GB2353825A

GB2353825A - Wind turbine tower having rotatable shroud/fairing

Info

Publication number: GB2353825A
Application number: GB9920611A
Authority: GB
Inventors: David Lovett Ewbank Teal
Original assignee: Individual
Current assignee: Individual
Priority date: 1999-09-01
Filing date: 1999-09-01
Publication date: 2001-03-07
Also published as: GB9920611D0

Abstract

A shroud or fairing 1, surrounds the tower 3, of a wind turbine, is attached to a nacelle2, and is free to rotate about the tower axis. The shroud is shaped (figure 1) such that approaching airflow is deflected to one side of the tower. Turbine blades 4, passing through the deflected airflow upwind of the tower, are less subject to undesirable, noise-producing angles of attack.

Description

2353825 WIND TURBINE NOISE REDUCER This invention relates to a way of

modifying the support towers of horizontal axis wind turbines so as to reduce the noise produced each time a rotor blade passes it.

Horizontal axis wind turbines produce noise in several ways. Most of these sources emit sound at relatively high frequencies, which are quickly attenuated. Noise produced as each rotor blade passes through the zone of airflow disturbed by the presence of the support tower, however, contains low-frequency components which are less rapidly attenuated and can be a nuisance to people living, working or relaxing nearby. Airflow in the zone upstream of the tower is influenced both by the tower and by the rotor blades. These influences are superposed on natural wind variability.

An object of this invention is to modify the pattern of airflow around the tower in such a way as to avoid a rapid increase in the angle of attack experienced by the blades passing through it. In this way, transient stalling or incipient stalling and associated turbulent wake enIargenent may be avoided.

Accordingly, this invention provides a full or partial shroud or fairing around the circularsectioned tower, so shaped as to cause approaching airflow to be deflected more to one side than the other. This shroud is free to rotate about the vertical axis of the tower and is fixed to the turbine nacelle such that it will rotate with it as it yaws to face the wind direction.

Preferably the shroud is made of corrugated metal or plastic sheeting, but it may instead be made from glass reinforced plastic mouldings or other material according to cost and durability requirements.

A preferred embodiment of the invention will now be described with reference to the accompanying drawing.

FIGURE 1 shows the airflow streamlines around a tower with and without a shroud.

FIGURE 2 shows the effect of varying the rotor blade angle of attack.

FIGURE 3 shows a side view of a wind turbine with shroud attached.

As shown in Figure 1, the airflow approaching a tower without a shroud presents varying angles to the path of the blade, 4. This variation results in the angle of attack, a, becoming successively less than, greater than and then once again equal to the angle of attack experienced for the remainder of the blade's revolution. In contrast, airflow approaching a tower with a shroud is deflected as indicated by the streamlines, 7. In this case, the angle of attack is always less than or equal to the angle experienced for the remainder of the revolution. thus avoiding incipient or actual transient stalled conditions. i Figure 2 shows how the change in airflow approach angle affects the angle of attack, cc.

As shown in Figure 3, the shroud, 1, is wed to and supported from the nacelle, 2. It is fre( rotate about the vertical axis of the tower, 3, while being held steady by bands, 5, of low-f material spaced at intervals up the towe'r, 3. The rotor blades, 4, rotate a short distance of the shrouded tower, 3. The access doorway, 6, is unimpeded.

2

Claims

1 A shroud or fairing around a wind turbine tower, attached to the nacelle and free to rotate about the tower axis.

2. A shroud as claimed in Claim 1 where the profile is so shaped as to deflect the airflow to one side of the tower.

3. A shroud as claimed in Claim 2 where the deflection of the airflow prevents the turbine rotor blades from experiencing excessive angles of attack.

4. A shroud as claimed in Claim 3 where reduced noise is produced.

5. A shroud as claimed in Claim 3 where less periodic fluctuation in noise is produced.

6. A shroud as claimed in Claim 1 or Claim 2 which is made from corrugated or otherwise profiled metal or plastic sheeting.

7. A shroud substantially as herein described and illustrated in the accompanying drawings 1

7. A shroud as claimed in Claim 1 or Claim 2 which is made from glass reinforced plastic mouldings.

8. A shroud substantially as herein described and illustrated in the accompanying drawings.

Amendments to the claims have been filed as follows CLAIMS 1. A shroud or fairing around the tower of a horizontal axis wind turbine, attached to the nacelle and free to rotate about the tower axis, and so shaped as to deflect the approaching airflow to one side of the tower, against the direction of approaching rotor blades. - 2. A shroud as claimed in Claim 1 where the deflection of the airflow is such that the moving rotor blades largely avoid experiencing transient increases in their angle of attack as they pass the tower.

3. A shroud as claimed in Claim 2 which has the effect of reducing noise emission. 4. A shroud as claimed in Claim 2 where the periodic fluctuation in noise at blade-passing frequency is reduced.

5. A shroud as claimed in Claim 1 or Claim 2 which is made from corrugated or otherwise stiffened metal Or plastic sheeting.

6. A shroud as claimed in Claim 1 or Claim 2 which is made from glass reinforced plastic mouldings.