Mooring assembly and vessel provided therewith

Abstract

A mooring assembly for a vessel includes a turret with a lower receptacle cone receiving a buoy, mooring lines attached to the buoy, and risers. The buoy includes a plurality of pivot legs positioned on a lower part of the buoy, wherein the legs are pivotably connected to the buoy through a horizontally extending pivot axis to pivot in a radial plane with respect to the buoy between a first position with the buoy in the cone of the turret, in which the legs extend mainly vertically downwards and engage an inner surface of the cone, and a second position with the buoy outside of the cone, in which the legs extend mainly horizontally outwards. The lines are attached to the legs and each leg has such a length that in the first position its end is located at a level below the lowermost end of the cone.

Claims

1. A mooring assembly for a vessel of the type comprising a turret which is intended to be rotatably mounted to the vessel in a manner that the vessel can weathervane around the turret, which turret is provided with a lower receptacle cone having a lowermost end, the mooring assembly comprising: a buoy which in a disconnectable manner is received in the receptacle cone, the buoy comprising a plurality of pivot legs regularly positioned on a lower part of the buoy, wherein the pivot legs each at a first leg end are pivotably connected to the buoy through a horizontally extending pivot axis in such a manner that the pivot legs pivot in a radial plane with respect to the buoy between a first position, when the buoy is received in the receptacle cone of the turret, wherein each pivot axis is disposed on the buoy such that each pivot axis is located at a level above the lowermost end of the receptacle cone, in which first position the pivot legs extend mainly vertically downwards and engage an inner surface of the receptacle cone, and a second position, when the buoy is positioned outside of the receptacle cone of the turret and each pivot axis is located at a level below the lowermost end of the receptacle cone, in which second position the pivot legs extend mainly horizontally outwards from the buoy, and wherein each pivot leg has such a length that in the first position its second end is located at a level below the lowermost end of the receptacle cone; mooring lines attached to the buoy and configured to be anchored to stationary anchor points, and wherein the mooring lines are attached to a respective opposite second leg end of the pivot legs; and risers connecting to and extending through the buoy which have upper ends configured to be connected to lower ends of turret piping through riser connections when the buoy is received in the receptacle cone of the turret.

2. The mooring assembly according to claim 1, wherein the pivot legs are connected to a lower face of the buoy and wherein in the first position the pivot legs extend in line with an outer surface of the buoy.

3. The mooring assembly according to claim 1, wherein the receptacle cone defines at least one cone bearing member configured to cooperate with at least one vessel bearing member for supporting the turret in the vessel and wherein each pivot leg in its first position engages the receptacle cone at a level corresponding with the level where the cone and vessel bearing members cooperate.

4. The mooring assembly according to claim 1, wherein the receptacle cone has an inner surface comprising planar surface sections and wherein the pivot legs have outer planar surfaces which in the first position of the pivot legs engage the planar surface sections of the receptacle cone.

5. The mooring assembly according to claim 4, wherein the inner surface of the receptacle cone is shaped as a regular polygon.

6. The mooring assembly according to claim 1, wherein the buoy also carries at least one riser support arm supporting the risers which is pivotably connected to the buoy through a horizontally extending pivot axis in such a manner that the riser support arm pivots between a first position, when the buoy is received in the receptacle cone of the turret, in which the riser support arm extends mainly vertically downwards and engages the inner surface of the receptacle cone, and a second position, when the buoy is positioned outside of the receptacle cone of the turret, in which the riser support arm extends mainly horizontally outwards from the buoy.

7. The mooring assembly according to claim 1, wherein the turret is configured to be mounted internally in a moonpool of a vessel.

8. The mooring assembly according to claim 1, wherein the turret is configured to be mounted externally in an outrigger of a vessel.

9. The mooring assembly according to claim 8, wherein the outrigger comprises an upper outrigger part providing an upper main bearing for the turret and a lower outrigger part providing a vessel bearing member for cooperation with a cone bearing member.

10. The mooring assembly according to claim 8, wherein the outrigger is configured to be positioned at the bow of a vessel.

11. The mooring assembly according to claim 1, wherein the mooring lines over at least part of their length are surrounded by a protective tube, wherein the mooring lines are provided with a plurality of spaced floaters with an outer dimension less than an inner diameter of said protective tube.

