Wind turbine blade with noise reduction devices and related method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03D-001/06
F03D-001/00
출원번호
US-0118094
(2012-05-14)
등록번호
US-9581133
(2017-02-28)
우선권정보
EP-11166249 (2011-05-16)
국제출원번호
PCT/EP2012/058906
(2012-05-14)
§371/§102 date
20140306
(20140306)
국제공개번호
WO2012/156359
(2012-11-22)
발명자
/ 주소
Yao, Qingshan
출원인 / 주소
LM WINDPOWER A/S
대리인 / 주소
Nath, Goldberg & Meyer
인용정보
피인용 횟수 :
3인용 특허 :
10
초록▼
The present disclosure relates to a wind turbine blade, in particular a wind turbine blade having devices or structures for reducing noise generated by the wind turbine blade during use and related method. The wind turbine blade comprises at least a first longitudinal section having a cross section
The present disclosure relates to a wind turbine blade, in particular a wind turbine blade having devices or structures for reducing noise generated by the wind turbine blade during use and related method. The wind turbine blade comprises at least a first longitudinal section having a cross section perpendicularly to a longitudinal direction, the cross section having a plurality of flow modulating devices including a first primary flow modulating device and a secondary flow modulating device for modulating noise spectra, wherein the first primary flow modulating device and the first secondary flow modulating device are spaced perpendicularly to the longitudinal direction. Also disclosed is a method of retrofitting a wind turbine blade.
대표청구항▼
1. A wind turbine blade for a wind turbine rotor having a substantially horizontal rotor shaft, the rotor comprising a hub, from which the wind turbine blade extends substantially in a radial direction when mounted to the hub, the wind turbine blade extending in a longitudinal direction parallel to
1. A wind turbine blade for a wind turbine rotor having a substantially horizontal rotor shaft, the rotor comprising a hub, from which the wind turbine blade extends substantially in a radial direction when mounted to the hub, the wind turbine blade extending in a longitudinal direction parallel to a longitudinal axis and having a tip end and a root end, the wind turbine blade further comprising a profiled contour including a pressure side and a suction side, as well as a leading edge and a trailing edge with a chord having a chord length extending there between, the profiled contour, when being impacted by an incident airflow, generating a lift,the wind turbine blade further comprising at least a first longitudinal section having a cross section with a first plurality of projecting elements provided at the trailing edge on said pressure side, said first plurality of projecting elements forming a first serrated trailing edge of the wind turbine blade, and a second plurality of projecting elements provided at the trailing edge on said suction side, said second plurality of projecting elements forming a second serrated trailing edge of the wind turbine blade, said first plurality of projecting elements spaced from said second plurality of projecting elements in a flapwise direction,wherein said first plurality of projecting elements are arranged to perform a first modulation operation of a boundary layer flow of the pressure side of the blade, wherein said second plurality of projecting elements are arranged to perform a second modulation operation of a boundary layer flow of the suction side of the blade, said first and second modulation operations operable to reduce operational noise of the wind turbine blade, andwherein said first plurality of projecting elements and said second plurality of projecting elements are arranged such that said first modulation operation is different to said second modulation operation. 2. The wind turbine blade as claimed in claim 1, wherein a shape of said first plurality of projecting elements is different to a shape of said second plurality of projecting elements, such that said first modulation operation is different to said second modulation operation. 3. The wind turbine blade according to claim 1, wherein at least one of said first plurality of projecting elements and said second plurality of projecting elements comprises a base and at least one protruding element and is arranged as a panel, strip or tape extending along the first longitudinal section. 4. The wind turbine blade according to claim 1, wherein said first plurality of projecting elements forms a first serrated edge having a first spatial frequency, and said second plurality of projecting elements forms a second serrated edge having a second spatial frequency, wherein said first spatial frequency is different to said second spatial frequency. 5. The wind turbine blade according to claim 1, wherein said first plurality of projecting elements forms a first serrated edge having a first inter-serration vertex angle, and said second plurality of projecting elements forms a second serrated edge having a second inter-serration vertex angle, wherein said first inter-serration vertex angle is different to said second inter-serration vertex angle. 