EP2860314B1 - Gravity foundation - Google Patents
Gravity foundation Download PDFInfo
- Publication number
- EP2860314B1 EP2860314B1 EP13188158.3A EP13188158A EP2860314B1 EP 2860314 B1 EP2860314 B1 EP 2860314B1 EP 13188158 A EP13188158 A EP 13188158A EP 2860314 B1 EP2860314 B1 EP 2860314B1
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- EP
- European Patent Office
- Prior art keywords
- barge
- offshore
- dock
- offshore device
- foundation
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 230000005484 gravity Effects 0.000 title claims description 19
- 238000000034 method Methods 0.000 claims description 30
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 11
- 238000007667 floating Methods 0.000 description 7
- 238000010276 construction Methods 0.000 description 5
- 239000013535 sea water Substances 0.000 description 5
- 238000011161 development Methods 0.000 description 4
- 230000018109 developmental process Effects 0.000 description 4
- 239000004576 sand Substances 0.000 description 4
- 238000009412 basement excavation Methods 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000003032 molecular docking Methods 0.000 description 2
- 238000009991 scouring Methods 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002706 hydrostatic effect Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000009751 slip forming Methods 0.000 description 1
- 239000010802 sludge Substances 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
Images
Classifications
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D15/00—Handling building or like materials for hydraulic engineering or foundations
- E02D15/08—Sinking workpieces into water or soil inasmuch as not provided for elsewhere
Definitions
- the invention relates to a method for gravity foundation of an offshore facility by lowering and an offshore facility and a barge as a floating body for performing the method.
- Gravity foundations are either built directly on the seabed towards the water surface with the help of a cofferdam or floating, for example by means of a caisson or caisson, with the help of overpressure, from the water surface towards the seabed or built on land, transported to location, and on the Lowered seabed.
- the lighthouse "Roter Sand” was founded by means of a caisson as the first offshore structure and completed in 1885.
- the construction consists of a 36m high, built in a dock base dome, which was completed floating in a Norwegian fjord by means of a slipforming process to 3 total of 343 meters long basic columns. The structure was completely re-floated for transport and then towed to location and lowered there controlled by Ballastung.
- the platform Hanze F2A was built in 2000 as a box-shaped steel construction on land, pulled to location in the Hanze field and founded by controlled lowering by ballasting in the North Sea.
- the buoyant foundation structure NAM F3 with tanks and columns was pulled to location in the North Sea, and the foundation structure was lowered in a controlled manner using ballast tanks.
- a disadvantage of the known method for installation by gravity foundations by lowering by ballasting is that these methods are complex and involve great risks for stability during lowering. There are constructive compartments, buoyancy, pipes, valves, pumps and other associated temporary facilities on accompanying vessels necessary. The process itself must be carried out taking into account a very short and therefore complicated sequential hydrostatic stability to be determined.
- From the DE 10 2008 017 785 A1 are a foundation for an offshore structure and a method for creating a foundation of an offshore structure known.
- the foundation is held laterally by means of a crane construction on a barge and lowered laterally next to the barge.
- the arrangement of foundation and barge is not very stable and susceptible to external forces, such as by waves.
- the offshore facility is kept in a dock. Conveniently, it is placed on a floor of the dock and is kept there.
- a barge is connected to at least one lowering means with the offshore facility.
- the offshore facility comprises a foundation body on which the offshore facility, after gravity formation, stands with its full weight and in contact with the seabed.
- no component of the offshore facility has contact with the seabed after the foundation of gravity.
- Under a barge here is very generally a load-bearing ship or a suitably shaped float to understand.
- the arrangement of offshore facility and barge becomes buoyant. The arrangement is floated and spent from the dock on location.
- sea bottom side of the barge is arranged.
- the offshore facility can be operated by means of the at least one Absenkstoffs be pulled up to the barge, and the foundation body is preferably kept sea bottom side of their hull.
- the offshore facility is stably lowered to a preferably pre-prepared area of seabed and established by gravity.
- the offshore facility is kept substantially ready in the dock. It is conveniently not buoyant by itself. Floating is only the arrangement of barge and offshore facility. The barge is used during the transfer the offshore facility as a means of transport and floats for the offshore facility.
- the inventive method makes use of the idea of having an offshore facility with its foundation structure in a dock.
- the offshore facility is essentially already fully assembled. For example, it may already have a foundation structure with a foundation body and the essentially complete platform arrangement in the dock. It is connected without further structural changes by means of a lowering system installed on a barge with the barge and lowered stable to location. To lower only the lowering system is necessary. In addition, temporary facilities such as constructive compartments, buoys, pipes, valves, pumps are not needed for stable lowering.
- the offshore facility is lowered with the help of at least one lowering device to the seabed, without causing the structural arrangement of the individual components of the offshore facility to each other must be changed.
- the offshore device is kept ready in a flooded dock and moved up the barge in the dock to the offshore facility and then let water out of the dock and the barge connected to the offshore facility by the lowering device.
- the development according to the invention makes use of the use of conventional docks, wherein the offshore device can first be mounted in a dry dock, as far as until the offshore device can be moved to establish a gravitational force.
- the dock can then be flooded so that the barge can enter the flooded dock by opening dock doors and then connecting to the offshore facility and then to the offshore facility via the lowering means.
- the dock gates are closed again, the dock with the barge and the offshore facility drained, so that the barge sinks with the sinking water level in the dock.
- the offshore facility has a widened foundation body.
- dock blocks are provided in a development of the invention, which have a dockêtab solvede, flat bearing surface.
- the foundation body of the offshore device on a dock floor side, flat bearing surface.
- the bearing surfaces of the docking blocks and the foundation body are advantageously aligned with each other, so that the sinking barge, which also has a flat flat underwater surface conveniently rests stable on the dock blocks and the foundation body.
- the dock is not completely emptied, but the water level lowered so far that the barge rests with a part of its hull on the foundation body and otherwise still floats in the water.
- the barge which is lowered onto the foundation body and the dock blocks, is conveniently connected via the lowering means to the foundation body of the offshore installation in the dry dock.
- an offshore side portion of the barge hull is provided with a fender to cushion the impact of the at least one offshore support with the barge on relative horizontal movement.
- the offshore facility itself is not buoyant.
- Floating is the arrangement of barge and associated with the barge offshore facility.
- the offshore device can be lowered to location by the action of gravity. It is not necessary to provide the offshore facility with ballast to allow for lowering.
- the weight force is greater than the largest buoyancy force acting during the entire lowering process.
- an already independently floatable offshore facility is kept ready.
- the offshore device is filled during lowering with ballast, especially seawater, so that the weight is greater than the respective buoyant force at any time and at any subsidence.
- stranded joint systems are used, along the barge two rows of Litzenhebern are provided along the foundation body and two rows of fasteners for strands are provided, each one Litzenheber corresponds to one of the fasteners and through each of the strand jacks a strand is guided, one end of which is firmly and stably connected under tensile loads on the fastening device with the foundation body.
