NO20221228A1 - A floating foundation for an offshore wind turbine, a system for extracting energy from wind, and a method of installing a wind turbine - Google Patents

Description

A FLOATING FOUNDATION FOR AN OFFSHORE WIND TURBINE, A SYSTEM FOR EXTRACT-ING ENERGY FROM WIND, AND A METHOD OF INSTALLING A WIND TURBINE

Field of invention

The present invention relates to the field of foundations for constructions, and in particular to the field of foundations for offshore wind turbines. It relates to a device, a system and a method for supporting a floating wind turbine.

Background

There is an ongoing effort towards renewable energy. As part of this ongoing effort, considerable investments and technological advancements are being made in the technological area of offshore wind-energy extraction.

To harvest energy from wind offshore, it may be desirable to erect wind turbines on deep waters. For such a purpose, floating foundations may be highly desirable.

There exist already numerous examples of floating wind-turbine foundations. One example is known from WO 2004061302 A2, wherein a floating foundation for wind turbines is disclosed, where the foundation essentially comprises at least three submerged buoyancy bodies connected to the lower end of the wind turbine.

Hywind is another example of a floating foundation, which comprises a spar buoy as a base for a wind turbine. The Hywind spar buoy is heavy and inflexible, making installation challenging.

An object of the invention is to remedy or to reduce at least one drawback of prior art.

P29065NO01 description and claims, divisional application

Summary of the invention

According to a first aspect of the invention, there is provided a floating foundation for an offshore wind turbine, the floating foundation comprising a centre pipe, a buoyancy section, a weight section, and a plurality of tensioned wire ropes,

wherein:

- the buoyancy section is fixed to an upper end portion of the centre pipe for providing buoyancy to the foundation to keep the foundation floating;

- the weight section is fixed to an opposite, lower end portion of the centre pipe for providing stability to the foundation; and

- the plurality of tensioned wire ropes are connected to the buoyancy section and the weight section for adding bending strength to the foundation.

The wire ropes may be fibre ropes, steel wire ropes, chains, hybrid ropes such as ropes comprising a mixture of steel and fibre, or other types of ropes suitable for the purpose. Adding bending strength through the use of said plurality of tensioned wire ropes, allows for a relatively lightweight design having the sufficient structural strength, and in particular the sufficient support against bending forces, for supporting a wind turbine.

At least one or more of the plurality of tensioned wire ropes may extend from an outer portion of the buoyancy section to a portion of the weight section. All of the plurality of tensioned wire ropes may extend from an outer portion of the buoyancy section to the weight section. The one or more or all of the tensioned wire ropes may extend to e.g. an upper, lower, outer, middle and/or inner part of the weight section.

The wires may be connected to the buoyancy section and the weight section by use of means and methods known to a skilled person, such as by use of typical wire sockets. The wires may be connected to the weight section by use of means that may be operated by an ROV, e.g. by use of a fork mounting.

The centre pipe may be open in its lower end portion, to allow water into the centre pipe. A pipe being closed in the bottom will have to resist water pressure, and water pressure may add upwards force on the pipe from the bottom of the pipe which may not be de-

P29065NO01 description and claims, divisional application

sired. For purposes related to stability of the foundation, it may be advantageous to avoid adding buoyancy to the centre pipe from the bottom portion of the pipe. Having the centre pipe open in its lower end portion may advantageously allow for an at least partially hollow centre pipe, which may allow for a more lightweight foundation than would be needed had the end portion been closed.

The buoyancy section may be a section having a relatively low specific gravity, significantly lower than the specific gravity of water, thus providing buoyancy to the foundation and keeping the foundation afloat. The buoyancy added to the foundation from the buoyancy section, through a combination of the size and specific gravity of the buoyancy section, should be sufficient to ensure that the foundation may float even while carrying a wind turbine onto the foundation. Note that other parts than the buoyancy may add buoyancy to keep the foundation afloat.

The buoyancy section may comprise a ring being concentric with the centre pipe. The ring may be made from or comprise pressurised composite and/or steel or another suitable type of metal, or a pressurized RIB material. The buoyancy section may be e.g. substantially toroid-shaped, conically shaped, cylinder-shaped or torus-shaped, or have any other shape suitable for the purpose. The buoyancy section may be centred around the centre pipe. The buoyancy section may have a centre hole that may have a substantially circular shape to allow for the centre pipe to extend through the hole. The centre hole may have another shape than a circular shape.