12. The mooring assembly according to claim 11, wherein the protective tubes are sealed at their opposite ends.

13. The mooring assembly according to claim 1, wherein the mooring lines have a first end connected to a respective pivot leg and an opposite second end connected to a chain section cooperating with a chain tensioner.

14. The mooring assembly according to claim 1, comprising disconnectable locks acting between the turret and the buoy, wherein the mooring assembly is dimensioned and constructed such that said locks as well as the riser connections between the upper ends of the risers and the lower ends of the turret piping are located at a level above sea level, as considered in a situation when the mooring assembly is used on a vessel which is in an operationally ballasted configuration.

15. The mooring assembly according to claim 1, wherein the risers extend between the buoy and a stationary pipe line end manifold and are divided into two riser sections meeting each other at a junction at an angle different from 180° and wherein a spring member with a first end engages said junction and with an opposite second end engages a stationary member for tensioning the riser sections, wherein the spring member extends in a direction for minimizing the risk of the risers touching the seabed or vessel when the buoy is received in the receptacle cone.

16. An assembly comprising: a vessel with a turret rotatably mounted to a portion of the vessel in a manner that the vessel is configured to weathervane around the turret, the turret having a lower receptacle cone; a mooring assembly comprising: a buoy which in a disconnectable manner is received in the receptacle cone, the buoy comprising a plurality of pivot legs regularly positioned on a lower part of the buoy, wherein the pivot legs each at a first leg end are pivotably connected to the buoy through a horizontally extending pivot axis in such a manner that the pivot legs pivot in a radial plane with respect to the buoy between a first position, when the buoy is received in the receptacle cone of the turret, in which the pivot legs extend mainly vertically downwards and outward movement of each pivot leg is inhibited by a portion of each pivot leg below each associated pivot axis engaging an inner surface of the receptacle cone, and a second position, when the buoy is positioned outside of the receptacle cone of the turret, in which the pivot legs pivot and extend mainly horizontally outwards from the buoy, and wherein each pivot leg has such a length that in the first position with the portion engaging the inner surface of the receptacle cone its second end is located at a level below the lowermost end of the receptacle cone; mooring lines attached to the buoy and configured to be anchored to stationary anchor points, and wherein the mooring lines are attached to a respective opposite second leg end of the pivot legs; and risers connecting to and extending through the buoy which have upper ends configured to be connected to lower ends of turret piping through riser connections when the buoy is received in the receptacle cone of the turret.

17. The mooring assembly according to claim 5, wherein the regular polygon is a 6-sided regular polygon.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Hereinafter the invention will be elucidated while referring to the drawings in which:

(2) FIG. 1 illustrates the general lay-out of a mooring assembly;

(3) FIGS. 2 and 3 in a partly cut-away side elevational view illustrate the mooring assembly in two different positions;

(4) FIG. 4 illustrates a bottom view of the turret with buoy received in the receptacle cone;

(5) FIG. 5 illustrates a partly cut-away perspective view of a lower part of the mooring assembly;

(6) FIG. 6 illustrates part of a mooring line with partly cut-away protective tube;

(7) FIG. 7 illustrates a mooring line end with chain section and chain tensioner, and

(8) FIG. 8 illustrates a perspective view of a riser arrangement.

DETAILED DESCRIPTION OF THE ILLUSTRATIVE EMBODIMENT

(9) Firstly referring to FIG. 1, part of a vessel 1 (for example a floating liquid natural gas—FLNG—vessel) is illustrated. At the bow of the vessel 1 an upper outrigger part 2 and a lower outrigger part 3 are provided. These outrigger parts 2,3 support an upper main bearing (not illustrated in detail) and a lower auxiliary bearing (to be explained later) for a turret 4 which (as is known per se) thus is externally mounted for a rotation relative to the upper and lower outrigger parts 2,3 and thus relative to the vessel 1. Or, in other words, the vessel 1 can weathervane around the turret 4.

(10) The mooring assembly comprises said turret 4 and further components to be described below. Among these components are mooring lines 5 (for example made of polyester) anchored to stationary anchor points (such as mooring piles) and attached to a buoy (to be described later) which in a disconnectable manner is received in a lower part (a receptacle cone to be described below) of the turret 4 and risers 6 (for transferring oil and/or gas) which at one end connect to the buoy and at an opposite end are connected to a pipe line end manifold (PLEM) 7. The risers 6 are supported by riser support cables 7, as is known per se.

