile.

5. The coupling system according to claim 4, wherein the cutting device is mounted to at least one of the upper and lower fixation members.

6. The coupling system according to claim 4, wherein the cutting device is rotatable with respect to the fixation members about an axis of rotation which is directed upwardly when the fixation members are located above each other.

7. The coupling system according to claim 6, wherein one of the upper and lower fixation members comprises a circular guide along which the cutting device is drivable.

8. The coupling system according to claim 6, wherein the cutting device is located between the upper and lower fixation members.

9. The coupling system according to claim 6, wherein a lower side of the coupling system is provided with a tubular tapered element, which widens in a direction from the upper to the lower fixation member.

10. The coupling system according to claim 1, wherein the upper and lower fixation members comprise respective grippers for clamping a jacket pile and a foundation pile, respectively.

11. The coupling system according to claim 10, wherein each of the grippers has gripper arms and a pivot for rotating the gripper arms with respect to each other, wherein each of the grippers has a closed condition in which associated gripper arms form a ring-shape and an open condition in which the gripper arms are moved outwardly with respect to each other.

12. The coupling system according to claim 1, wherein at least one of the grout transfer line, the cleaning device, the separating device and the measurement device is removably coupled to at least one of the upper and lower fixation members.

13. An assembly of a vessel and a coupling system, wherein the coupling system has a gripper and the vessel comprises a hull and a holding cylinder which is mounted to the hull, wherein the gripper and the holding cylinder are adapted such that the gripper fits about the holding cylinder.

14. The assembly according to claim 13, wherein the coupling system is according to claim 10 and the gripper is one of the upper and lower grippers.

15. The assembly of a coupling system according to claim 10, a jacket pile and a foundation pile.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] Aspects of the invention will hereafter be elucidated with reference to very schematic drawings showing embodiments of the invention by way of example.

[0024] FIG. 1 is a cross-sectional view of an embodiment of a coupling system.

[0025] FIG. 2 is a similar view as FIG. 1 of an alternative embodiment.

[0026] FIG. 3 is a top view of the embodiments of the coupling system as shown in FIGS. 1 and 2.

[0027] FIGS. 4-7 are perspective views of a jacket, foundation piles and an embodiment of the coupling system n, illustrating a manner of installing the jacket onto the foundation piles by means of a plurality of the same coupling systems.

[0028] FIGS. 8-11 are similar views as FIG. 4-7, but illustrating a manner of de-installing the jacket with respect to the foundation piles by means of a plurality of the same coupling systems.

[0029] FIG. 12 is a cross-sectional view of a part of an embodiment of an assembly of a vessel and a coupling system.

[0030] FIGS. 13 and 14 are similar views as FIG. 1, showing other alternative embodiments.

[0031] FIG. 15 is a similar view as FIG. 3, showing an alternative embodiment.

DETAILED DESCRIPTION OF THE ILLUSTRATIVE EMBODIMENTS

[0032] FIG. 4 shows a jacket 1 to be installed onto foundation piles 2 which are pre-installed in a seabed. In the case as shown in FIG. 4 the foundation piles 2 are hollow cylinders including circular cross-sections. The jacket 1 has a central cylindrical support 3 which can be used for supporting a wind turbine after installing the jacket 1 on the seabed. The support 3 is fixed to three cylindrical jacket piles or jacket feet 4 via a frame 5. A different number of jacket feet 4 and corresponding number of foundation piles 2 is conceivable. The cylindrical jacket feet 4 have circular cross-sections and fit into the foundation piles 2. In order to compensate for possible deviations in location and orientation of the pre-installed foundation piles 2 the internal diameters of the foundation piles 2 are larger than the external diameters of the corresponding jacket feet 4 such that a space is left between the feet 4 and the respective foundation piles 2 after inserting the jacket feet 4 into the foundation piles 2. The space is filled with grout so as to fix the jacket 1 to the foundation piles 2.

