DE102005003972A1 - Offshore-wind turbine foundation, has tower stabilized in its position by cable wirings and joint provided as connection between tower pedestal/tower lower side and bearing pole and allowing slight tilting movements of foundation supports - Google Patents

Abstract

The foundation has a tower pedestal (3) with a rotor-supported tower that is stabilized in its position by three cable wirings (8), which run from bracings in sea bottom to the pedestal. A joint (5) is provided as a connection between the pedestal or tower lower side and a bearing pole. The joint allows slight tilting movements of foundation supports in bracing condition of the wirings and takes up horizontal forces of the supports. An independent claim is also included for a method of manufacturing a foundation of an offshore-wind turbine.

Description

Technical area

The Task concerns the foundation of offshore wind turbines.

Offshore wind turbines have a mast with rotor located on it. This mast is placed on a substructure made of those in the seabed Share and above existing structures exists. Today common foundations of offshore wind turbines are monopiles, tripods, heavyweight foundations and modifications from that. These solutions are elaborate and become at greater depth very expensive.

It is envisaged, although not yet implemented, to stabilize the central mast of offshore wind turbines by means of cable ties against wind and waves. The state of the art for this purpose is in the EP 1 270 848 A1 and the EP 1 399 631 B1 described.

n the EP 1 270 848 A1 the notifying party reports on the verbal communication to him concerning the possibility of an articulated foot of the central mast of an offshore wind turbine on a gravity foundation. For articulated footsteps of offshore supply towers, complicated solutions are known ( EP 0072898 A1 , DE-C-2549859).

Object of the invention

task The invention is a foundation constructions an offshore wind turbine specify with Seilabspannungen, especially at greater depths of water produced inexpensively can be. The object of the invention is also one for such Plant suitable manufacturing process.

Presentation of the invention

The The object is specified by that in the characterizing part of claim 1 Characteristics solved.

essential A feature of the invention is the use of a particular suitable joint as a connection between a mast pedestal, which receives the upper rotor-carrying mast part and a substructure, e.g.

Flat foundations or Deep foundation.

Prefers is that the Joint simply consists of two mating parts and the upper part of the joint is lowered on the lower part centered on the joint itself.

The Joint is located in an area between the seabed and approximately the water surface, preferably a few meters above the seabed. Although likely it may well be slightly above the water surface, it is preferred however, if the joint is below the lowest tidal water surface lies. Even cheaper it is, if it is at least so deep that it is still of water is covered when a very deep wave trough over it emotional. Because then almost no wave forces on the substructure below of the joint.

The layer height of the joint also depends, according to lever laws and parallelogram of forces, then, at which point the cable ties on the upper movable Part of the mast pedestal or the mast are attached.

Should the cable ties are protected against damage by a ship, their anchoring points on the mast are at least as deep below the water surface, as it corresponds to the draft of the ship. Accordingly, the joint must even lower than these anchoring points to favorable leverage ratios for the To create rope tensioning.

The The joint is very simple and consists of a pan and head, so to speak an "open joint", and is not on Train resistant, such as joints described as state of the art for offshore supply towers.

This allows The upper part of the mast is easy to install after the substructure has been installed and without installation effort on the lower part articulated.

Besides that is it is preferred if the pan represents the upper part of the joint, because then sand and other grinding filth finds no dip to to deposit in the joint.

The However, joint is not a real motor joint. Is the mast once exhausted, the movements are minimal. you are but big enough to prevent movements of the mast pedestal located above the joint in the founding (e.g., a monopile) and anchoring it in the ground loosen.

The But joint must be able to horizontal forces transferred to. A simple ball head and matching pan make this. Other forms of joint are also possible.

The Seilabspannungen run from anchors in the seabed obliquely upward to the mast pedestal or the mast too. There are at least three Rope suspensions per mast provided. The bases of the cable ties create a triangle. The shape of the triangle, ie distance and position the foot points relative to the mast, can be adapted to the forces acting on the mast.

As well can the rope strength the expected forces customized become. The ropes lead preferably through the wall of the mast pedestal or mast in one Cavity (clamping chamber). There you can they are individually and controlled biased and later at Need also be re-tensioned.

Of the Place of execution through the wall is preferably sealed, so that the clamping chamber, even if it is below sea level, either through a bilge pump or anhydrous by compressed air held / made and can be committed by persons.

Prefers are in the clamping chamber and sensors attached to the ropes, to allow the train to be measured on the ropes.

In another preferred embodiment is located there is also an alarm system, the unscheduled deviations of the tension of Ropes forwarded to a supervisory authority.