- the strands have a minimum length when the barge rests on the support surface of the foundation body.
- the strands are firmly locked with the strand lifters. Subsequently, the dock is flooded again.
- the barge and the offshore platform are dimensioned so that the buoyancy of the Barge is sufficient to lift the barge and the offshore platform firmly connected to it via the stranded-wire systems.
- the lowering means may also be a crane or a crane-like device.
- individual ballast cells of the barge can be filled with seawater to counterbalance the offshore platform so that the barge and offshore platform arrangement is substantially horizontal in the water.
- the barge is moved with connected and raised offshore platform floating from the dock and placed on location. There is conveniently prepared an area of the seabed.
- the offshore platform is moved exactly horizontally across the area by means of the barge and the offshore platform is then lowered by means of the stranded lifter system so that a seabed side of the foundation body rests on the area.
- the offshore facility is gravitational. After the foundation of gravity, a region of the seabed surrounding the foundation body and previously excavated may be backfilled. It is conceivable that the seabed is additionally covered after being backfilled with layers which prevent solid outgrowth.
- the seabed in particular need not necessarily be prepared. It is also conceivable that the foundation body is lowered to a base frame, which was previously embedded in the seabed.
- the process in reverse order of the above-mentioned process steps can also be carried out for the dismantling of an offshore facility.
- the barge is moved over the foundation body of the offshore device, with the at least one lowering device connected to the foundation body and the foundation body is preferably freed during lifting or temporally directly before the lifting of ballast and the offshore device is raised.
- the object is achieved by an arrangement of an offshore facility and a barge with the features of claim 6.
- the arrangement of offshore facility and barge is suitable for carrying out one of the said methods.
- the inventive offshore device comprises a foundation body and at least one support between the foundation body and a structure, in particular a platform arrangement.
- the at least one support is preferably arranged eccentrically with respect to the foundation body, and a center of gravity of the offshore device is preferably horizontal, laterally spaced the at least one support between the foundation body and the support, and the barge and offshore equipment are connectable to each other by lowering means .
- An offshore facility can be understood to mean oil production platforms, lighthouses, wind turbine foundations, and so on.
- the offshore facility in the dock is already substantially fully assembled.
- the offshore facility, towed out of the dock and founded, is essentially already operational. For their complete completion are no floating cranes o. ⁇ . necessary.
- the foundation body of the offshore facility is along the vertical extent of the arrangement sea bottom side of the barge and the structure meeres provokeab Struktur the barge.
- a length of the at least one support is dimensioned such that the construction of the offshore facility fully lowered to location is arranged during and immediately after lowering meeresêtab Struktur the barge, so does not collide with the barge.
- the offshore facility is designed eccentrically according to the invention. It is eccentric with respect to a virtual vertical axis guided by the center of gravity of the offshore platform.
- the at least one pillar, preferably each of the pillars, preferably the one pillar, lies completely outside the virtual vertical axis. The axis thus does not cut the support.
- the offshore device is advantageously formed in a cross section through the at least one support and the foundation body is substantially L-shaped.
- the offshore device is preferably dimensionally stable in its outer overall shape.
- the offshore device is designed such that its center of gravity is arranged outside an imaginary outer shell of the offshore platform, next to the at least one support and between the foundation body and the platform arrangement such that the barge, when the barge with the offshore platform is firmly connected by lowering means and the offshore facility is raised, the center of gravity of the entire arrangement of barge and offshore facility is conveniently located within the outer vertical boundaries of the barge.
- the lowering means comprise a stranded-wire jack system, wherein stranded jacks are provided on the barge and fastening means running on one outer wall and one strand each is guided through one of the strand jacks and with one end on the fastening device even under pressure. and tensile loads is firmly connected.
- the stranded-wire system makes it possible to lower and, if necessary, raise the offshore equipment again.
- the offshore facility itself is buoyant.
- For stable lowering tanks are provided in the offshore facility, which constantly increase the weight during the lowering process, thus allowing a stable lowering.
- the offshore facility alone is preferably not buoyant. It is therefore reasonably settable by gravity without further ballasting.
- the arrangement of offshore facility and barge is of course buoyant.
- FIGS. 1 to 7 show a method according to the invention by an offshore platform 1 of the invention by means of a barge 2 from a dock 3 spent on location and founded there by means of gravity foundation.
- Fig. 1 shows partially in a sectional view and in a perspective view of the flooded dock 3 with the mounted offshore platform 1, which has a foundation body 4, a monopile 5 and a platform assembly 6.
- Dockblocks 8 are provided which have a height above a Dockteils, which corresponds to a height of the foundation body 4 above the Dockteils.
- Level, Dockêtab masse support surfaces 8a of Dockblocks 8 and a dockêtab masse support surface 4a of the foundation body 4 are aligned with each other and form a non-contiguous flat support surface for the barge 2 from.
- Fig. 1 shows the barge 2 entering the flooded dock 3 from the sea through the dock gate 7 (not shown).
- the barge 2 has tanks that can be filled, for example, with seawater to create counterweights for the further process.
- Fig. 2 shows the dock 3 with the dock dock closed 7 and in the drained state.
- the seawater is pumped out of the dock 3.
- the barge 2 is moved exactly above the Dockblocks 8 and the foundation body 4 before draining the dock 3.
- the sea water level in the dock 3 gradually lowers, and the barge 2 sits on the bearing surfaces 8a of the dock blocks 8 and Support surface 4a of the foundation body 4 with its shallow underwater side.
- the barge 2 rests on the dock blocks 8 and the foundation body 4 stable.
- stranded jacks 20 are provided at one of the offshore platform 1 facing end of the barge 2 .
- fastening devices 21 are arranged for strands 22.
- one end of a strand 22 is attached, the other end is guided by an associated strand jacks 20.
- the strands 22 between strand lifters 20 and fasteners 21 are shortened to a minimum length such that the offshore platform 1 is fixedly and relatively immovably connected to the barge 2.
- Fig. 3 shows the dock 3 in Fig. 2 in the flooded state.
- the barge 2 and the offshore platform 1 are firmly connected to each other by means of the Litzenhebersysteme 20, 21, 22.
- the tanks of the barge 2 are loaded sequentially, so that the barge 2 is substantially horizontal in the water even after raising the offshore platform 1.
- the barge 2 Due to the flooding of the dock 3, the barge 2 experiences a sufficiently large lift that lifts the barge 2 including the associated offshore platform 1 from the dock floor.
- the dock 3 is flooded so far that the offshore platform 1 is positioned with a lower base side above the sea-top bearing surfaces 8a of the dock blocks 8, so that the barge 2 with the raised offshore platform 1 on the dock blocks 8 and moved out of the dock 3 on the sea is spent.
- Fig. 4 shows the offshore platform 1 raised with the barge 2 shortly before the location.