[0033] Installation of the jacket 1 onto the foundation piles 2 can be easily performed by means of a number of coupling systems 6. An embodiment of one coupling system 6 is shown in FIG. 1. The coupling system 6 comprises an upper fixation member and a lower fixation member, which is located below the upper fixation member under operating conditions. The upper fixation member is formed by an upper gripper 7 which has gripper arms 7a, 7b and a pivot 8, see FIG. 3. The pivot 8 serves to rotate the gripper arms 7a, 7b with respect to each other such that they can receive one of the jacket feet 4 when the upper gripper 7 is in an open condition. In a closed condition of the upper gripper 7 the gripper arms 7a, 7b form a ring-shape and can surround one of the jacket feet 4. The gripper arms 7a, 7b can be locked with respect to each other in the closed condition by means of a lock 9. Each of the gripper arms 7a, 7b is provided with hydraulic cylinders 10 which are arranged such that in the closed condition of the upper gripper 7 they can exert a force in radial direction to a centreline of the ring-shaped gripper 7. Consequently, the upper gripper 7 can be temporarily fixed to one of the jacket feet 4. In order to create a large opening in an open condition of the upper gripper 7 the gripper arms 7a, 7b have substantially the same dimensions and form semi-circular elements.

[0034] Similarly, the lower fixation member is formed by a lower gripper 11 which is also provided with gripper arms, a pivot, a lock and hydraulic cylinders. In an open condition of the lower gripper 11 its gripper arms can receive one of the foundation piles 2. In a closed condition of the lower gripper 11 its gripper arms form a ring-shape and can surround the foundation piles 2, whereas the lower gripper 11 can be temporarily fixed to one of the foundation piles 2 by activating its hydraulic cylinders. FIG. 1 shows that centerlines of the upper and lower grippers 7, 11 coincide.

[0035] The lock 9 allows the hydraulic cylinders to exert a clamping force onto the jacket feet 4 and the foundation pile 2 without opening the upper and lower grippers 7, 11, and also prevents the gripper arms 7a, 7b from automatic opening upon unexpected loss of hydraulic pressure loss in the hydraulic cylinders 10. This means that the coupling system 6 will not immediately sink to the seabed in case of emergency.

[0036] FIG. 15 shows an alternative embodiment of the coupling system 6. In this case, one of the gripper arms 7a of the upper gripper 7 has a U-shape which fits around a foundation pile 2 as well as a jacket foot 4. The other gripper arm 7b is a beam which is pivotable with respect to the U-shaped gripper arm 7a through the pivot 8 and can be locked with respect thereto through the lock 9. Similar as in the embodiment as shown in FIG. 3, the hydraulic cylinders 10 can exert a force in radial direction to a centreline of the ring-shaped gripper 7. Similarly, the lower gripper 11 may also be provided with gripper arms, a pivot, a lock and hydraulic cylinders. Alternatively, the beam 7b can be slidably mounted to the U-shaped gripper arm 7a rather than pivotably.

[0037] The functioning of the upper and lower grippers 7, 11 upon installing the jacket 1 to the foundation piles 2 is illustrated in FIGS. 5-7. In the situation as shown in FIG. 5 the upper grippers 7 of three similar coupling systems 6 are fixed to the three jacket feet 4. The jacket 1 can be lowered towards the seabed and the jacket feet 4 can be inserted into the corresponding foundation piles 2 until the lower grippers 11 have passed respective upper ends of the foundation piles 2. Subsequently, the lower grippers 11 can be fixed to the respective foundation piles 2 by activating their hydraulic cylinders 10. As a result, each of the jacket piles 4 and the respective foundation piles 2 are mutually coupled. This condition is shown in FIG. 1.

[0038] Each of the coupling systems 6 also comprises a lifting system in the form of upwardly directed hydraulic cylinders 12 for moving the upper and lower grippers 7, 11 with respect to each other in vertical direction. This provides the opportunity to adjust the height and orientation of the jacket 1 after the jacket feet 4 and the respective foundation piles 2 are mutually coupled with the coupling systems 6.

[0039] After levelling the jacket 1 the jacket feet 4 can be fixed to the foundation piles by inserting grout 13 in the existing space between the respective jacket feet 4 and foundation piles 2. For this reason the lower gripper 11 of the coupling system 6 is provided with a grout transfer line 14 for guiding grout 13 to that space. The grout transfer line 14 has a discharge opening 15 which is located between the upper and lower grippers 10, 11 and directed downwardly. The grout transfer line 14 is connected to a grouting tube 16 which extends from the lower gripper 11 in upward direction to a vessel (not shown) from which the grout 13 is supplied. Such a grouting action is illustrated in FIG. 6. The grouting tubes 16 can be coupled to the respective coupling systems 6 before the jacket 1 including the fixed coupling systems 6 is lowered towards the seabed.

