The present invention relates to a method of constructing a semi-submersible unit comprising a side wall, wherein the method comprises the steps of: placing a hull in a body of water, the hull comprising an opening for receiving an end piece, the end piece constituting at least a portion of the side wall; lowering the hull into the body of water, and connecting a deck structure to the hull to form a semi-submersible unit.
The present invention also relates to a kit for constructing a semi-submersible unit comprising a side wall, wherein the kit comprises hull comprising an opening and a deck structure. Moreover, the present invention relates to a semi-submersible unit constructed according to the method and/or from a kit according to the present invention.
Semi-submersible units are inter alia used for drilling for, or production of, natural resources such as gas and oil, when the natural resources for example are located in a source located at the bottom of a sea or lake. Furthermore, semi-submersible units are used for quartering staff working out at sea.
Over the years, the sizes of semi-submersible units have generally increased which results in various problems when constructing the units. For instance, there may be few, if any, dry docks available in the world adapted to accommodate a complete semi-submersible unit the displacement and load carrying capacity of which meets the requirements of a modern drilling or production unit. Moreover, semi-submersible units are often provided with a deck structure adapted to accommodate e.g. drilling or production equipment and such a deck structure is often too heavy and/or large to be lifted by conventional lifting arrangements, such as cranes.
Furthermore, within the field of semi-submersible units, there has recently been an interest in units comprising a side wall or, even more preferred, being provided with an outer wall delimiting an enclosed area within the unit wherein the outer wall substantially constitutes the hull of the unit. The latter unit may be referred to as a ring wall type of semi-submersible unit.
When constructing a semi-submersible unit of a ring wall type with a deck structure, the prior art, see e.g. WO 02/092425, proposes a method of constructing a platform structure comprising a hull structure and a self-floating deck module, which method comprises the steps of lowering the hull structure into a body of water, floating the deck module over the hull structure and connecting the hull structure with the deck module. The steps as defined hereinabove as regards the floating in and connection of the deck module is often referred to as a mating procedure. However, as may be realized by a person skilled in the art, lowering the complete hull structure as proposed by '425 requires a large amount of e.g. ballast water—due to the large water line area of the hull structure—which results in that the hull structure will be subjected to large loads. Moreover, when the '425 hull structure is lowered to a position in which the deck structure may be connected to the hull structure, only a small portion of the hull structure is intersecting a still water level, resulting in a low stability of the hull structure. As may be realized by a person skilled in the art, there is generally a desire to avoid large loads, as well as a low stability, of the hull structure during a mating procedure.
Moreover, U.S. Pat. No. 6,125,780 discloses a method of constructing a hull for a ring wall semi-submersible unit which method comprises the steps of providing four substantially identical buoyant modules and attaching them to one another to thereby form a hull of a ring wall type. However, as in the '425 case, the hull obtained using the '780 method will also exhibit a large water plane area, hence requiring a large amount of e.g. ballast water in order to lower the hull to a position in which a deck structure may be connected to the hull.
As such, as may be realized from the above, when a constructing semi-submersible unit comprising a side wall and/or which is of a ring wall type, there is a need for improving the methods by which such units are constructed.
A first object of the present invention is to provide a method of constructing a semi-submersible unit comprising a side wall, wherein no one of the components constituting the semi-submersible unit is subjected to excessive loading during the construction.
A second object of the present invention is to provide a method of constructing a semi-submersible unit comprising a side wall, which method ensures that the floating components of the unit provide an appropriately high stability during the construction.
A third object of the present invention is to provide a method of constructing a semi-submersible unit comprising a side wall, which reduces, preferably eliminates, a risk of obtaining large residual stresses in any part of the semi-submersible unit.
A fourth object of the present invention is to provide a method of constructing a semi-submersible unit comprising a side wall, which requires a minimum of construction time in a dry dock and/or at a quay.
At least one of the objects above is achieved by a method for constructing a semi-submersible unit comprising a side wall according to claim 1.
As such, the present invention relates to a method of constructing a semi-submersible unit comprising a side wall, wherein the method comprises the steps of: placing a hull in a body of water, the hull comprising an opening for receiving an end piece, the end piece constituting at least a portion of the side wall; lowering the hull into the body of water, and connecting a deck structure to the hull to form a semi-submersible unit.
According to the present invention, the method further comprises the steps of: floating the end piece into the opening, and attaching the end piece to the semi-submersible unit.
Preferably, the two last steps of the method as presented hereinabove are executed after the deck structure has been connected to the hull.