- an area 40 of the seabed is prepared, so that the offshore platform 1 lowered there stands stable on the area 40 and the monopile 5 receives a vertical orientation.
- Fig. 5 shows the barge 2 with the raised offshore platform 1 directly on location.
- the foundation body 4 of the offshore platform 1 is arranged directly above the area 40.
- FIG. 6 Figure 3 shows the lowering operation of the offshore platform 1.
- the strand jacks 20 are released and the offshore platform 1 is lowered slowly and carefully onto the pre-prepared area 40 of the seabed by extending the strands 22.
- the monopile 5 is guided along the barge 2 by means of a guide, not shown.
- the Fig. 7 shows the lowered to the area 40 offshore platform 1.
- a excavated the base body 4 excavated seabed area is backfilled, so that the foundation body 4 is secured against scouring or scouring.
- the strands 22 are released from the foundation body 4 and then lifted with the strand lift 20, and the barge 2 can be moved with strands 22 and strand lifters 20 to another offshore platform.
- Fig. 8 shows the offshore platform 1 of FIGS. 1 to 7 in a detailed side view.
- the foundation body 4 of the offshore platform 1 is completely buried in the refilled seabed.
- the monopile 5 is not arranged symmetrically or centrically on the foundation body 4, but provided clearly on an outer edge of the foundation body 4 from an axis of symmetry.
- the foundation body 4 has a substantially cuboidal shape.
- a platform assembly 6 is provided with three decks: one the foundation body 4 farthest weather deck 80 with other structures, a arranged between the weather deck 80 and the foundation body 4 basement deck 81 and a vigange town the basement decks 81 sludge deck 82nd wherein the mud deck 82 has a height above the sea level 83 which is still located above the maximum wave height.
- 5 landing devices 85 for trusting supply boats are provided on the monopile.
- the area 40 of the seabed is pre-prepared for location.
- the area 40 is excavated and the bottom of the excavation is filled with a gravel layer 86.
- a foundation layer 87 is applied, on which the lowered foundation body 4 rests.
- the area of the excavation surrounding the foundation body 4 is backfilled with sand 88 so far that the foundation body 4 is completely covered with sand 88.
- two further layers may preferably be applied to the backfilled sand 88 to prevent scumming.
- the fastening devices 21 are not shown, which make it possible to secure the lowered of the Barge 2 strands 22 on the foundation body 4 fixed position.
- the fastening devices 21 are dimensioned such that the offshore platform 1 with foundation body 4, monopile 5 and platform assembly 6 can be lifted by means of the strand jacks 20 of the barge 2.
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Description
Die Erfindung betrifft ein Verfahren zur Schwerkraftgründung einer Offshore-Einrichtung mittels Absenken sowie eine Offshore-Einrichtung und eine Barge als Schwimmkörper zur Durchführung des Verfahrens.The invention relates to a method for gravity foundation of an offshore facility by lowering and an offshore facility and a barge as a floating body for performing the method.
Vielfältige Verfahren zur Schwerkraftgründung von Bauwerken unter Wasser sind seit dem Altertum im Stand der Technik bekannt und wurden ständig weiter entwickelt. So werden Schwerkraftgründungen entweder direkt auf dem Meeresgrund in Richtung Wasseroberfläche mit Hilfe eines Kastendamms oder schwimmend, beispielsweise mittels eines Senkkastens oder Caissons, auch mit Hilfe von Überdruck, von der Wasseroberfläche in Richtung Meeresboden gebaut oder an Land gebaut, auf Lokation transportiert, und auf den Meeresboden abgesenkt.Various methods for gravity foundation of structures under water have been known since ancient times in the art and have been constantly evolving. Gravity foundations are either built directly on the seabed towards the water surface with the help of a cofferdam or floating, for example by means of a caisson or caisson, with the help of overpressure, from the water surface towards the seabed or built on land, transported to location, and on the Lowered seabed.
Als Verfahren zum Absenken werden heute verschiedene Technologien verwendet: Mittels Bau eines Gründungskörpers innerhalb eines Senkkastens, mittels Ablassen von gestapelten Ringkästen oder mittels kontrollierter Beballastung vorgefertigter StrukturenAs a method for lowering today various technologies are used: By building a foundation body within a caisson, by discharging stacked ring boxes or by means of controlled ballasting prefabricated structures
Der Leuchtturm "Roter Sand" wurde mittels eines Senkkastens als erstes Offshore Bauwerk gegründet und 1885 fertig gestellt.The lighthouse "Roter Sand" was founded by means of a caisson as the first offshore structure and completed in 1885.
Im Jahre 1994 wurde die Gründungsstruktur der Plattform Troll A fertig gestellt. Die Konstruktion besteht aus einem 36m hohen, in einem Dock gefertigten Grunddom, der schwimmend in einem norwegischen Fjord mittels eines Gleitschalungsverfahrens zu 3 insgesamt 343 Meter langen Grundsäulen vervollständigt wurde. Die Struktur wurde für den Transport wieder vollständig aufgeschwommen und dann auf Lokation geschleppt und dort kontrolliert mittels Beballastung abgesenkt.In 1994, the founding structure of the Troll A platform was completed. The construction consists of a 36m high, built in a dock base dome, which was completed floating in a Norwegian fjord by means of a slipforming process to 3 total of 343 meters long basic columns. The structure was completely re-floated for transport and then towed to location and lowered there controlled by Ballastung.
Die Plattform Hanze F2A wurde im Jahre 2000 als kastenförmige Stahlkonstruktion an Land gebaut, auf Lokation im Hanze Feld gezogen und durch kontrolliertes Absenken mittels Beballastung in der Nordsee gegründet.The platform Hanze F2A was built in 2000 as a box-shaped steel construction on land, pulled to location in the Hanze field and founded by controlled lowering by ballasting in the North Sea.
Im Jahre 2002 wird die schwimmfähige Gründungsstruktur NAM F3 mit Tanks und Stützen auf Lokation in der Nordsee gezogen, und die Gründungsstruktur mittels Ballasttanks kontrolliert abgesenkt.In 2002, the buoyant foundation structure NAM F3 with tanks and columns was pulled to location in the North Sea, and the foundation structure was lowered in a controlled manner using ballast tanks.
Nachteilig an den bekannten Verfahren zur Installation durch Schwerkraftgründungen mittels Absenken durch Beballastung ist, dass diese Verfahren aufwendig sind und große Risiken für die Stabilität während des Absenkens bergen. Es sind konstruktiv Kompartiments, Auftriebskörper, Rohre, Ventile, Pumpen und weitere zugehörige temporäre Einrichtungen auf begleitenden Schiffen notwendig. Das Verfahren selber muss unter Berücksichtigung einer äußerst knappen und daher komplizierten sequentiell zu bestimmenden hydrostatischen Stabilität durchgeführt werden.A disadvantage of the known method for installation by gravity foundations by lowering by ballasting is that these methods are complex and involve great risks for stability during lowering. There are constructive compartments, buoyancy, pipes, valves, pumps and other associated temporary facilities on accompanying vessels necessary. The process itself must be carried out taking into account a very short and therefore complicated sequential hydrostatic stability to be determined.
