NL1035907C - DEVICE FOR SUPPORTING AN OFFSHORE WIND TURBINE. - Google Patents

Description

Device for supporting an offshore wind turbine

The invention relates to a device for supporting an offshore wind turbine, which device consists of: a first fixed support structure anchored in or on the seabed; a platform placed on the fixed support structure that is rotatable about the vertical axis of this fixed support structure; - a second floating support structure; a mast placed on the floating support structure with the wind turbine rotor mounted thereon; a connecting element with which the floating support structure is connected to the rotatable platform on the fixed support structure in such a way that the floating support structure can rotate about the vertical axis of the fixed support structure 20 and can also move in the vertical direction due to differences in the water level to be able to follow; a conversion system for generating electrical energy, at least consisting of an electrical generator and the connection for the connection to the electricity grid; a transfer system with which the rotation energy generated on the floating support structure by the rotor of the wind turbine is transferred to the conversion system for generating electric energy, wherein the conversion system for generating electric energy is wholly or partly located on the rotating platform on the fixed support structure.

1 03 5 907 35 2

Wind turbines are used to convert the flow energy of air into electrical energy. The construction consists, inter alia, of a vertical mast and a gondola mounted rotatably on this mast about its longitudinal direction, which bearing a rotor 5, which is rotatable about an axis extending substantially perpendicular to the longitudinal direction of the mast. With the rotor shaft, the rotor is connected to the system for conversion to electrical energy, whatever system is in the gondola.

Wind turbines are installed on land worldwide.

10 Placement in open water or at sea in wind farms is, however, on the rise. It has been experienced with wind turbines installed on land that regular maintenance of mast, vanes and gondola is required. Wind turbines installed at sea are considerably less accessible for these maintenance work.

Wind turbines installed at sea are usually placed on a fixed support structure anchored on or in the ground. Typical constructions are: the 'monopile', where a thick-walled round tube is driven into the bottom; - the 'gravity based' foundation, which is sunk on the seabed and ensures stability on the basis of its mass; a 'tripod' structure, in which the support structure is mounted on three legs anchored in the bottom.

These usual fixed support structures for offshore wind turbines have a number of limitations. Large forces act on the supporting structure as a result of, among other things, the bending load exerted by the wind and the varying load caused by the sea going. The fixed structure must therefore be of a sufficiently heavy design to withstand these loads. With larger wind turbines, this leads to disproportionately high use of materials and size limits are reached due to limitations in production, transport and installation.

3

The present invention has for its object to obviate the drawbacks of the usual fixed constructions for placing wind turbines at sea. The most important improvement that is achieved is that heavy and maintenance-sensitive parts of the system for conversion to electrical energy are no longer placed at the top of the wind turbine, but can be placed lower closer to sea level. As a result, the loads on the wind turbine can be considerably reduced and existing restrictions on production, transport and installation are shifted to larger wind turbines. Furthermore, conditions are created with the invention such that maintenance work on offshore wind turbines can be carried out with simpler means.

This is achieved according to the invention by combining a support structure fixed to the seabed with a floating support structure. The wind turbine is located on the floating support structure with the aid of which the wind energy is converted into rotational energy. The floating support structure, with the wind turbine on it, is coupled to the fixed support structure in such a way that, following the wind direction, it can rotate about the vertical axis of the fixed support structure and can also follow the wave movements and the differences in level of the seawater in the vertical direction. . The wind pressure drives the rotor of the wind turbine and therefore the floating support structure to the leeward side of the fixed support structure. As a result, a spinning mechanism for directing the wind turbine to the prevailing wind direction is superfluous. On the fixed support structure, the heavy components of the conversion system for generating electrical energy, including the connection for the connection to the electricity grid, can be placed above sea level. A transfer system transfers the rotational energy of the rotor on the floating support structure to the conversion system for electrical energy, which can be wholly or partially located on a rotatable platform on the fixed support structure. This transfer system can be designed as a fully mechanical system, in which a more or less flexible shaft, directly or via a gearbox, forms the connection from rotor to the electric generator. An alternative transfer system makes use of hydraulics and consists of a combination of a wind pump driven hydropump, which is located on the floating support structure and a hydromotor which drives the electric generator on the fixed support structure, if necessary with the interposition of an gearbox. Pump and motor with flexible hoses are interconnected for transporting the hydraulic fluid.

If so-called 'direct drive' generators are used, the transfer system may in the future be discontinued. This type of generator can be coupled directly to the rotor shaft. The weight of this type of generator, however, is so high that application in conventional wind turbines fixedly fixed on the seabed could lead to large fixed support structures that are practically impossible to achieve. With a combination of a floating support structure with a fixed support structure according to the invention, offshore application of 'direct drive' generators comes within reach.

The invention will now be elucidated with reference to the accompanying drawings of three exemplary embodiments, to which the invention is not limited. Show in the drawings:

Figure 1 shows a first exemplary embodiment of the device with a mechanical system for transferring energy from the rotor to the conversion system.

Figure 2 shows a second exemplary embodiment of the device 30 with a hydraulic system for transferring energy from the rotor to the conversion system.

Figure 3 shows a third exemplary embodiment of the device with the use of a 'direct drive' generator.