The elongated anchorages of the base points of the cable ties can either about extend in rope direction in the seabed, or at an angle to.

at Anchors that extend along the ropes can be an otherwise common one Kolkschutz omitted, because with such aligned anchorages no harmful Horizontal forces up through currents exposed parts of the anchor act.

Prefers the anchorages are designed as driven piles.

At the At the end of the ropes are connectors that fit into the cavity of this piles (Pipes) introduced and preferably get caught on train inside the pile. (Eg through extensions or recesses on these connectors and inside the pole. There are also similar constructions those in bicycle handlebars possible.) As a result, when tensioning the Seilabspannungen an immediate initial load capacity guaranteed on train. The mast pedestal or mast is then already provisionally stabilized. Subsequently The connectors are frictionally with the piles connected, z. B. by pouring in a composite.

is the bond between connectors and piles are sufficiently strong from the tensioning chamber, the cable suspensions to nominal preload dressed.

One A method for establishing a foundation according to the invention of a wind turbine sees before, all components, including the piles, in one step on a pontoon ship or floating at the site to bring the centric pressure pile and the Zugpfähle to the Places or other anchorages to install the mast base with its hinge part on the Articulated part of the centric pressure pile set up (preferred this lower joint part only after driving the pressure pile as Cap fitted), the connectors of the ropes temporarily with the tow piles or anchors to connect the other end of the ropes in the clamping chamber respectively, and there to fix the ropes under low tension, and the To keep the mast base provisionally in position. The pontoon ship can then already to the place of the next founding continue. The final Tensioning and fixing the foundation post can be made more cost effective later Auxiliary boats made out.

Of the but centric pressure pile must not necessarily a stake. It can also be a different one act kind foundation on top of the joint connection is.

1 shows an example of the example of an asymmetrically guyed wind turbine with a mast, which is mounted on a mast base via flange connection. The guyed mast base sits on a pressure pile on a ball / socket joint.

1

mast

2

flange

3

Mast pedestal

4

flute

5

joint

6

pressure pile

7

tension pile

8th

wire tensioning

9

joint

10

Sea level

Claims (11)

Establishment of an offshore wind energy plant, which has a mast base with the rotor-carrying mast, wherein the mast by at least 3 Seilabspannungen, which run from anchors in the seabed to mast or mast, is stabilized in its position, and has a joint as a connection between mast base or mast bottom and pressure pile in the contact point, which allows slight tilting movements of the foundation support in the stressed state of Seilabspannungen, and horizontal forces Supports the foundation. founding an offshore wind turbine according to claim 1, characterized in that that the joint consists only of head and pan and is not designed tensile strength. founding an offshore wind turbine according to at least one of claims 1 and 2, characterized in that the Joint only a mobility of less than 45 degrees from the vertical having. founding an offshore wind turbine according to at least one of claims 1 to 3, characterized in that the Joint at least 10 meters below the water surface and maximum 10 meters above the seabed. founding an offshore wind turbine according to at least one of claims 1 to 4, characterized in that the Substructure of the mast pedestal or mast lower part below the Joint is a pile that brings deep into the seabed is. founding an offshore wind turbine according to at least one of claims 1 to 4, characterized in that the Substructure of the mast pedestal or mast lower part below the Joint is a gravity foundation, a caisson or a tripod, at the top of the lower hinge part of the joint or a mast piece located with attached lower hinge part. founding an offshore wind turbine according to at least one of claims 1 to 6, characterized in that the Mast pedestal or mast has a cavity in which the ropes the Seilabspannungen led into it are. founding an offshore wind turbine according to claim 7, characterized in that that in the cavity at least one tensioning device for the ropes is present. founding an offshore wind turbine according to at least one of claims 1 to 8, characterized in that the Have ropes at their ends facing the anchors connectors, which are connectable to the anchorages. founding an offshore wind turbine according to at least one of claims 1 to 9, characterized in that it the anchorages are essentially tubular piles. Process for producing a foundation of a Offshore wind power plant according to at least one of the claims 1 to 10, characterized in that from a jack-up platform first as a substructure the centric foundation element is made, then the anchorages for the cable ties are made, the connectors of the Ropes are provisionally connected with the anchors, the mast pedestal or mast mounted on the hinge part of the centric foundation element becomes, The ropes are inserted into the mast pedestal or mast, attached and provisionally biased, the connectors of the Rope suspensions final and be firmly attached to the anchorages - taking this step as well can only be done after the following the jackpot to the place of the next founding continues to travel and the rope suspensions later be set under target tension in a separate work step, whereupon the wind turbine fully loaded by wind and weather and if necessary by retightening the Seilabspannung newly adjustable is.