Aus der
Es ist daher Aufgabe der Erfindung, ein Verfahren der eingangs genannten Art zur Verfügung zu stellen, das die einfachere Gründung einer Offshore-Baueinrichtung ermöglicht und eine Anordnung aus Barge und Offshore-Einrichtung zur Durchführung des Verfahrens zur Verfügung zu stellen.It is therefore an object of the invention to provide a method of the type mentioned above, which allows the easier establishment of an offshore construction facility and to provide an arrangement of barge and offshore facility for carrying out the method.
Die Aufgabe ist in ihrem ersten Aspekt durch ein eingangs genanntes Verfahren mit den Merkmalen des Anspruchs 1 gelöst.The object is achieved in its first aspect by an initially mentioned method with the features of
Die Offshore-Einrichtung wird in einem Dock bereitgehalten. Günstigerweise ist sie auf einem Boden des Docks aufgestellt und wird dort bereitgehalten. Eine Barge wird mit wenigstens einem Absenkmittel mit der Offshore-Einrichtung verbunden. Die Offshore-Einrichtung umfasst einen Fundamentkörper, auf dem die Offshore-Einrichtung nach der Schwerkraftgründung mit ihrem gesamten Gewicht steht und der Kontakt mit dem Meeresboden hat.The offshore facility is kept in a dock. Conveniently, it is placed on a floor of the dock and is kept there. A barge is connected to at least one lowering means with the offshore facility. The offshore facility comprises a foundation body on which the offshore facility, after gravity formation, stands with its full weight and in contact with the seabed.
Vorzugsweise hat sonst kein Bauteil der Offshore-Einrichtung Kontakt mit dem Meeresboden nach der Schwerkraftgründung. Unter einer Barge ist hier sehr allgemein ein Lasten tragendes Schiff oder ein geeignet geformter Schwimmkörper zu verstehen. Die Anordnung aus Offshore-Einrichtung und Barge wird schwimmfähig. Die Anordnung wird aufgeschwommen und aus dem Dock auf Lokation verbracht. In der Anordnung ist der Fundamentkörper meeresbodenseitig der Barge angeordnet. Die Offshore-Einrichtung kann mittels des wenigstens einen Absenkmittels zur Barge hochgezogen werden, und der Fundamentkörper wird vorzugsweise meeresbodenseitig ihres Rumpfes gehalten.Preferably, otherwise, no component of the offshore facility has contact with the seabed after the foundation of gravity. Under a barge here is very generally a load-bearing ship or a suitably shaped float to understand. The arrangement of offshore facility and barge becomes buoyant. The arrangement is floated and spent from the dock on location. In the arrangement of the foundation body sea bottom side of the barge is arranged. The offshore facility can be operated by means of the at least one Absenkmittels be pulled up to the barge, and the foundation body is preferably kept sea bottom side of their hull.
Auf Lokation wird die Offshore-Einrichtung auf einen vorzugsweise vorpräparierten Bereich eines Meeresbodens stabil abgesenkt und mittels der Schwerkraft gegründet.At location, the offshore facility is stably lowered to a preferably pre-prepared area of seabed and established by gravity.
Vorzugsweise wird die Offshore-Einrichtung im Wesentlichen bereits fertiggestellt im Dock bereitgehalten. Sie ist günstigerweise allein nicht schwimmfähig. Schwimmfähig ist erst die Anordnung aus Barge und Offshore-Einrichtung. Die Barge dient während des Verbringens der Offshore-Einrichtung als Transportmittel und Schwimmkörper für die Offshore-Einrichtung.Preferably, the offshore facility is kept substantially ready in the dock. It is conveniently not buoyant by itself. Floating is only the arrangement of barge and offshore facility. The barge is used during the transfer the offshore facility as a means of transport and floats for the offshore facility.
Das erfindungsgemäße Verfahren macht von der Idee Gebrauch, eine Offshore-Einrichtung mit ihrer Gründungsstruktur in einem Dock bereitzuhalten. Die Offshore-Einrichtung ist dabei im Wesentlichen bereits vollständig montiert. Sie kann beispielswiese bereits im Dock eine Gründungsstruktur mit einem Fundamentkörper und die im Wesentlichen vollständige Plattformanordnung aufweisen. Sie wird ohne weitere konstruktive Veränderungen mittels eines auf einer Barge installierten Absenksystems mit der Barge verbunden und auf Lokation stabil abgesenkt. Zum Absenken ist ausschließlich das Absenksystem notwendig. Zusätzlich temporäre Einrichtungen wie konstruktive Kompartiments, Auftriebskörper, Rohre, Ventile, Pumpen werden nicht zum stabilen Absenken benötigt. Auf Lokation wird die Offshore-Einrichtung mit Hilfe wenigstens einer Absenkeinrichtung zum Meeresboden herabgelassen, ohne dass dabei die konstruktive Anordnung der Einzelbauteile der Offshore-Einrichtung zueinander verändert werden muss.The inventive method makes use of the idea of having an offshore facility with its foundation structure in a dock. The offshore facility is essentially already fully assembled. For example, it may already have a foundation structure with a foundation body and the essentially complete platform arrangement in the dock. It is connected without further structural changes by means of a lowering system installed on a barge with the barge and lowered stable to location. To lower only the lowering system is necessary. In addition, temporary facilities such as constructive compartments, buoys, pipes, valves, pumps are not needed for stable lowering. On location, the offshore facility is lowered with the help of at least one lowering device to the seabed, without causing the structural arrangement of the individual components of the offshore facility to each other must be changed.
In einer bevorzugten Weiterbildung des erfindungsgemäßen Verfahrens wird die Offshore-Einrichtung in einem gefluteten Dock bereitgehalten und die Barge im Dock an die Offshore-Einrichtung herangefahren und dann Wasser aus dem Dock herausgelassen und die Barge mit der Offshore-Einrichtung durch die Absenkeinrichtung verbunden.In a preferred embodiment of the method according to the invention, the offshore device is kept ready in a flooded dock and moved up the barge in the dock to the offshore facility and then let water out of the dock and the barge connected to the offshore facility by the lowering device.
Die erfindungsgemäße Weiterbildung macht von der Verwendung herkömmlicher Docks Gebrauch, wobei die Offshore-Einrichtung zunächst in einem trockengelegten Dock montiert werden kann, soweit bis die Offshore-Einrichtung für eine Schwerkraftgründung verbringbar ist. Das Dock kann dann geflutet werden, sodass die Barge durch Öffnen von Dock-Toren in das geflutete Dock hineinfahren kann bis zur Offshore-Einrichtung und dann mit der Offshore-Einrichtung über die Absenkmittel verbunden wird.The development according to the invention makes use of the use of conventional docks, wherein the offshore device can first be mounted in a dry dock, as far as until the offshore device can be moved to establish a gravitational force. The dock can then be flooded so that the barge can enter the flooded dock by opening dock doors and then connecting to the offshore facility and then to the offshore facility via the lowering means.