Figure 1 shows a first fixed support structure 1 anchored in or on the seabed and a second floating support structure 2. A platform 3 is placed on the fixed support structure 5, which platform can rotate about the vertical axis of the fixed support structure 1 and is secured against movement in the vertical direction. The fixed and floating support structure are mutually connected by means of connecting element 4. Connecting element 4 is hingedly connected to the floating supporting structure 2. On the fixed supporting structure 1, the connecting element 4 is hingedly connected to the platform that is rotatable around the fixed supporting structure 3. Platform 3 and 10 connecting element 4 together form a connection between the fixed support structure 1 and the floating support structure 2, wherein the floating support structure can rotate about the vertical axis of the fixed support structure and can also move in the vertical direction due to height differences due to water level and wave movements to follow. Connecting element 4 is shown in simplified form in Figure 1, but in practice it will preferably be designed as a framework or pipe construction. Figure 1 further shows a wind turbine 5 placed on the floating support structure, consisting of mast 6 with the rotor 7 mounted thereon. The rotor shaft 8 is supported with bearing 9 on mast 6. On the platform 3 of the fixed support structure 1 is a conversion system 10 for the generation of electrical energy is placed, which system consists of gearbox 11 and generator 12. Figure 1 further shows a more or less flexible shaft 13 which transfers the rotational energy from rotor 7 to gearbox 11. In the exemplary embodiment shown in Figure 1 one gear box 11 placed on the fixed support structure 1 included. Under certain conditions it may be an advantage to accommodate the acceleration to the speed desired for the generator in two separate gear boxes, one of these boxes being located at the rotor of the turbine.

Figure 2 shows a second exemplary embodiment of the device according to the invention with a hydraulic system for transferring energy from the rotor to the conversion system.

6

The rotational energy of the rotor 7 is used for driving a hydropump 14. Hydropump 14 is connected by means of supply and discharge hoses 15, respectively, to a hydromotor 16, which is located on the rotating platform 3 'of the fixed support structure 1. and drives generator 12 there via gearbox 11. Also with this transfer system it can be an advantage under certain conditions to realize part of the acceleration to the speed desired for the generator in a gear box 10 placed in front of the hydraulic pump 14.

Figure 3 shows a third exemplary embodiment of the device according to the invention with the use of a 'direct drive' generator. Owing to the large weight of this type of generator, offshore installation on a floating structure is necessary in the case of large electrical power in order not to encounter limitations in production, transport and installation. Figure 3 shows wind turbine 5 'with the' direct drive 'generator 17 directly coupled to rotor 7'. The floating support structure 2 is connected with connecting element 4 'to the rotating platform 3' on the fixed support structure 1, which functions as an anchor pole. Connection element 4 'can in principle be designed as a cable.

1035907

Claims (9)

A device for supporting an offshore wind turbine, which device comprises: a first fixed support structure anchored in or on the seabed; a platform placed on the fixed support structure, rotatable about the vertical axis of this fixed support structure and a second floating support structure; a mast placed on the floating support structure with the wind turbine rotor mounted thereon; 15. a connecting element with which the floating support structure is connected to the rotatable platform on the fixed support structure in such a way that the floating support structure can rotate about the vertical axis of the fixed support structure and can also move in the vertical direction to accommodate differences in follow water level; a conversion system for generating electrical energy, at least consisting of an electrical generator and the connection for the connection to the electricity grid; characterized in that the conversion system for generating electrical energy is wholly or partially located on the rotatable platform of the fixed support structure. A device for supporting an offshore wind turbine, which device comprises: 1035907 a first fixed support structure anchored in or on the seabed; a platform placed on the fixed support structure, rotatable about the vertical axis of this fixed support structure and a second floating support structure; a mast placed on the floating support structure with the wind turbine rotor mounted thereon; 10. a connecting element with which the floating support structure is connected to the rotatable platform on the fixed support structure in such a way that the floating support structure can rotate about the vertical axis of the fixed support structure and can also move in the vertical direction to accommodate differences in follow water level; a conversion system for generating electrical energy, at least consisting of an electrical generator and the connection for the connection to the electricity grid; characterized in that the conversion system for generating electrical energy consists of a 'direct drive' generator. 3. Device as claimed in claim 1, wherein the rotational energy of the rotor is transferred to the conversion system by means of a mechanical system. Device as claimed in claim 1, wherein the rotational energy of the rotor is transferred to the conversion system by means of a hydraulic system. 5. Device as claimed in claim 3, wherein the mechanical system consists of a more or less flexible shaft with which the rotation of the rotor is transferred to an gear box which is located on the platform of the fixed support structure and which forms part of the conversion system. Device as claimed in claim 4, wherein the hydraulic system comprises a hydraulic pump driven by the rotor shaft, and a hydraulic motor placed on the platform of the fixed support structure, with which the conversion system is driven. 7. Device as claimed in any of the foregoing claims, wherein a part of the acceleration of the rotation is realized by a gear box coupled directly to the rotor shaft. Device as claimed in claim 2, wherein the 'direct drive' generator is placed in line with the rotor shaft. 9. Device as claimed in claim 2, wherein the 'direct drive' generator is placed on the platform of the fixed support structure and the rotation of the rotor is transferred to the generator by a more or less flexible shaft. 1035907