The weight section may be a section having a relatively high specific gravity, significantly higher than that of water. The weight section may be relatively small in area and volume but may still be of considerable mass. The weight section may have a significantly smaller diameter than the buoyancy section. The weight section may improve the stability of the foundation when placed in a body of water through the force of gravity pulling on the weight section and thus pulling the lower end portion of the centre pipe downwards.

The weight section may comprise a plurality of prefabricated elements that may be connected to the lower portion of the centre pipe upon installation e.g. at sea or at a port.

P29065NO01 description and claims, divisional application

The weight section may comprise one or more tanks that may be filled by material of high specific gravity, such as e.g. iron ore or heavy concrete.

The foundation may comprise a platform. The platform may be an access platform and/or a working deck. The platform may be connected to the foundation.

The foundation may comprise a plurality of hoisting means such as winches or other means for pulling in or letting out wire rope, so as to alter the distance of the weight section from the buoyancy section and thus raising or lowering the centre pipe. The winches may typically be placed on the buoyancy section and may typically be arranged for pulling in or letting out the wire ropes connecting the buoyancy section to the weight section. This may be advantageous, e.g. for assembly of the foundation, for launching the foundation in a dock where the water depth is insufficient for a fully lowered centre pipe, for installation of a wind turbine on the foundation, for maintenance of the wind turbine, and more. The foundation may further comprise means for releasably and selectively locking the centre pipe in a position.

By using the hoisting means to move the distance between the buoyancy section and the weight section, it is possible to alter the centre of gravity of the foundation. This may be of advantage for many different reasons, including for transportation and/or for launching of the foundation, for installation of a wind turbine, and/or for maintenance of the foundation or a wind turbine installed on the foundation.

In a second aspect of the invention, there is provided a system comprising the foundation according to the first aspect of the invention, wherein the system further comprises a wind turbine for extracting energy from the wind standing on the foundation.

The system may further comprise means for anchoring the foundation to a seabed. The means may comprise one or more anchors and one or more wire ropes, such as fibres, wires or chains or a combination of different types of wire ropes, connecting the foundation to the anchors. The one or more anchors may be connected to the weight section, the buoyancy section and/or to the centre pipe of the foundation by use of one or more wire ropes.

P29065NO01 description and claims, divisional application

A top end of the centre pipe or a separate tubular member extending from the centre pipe may extend above the buoyancy section and be used to connect a mast of the wind turbine to the foundation. The mast may be connected by use of means and methods known to a skilled person.

In a third aspect of the invention, there is provided a method of installing a wind turbine. The method may comprise the following steps:

- providing the foundation according to the first aspect of the invention;

- installing a mast of the wind turbine onto the foundation, and connecting it to the centre pipe;

- installing a nacelle on a upper portion of the mast; and

- mounting a plurality of rotor blades onto the nacelle.

In embodiments where the foundation comprises hoisting means for raising and lowering the centre pipe, the method may further comprise the steps of:

- lowering the centre pipe and as a result also the mast prior to installing the mast, the nacelle and the plurality of rotor blasts;

- raising the centre pipe after installing the mast, the nacelle and the plurality of rotor blasts, and thereby raising the wind turbine.

There is also described a method of performing maintenance on a wind turbine, the method comprising the steps of:

- lowering the centre pipe and as a result also the wind turbine;

- performing maintenance on the wind turbine;

- raising the centre pipe and thereby raising the wind turbine.

The lowering and raising of the centre pipe may be performed by use of the hoisting means. The lowering and raising may be performed by increasing and decreasing, respectively, a length of wire rope released from each of a plurality of winches, to increase the distance between the buoyancy section and the weight section.

There is further described a method of launching a floating foundation for a wind turbine, wherein the method comprises the steps of:

P29065NO01 description and claims, divisional application

- providing the foundation according to the first aspect of the invention, the foundation comprising the hoisting means;

- keeping the weight section in a raised position; and

- launching the foundation into a sea.

There is further described a method of transporting a floating foundation for a wind turbine, wherein the method comprises the steps of:

- providing the foundation according to the first aspect of the invention, the foundation comprising the hoisting means;

- keeping the weight section in a raised position; and

- transporting the foundation.

The transporting of the foundation may be transporting at sea, on land or in the air. The raised position is a position where the weight section is closer to the buoyancy section than it will typically be in when installed at sea, prior to or subsequently to instalment of a wind turbine.

The foundation may use the hoisting means to raise the weight section to its raised position by raising the centre pipe. The hoisting means may subsequently be used to lower the weight section to an operational position by lowering the centre pipe.