[0040] After the grout 13 has been cured the gripper arms 7a, 7b of the upper gripper 7 and the gripper arms of the lower gripper 11 are moved outwardly with respect to each other such that the upper and lower grippers 10, 11 are in their open positions. Subsequently, the coupling systems 6 are moved away in lateral direction from the respective jacket feet 4 and foundation piles 2 to decouple the coupling system 6 therefrom. FIG. 7 shows the jacket 1 and foundation piles 2 in a fixed condition. The coupling systems 6 can be removed in order to install a next jacket 1.

[0041] FIG. 2 shows another embodiment of the coupling system 6. This embodiment has a lot of similarities to the embodiment as described hereinbefore, but it does not have a grout transfer line and it is provided with a separating device in the form of a cutting device 17. Elements of this embodiment which are the same as the elements of the embodiment as described hereinbefore are indicated by the same reference numbers. The upper gripper 7 comprises a circular guide 18 to which the cutting device 17 is mounted. The cutting device 17 is drivable along the guide 18 such that it can cut a jacket foot 4 as illustrated in FIGS. 2, 8 and 9. Prior to a cutting action three coupling system 6 can be lowered towards the seabed and the gripper arms of the upper and lower grippers 7, 11 are moved outwardly with respect to each other such that the upper and lower grippers 7, 11 are in their open positions. Subsequently, the coupling systems 6 are moved in lateral direction to the respective jacket feet 4 where the upper grippers 7 are fixed to the respective jacket feet 4 and the lower grippers 11 are fixed to the corresponding foundation piles 2. This situation is illustrated in FIG. 8. After finalizing the cutting action the jacket 1 is lifted from the foundation piles 2 and small pieces 4 of the respective jacket feet 4 remain fixed to the foundation piles 2, see FIG. 9.

[0042] It is also possible to fix the coupling system 6 at lower positions, for example at locations where the upper grippers 7 are also fixed to the foundation piles 2. This is illustrated in FIG. 10. In this situation the respective cutting devices 17 cut both the foundation piles 2 and the jacket feet 4. FIG. 11 illustrates that the jacket 1 can be lifted from the foundation piles 2 whereas pieces 2 of the respective foundation piles 2 are still fixed to the jacket feet 4. Similarly, both the upper and lower grippers 7, 11 may be fixed to the jacket feet 7 only before cutting the jacket feet 4.

[0043] A cutting action can be facilitated by moving the upper and lower grippers 7, 11 away from each other by the hydraulic cylinders 12 when they are fixed to the jacket feet 4 and/or the foundation piles 2 such that stress at the intended location of cutting is minimized.

[0044] FIGS. 1 and 2 show that the lower gripper 11 is provided with a tubular tapered element 22. When the coupling system 6 is already attached to the jacket pile 4 and the jacket pile 4 including the coupling system 6 are moved towards the foundation pile 2 in order to insert the jacket pile 4 into the foundation pile 2 they can be easily guided by means of the tapered element 22.

[0045] The embodiments as shown in FIGS. 1 and 2 and described hereinbefore may be integrated in one embodiment which is suitable for both a grouting action and a cutting action. For example, the embodiment of FIG. 1 is already prepared for a cutting action by the presence of the guide 18 to which the cutting device 17 can be mounted.

[0046] FIG. 13 shows an embodiment wherein the coupling system 6 is provided with a cleaning device 23 for cleaning the inner and/or outer side of a foundation pile 2, for example, before a grouting action will be started. In this case the cleaning device 23 makes use of the guide 18 which can also be used by the cutting device 17 as shown in FIG. 2. The cleaning device 23 may comprise brushes for locally cleaning the foundation pile 2 before grouting, but an alternative cleaning device is conceivable, for example high pressure water jetting.

[0047] FIG. 14 shows another embodiment wherein the coupling system 6 is also provided with a measurement device 24 for determining parameters of a jacket pile 4 and/or a foundation pile 2. The measurement device 24 may comprise one or more sensors for measuring local wall thicknesses of the jacket feet 4 and/or the foundation piles 2.

[0048] FIG. 12 shows a part of a vessel 19, which has a hull including a deck 20 on which holding cylinders 21 are attached, for example by means of welding. The diameters of the holding cylinders 21 are in the same order of magnitude as the above-mentioned jacket feet 4 and foundation piles 2. FIG. 12 shows that the lower gripper 11 fits about the holding cylinder 21 in its closed condition. In case of transporting the coupling systems 6 to and from an offshore location the lower grippers 11 can be temporarily fixed to respective holding cylinders 21.

[0049] The invention is not limited to the embodiments shown in the drawings and described hereinbefore, which may be varied in different manners within the scope of the claims and their technical equivalents.