Wind turbine blade with submerged boundary layer control means comprising crossing sub-channels
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0733410
(2008-08-29)
|
등록번호 |
US-8550787
(2013-10-08)
|
우선권정보 |
EP-07388065 (2007-08-31) |
국제출원번호 |
PCT/DK2008/000310
(2008-08-29)
|
§371/§102 date |
20100629
(20100629)
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국제공개번호 |
WO2009/026926
(2009-03-05)
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발명자
/ 주소 |
- Fuglsang, Peter
- Bove, Stefano
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
5 |
초록
▼
A wind turbine blade having a longitudinal direction with a root end and a tip end as well as a chord extending in a transverse direction between a leading edge and a trailing edge is described. The blade comprises a flow control surface with a suction side and a pressure side. A number of boundary
A wind turbine blade having a longitudinal direction with a root end and a tip end as well as a chord extending in a transverse direction between a leading edge and a trailing edge is described. The blade comprises a flow control surface with a suction side and a pressure side. A number of boundary layer control structures are formed in the flow control surface. The boundary layer control structures include a channel submerged in the flow control surface with a first end facing towards the leading edge and a second end facing towards the trailing edge of the blade. The channel further comprises a bottom surface extending from the first end to the second end. The channel at the first end comprises a first channel zone comprising a first sub-channel having a first cross-sectional area and a second sub-channel having a second cross-sectional area, the first sub-channel and the second sub-channel crossing each other at a point of crossing.
대표청구항
▼
1. A wind turbine blade (10) having a longitudinal direction with a root end (16) and a tip end (14) as well as a chord extending in a transverse direction between a leading edge (18) and a trailing edge (20), the blade (10) comprising a flow control surface with a suction side and a pressure side,
1. A wind turbine blade (10) having a longitudinal direction with a root end (16) and a tip end (14) as well as a chord extending in a transverse direction between a leading edge (18) and a trailing edge (20), the blade (10) comprising a flow control surface with a suction side and a pressure side, characterised in that a plurality of boundary layer control means (40) is formed in the flow control surface, wherein the boundary layer control means (40) include a channel submerged in the flow control surface (112; 212; 312; 412; 512; 612; 712) with a first end facing towards the leading edge (18) and a second end facing towards the trailing edge (20) of the blade (10), the channel comprising a bottom surface (106; 206; 306; 406; 506) extending from the first end (102; 202; 302; 402; 502; 602; 702) to the second end (104; 204; 304; 404; 504; 604; 704), and wherein the channel at the first end (102; 202; 302; 402; 502; 602; 702) comprises a first channel zone (122; 222; 322; 422; 522) comprising a first sub-channel (118; 218; 318; 418; 518; 618; 718) having a first cross-sectional area and a second sub-channel (120; 220; 320; 420; 520; 620; 720) having a second cross-sectional area, the first sub-channel (118; 218; 318; 418; 518; 618; 718) and the second sub-channel (120; 220; 320; 420; 520; 620; 720) merging at a point of crossing. 2. The wind turbine blade according to claim 1, wherein the number of boundary layer control means (40) is arranged on the suction side of the blade. 3. The wind turbine blade according to claim 1, wherein the channel at the second end (104; 204; 304; 404; 504; 604; 704) comprises a second channel zone (124; 224; 324; 424; 524) having a shape so that vortices generated at the point of crossing can propagate in the transverse direction through the second channel zone (124; 224; 324; 424; 524). 4. The wind turbine blade according to claim 3, wherein the second channel zone (124; 224; 324; 424; 524) comprises a first sidewall (108; 208; 308; 408; 508; 608; 708) extending between the flow control surface (112; 212; 312; 412; 512; 612; 712) and the bottom surface (106; 206; 306; 406; 506), and a second sidewall (110; 210; 310; 410; 510; 610; 710) extending between the flow control surface (112; 212; 312; 412; 512; 612; 712) and the bottom surface (106; 206; 306; 406; 506), and wherein the first sidewall (108; 208; 308; 408; 508; 608; 708) and the second sidewall (110; 210; 310; 410; 510; 610; 710) are substantially parallel. 5. The wind turbine blade according to claim 4, wherein the first sidewall (108; 208; 308; 408; 508; 608; 708) and the second side wall is continuously connected to a sidewall of the first sub-channel (118; 218; 318; 418; 518; 618; 718) and a sidewall of the second sub-channel (120; 220; 320; 420; 520; 620; 720), respectively. 