It may be advantageous to keep the weight section closer to the buoyancy section for reasons related to e.g. balance and/or stability during transport, and/or to enable launching of the foundation into a sea at a port where the depth of water is not sufficient to receive the foundation with the weight section in its operational position.

It may be advantageous to keep the wires tensioned/prestressed while raising or lowering the centre pipe, to avoid swinging motions and/or to keep the structure stable.

The foundation may include a jack for keeping the wires tensioned during raising or lowering of the centre pipe. The methods may include the step of using the jack to keep the wires tensioned during raising or lowering of the centre pipe.

P29065NO01 description and claims, divisional application

The mast may comprise of a plurality of sections. The sections of the mast may be installed one after the other, with the bottom section typically being installed first and the top section being installed last. The nacelle may typically be installed onto the top section subsequently of installing the top section onto the other sections of the mast.

The centre pipe may be lowered and/or raised a plurality of times during the installation. The pipe may be held in/locked into a plurality of different positions. One such position may be a lowest possible position. Another position may be a highest possible position. Other positions may be intermediary positions, between the two extreme positions.

The installation procedure may be a highly advantageous installation procedure, as it may allow for installation of e.g. nacelle and blades at a lower height than that of a fully erect mast. As a result, the installation may be less demanding with regards to e.g. lifting equipment than it would be had it not been possible to lower the mast during the installation.

The tensioning of the wire ropes may add compression to the centre pipe, which may increase the bending strength and/or otherwise improve the stability of the foundation. The tensioned wire ropes may be prestressed.

The centre pipe may have an uneven outer diameter but may advantageously have an even outer diameter along its length. The centre pipe may have an even inner diameter but may advantageously have an uneven inner diameter along its length. It may be advantageous for the centre pipe to have uneven thickness along its length. It may e.g. be advantageous for the centre pipe to be thicker in a vertical middle portion of the pipe than in e.g. a lowermost or uppermost portion. However, the centre pipe may be thicker in an uppermost or in a lowermost portion. The thickness may advantageously be greater in the middle portion e.g. for the centre pipe to withstand buckling.

The foundation according to the invention may typically have a centre pipe that is longer and reaching a greater depth of water than other foundations known from prior art, thus holding the weight section at a comparably greater depth. This allows for moving a gravity

P29065NO01 description and claims, divisional application

point downwards and providing the necessary stability to support a wind turbine in a more lightweight design than what is known from prior art.

Embodiment description

In the following is described examples of preferred embodiments illustrated in the accompanying drawings, wherein:

Fig.1 shows a side-view of an embodiment of the foundation according to the first aspect of the invention;

Fig.2 shows a side-view of the system according to the second aspect of the invention; and

Fig.3 shows a side-view of the system according to the second aspect of the invention, with the centre pipe lowered by use of hoisting means.

Note that the embodiments shown in the figures are mere examples of the invention, and that they are not necessarily drawn to scale. Other embodiments being configured differently from those shown in the figures may be within the scope of the invention according to the claims.

Figure 1 shows a foundation 1 according to the first aspect of the invention, having a centre pipe 110, a buoyancy section 120, a weight section 130 and a plurality of tensioned wire ropes 140 connecting the buoyancy section 120 to the weight section 130. The buoyancy section 120 and the weight section 130 are both concentric with the centre pipe 110.

The buoyancy section 120 has an upper portion 121 and a lower portion 122, wherein the diameter of the upper portion 121 is greater than that of the lower portion 122. The plurality of wire ropes 140 are fastened to the upper portion 121 of the buoyancy section 120 and extend from the upper portion 121 to a middle portion 131 of the weight section 130.

P29065NO01 description and claims, divisional application

The buoyancy section 120 adds buoyancy to the foundation 1, enabling the foundation 1 to stay afloat while supporting a wind turbine (not shown). The weight section 130 adds weight to a bottom section of the centre pipe 110, thereby providing a centre of gravity that improves the stability of the foundation 1.

Should forces be affecting the foundation 1 in a manner that makes the foundation 1 tilt, the weight section 130 by help of gravity will provide stability by counteracting the tilt. A tilt will swing the bottom section of the centre pipe 110 upwards. The force of gravity, however, will act on the weight section 130, pulling it downwards, thereby counteracting the upwards movement, and thereby counteracting the tilt.

