WO2012156352A1

WO2012156352A1 - Wind turbine system

Info

Publication number: WO2012156352A1
Application number: PCT/EP2012/058886
Authority: WO
Inventors: Werner NOPHUT
Original assignee: Dipl.-Ing. Werner Nophut Gmbh
Priority date: 2011-05-18
Filing date: 2012-05-14
Publication date: 2012-11-22
Also published as: DE102011050462A1

Abstract

The invention relates to a wind turbine system which contains a tower, a generator component which is horizontally rotatably arranged on the tower, a turbine which is connected to the generator component and has a plurality of blades, and a wind-guiding device provided on the tower. The wind-guiding device is mounted on the tower in such a way that it can rotate about the longitudinal direction of said tower.

Description

Wind turbine

The invention relates to a wind turbine, which includes a tower, a horizontal rotatably mounted on the tower generator component, a ^composite with the generator component ^¬ nes, several wings having wind turbine and a tower provided on the wind deflector.

Wind turbines are already known. They serve to convert the kinetic energy of the wind into electrical energy and feed it into the power grid. For this purpose, a wind turbine is ^¬ arranged at the upper end of a tower having a plurality of wings. The ^{kinetic ¬} energy of the wind acts on the wings of the wind turbine and puts the wind turbine in a rotary motion. The wind turbine transmits the rotational energy to a generator also located on the tower, which converts this energy into electrical energy. The generator is usually arranged together with a gear in a so-called nacelle, which is horizontally rotatably mounted on the tower and is subjected together with the wind turbine by means of a sensor-controlled drive a Windrichtungsnachführung. Such a nacelle is always referred to as a generator ^component following ^¬ .

In such a wind turbine, the blades of the wind turbine are exposed to an air flow. The Luftströ ^¬ flow conditions always when the jewei ^¬ leaf blades passing the tower to change. In this case, turbulences of the air or Luftströmungsgradienten act on the respective wing. Due to this rapid change in the aerodynamic load on each wing generates acoustic pulses, which undesirably causes noise emission.

This rapid change in the aerodynamic load on the respective wing also undesirably affects the bearings of the wind turbine. These are subject to high wear, which leads to high maintenance costs for the wind turbine. This is particularly disadvantageous in offshore installations, d. H. Wind turbines that operate on the open sea.

From DE 10 2008 063 874 AI a wind energy plant is known, which has arranged on a hub rotor blades and a generator connected to the hub up. The hub is designed as a hollow shaft. This improves torque transmission from the wind turbine to the generator.

From DE 10 2008 002 930 Al a wind power machine is known, which has a tower which supports a drive ^¬ strand with a rotor. At least one wing ^¬ it extends radially from the rotor. The wing has meh ^¬ eral flaps, extending from a suction surface of the Flü ^¬ gels and along different chord lines in the vicinity of a tip of the blade, to reduce the sound emissions at the Be ^¬ drive of the wind power engine occurring.

From DE 28 04 711 C2 a wind turbine is known, which has a rigid tower construction. On obe ^¬ ren end of the tower structure a wind turbine is provided with a housing which carries a propeller assembly with two or three blades. The propeller assembly is mounted on a substantially horizontal axis supported in bearings in the housing. Furthermore, the known wind power machine has flat plates in a helically wound around the tower from bottom to top winding web, the plates in the Are mounted substantially radially from the tower standing outward. The plates are joined together to form a continuous helix extending from the tower section in the length of a propeller blade. The coil catches the wind and forces a wind flow to the slipstream. Lee side of the tower. This flow affects the

Vibrations of the propeller blades when they pass through the tower during their rotation. It is thereby achieved that, instead of the developed from the propeller during its rotation roaring or buzzing noise which would constantly ver without changing the helix-mentioned ^¬, noise occurs in the form of a Dröhnschalles constant tone.

The object of the invention is to provide a wind turbine ^¬ system, in which the forces acting on the wings of a wind turbine aerodynamic loads are further reduced.

This object is achieved by a wind turbine with the features specified in claim 1. According to the present invention, a wind power plant, which egg ^¬ nen tower, a horizontally rotatably arranged on the tower generator component, a ver ^¬ connected with the generator component, several wings exhibiting wind turbine and a tower provided on the wind deflector comprises, formed from ^¬ , the wind deflector is rotatably mounted on the tower about the longitudinal axis of the tower.

As a result, it is advantageously achieved that the air flow occurring during operation is guided in such a way that it passes through the tower without turbulence of the air occurring. At least such Verwirbelungen compared to the prior art are significantly reduced. This in turn has the consequence that the noise emissions occurring in operation of the wind turbine are reduced in an advantageous manner, that on the bearings of the Wind turbine mechanical load is reduced, that the wear of the bearings is reduced and that the maintenance or repair costs of the wind turbine are reduced.

Further advantageous features of the invention will become apparent from the following exemplary explanation with reference to FIGS. It shows

Figure 1 is a sketch of a wind turbine according to the He ^¬ invention and

Figure 2 is a cross-sectional view of the wind turbine according to Figure 1 along the section line A-A shown in Figure 1.

