This application claims priority to and takes the benefit of German Patent Application 10 2018 104 329.5 filed on Feb. 26, 2018, the contents of which are herein incorporated by reference.
The invention relates to a method for foundation of a transformer platform and transformer platform with at least three piles. The invention also relates to the transformer platform, which is preferably installed by such a method and has at least three piles, and to a foundation for carrying out the method.
Transformer platforms are necessary due to the expansion of wind power in the offshore sector. The current generated by the individual wind turbines is transformed on the transformer platforms and is brought to land from there by a cable. Transformer platforms or converter platforms are installed in particular in the North Sea off the west coast of Germany. The area is characterised by extremely high and energy-laden waves in comparatively shallow water. Known foundation structures such as jackets have a high degree of obstruction and therefore due to their design absorb high loads, so that they are heavy and as a result are expensive. It is known to provide pile foundations for transformer platforms, in the foundation of which a jig is arranged on the seabed and the piles are driven through the jig into the seabed. For this purpose a plurality of different pile drivers are used.
A disadvantage of the known driving method is that they do not function sufficiently precisely or they are relatively complex.
In a first aspect, the object of the present invention is to improve an aforementioned method for foundation of a transformer platform and, in a second aspect, to provide an improved transformer platform and, in a third aspect, to provide an improved foundation set which can provide a foundation for the transformer platform according to the invention.
The method according to the invention makes use of the idea of using precisely one pile driver which is brought to the location and is supported on the seabed by means of extendable supporting legs. The pile driver can be a jack-up platform or the like, which preferably has a crane and a hammer.
The term “driving” should be understood here very generally; for example, driving should also be understood as drilling. A pile driver can also be understood here as a drill or a drilling rig.
Jigs are attached to the pile driver. The jigs can be arranged externally or internally on a platform of the pile driver, the relative spacing of the jigs with respect to one another corresponds precisely to the position of the piles of the transformer platform on the seabed, and the piles are each individually driven successively and vertically into the seabed.
The piles are in each case inserted through an associated driving jig of the transformer platform. They are advantageously swung out vertically.
The piles are preferably driven successively into the seabed whilst the position of the pile driver is maintained. Preferably the supporting legs of the pile driver are not changed during the entire operation of driving all the piles. The piles driven into the seabed remain level with or above the driving jig associated with them. “Top” and “bottom” relate to orientations away from or towards the seabed.
It is also conceivable that a group of piles is driven into the seabed whilst the position of the pile driver is maintained and the pile driver is then reset and again a group of piles is driven into the seabed. Then the platform is placed onto all piles.
Next, the supporting legs of the pile driver are retracted and the pile driver with retracted supporting legs is moved away from the location. After being driven in, the upper ends of the piles project above the surface of the sea, preferably all at an identical height. The relative spacings of the upper ends of the piles relative to one another corresponds exactly to the relative spacings of supports of an upper platform part which is placed on top of the ends of the piles. Advantageously the piles are driven into the seabed until the upper ends are arranged at most at the height of the driving jig, preferably arranged+3 m, preferably +2 m, preferably up to +1 m, preferably +0.5 m, above the driving jig. The upper ends are not driven through the driving jig. The arrangement of the driving jigs corresponds exactly to the relative arrangement of the supports of the platform upper part and also the contact points of the piles with the seabed in a horizontal plane.
The upper platform part, which is brought to the location and at the location is placed onto the upper ends of the piles, is advantageously arranged on a framework which is arranged on a pontoon. When it is brought to the location the underside of the upper platform part has a height above the surface of the sea which is greater than the height of all the ends of the piles above the surface of the sea. The pontoon is lowered after the upper platform part has been moved above the piles and placed onto the ends of the piles. In this case the pontoon is arranged relative to the piles so that, when the upper platform part is lowered, supports on the underside of the upper platform part are located exactly on the ends of the piles.