Günstigerweise werden, nachdem die Barge an die Offshore-Einrichtung herangefahren ist, die Dock-Tore wieder geschlossen, das Dock mit der Barge und der Offshore-Einrichtung trockengelegt, sodass die Barge mit dem sinkenden Wasserspiegel im Dock absinkt. Günstigerweise weist die Offshore-Einrichtung einen verbreiterten Fundamentkörper auf. Neben dem Fundamentkörper sind in einer Weiterbildung der Erfindung Dockblocks vorgesehen, die eine dockbodenabseitige, ebene Auflagefläche aufweisen. Ebenfalls weist der Fundamentkörper der Offshore-Einrichtung eine dockbodenabseitige, ebene Auflagefläche auf.Conveniently, after the barge has approached the offshore facility, the dock gates are closed again, the dock with the barge and the offshore facility drained, so that the barge sinks with the sinking water level in the dock. Conveniently, the offshore facility has a widened foundation body. In addition to the foundation body dock blocks are provided in a development of the invention, which have a dockbodenabseitige, flat bearing surface. Also, the foundation body of the offshore device on a dock floor side, flat bearing surface.
Die Auflageflächen der Dockblocks und des Fundamentkörpers fluchten günstigerweise miteinander, sodass die absinkende Barge, die günstigerweise ebenfalls eine flache ebene Unterwasserfläche aufweist, auf den Dockblocks und dem Fundamentkörper stabil aufliegt. Alternativ wird das Dock nicht vollständig entleert, sondern der Wasserspiegel soweit abgesenkt, dass die Barge mit einem Teil ihres Rumpfes auf dem Fundamentkörper aufliegt und ansonsten noch im Wasser schwimmt.The bearing surfaces of the docking blocks and the foundation body are advantageously aligned with each other, so that the sinking barge, which also has a flat flat underwater surface conveniently rests stable on the dock blocks and the foundation body. Alternatively, the dock is not completely emptied, but the water level lowered so far that the barge rests with a part of its hull on the foundation body and otherwise still floats in the water.
Die auf den Fundamentkörper und die Dockblocks abgesenkte Barge wird im trockengelegten Dock bequem über die Absenkmittel mit dem Fundamentkörper der Offshore-Einrichtung verbunden. Vorzugsweise ist ein offshore-einrichtungsseitiger Abschnitt des Rumpfes der Barge mit einem Fender versehen, um den Anprall der wenigstens einen Stütze der Offshore-Einrichtung mit der Barge bei relativer horizontaler Bewegung zueinander abzufedern.The barge, which is lowered onto the foundation body and the dock blocks, is conveniently connected via the lowering means to the foundation body of the offshore installation in the dry dock. Preferably, an offshore side portion of the barge hull is provided with a fender to cushion the impact of the at least one offshore support with the barge on relative horizontal movement.
Vorzugsweise ist die Offshore-Einrichtung selbst nicht schwimmfähig. Schwimmfähig ist die Anordnung aus Barge und der mit der Barge verbundenen Offshore-Einrichtung. Vorteilhafterweise kann die Offshore-Einrichtung auf Lokation durch Einwirkung der Schwerkraft abgesenkt werden. Es ist nicht notwendig, die Offshore-Einrichtung mit Ballast zu versehen, um ein Absenken zu ermöglichen. Die Gewichtskraft ist größer als die größte während des gesamten Absenkvorganges wirkende Auftriebskraft.Preferably, the offshore facility itself is not buoyant. Floating is the arrangement of barge and associated with the barge offshore facility. Advantageously, the offshore device can be lowered to location by the action of gravity. It is not necessary to provide the offshore facility with ballast to allow for lowering. The weight force is greater than the largest buoyancy force acting during the entire lowering process.
In einer anderen Variante des erfindungsgemäßen Verfahrens wird eine bereits selbständig schwimmfähige Offshore-Einrichtung bereit gehalten. Die Offshore-Einrichtung wird während des Absenkens mit Ballast, insbesondere Meerwasser befüllt, so dass die Gewichtskraft zu jedem Zeitpunkt und bei jeder Absenktiefe größer als die jeweilige Auftriebskraft ist.In another variant of the method according to the invention, an already independently floatable offshore facility is kept ready. The offshore device is filled during lowering with ballast, especially seawater, so that the weight is greater than the respective buoyant force at any time and at any subsidence.
Als Absenkmittel werden in einer besonders bevorzugten Ausführungsform der Erfindung Litzenhebersysteme verwendet, wobei entlang der Barge zwei Reihen von Litzenhebern vorgesehen sind und entlang dem Fundamentkörper zwei Reihen von Befestigungseinrichtungen für Litzen vorgesehen sind, wobei jeweils ein Litzenheber mit einer der Befestigungseinrichtungen korrespondiert und durch jeden der Litzenheber eine Litze geführt ist, deren eines Ende auch unter Zugbelastungen fest und stabil über die Befestigungseinrichtung mit dem Fundamentkörper verbunden ist. Die Litzen weisen eine minimale Länge auf, wenn die Barge auf der Auflagefläche des Fundamentkörpers aufliegt. Die Litzen werden fest mit den Litzenhebern arretiert. Nachfolgend wird das Dock wieder geflutet. Die Barge und die Offshore-Plattform sind so dimensioniert, dass der Auftrieb der Barge hinreichend ist, um die Barge und die mit ihr über die Litzenhebersysteme fest verbundene Offshore-Plattform anzuheben.As a lowering means in a particularly preferred embodiment of the invention stranded joint systems are used, along the barge two rows of Litzenhebern are provided along the foundation body and two rows of fasteners for strands are provided, each one Litzenheber corresponds to one of the fasteners and through each of the strand jacks a strand is guided, one end of which is firmly and stably connected under tensile loads on the fastening device with the foundation body. The strands have a minimum length when the barge rests on the support surface of the foundation body. The strands are firmly locked with the strand lifters. Subsequently, the dock is flooded again. The barge and the offshore platform are dimensioned so that the buoyancy of the Barge is sufficient to lift the barge and the offshore platform firmly connected to it via the stranded-wire systems.
Das Absenkmittel kann aber auch ein Kran oder eine kranartige Einrichtung sein.The lowering means may also be a crane or a crane-like device.
Vorzugsweise können einzelne Ballastzellen der Barge mit Meerwasser befüllt werden, um ein Gegengewicht zur Offshore-Plattform zu erzielen, sodass die Anordnung aus Barge und Offshore-Plattform im Wesentlichen horizontal im Wasser liegt.Preferably, individual ballast cells of the barge can be filled with seawater to counterbalance the offshore platform so that the barge and offshore platform arrangement is substantially horizontal in the water.