6. The wind turbine blade according to claim 1, wherein said first plurality of projecting elements forms a first serrated edge having a first serration length, and said second plurality of projecting elements forms a second serrated edge having a second serration length, wherein said first serration length is different to said second serration length. 7. The wind turbine blade according to claim 1, wherein said first plurality of projecting elements forms a first serrated edge, and said second plurality of projecting elements forms a second serrated edge, wherein said first serrated edge is offset in the longitudinal direction from said second serrated edge. 8. The wind turbine blade according to claim 1, wherein said first plurality of projecting elements forms a first serrated edge, and said second plurality of projecting elements forms a second serrated edge, wherein said first serrated edge is offset in an edgewise direction from said second serrated edge. 9. The wind turbine blade according to claim 1, wherein said profiled contour comprises a blunt trailing edge, and wherein said first plurality of projecting elements are provided on a pressure side of said blunt trailing edge, and wherein said second plurality of projecting elements are provided on a suction side of said blunt trailing edge. 10. The wind turbine blade according to claim 1, wherein at least one of said first plurality of projecting elements and said second plurality of projecting elements are formed from a flexible material, said at least one first or second plurality operable to flex with the passage of wind over said at least one first or second plurality. 11. The wind turbine blade according to claim 1, wherein at least one of said first plurality of projecting elements and said second plurality of projecting elements are formed from a relatively stiff material, said at least one first or second plurality operable to resist flexing with the passage of wind over said at least one first or second plurality. 12. The wind turbine blade according to claim 1, wherein a first of said first plurality of projecting elements and said second plurality of projecting elements are formed from a relatively stiff material, and a second of said first plurality of projecting elements and said second plurality of projecting elements are formed from a relatively flexible material. 13. The wind turbine blade according to claim 1, wherein the first longitudinal section at least partly extends in the longitudinal direction at a distance from the root end in the range from 0.3L to L, where L is the length of the wind turbine blade. 14. A wind turbine comprising at least one wind turbine blade as claimed in claim 1. 15. A method of retrofitting a wind turbine blade extending in a longitudinal direction and having a tip end and a root end, the wind turbine blade further comprising a profiled contour including a pressure side and a suction side, as well as a leading edge and a trailing edge with a chord having a chord length extending there between, the profiled contour, when being impacted by an incident airflow, generating a lift, the method comprising: mounting a flow modulating system on the wind turbine blade, such that the wind turbine blade comprises at least one longitudinal section having a cross section and a plurality of flow modulating devices, wherein the at least one longitudinal section comprises a first longitudinal section having a cross section with a first plurality of projecting elements provided at the trailing edge on said pressure side, said first plurality of projecting elements forming a first serrated trailing edge of the wind turbine blade, and a second plurality of projecting elements provided at the trailing edge on said suction side, said second plurality of projecting elements forming a second serrated trailing edge of the wind turbine blade, said first plurality of projecting elements spaced from said second plurality of projecting elements in a flapwise direction,wherein said first plurality of projecting elements are arranged to perform a first modulation operation of a boundary layer flow of the pressure side of the blade, wherein said second plurality of projecting elements are arranged to perform a second modulation operation of a boundary layer flow of the suction side of the blade, andwherein the shape of said first plurality of projecting elements is different to the shape of said second plurality of projecting elements, such that said first modulation operation is different to said second modulation operation.
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이 특허에 인용된 특허 (10)
van der Bos, Roelant; Starke, Andreas G. W., Fastening device for rotor blade component.
Vijgen Paul M. H. W. (Hampton VA) Howard Floyd G. (Hampton VA) Bushnell Dennis M. (Wicomico VA) Holmes Bruce J. (Newport News VA), Serrated trailing edges for improving lift and drag characteristics of lifting surfaces.
Tobin, James Robert; Herr, Stefan; Gobeli, William Max, Attachment method and system to install components, such as tip extensions and winglets, to a wind turbine blade.
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