Thus, by utilizing the aforementioned method of the invention, the mating of the deck structure with the hull may be performed when the hull provides appropriate hydrostatic characteristics, such as water plane area and stability. Then, the end piece is inserted in the semi-submersible unit thus formed, wherein the introduction of the end piece will further contribute to the hydrostatic characteristics of the hull without impairing the above mentioned mating procedure.
Moreover, since the hull and deck structure are connected to one another, thus preferably forming a continuous unit prior to the insertion of the end piece, initial deflections of the hull—e.g. due to differences in the inner and outer pressure of the hull—may be reduced, or even avoided since the deck structure generally is a member with a high stiffness. As may be realized by a person skilled in the art, if the end piece was to be inserted and connected to the hull when the hull was subjected to initial deflections—this may result in residual stresses in at least a portion of the complete semi-submersible unit. These residual stresses may be reduced, or even avoided, by the construction method of the present invention.
It should be noted that the step of attaching the end piece to the semi-submersible unit need not necessarily be an additional method step, the end piece and semi-submersible unit may namely be arranged to become attached to one another on insertion of the end piece and semi-submersible unit with mating mechanical parts arranged to fasten and/or lock on insertion of the end piece into the semi-submersible unit.
It should also be noted that an end piece need not necessarily fill the entire opening but that several end pieces may be arranged to be inserted into the same opening; said one or more end pieces not necessarily filling the opening. Additionally, and end piece may itself comprise one or more openings.
According to a preferred embodiment of the method of the present invention, the method further comprises a step of elevating the semi-submersible unit after the deck structure has been connected to the hull in order to facilitate the floating in of the end piece.
According to another embodiment of the method of the present invention, the method further comprises a step of elevating the semi-submersible unit after the end piece has been inserted into the opening such that the step of attaching the end piece to the semi-submersible unit may be performed above a still water level of the body of water.
This ensures that the end piece may be attached to the semi-submersible unit by means of conventional attachment techniques, such as dry welding, which is considerably cheaper and more efficient than for instance wet welding, i.e. welding below the still water surface.
According to a further embodiment of the method of the present invention, the end piece is buoyant such that the end piece may be self-floating into the opening, preferably the end piece is towed into the opening. Thus, if the end piece is self-floating, the need for additional floating members, such as barges, during the construction of the semi-submersible unit, may be reduced, or even omitted.
According to another embodiment of the method of the present invention, the hull comprises a truss assembly at least partially delimiting the opening and the step of attaching the end piece to the semi-submersible unit in turn comprises the steps of: attaching the end piece to the truss assembly, and sealing the truss assembly from ambient water by attaching a sealing arrangement, which sealing arrangement preferably comprises a plate such as a steel plate, to the truss assembly.
The truss assembly as mentioned hereinabove, may provide additional structural stiffness to the hull—hence preferably reducing the risk for initial deflections—without substantially increasing the water plane area of the hull.
According to a further embodiment of the method of the present invention, the hull comprises guide means for guiding the end piece into the opening and the step of floating the end piece into the opening in turn comprises a step of guiding the end piece into the opening using the guide means.
According to another embodiment of the method of the present invention, the step of attaching the end piece to the semi-submersible structure in turn comprises the steps of: attaching the end piece to the hull, and attaching the end piece to the deck structure.
A second aspect of the present invention relates to a kit for constructing a semi-submersible unit comprising a side wall, wherein the kit comprises: hull comprising an opening, and a deck structure.
According to the second aspect of the present invention, the kit further comprises an end piece adapted to constitute at least a portion of the side wall, the end piece further being adapted to be floated into the opening and attached to the hull.
According to a preferred embodiment of the second aspect of the present invention, the hull comprises means for guiding the end piece into the opening.
According to another embodiment of the second aspect of the present invention, the hull comprises a truss assembly at least partially delimiting the opening.
According to a further embodiment of the second aspect of the present invention, the hull comprises a first and a second longitudinally extending float, wherein each one of the first and second floats is adapted to extend through a still water level of a body of water, wherein the first and second floats are connected to one another by means of a substantially transversally extending bridging arrangement wherein: at least a portion of the first float, at least a portion of the second float and at least a portion of the bridging arrangement at least partially delimits the opening.
According to another embodiment of the second aspect of the present invention, the end piece comprises structural tanks, such as ballast water tanks.
According to a further embodiment of the second aspect of the present invention, the hull comprises tanks adapted to store liquefied natural gas.