In einer Weiterbildung des Verfahrens wird die Barge mit verbundener und angehobener Offshore-Plattform schwimmend aus dem Dock verfahren und auf Lokation gebracht. Dort ist günstigerweise ein Bereich des Meeresbodens vorpräpariert. Die Offshore-Plattform wird mittels der Barge exakt horizontal über den Bereich verfahren, und die Offshore-Plattform wird dann mittels des Litzenhebersystems herabgelassen, sodass eine Meeresbodenseite des Fundamentkörpers auf dem Bereich aufliegt. Die Offshore-Einrichtung wird schwerkraftgegründet. Nach der Schwerkraftgründung kann ein den Fundamentkörper umgebender und vorher ausgehobener Bereich des Meeresbodens rückverfüllt werden. Es ist denkbar, dass der Meeresboden nach der Rückverfüllung mit festen Auskolkungen verhindernden Schichten zusätzlich überdeckt wird.In a further development of the method, the barge is moved with connected and raised offshore platform floating from the dock and placed on location. There is conveniently prepared an area of the seabed. The offshore platform is moved exactly horizontally across the area by means of the barge and the offshore platform is then lowered by means of the stranded lifter system so that a seabed side of the foundation body rests on the area. The offshore facility is gravitational. After the foundation of gravity, a region of the seabed surrounding the foundation body and previously excavated may be backfilled. It is conceivable that the seabed is additionally covered after being backfilled with layers which prevent solid outgrowth.
Es sind grundsätzlich auch andere Weiterbildungen des Verfahrens denkbar. Je nach lokalen Gegebenheiten braucht der Meeresboden insbesondere nicht notwendigerweise vorpräpariert sein. Es ist desweiteren denkbar, dass der Fundamentkörper auch auf einen Grundrahmen abgesenkt wird, der vorher in den Meeresboden eingelassen wurde.In principle, other developments of the method are also conceivable. Depending on local conditions, the seabed in particular need not necessarily be prepared. It is also conceivable that the foundation body is lowered to a base frame, which was previously embedded in the seabed.
Das Verfahren in umgekehrter Reihenfolge der oben genannten Verfahrensschritte kann auch zum Abbau einer Offshore-Einrichtung durchgeführt werden. Dabei wird die Barge über den Fundamentkörper der Offshore-Einrichtung verfahren, mit der wenigstens einen Absenkeinrichtung mit dem Fundamentkörper verbunden und der Fundamentkörper wird, vorzugsweise während des Anhebens oder zeitlich direkt vor dem Anheben von Ballast befreit und die Offshore-Einrichtung wird angehoben.The process in reverse order of the above-mentioned process steps can also be carried out for the dismantling of an offshore facility. In this case, the barge is moved over the foundation body of the offshore device, with the at least one lowering device connected to the foundation body and the foundation body is preferably freed during lifting or temporally directly before the lifting of ballast and the offshore device is raised.
In dem zweiten Aspekt wird die Aufgabe durch eine Anordnung aus einer Offshore-Einrichtung und einer Barge mit den Merkmalen des Anspruchs 6 erfüllt. Die Anordnung aus Offshore-Einrichtung und Barge eignet sich zur Durchführung eines der genannten Verfahren.In the second aspect, the object is achieved by an arrangement of an offshore facility and a barge with the features of
Die erfindungsgemäße Offshore-Einrichtung umfasst einen Fundamentkörper und wenigstens eine Stütze zwischen dem Fundamentkörper und einem Aufbau, insbesondere einer Plattformanordnung. Die wenigstens eine Stütze ist vorzugsweise exzentrisch gegenüber dem Fundamentkörper angeordnet, und ein Schwerpunkt der Offshore-Einrichtung ist vorzugsweise horizontal, seitlich beabstandet der wenigstens einen Stütze zwischen dem Fundamentkörper und der Stütze angeordnet, und die Barge und die Offshore-Einrichtung sind mittels Absenkmitteln miteinander verbindbar. Unter einer Offshore-Einrichtung können Ölförderplattformen, Leuchttürme, Gründungsstrukturen für Windkraftanlagen usw. verstanden werden.The inventive offshore device comprises a foundation body and at least one support between the foundation body and a structure, in particular a platform arrangement. The at least one support is preferably arranged eccentrically with respect to the foundation body, and a center of gravity of the offshore device is preferably horizontal, laterally spaced the at least one support between the foundation body and the support, and the barge and offshore equipment are connectable to each other by lowering means , An offshore facility can be understood to mean oil production platforms, lighthouses, wind turbine foundations, and so on.
Günstigerweise ist die Offshore-Einrichtung im Dock bereits im Wesentlichen vollständig montiert. Die aus dem Dock geschleppte und gegründete Offshore-Einrichtung ist im Wesentlichen sogar bereits einsatzfähig. Zu ihrer vollständigen Fertigstellung sind keine Schwimmkräne o.Ä. notwendig.Conveniently, the offshore facility in the dock is already substantially fully assembled. The offshore facility, towed out of the dock and founded, is essentially already operational. For their complete completion are no floating cranes o.Ä. necessary.
Vorzugsweise befindet sich der Fundamentkörper der Offshore-Einrichtung entlang der vertikalen Ausdehnung der Anordnung meeresbodenseitig der Barge und der Aufbau meeresbodenabseitig der Barge. Eine Länge der wenigstens einen Stütze ist derart bemessen, dass der Aufbau der auf Lokation vollständig abgesenkten Offshore-Einrichtung während und direkt nach dem Absenken meeresbodenabseitig der Barge angeordnet ist, also nicht mit der Barge kollidiert.Preferably, the foundation body of the offshore facility is along the vertical extent of the arrangement sea bottom side of the barge and the structure meeresbodenabseitig the barge. A length of the at least one support is dimensioned such that the construction of the offshore facility fully lowered to location is arranged during and immediately after lowering meeresbodenabseitig the barge, so does not collide with the barge.
Die Offshore-Einrichtung ist erfindungsgemäß exzentrisch konstruiert. Sie ist gegenüber einer durch den Schwerpunkt der Offshore-Plattform geführten virtuellen vertikalen Achse exzentrisch ausgebildet. Die wenigstens eine Stütze, vorzugsweise jede der Stützen, vorzugsweise die genau eine Stütze liegt vollständig außerhalb der virtuellen vertikalen Achse. Die Achse schneidet die Stütze somit nicht.The offshore facility is designed eccentrically according to the invention. It is eccentric with respect to a virtual vertical axis guided by the center of gravity of the offshore platform. The at least one pillar, preferably each of the pillars, preferably the one pillar, lies completely outside the virtual vertical axis. The axis thus does not cut the support.