FIG. 1 shows a sketch of a wind power plant according to the invention. This wind turbine comprises a tower 2, a rotation about the longitudinal axis of the tower in this Gela siege wind deflector 3, a on the tower horizontally rotatably mounted generator component 4, one end connected to the Ge ^¬ neratorbauteil 4, a plurality of wings 6a and a hub 5 exhibiting pinwheel 6 on. The length 1 of the wind ^¬ guide element 3 is preferably greater than or equal to the length of the wings 6a of the wind turbine. Preferably, the wind deflector 3 consists of a single section. However, it may also consist of several sections which either adjoin one another in the axial direction of the tower or are also spaced from each other.

According to a further embodiment, the length 1 of the wind deflector 3 is smaller than the length of the blades of the wind turbine and the wind deflector is arranged in an axial region of the tower, which is adjacent to the wing tip region of the wing which is currently rotating past the tower. Wind turbines are usually equipped with a Windrichtungsnachführung the wind turbine, depending on the output signals of a wind direction sensor tracking the positioning of the wind turbine 6 such that its position is adapted to the current wind direction, so that the impact of the wind is optimized for the blades of the wind turbine.

According to an advantageous embodiment of the invention, the wind deflector 3 is mechanically coupled with this Windrichtungsnachführung the wind turbine, so that with each change in position of the wind turbine 6 and an associated change in position of the wind deflector 3, ie a movement of the wind deflector 3 in one of the current wind direction adapted rotational position, connected is. In this embodiment, the wind deflector does not need its own, individually assigned drive. According to another embodiment of the invention, the wind deflector 3 is associated with its own drive, which ensures in dependence on the output signals of a wind direction sensor that the Windleitvor ^¬ direction 3 is brought into a current wind direction adapted rotational position.

The wind deflector preferably has a symmetrical structure, so that their production can be carried out in a simple manner. Alternatively, however, it is also possible to equip the wind deflector with an asymmetrical structure in order to optimize the effect of the wind deflector.

FIG. 2 shows a cross-sectional view of the wind power plant shown in FIG. 1 along the dashed line AA indicated in FIG. From the figure 2 it can be seen that in the direction of the arrows shown flowing wind 9 meets a wing 6a and that of The wind flowing past the wing is derived from the wind deflector 3 of the type such that it does not ^strike the tower 2 but is guided past it. Furthermore, it can be seen from FIG. 2 that, according to one embodiment of the invention, the wind deflector 3 is fastened to a rotatable bearing 7, which is rotatable about the tower 2. An embodiment in which the wind deflector 3 is formed asymmetrically, is indicated in the figure 2 by the reference numeral 8.

In a wind turbine, which is equipped according to the present invention with a rotatable about the longitudinal direction of the tower mounted on this wind deflector, is advantageously prevented that during the rotation of a wing of the wind turbine of these wings is exposed to a flow deficit, which by flow gradients or by turbulence of the air flow is generated at the tower. Since, due to the use of a rotatable about the longitudinal axis of the tower rotatably mounted on this wind deflector no rapid changes of the aerodynamic load acting on the wings, also a generation of interfering acoustic pulses is reduced. In particular, of pre ^¬ part that due to a use of a rotatable about the longitudinal axis of the tower ^¬ supported on this wind-it prevents turbulence in the tower shadow occur and thus lead to greater load changes and high sound sources. Reference sign list

1 wind turbine

2 tower

3 wind deflector

4 generator unit

5 hub

6 pinwheel

6a wings

7 rotatable mounting of the wind deflector

8 wind deflector

9 wind

1 length of the wind deflector

Claims

claims

A wind turbine (1) comprising a tower (2), a generator component (4) rotatably mounted horizontally on the tower, a wind turbine (6) connected to the generator component, a plurality of wings (6a) and a wind deflector (3) provided on the tower ), characterized in that the Windleitvorrichtung (3) is rotatably mounted on the longitudinal direction of the tower at this.

2. Wind turbine according to claim 1, characterized in that the wind deflector (3) has a symmetrical structure.

3. Wind turbine according to claim 1, characterized in that the wind deflector (3) has an asymmetrical structure.

4. Wind turbine according to one of the preceding claims, characterized in that the wind deflector ^¬ device (3) is mechanically coupled to the wind direction tracking of the wind turbine.

5. Wind deflector according to one of claims 1 - 3, characterized in that it has one of the wind deflector (3) individually associated drive.

6. Wind turbine according to one of the preceding claims, characterized in that the length (1) of the wind deflector (3) is equal to or greater than the length of the blades of the wind turbine.

7. Wind turbine according to one of the preceding claims, characterized in that the wind deflector ^¬ device (3) consists of several sections, which in Axial direction of the tower connect to each other or are spaced from each other.

8. Wind turbine according to one of claims 1-5, characterized in that the length (1) of the wind deflector (3) is smaller than the length of the blades of the wind turbine and the wind deflector is arranged in an axial region of the tower, which is the area of the wing tip the wing adjacent to the tower is adjacent.

9. Wind power plant according to one of the preceding claims, characterized in that the wind deflector ^¬ device (3) is fixed to a rotatable about the tower bearing (7).