According to another embodiment of the second aspect of the present invention, the kit comprises a plurality of end pieces such that the side wall delimits an enclosed area.
A third aspect of the present invention relates to a semi-submersible unit constructed according to the method according to the first aspect of the present invention and/or from a kit according to the second aspect of the present invention.
The present invention will hereinafter be further explained by means of non-limiting examples with reference to the appended figures wherein: illustrates a schematic perspective view of a hull comprising an opening for receiving an end piece; illustrates a schematic side view of the hull illustrated in
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.
Furthermore, as may be gleaned from
In the presentation of the construction method of the present invention hereinbelow, reference will be made to the first opening 20 only. However, a person skilled in the art will directly realize that each step in the construction method is equally applicable for the second opening 22.
At least one, but preferably both, of the floats 12, 14 are preferably furnished with tanks for storing hydrocarbons, such as gas or oil. More preferred, the floats are furnished with tanks for storing liquefied natural gas (LNG). Moreover, the floats 12, 14—and possibly also the bracings 16, 18—are provided with ballast water tanks and a ballast water system including inter alia water pumps for controlling the water level in the aforementioned ballast water tanks such that the load and hence the floating condition of the hull 10 may be controlled.
When the hull 10 is in the position illustrated in
The deck structure 24 may have various designs, depending inter alia on the purpose of the semi-submersible unit to be constructed. Purely by way of example, the deck structure 24 may be a buoyant member or at least have a water tight bottom. Optionally, the deck structure 24 may comprise, or even be constituted by, a truss structure (not shown). Moreover, although the deck structure 24 in
When the deck structure 24 has been placed in position over the hull 10, the two components may be connected to one another to form a semi-submersible unit 26. To this end, the deck structure 24 may be fixedly attached to the hull 10, e.g. by means of welding. Optionally, the deck structure 24 may simply be resting on the hull 10 wherein the deck structure 24 will be held in place in relation to the hull 10 by means of friction forces developed between the two structures.
In a preferred implementation of the end piece 28 floating in step of the method of the present invention, the end piece 28 is buoyant such that it may be self-floating into the first opening 20. To this end, the end piece 28 may preferably be connected to an arrangement (not shown) adapted to propel the end piece 28. Purely by way of example, such an arrangement may comprise one or more tugs (not shown). Optionally, if the end piece 28 is not buoyant or if it by some reasons is so desired, the end piece may be loaded on a floating arrangement (not shown) such as a barge (not shown) which floating arrangement in turn may be floated into the first opening 20.
The end piece 28 is preferably made out of steel and preferably comprises structural tanks, such as ballast water tanks (not shown). Such ballast water tanks may be used to control the floating condition of the end piece 28, in the case of a buoyant end piece 28. Moreover, once the end piece 28 has been connected to the semi-submersible unit 26, the ballast water tanks of the end piece 28 may preferably be connected to a ballast water system (not shown) of the semi-submersible unit 26 such that the ballast water tanks of the end piece 28 may be used for controlling the floating condition of the semi-submersible unit 26.
In order to facilitate the floating in of the end piece 28 into the first opening 20; the hull 10 and/or the end piece 28 is preferably provided with guide means for guiding the end piece 28 into position in the first opening 20. Purely by way of example, such a guide means may comprise a rod (not shown) of the hull 10 which rod extends substantially vertically in the first opening 20 as well as two frames (not shown) located on the bottom of the end piece 28, which frames form a tapering gap.
Moreover, the hull 10 may be provided with supports (not shown) located below the opening on which supports the end piece 28 may rest when it has been inserted into the first opening 20.
When the end piece 28 has been inserted into the first opening 20, the end piece 28 and the semi-submersible unit 26 are attached to one another. Preferably, the end piece 28 is fixedly attached to the semi-submersible unit 26, e.g. by means of welding. Moreover, the end piece 28 is preferably fixedly attached to the hull 10 and, if possible, also to the deck structure 24.
The end piece 28 may be attached to the semi-submersible unit 26 when the unit 26 is in the floating condition as illustrated in
In order to obtain a buoyant—or at least weather proof—side wall extending from the first float 12 to the second float 14 of the hull 10 as illustrated in
Finally,
It should be realized that the present invention is not limited to the embodiments described hereinabove and illustrated in the drawings. Rather, a person skilled in the art will realize that many changes and modifications may be performed within the scope of the appended claims.
This application claims benefit of U.S. Provisional Patent Application No. 61/057,301 filed on May 30, 2008.
Number | Date | Country | |
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61057301 | May 2008 | US |