The present invention relates to a unit adapted to float in a body of water in accordance with the preamble of claim 1. Moreover, the present invention relates to a unit adapted to float in a body of water in accordance with the preamble of claim 7. Further, the present invention relates to a method for obtaining a permanent station-keeping system for a unit floating in a body of water in accordance with the preamble of claim 13.
A unit adapted to float in a body of water, in particular a unit for drilling for or production of natural resources such as hydrocarbons, is generally provided with a station-keeping system in order to maintain the geographical position of the unit. Such a station-keeping system may comprise one or more mooring lines and/or a dynamic positioning system which in turn comprises a plurality of thrusters.
A unit with a station-keeping system comprising a mooring line generally has a mooring line handling arrangement, comprising inter alia a windlass and/or a chain jack, such that the length of the portion of the mooring line extending between the unit and the sea bed—which portion hereinafter is referred to as the connection portion—may be altered. Such an alteration may for instance be occasioned by the fact that the position of the unit needs to be changed. A tail portion of the mooring line, i.e. a portion of the mooring line which is located on the opposite side of the handling arrangement as compared to the connection portion, is generally stored onboard the unit. For instance, the tail portion may be stored in a chain pipe and/or a chain locker of the unit.
However, there are problems related to the onboard storage of the tail portion. For instance, since the tail portion generally has a substantial weight, the onboard storage will contribute to an increase of the vertical centre of gravity (VCG) of the unit which in turn will impair the load carrying capacity of the unit. Moreover, if the unit is in a damaged condition such that the unit is subjected to a large inclination, there is a risk that the chain pipe and/or chain locker may be filled with sea water which results in an even larger inclination of the unit.
In order to solve the latter problem, US 2005/0022712 proposes the use of a sealing device for providing a seal between the tail portion and a chain pipe. Although the '712 solution in many cases is appropriate in terms of avoiding the additional inclination during a damaged condition, the problem of the increased VCG is not solved by the '712 solution.
As may be realized from the above, there is a need for improvements of units comprising mooring lines.
A first object of the present invention is to provide a unit adapted to float in a body of water, wherein the storage of a tail portion of at least one mooring line of the unit affects the stability, in particular the damage stability, of the unit to a less adverse extent as compared to a unit with a traditional mooring storage system.
A second object of the present invention is to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative.
At least one of the aforementioned objects is achieved by a marine structure according to claim 1.
As such, the present invention relates to a unit adapted to float in a body of water with a sea bed. The unit comprises a station-keeping system comprising a mooring line, the mooring line comprising a connection portion and a tail portion and when the unit is floating, the body of water reaches a still water line of the unit and the connection portion extends from the sea bed to a mooring line handling arrangement of the unit. The arrangement is adapted to actively alter the length of the connection portion.
As used herein, the expression “mooring line handling arrangement” encompasses any arrangement adapted to actively alter the length of the connection portion. Purely by way of example, such an arrangement may comprise a windlass and/or a chain jack. If the arrangement comprises a plurality of windlasses and/or chain jacks, the tail portion of the mooring line is considered to begin at the last one of this plurality, following the mooring line in a direction from the sea bed towards the unit.
According to the present invention, when the mooring line is in a permanent mooring position, at least a portion of the tail portion is located in the body of water.
As used herein, the expression “permanent mooring position” relates to a position in which the mooring line is intended to be during a permanent condition of the station-keeping system as well as a permanent, e.g. survival or operational, condition of the unit. As such, an installation position of the mooring line, e.g. during tensioning of the line, is not to be regarded as falling within the above definition of a permanent mooring position. Moreover, according to the above definition, a mooring line may not be regarded as being in a permanent mooring position when the unit is in a damage condition since a damage condition is not regarded as a permanent condition for the unit.
Thus, the unit according to the above means that the VCG of the unit may be decreased, i.e. lowered, as compared to a unit with a traditional tail portion storage arrangement. This is since the above unit provides for at least a portion of the tail portion possibly being located at a low elevation; in some embodiments of the present invention a portion of the tail portion may in fact be located beneath the keel of the unit.
According to a preferred embodiment of the present invention, the tail portion comprises a tail portion end at which the tail portion terminates. Moreover, when the mooring line is in a permanent mooring position, the tail portion end is located in the body of water, above the sea bed.
According to another embodiment of the present invention, the unit further comprises a cavity through which at least a portion of the tail portion extends when the unit is floating.
According to a further embodiment of the present invention, the mooring line handling arrangement is at least partially located below the still water surface.
The above location of the mooring line handling arrangement may result in a low point of application of the load of the mooring line which in turn may result in a low VCG, a consequence of which is that the load carrying capacity of the unit may be increased.
According to another embodiment of the present invention, the unit comprises a chaser adapted to travel on the connection portion, at least a portion of the tail portion being attached to the chaser.
By using a chaser, the position of the tail portion may be controlled such that e.g. unwanted swinging of the tail portion is reduced and in some implementations even avoided.
According to another embodiment of the present invention, the unit comprises a float adapted to be located under the still water surface, the unit further comprising a plurality of support columns each one of which extending from the float and being adapted to intersect the still water surface.
A second aspect of the present invention relates to a unit adapted to float in a body of water with a sea bed and when the unit is floating, the body of water reaches a still water line of the unit. The unit comprises a mooring line handling arrangement adapted to handle at least one mooring line for the purpose of station-keeping of the unit, the arrangement being adapted to actively interact with the mooring line such that a connection portion of the mooring line extends from the arrangement to the sea bed whereas a tail portion of the mooring line is located on the opposite side of the arrangement as compared to the connection portion. The unit comprises a cavity adapted to receive at least a portion of the tail portion through a cavity inlet.