Die Offshore-Einrichtung ist günstigerweise in einem Querschnitt durch die wenigstens eine Stütze und den Fundamentkörper im Wesentlichen L-förmig ausgebildet.The offshore device is advantageously formed in a cross section through the at least one support and the foundation body is substantially L-shaped.
Die Offshore-Einrichtung ist vorzugsweise in ihrer äußeren Gesamtform formstabil.The offshore device is preferably dimensionally stable in its outer overall shape.
Erfindungsgemäß ist die Offshore-Einrichtung derart ausgebildet, dass ihr Schwerpunkt außerhalb einer gedachten Außenhülle der Offshore-Plattform angeordnet ist, und zwar neben der wenigstens einen Stütze und zwischen dem Fundamentkörper und der Plattformanordnung derart, dass die Barge, wenn die Barge mit der Offshore-Plattform mittels Absenkmitteln fest verbunden ist und die Offshore- Einrichtung angehoben ist, der Schwerpunkt der gesamten Anordnung aus Barge und Offshore-Einrichtung sich günstigerweise innerhalb der äußeren lotrechten Abgrenzungen der Barge befindet.According to the invention, the offshore device is designed such that its center of gravity is arranged outside an imaginary outer shell of the offshore platform, next to the at least one support and between the foundation body and the platform arrangement such that the barge, when the barge with the offshore platform is firmly connected by lowering means and the offshore facility is raised, the center of gravity of the entire arrangement of barge and offshore facility is conveniently located within the outer vertical boundaries of the barge.
In einer bevorzugten Ausführungsform der Erfindung weisen die Absenkmittel ein Litzenhebersystem auf, wobei an der Barge Litzenheber vorgesehen sind und an einer Außenwandung den Fundamentkörper umlaufende Befestigungseinrichtungen und jeweils eine Litze durch jeweils einen der Litzenheber geführt ist und mit einem Ende an der Befestigungseinrichtung auch unter Druck- und Zugbelastungen fest verbunden ist. Das Litzenhebersystem ermöglicht es, die Offshore-Einrichtung abzusenken und ggf. auch wieder anzuheben.In a preferred embodiment of the invention, the lowering means comprise a stranded-wire jack system, wherein stranded jacks are provided on the barge and fastening means running on one outer wall and one strand each is guided through one of the strand jacks and with one end on the fastening device even under pressure. and tensile loads is firmly connected. The stranded-wire system makes it possible to lower and, if necessary, raise the offshore equipment again.
Neben dem Absenkmittel, vorzugsweise dem Litzenhebersystem, sind keine weiteren temporären Einrichtungen wie konstruktive Kompartiments, Auftriebskörper, Rohre, Ventile, Pumpen notwendig, um die Offshore-Einrichtung stabil abzusenken.In addition to the lowering, preferably the Litzenhebersystem, no further temporary facilities such as structural Kompartiments, buoyancy, pipes, valves, pumps are necessary to lower the offshore facility stable.
In einer weiteren Ausführungsform der Erfindung ist die Offshore-Einrichtung selbst schwimmfähig. Zum stabilen Absenken sind Tanks in der Offshore-Einrichtung vorgesehen, die die Gewichtskraft während des Absenkvorganges ständig erhöhen und so ein stabiles Absenken ermöglichen.In a further embodiment of the invention, the offshore facility itself is buoyant. For stable lowering tanks are provided in the offshore facility, which constantly increase the weight during the lowering process, thus allowing a stable lowering.
Die Offshore-Einrichtung ist allein vorzugsweise nicht schwimmfähig. Sie ist daher ohne weiteres Ballastieren durch Schwerkraft gründbar. Die Anordnung aus Offshore-Einrichtung und Barge ist natürlich schwimmfähig.The offshore facility alone is preferably not buoyant. It is therefore reasonably settable by gravity without further ballasting. The arrangement of offshore facility and barge is of course buoyant.
Die Erfindung wird anhand eines Ausführungsbeispiels in acht Figuren beschrieben, dabei zeigen:
- Fig. 1
- eine in einen Dock fahrende Barge mit einer Offshore-Plattform,
- Fig. 2
- ein geschlossenes und trockengelegtes Dock mit der Barge und mit der über ein Lizenzhebersystem verbundenen Offshore-Plattform,
- Fig. 3
- das geflutete Dock mit der angehobenen Offshore-Plattform, die aus dem gefluteten Dock mittels einer Barge gefahren wird,
- Fig. 4
- die Barge mit angehobener Offshore-Plattform während der Verbringung auf Lokation,
- Fig. 5
- die oberhalb eines vorbereiteten Bereichs des Meeresbodens positionierte Offshore-Plattform,
- Fig. 6
- das Absenken der Offshore-Plattform auf den vorbereiteten Bereich des Meeresbodens,
- Fig. 7
- die auf den Meeresboden abgesenkte Offshore-Plattform und sich entfernende Barge,
- Fig. 8
- eine schematische seitliche Ansicht einer erfindungsgemäßen Offshore-Plattform.
- Fig. 1
- a docking barge with an offshore platform,
- Fig. 2
- a closed and dry dock with the barge and the offshore platform connected via a license lifter system;
- Fig. 3
- the flooded dock with the raised offshore platform being driven out of the flooded dock by means of a barge,
- Fig. 4
- the barge with raised offshore platform during shipment to location,
- Fig. 5
- the offshore platform positioned above a prepared area of the seabed,
- Fig. 6
- lowering the offshore platform to the prepared area of the seabed,
- Fig. 7
- the offshore platform lowered to the seabed and barge moving away,
- Fig. 8
- a schematic side view of an offshore platform according to the invention.