In a second aspect the object is achieved by the above-mentioned transformer platform with the features of at least four piles which are driven parallel to one another into the seabed (9).
It is preferably installed by one of the above-mentioned methods, and conversely one of the above-mentioned methods is suitable for installation of the transformer platform.
The transformer platform has at least four piles which are driven parallel to one another into the seabed. The single structural connection between the piles is the upper platform part. Naturally, the piles are connected to one another in a certain way by means of the seabed, but within the context of the invention this is not a structural connection between the piles.
According to the invention the upper platform part rests on upper ends of the piles, and thus in particular the piles are not lowered laterally in guides or held laterally in guides of the upper platform part, but the platform has an underside with preferably upwardly closed receptacles which rest on the upper ends of the piles.
In the third aspect, the object is achieved by a foundation set for a transformer platform which initially consists of a pile driver. For example in the form of a lifting platform, and a pontoon with a framework.
The pile driver has arranged on it driving jigs which are fixed to one another. The relative arrangement of the driving jigs corresponds exactly to the arrangement of piles of the transformer platform in the installed state in a horizontal cross-section, that is to say the relative arrangement of the contact points of the piles with the seabed considered only in the horizontal extent. The driving jigs are preferably all arranged at the same height above the seabed on the fitted pile driver.
The pile driver advantageously has a hammer by which each of the piles can be driven through the associated driving jig into the seabed. The hammer is intended for driving all piles. The pile driver has supporting legs which make it possible to support the pile driver on the seabed at the location and thus to prevent a displacement of the pile driver during driving of the at least four, preferably five or any higher number of piles.
The supporting legs of the pile driver are all advantageously retractable and extendable. The extended supporting legs support a platform of the pile driver on the seabed, so that the platform can be lifted out of the sea by means of a jacking system or the like. With the supporting legs retracted, the pile driver is preferably floatable, so that it can be moved away from the location after the piles have been driven in.
Next the pontoon is moved with the upper platform part between the piles and is brought into position, so that above the ends of the piles the supports on the underside of the upper platform part for the piles are arranged exactly vertically above the ends of the piles. By lowering of the pontoon, for example by flooding of water tanks, the platform is lowered, and the supports are positioned exactly on the upper ends of the piles. Advantageously, the pile driver likewise has precisely the same number of driving jigs as piles.
The driving jigs can be adapted in their position for the respective transformer platform, i.e. their position on the pile driver can be changed. In their changed position they are then again arranged in a fixed position on the pile driver during the foundation work.
The invention is described with reference to an exemplary embodiment in seven drawings. In the drawings:
The methods according to the invention are described by way of example with reference to
First of all the method according to the invention is described. It makes use of a foundation set which comprises a pile driver 1, for example in the form of a jack-up platform, as well as a pontoon 2 on which a framework 3 is arranged and on which in turn an upper platform part 4 of a transformer platform 6 to be installed can be arranged. First of all the pile driver 1 is brought to the location. The pile driver 1 itself can be floatable, and for this purpose it has retracted supporting legs 7 and a floatable platform 8.
However, the pile driver 1 can also be brought to the location by means of a barge or the like. The pile driver 1 is arranged in a predetermined manner at the location, i.e. in a predetermined orientation relative to the seabed 9, and then the supporting legs 7 of the pile driver 1 are lowered, so that the pile driver 1 is supported on the seabed 9. The platform 8 can be lifted out of the water by means of jacking systems.
According to
In particular, no jig on the seabed 9 is necessary for foundation of the piles 12.
The pile driver 1 has a crane 13 with a hammer 14 according to
After the piles 12 have been driven in, according to
The pontoon 2 is dimensioned in such a way that according to
The lowering of the pontoon 2 can take place by flooding of water tanks. The flooding is represented by two arrows in
Number | Date | Country | Kind |
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10 2018 104 329.5 | Feb 2018 | DE | national |
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Number | Date | Country | |
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20190264408 A1 | Aug 2019 | US |