According to the second aspect of the present invention, the cavity further comprises a cavity outlet providing fluid communication between the cavity and the environment ambient of the unit.
According to a preferred embodiment of the present invention, the cavity outlet is located below the still water surface.
According to another embodiment of the present invention, the cavity forms an integral part of the outer skin of the unit.
According to a further embodiment of the present invention, the unit comprises a float adapted to be located under the still water surface, the unit further comprising a plurality of support columns each one of which extending from the float and being adapted to intersect the still water surface. The cavity is at least partially comprised in at least one of the support columns.
According to another embodiment of the present invention, the cavity further extends through at least a portion of the float.
According to a further embodiment of the present invention, the unit comprises the mooring line, the unit further comprising a chaser adapted to travel on the connection portion, at least a portion of the tail portion being attached to the chaser.
A third aspect of, the present invention relates to a method for obtaining a permanent station-keeping system for a unit floating in a body of water, the body of water comprising a sea bed. The unit comprises a mooring line handling arrangement adapted to handle at least one mooring line for the purpose of station-keeping of the unit.
The method according to the third aspect of the present invention comprises the steps of:
The present invention will hereinafter be further explained by means of non-limiting examples with reference to the appended drawings wherein:
The invention will be described using examples of embodiments. It should however be realized that the embodiments are included in order to explain principles of the invention and not to limit the scope of the invention, defined by the appended claims.
Each mooring line 18, 20 may comprise a wire segment, a chain segment or a combination of wire and chain segments. Preferably, a chain segment as well as a wire segment is at least partially made of metal, such as steel. The implementation of the second mooring line 20 illustrated in
Moreover,
The
Purely by way of example, the displacement of the unit 10 in an operational condition may be within the range of 10 000 to 300 000 metric tons. Again purely by way of example, the water depth, i.e. the distance from the sea bed to the still water surface, may be within the range of 50 to 3000 meters.
According to the
In the embodiment illustrated in
The above-mentioned fluid communication may be obtained in a plurality of ways. Purely by way of example, one or more ducts (not shown) may be located in the unit 10 connecting the cavity 38, preferably the lower portion 38″ of the cavity, with the ambient environment. However,
Instead of resting on a portion of the cavity 38 delimitation, the tail portion 24 may actually extend through the cavity outlet 42. Consequently, a portion of the tail portion 24 may extend downwards into the body of water 12. This possibility is illustrated in the
In both the
Finally,
Moreover, the tail portion 24 may be connected to the chaser 46 in a plurality of ways. Purely by way of example, the tail portion 24 may be welded to the chaser 46. Optionally, the chaser may be provided with a bracket and the tail portion 24 may be attached to the bracket by means of an attachment member, such as a clamp (not shown). The chaser 46 may also be used in the embodiments of the invention illustrated in
Alternatively, or in addition, the unit 10 may be provided with a bracket 50 to which the tail portion end 29 is attached, for instance by means of a bolt joint, in order to ensure that the tail portion 24 will not be dropped when hoisting the mooring line 20 (e.g. when slacking the mooring line 20). Although the pulley 48 and the bracket 50 are illustrated in separate implementations in
As an alternative to the bracket 50 discussed hereinabove, the tail portion 24 may be prevented from falling into the sea by using a stop arrangement comprising a stop member (not shown) attached to the tail portion 24, preferably at the tail portion end 29 which stop member has an outer dimension which is larger than the outer dimension of the tail portion 24. The stop arrangement may further comprise an abutment member, for instance, in the cavity 38, against which the stop member may abut and thus be prevented from further upward movement. Purely by way of example, such an abutment member may comprise a constriction in the cavity 38 the inner dimension of which is smaller than the outer dimension of the stop member. Preferably, the abutment member may be located in the uppermost portion of the cavity 38, i.e in the portion closest to the mooring line handling arrangement 28.
It should be noted that neither the pulley 48 nor the bracket 50 need to be located close to the corresponding cavity 38 or tubular member 44. Quite the contrary, in many implementations of the tail portion 24 load handling arrangement, it may be preferred that the pulley 48 and/or bracket 50 is located at a distance from the corresponding cavity 38 or tubular member 44, e.g. close to the center of a pontoon 30 as illustrated in
The mooring lines 18 according to any one of the embodiments of the unit 10 illustrated in
The above step of connecting a portion of the mooring line 18 to the sea bed 14 may preferably comprise a step of connecting a portion of the connection portion 22 to an anchor (not shown) attached to the sea bed.
As such, it should be realized that the present invention is not limited to the embodiments described hereinabove and illustrated in the drawings. For instance, although mooring lines comprising segments of chains and wires have been used in the above embodiments, the present invention is also useful for mooring lines comprising segments of other types, such as polyester ropes. Accordingly, a person skilled in the art will realize that many changes and modifications may be performed within the scope of the appended claims.
Number | Date | Country | Kind |
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1050112-0 | Feb 2010 | SE | national |
This application claims the benefit of U.S. Provisional Patent Application having Ser. No. 61/301,673, flied on Feb. 5, 2010 and Swedish Patent Application having Serial No. SE 1050112-0, filed on Feb. 5, 2010. Both applications are incorporated by reference herein.
Number | Date | Country | |
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61301673 | Feb 2010 | US |