(11) For a more detailed description of the mooring assembly, now reference is made to FIGS. 2 and 3 which illustrate the mooring assembly in two different positions and which illustrate the bow section of the vessel 1 with turret 4 and upper outrigger part 2 and lower outrigger part 3 in a partly cut-away manner to better show all components.

(12) The lower part of the turret 4 defines a receptacle cone 8 within which a buoy 9 may be received in a disconnectable manner. The disconnectable connection between the buoy 9 and the receptacle cone 8 occurs through locks 10 known per se. The risers 6 extend through the buoy 9 and have upper ends (not shown in detail) intended to be connected to (lower ends of) turret piping 11 through riser connections 12. The turret piping 11 in a manner known per se connects to a swivel 35 which successively connects to piping on board of the vessel 1.

(13) On a lower face 13 of the buoy 9 three pivot legs 14 are regularly positioned (only two being visible in FIGS. 2 and 3, but all three being visible in FIGS. 4 and 5). These pivot legs 14 each at a first (upper) leg end are pivotably connected to the buoy 9 through a horizontally extending pivot axis 15 (illustrated in dotted lines in FIGS. 2 and 4) in such a manner that the pivot legs 14 can pivot in a radial plane with respect to the buoy 9 between a first position (FIG. 2), when the buoy 9 is received in the receptacle cone 8 of the turret 4, in which the pivot legs 14 extend mainly vertically downwards and engage an inner surface 16 of the receptacle cone 8 (the exact orientation of the pivot legs 14 thus being determined by said engagement between the pivot legs 14 and the inner surface 16 of the receptacle cone 8), and a second position (FIG. 3), when the buoy 9 is positioned outside of (and below) the receptacle cone 8 of the turret 4, in which the pivot legs 14 extend mainly horizontally outwards from the buoy 9.

(14) The mooring lines 5 are attached to opposite (lower) ends of the pivot legs 14. The tension in the mooring lines 5 keeps the pivot legs 14 in the first position (FIG. 2) in engagement with the inner surface 16 of the receptacle cone 8, but also causes the pivot arms 14 to pivot to the second position (FIG. 3) when the locks 10 disconnect the buoy 9 and the buoy moves downwards out of the receptacle cone 8 and sinks onto the sea bed 17. In the first position the pivot legs 14 extend substantially in line with an outer surface 18 of the buoy 9 (which, as will be clear, will correspond with the inner surface 16 of the receptacle cone 8 such that a well-defined position of the buoy 9 inside the receptacle cone 8 is obtained).

(15) The pivot legs 14 have such a length that in the first position their second ends where the mooring lines 5 connect, are located at a level below the lowermost end of the receptacle cone 8. This assures that the mooring lines 5 remain free from (the keel of) the vessel 1, also when latter weathervanes around the turret 4. Of course, the length of the pivot legs 14 further will be chosen such that they do not touch the sea bed 17 in the first position.

(16) When the buoy 9 has lowered onto the sea bed 17 (FIG. 3) the pivot legs 14 also rest on the sea bed 17 and extend radially outward from the buoy (in this position the vessel 1 is disconnected from the buoy 9 and can move away). The tensioned mooring lines 5 keep the pivot legs 14 in such a (second) position until the buoy is picked up again (using a winch assembly—for example supported by the upper outrigger part 2—with hoisting cable which can be attached to the top of the buoy in a manner known per se) and is pulled in the receptacle cone 8 which then will engage the pivot legs 14 which then will pivot inwards to the first position again. The movement of the pivot legs from the first to the second position allows the use of such pivot legs also in shallow water. If the pivot legs 14 could not pivot to a horizontal position (second position), a total disconnect of the buoy 9 from the turret 4 could be problematic due to a lack of sufficient distance towards the sea bed 17.

(17) Referring to FIG. 4 it appears that the receptacle cone 8 has an inner surface 16 shaped as a 6-sided regular polygon (other shapes being possible too, however), wherein each of the six sides defines a planar surface section for cooperation with outer planar surfaces of the pivot legs 14 when latter assume the first position. This assures the transmission of mooring loads over a large surface and prevents high local loads with the risk on deformations of or damage to the receptacle cone 8. The buoy likewise has an outer surface 18 shaped as a regular 6-sided polygon.