Furthermore, in the case of a tilting foundation 1, the forces to tilt the foundation are likely mainly forces acting on an above-water portion of the foundation 1, typically from a wind turbine installed on the foundation 1. The forces will make the foundation 1 tilt, and a force will then be transferred through the centre pipe 110 from the above-water portion of the foundation 1 and act on the weight section 130 to lift the weight section 130. The centre pipe 110 will act to lift the weight section 130, acting against the force of gravity pulling the weight section 130 downwards. This will cause a bending load on the centre pipe 110. The plurality of wire ropes 140 will provide structural strength to the foundation 1 and particularly bending strength for foundation 1 to withstand bending loads. By providing said plurality of wire ropes 140, some strain from bending loads will be moved from vulnerable portions of the centre pipe 110 to one or more of the plurality of wire ropes 140.

Figure 2 shows the foundation 1 supporting a wind turbine 2 including a mast 201 and three blades 202. The foundation 1 is relatively, compared to prior art, lightweight and compact, which is made possible by the inventive use of the plurality of wire ropes 140 that adds bending strength to the structure.

Figures 2 and 3 shows the foundation 1 in an embodiment where it comprises a plurality of winches 150 for lowering and raising the centre pipe by letting out or pulling in a length of the plurality of wire ropes 140. The figures show a wind turbine 200 with a mast 201, a nacelle 203 and blades 202 mounted on the foundation 1. In Figure 2, the wind turbine

P29065NO01 description and claims, divisional application

200 is in a fully raised position. In Figure 3, the winches 150 have let out a length of wire rope 140, such that the centre pipe 110 and the wind turbine 200 has been lowered.

Although the wire ropes 140 are shown in the figures extending inwards towards the centre pipe 110 from their connection to the buoyancy section 120 to their connection to the weight section 130, they may be connected in an inverse fashing; extending outwards towards the centre pipe 110 from their connection to the buoyancy section 120 to their connection to the weight section 130.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design many alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. Use of the verb "comprise" and its conjugations does not exclude the presence of elements or steps other than those stated in a claim. The article "a" or "an" preceding an element does not exclude the presence of a plurality of such elements.

The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

P29065NO01 description and claims, divisional application

Claims (10)

C l a i m s

1. A floating foundation for an offshore wind turbine, the floating foundation comprising a centre pipe, a buoyancy section, a weight section, and a plurality of tensioned wire ropes,

wherein:

- the buoyancy section is fixed to an upper end portion of the centre pipe for providing buoyancy to the foundation to keep the foundation floating;

- the weight section is fixed to an opposite, lower end portion of the centre pipe for providing stability to the foundation; and

- the plurality of tensioned wire ropes are connected to the buoyancy section and the weight section for adding bend portioning strength to the foundation.

2. The floating foundation according to claim 1, wherein at least one or more of the plurality of tensioned wire ropes extend from an outer portion of the buoyancy section to the weight section.

3. The floating foundation according to claim 1 or 2, wherein the buoyancy section comprises a ring being concentric with the centre pipe.

4. The floating foundation according to any one of the preceding claims, wherein the centre pipe is open in its lower end portion, so as to allow water into the centre pipe.

5. The floating foundation according to any one of the preceding claims, further comprising a plurality of hoisting means for lowering or raising the centre pipe of the floating foundation.

6. The floating foundation according to claim 5, wherein the plurality of hoisting means is a plurality of winches for letting out or pulling in wire rope for increasing or decreasing a length of wire rope of each of the plurality of wire ropes connecting the buoyancy section and the weight section, for lowering or raising the centre pipe of the floating foundation.

P29065NO01 description and claims, divisional application

7. The floating foundation according to any one of the preceding claims, wherein the floating foundation comprises a selectively releasable locking mechanism for locking the centre pipe in a position.

8. A system for extracting energy from wind, comprising the floating foundation according to any one of the preceding claims and a wind turbine.

9. A method of installing a wind turbine comprising the following steps:

- providing the foundation according to any one of claims 1-7;

- installing a mast onto the foundation, and connecting it to the centre pipe; - installing a nacelle on a upper portion of the mast; and

- mounting a plurality of rotor blades onto the nacelle.

10. The method according to claim 9, wherein the foundation is provided with hoisting means for raising and lowering the centre pipe, the method further comprising the steps of:

- lowering the centre pipe and as a result also the mast by use of the hoisting means prior to installing the mast, the nacelle and the plurality of rotor blades; - raising the centre pipe by use of the hoisting means after installing the mast, the nacelle and the plurality of rotor blades, and thereby raising the wind turbine.

P29065NO01 description and claims, divisional application