Die
Am einem der Offshore-Plattform 1 zuweisenden Ende der Barge 2 sind Litzenheber 20 vorgesehen. An dem Fundamentkörper 4 der Offshore-Plattform 1 sind Befestigungsvorrichtungen 21 für Litzen 22 angeordnet. An den Befestigungsvorrichtungen 21 wird jeweils ein Ende einer Litze 22 befestigt, deren anderes Ende durch einen zugehörigen Litzenheber 20 geführt ist. In
Durch das Fluten des Docks 3 erfährt die Barge 2 einen hinreichend großen Auftrieb, der die Barge 2 einschließlich der mit ihr verbundenen Offshore-Plattform 1 vom Dockboden anhebt. Das Dock 3 wird soweit geflutet, dass die Offshore-Plattform 1 mit einer Fundamentkörperunterseite oberhalb der meeresoberseitigen Auflageflächen 8a der Dockblocks 8 positioniert ist, sodass die Barge 2 mit der hochgezogenen Offshore-Plattform 1 über die Dockblocks 8 verfahren und aus dem Dock 3 hinaus auf das Meer verbracht wird.Due to the flooding of the
Die
Vor dem Absenken der Offshore-Plattform 1 wird der Bereich 40 des Meeresbodens auf Lokation vorpräpariert. Dafür wird der Bereich 40 ausgehoben und der Boden der Aushebung mit einer Kiesschicht 86 gefüllt. Auf die Kiesschicht wird eine Gründungsschicht 87 aufgebracht, auf der der abgesenkte Fundamentkörper 4 aufliegt. Der den Fundamentkörper 4 umlaufende Bereich der Aushebung wird mit Sand 88 soweit rückverfüllt, dass der Fundamentkörper 4 komplett mit Sand 88 überdeckt ist. Auf der meeresspiegelseitigen Seite können auf den rückverfüllten Sand 88 vorzugsweise zwei weitere (nicht dargestellte) Schichten aufgebracht werden, die Auskolkungen verhindern. Am Fundamentkörper 4 sind die Befestigungsvorrichtungen 21 nicht eingezeichnet, die es ermöglichen, die von der Barge 2 abgesenkten Litzen 22 am Fundamentkörper 4 positionsfest zu befestigen. Die Befestigungsvorrichtungen 21 sind derart dimensioniert, dass die Offshore-Plattform 1 mit Fundamentkörper 4, Monopile 5 und Plattformanordnung 6 mittels der Litzenheber 20 von der Barge 2 angehoben werden kann.Before lowering the
- 11
- Offshore-PlattformOffshore platform
- 22
- BargeBarge
- 33
- Dockdock
- 44
- Fundamentkörperfoundation body
- 4a4a
- Auflageflächebearing surface
- 55
- Monopilemonopile
- 66
- Plattformanordnungplatform assembly
- 77
- Dock-TorDock Gate
- 88th
- DockblocksDockblocks
- 8a8a
- Auflageflächensupport surfaces
- 2020
- Litzenheberstrandjack
- 2121
- Befestigungsvorrichtungenfasteners
- 2222
- Litzenstrands
- 4040
- Bereich des MeeresbodensArea of the seabed
- 8080
- Wetterdeckweather deck
- 8181
- Kellerdeckcellar deck
- 8282
- Schlammdeckmud deck
- 8383
- Höhe oberhalb des MeeresspiegelsHeight above sea level
- 8585
- Anlandevorrichtungenlanding facilities
- 8686
- Kiesschichtgravel layer
- 8787
- Gründungsschichtfoundation layer
- 8888
- Sandsand
Claims (10)
- A method for the gravity foundation of an offshore device (1) with a foundation body (4), by
the offshore device (1) being kept ready in a dock (3) and
a barge (2) being connected to the offshore device (1) by lowering means (20, 21, 22) and
the foundation block (4) being arranged on the side of the barge (2) towards the seabed, and
an arrangement comprising the barge (2) and the offshore device (1) becoming buoyant and
the arrangement comprising the barge (2) and the offshore device (1) being moved out of the dock (3) to the site and
the offshore device (1) being lowered onto a region of the seabed (40) at the site in a stable manner and
the lowered offshore device (1) standing on the foundation block (4), characterized in that the barge (2) is moved vertically above a portion of the foundation block (4) of the offshore device (1) and is lowered onto the foundation block (4). - A method according to Claim 1, characterized in that the offshore device (1) is lowered in a stable manner onto the seabed only with the aid of the lowering means (20, 21, 22).
- A method according to Claim 1 or 2, characterized in that the offshore device (1) is kept ready in the dock (3) flooded with water and the barge (2) in the dock (3) is brought up to the offshore device (1), and then the water is let out of the dock (3) and the barge (2) is connected to the offshore device (1) by at least one lowering device (20, 21, 22).
- A method according to Claim 1, 2 or 3, characterized in that the barge (2) is connected to the offshore device (1) by means of at least one strand jack system (20, 21, 22) by which the offshore device (1) is lowered onto the region (40) of the seabed at the site.
- A method according to any one of Claims 1 to 4, characterized in that dock blocks (8) are arranged adjacent to the foundation block (4), and the barge (2) is lowered and is set on flat support faces (8a) of the dock blocks (8) and at the same time on a flat support face (4a) of the foundation block (4).
- An arrangement with an offshore device (1) and a barge (2) for carrying out a method according to any one of Claims 1 to 5,
wherein the offshore device (1) comprises a foundation block (4) and at least one support (5) between the foundation block (4) and a platform arrangement (6) and
at least one lowering device (20, 21, 22) and
wherein the barge (2) and the offshore device (1) are connected to each other by means of the at least one lowering device (20, 21, 22) and the foundation block (4) is arranged on the side of the barge (2) towards the seabed,
characterized in that the at least one support (5) is arranged eccentrically opposite the foundation block (4) and a centre of gravity of the offshore device (1) is arranged between the foundation block (4) and the platform arrangement (6) laterally distanced from the at least one support (5). - An arrangement according to Claim 6, characterized in that a common centre of gravity of the barge (2) and the offshore device (1) is arranged inside the outer vertical boundaries of the barge (2).
- An arrangement according to Claim 6 or 7, characterized in that the at least one lifting device (20, 21, 22) each comprises one fastening apparatus (21) on the foundation block (4) each for one strand (22) and one strand jack (20) arranged on the barge (2).
- An arrangement according to any one of Claims 6 to 8, characterized in that the at least one support is designed in the form of a monopile (5).
- An arrangement according to any one of Claims 6 to 9, characterized in that the offshore device (1) is not buoyant on its own.
Priority Applications (4)
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DK13188158.3T DK2860314T3 (en) | 2013-10-10 | 2013-10-10 | Gravity fundering |
PL13188158T PL2860314T3 (en) | 2013-10-10 | 2013-10-10 | Gravity foundation |
EP13188158.3A EP2860314B1 (en) | 2013-10-10 | 2013-10-10 | Gravity foundation |
PCT/EP2014/071695 WO2015052295A1 (en) | 2013-10-10 | 2014-10-09 | Gravity founding |
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EP13188158.3A EP2860314B1 (en) | 2013-10-10 | 2013-10-10 | Gravity foundation |
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DE102008017785A1 (en) * | 2008-04-08 | 2009-10-15 | E.On Energy Projects Gmbh | Foundation for e.g. wind energy plant, at e.g. seas, has column supported in body such that fitting section is displaceable under influence of forces affecting column relative to body from transportation position in offshore position |
-
2013
- 2013-10-10 DK DK13188158.3T patent/DK2860314T3/en active
- 2013-10-10 EP EP13188158.3A patent/EP2860314B1/en active Active
- 2013-10-10 PL PL13188158T patent/PL2860314T3/en unknown
-
2014
- 2014-10-09 WO PCT/EP2014/071695 patent/WO2015052295A1/en active Application Filing
Also Published As
Publication number | Publication date |
---|---|
DK2860314T3 (en) | 2016-01-25 |
EP2860314A1 (en) | 2015-04-15 |
WO2015052295A1 (en) | 2015-04-16 |
PL2860314T3 (en) | 2016-05-31 |
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