(18) As illustrated in FIG. 2, the receptacle cone 8 defines a cone bearing member 19 (for example comprising a plurality of bearing blocks) intended for cooperation with at least one vessel bearing member 20 (part of the lower outrigger part 3 and for example comprising a continuous sliding ring or overlay, also visible in FIG. 5) for horizontally supporting the turret 4 in the lower outrigger part 3 of the vessel 1.

(19) Each pivot leg 14 in its first position engages the receptacle cone 8 at a (horizontal) level corresponding with the level at which the cone and vessel bearing members 19,20 cooperate (which together define the above mentioned lower auxiliary bearing).

(20) The buoy 9 also carries at least one riser support arm 21 supporting the risers 6 which likewise is pivotably connected to the buoy 9 through a horizontally extending pivot axis (not illustrated in detail) in such a manner that the riser support arm 21 can pivot between a first position (FIG. 2), when the buoy 9 is received in the receptacle cone 8 of the turret 4, in which the riser support arm extends mainly vertically downwards and engages the inner surface 16 of the receptacle cone 8 (and extends below the lowermost part of latter), and a second position (FIG. 3), when the buoy 9 is positioned outside of the receptacle cone 8 of the turret 4, in which the riser support arm 21 extends mainly horizontally outwards from the buoy. The function of such a riser support arm 21 is equivalent to that of a pivot leg 14, but with the difference that it supports a riser 6 and not a mooring line 5.

(21) The embodiment of the mooring assembly described is dimensioned and constructed such that the locks 10 as well as the riser connections 12 between the upper ends of the risers 6 and the lower ends of the turret piping 11 are located at a level above sea level 22, as considered in a situation when the mooring assembly is used on a vessel 1 which is in an operationally ballasted configuration.

(22) In an embodiment not illustrated, the outrigger with upper and lower outrigger parts 2, 3 could be replaced by a so-called moonpool within the outer contour of the hull of the vessel 1 in which the turret 4 is located in a manner known per se.

(23) As appears from FIG. 6, the mooring lines 5 over at least part of their length are surrounded by a protective tube 23. This can protect the mooring lines 5 against sun light and marine growth, but also against other influences, such as wear when the mooring lines 5 touch or rest on the sea bed 17. In the illustrated embodiment the mooring lines 5 further are provided with a plurality of spaced floaters 24 with an outer dimension less than an inner diameter of said protective tubes 23. Thus the mooring lines 5 float upwards towards the upper part of the protective tube lumen and remain free from the lower part thereof where sand or other material may accumulate. It is possible that the protective tubes 23 are sealed at their opposite ends (and then could have a conditioned environment within the inner lumen or cavity).

(24) FIG. 7 shows an end of a mooring line 5 remote from the end connected to a respective pivot leg 14 of the buoy 9 which is attached to a stationary anchor point (such as a mooring pile 25 driven into the sea bed) through a chain section 26 cooperating with a chain tensioner 27.

(25) Finally referring to FIG. 8 an arrangement of risers is illustrated. The risers 6 extend between the buoy (not visible within the lower part of the turret 4) and a stationary pipe line end manifold 28. In this embodiment riser support cables 7 support the risers 6.

(26) The risers 6 with riser support cables 7 are divided into two riser sections 29 and 30 meeting each other at a junction 31 at an angle different from 180° (in the illustrated embodiment the angle is about 90°). A spring member 32 (for example made of rubber or nylon) with a first end engages said junction 31 and with an opposite second end engages a stationary member, such as a mooring pile 33, for tensioning the riser sections. The spring member 32 extends in a direction for minimizing the risk of the risers 6 touching the seabed or vessel when the buoy 9 is received in the receptacle cone 8 of the turret 4. An additional support member 34 resting on the sea bed may be provided in the vicinity of the junction 31. The junction may comprise an angled pipe segment.

(27) Such a riser arrangement aims at keeping the position of the risers 6 under control between the buoy 9 and the manifold 28 and is based on the tension of the spring member 32 for keeping the risers free from the sea bed 17 and free from the vessel in the described first position (buoy received in the receptacle cone).

(28) The invention is not limited to the embodiments described which may be varied widely within the scope of the invention as defined by the appending claims.