6. The wind turbine blade according to claim 3, wherein the second channel zone (124; 224; 324; 424; 524) comprises a first sidewall (108; 208; 308; 408; 508; 608; 708) extending between the flow control surface (112; 212; 312; 412; 512; 612; 712) and the bottom surface (106; 206; 306; 406; 506), and a second sidewall (110; 210; 310; 410; 510; 610; 710) extending between the flow control surface (112; 212; 312; 412; 512; 612; 712) and the bottom surface (106; 206; 306; 406; 506), and wherein the first sidewall (108; 208; 308; 408; 508; 608; 708) and the second sidewall (110; 210; 310; 410; 510; 610; 710) are diverging towards the trailing edge (18) of the blade. 7. The wind turbine blade according to claim 6, wherein the first sidewall (108; 208; 308; 408; 508; 608; 708) and the second side wall is continuously connected to a sidewall of the first sub-channel (118; 218; 318; 418; 518; 618; 718) and a sidewall of the second sub-channel (120; 220; 320; 420; 520; 620; 720), respectively. 8. The wind turbine blade according to claim 3, wherein the first channel zone (122; 222; 322; 422; 522) and the second channel zone (124; 224; 324; 424; 524) are separated by a sharp edge. 9. The wind turbine blade according to claim 1, wherein the first sub-channel and the second sub-channel cross each other at the point of crossing with an angle between 10 and 100 degrees. 10. The wind turbine blade according to claim 1, wherein the first channel zone (122; 222; 322; 422; 522) and the second channel zone (124; 224; 324; 424; 524) are separated by a sharp edge. 11. The wind turbine blade according to claim 1, wherein the first cross-sectional area is substantially the same as the second cross-sectional area. 12. The wind turbine blade according to claim 1, wherein the first cross-sectional area is different from the second cross-sectional area. 13. The wind turbine blade according to claim 1, wherein the second channel zone comprises a first additional sub-channel and/or a second additional sub-channel. 14. The wind turbine blade according to claim 1, wherein the first cross-sectional area and/or the second cross-sectional area is decreasing towards the trailing edge (18) of the blade. 15. The wind turbine blade according to claim 1, wherein a height of the channels is between 0.1% and 5% of the chord length. 16. The wind turbine blade according to claim 1, wherein the blade is divided into: a root region (30) with a substantially circular or elliptical profile closest to the root end,an airfoil region (34) with a lift generating profile furthest away from the root end and closest to the tip end, anda transition region (32) between the root region (30) and the airfoil region (34), the profile of the transition region (32) gradually changing in the radial direction from the circular or elliptical profile of the root region to the lift generating profile of the airfoil region. 17. The wind turbine blade according to claim 16, wherein the plurality of boundary layer control means (40) is provided in the airfoil region (34) only. 18. The wind turbine blade according to claim 16, wherein the plurality of boundary layer control means (40) is provided in the airfoil region (34) and the transition region (32). 19. A wind turbine rotor comprising two of the wind turbine blades according to claim 1. 20. A wind turbine comprising a wind turbine rotor according to claim 19. 21. A wind turbine comprising a number of blades according to claim 1. 22. The wind turbine blade according to claim 1, wherein a height of the channels is between 0.2% and 3.5%. 23. The wind turbine blade according to claim 1, wherein a height of the channels is between 0.5% and 2%. 24. The wind turbine blade according to claim 1, wherein the first sub-channel and the second sub-channel cross each other at the point of crossing with an angle between 20 and 95 degrees. 25. The wind turbine blade according to claim 1, wherein the first sub-channel and the second sub-channel cross each other at the point of crossing with an angle 25 and 90 degrees. 26. A wind turbine rotor comprising three of the wind turbine blades according to claim 1.
이 특허에 인용된 특허 (5)
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Rethorst Scott (South Pasadena CA), Laminar vortex pump system.
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Wheeler Gary O. (1080 Vallejo Cir. Costa Mesa CA 92626), Means for maintaining attached flow of a flowing medium.
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Bonnet, Laurent, Rotor blade for a wind turbine having aerodynamic feature elements.
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Farokhi Saeed (Lawrence KS) Taghavi Ray R. (Lawrence KS), Supersonic vortex generator.
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Gao Ge (Boca Raton FL), Surface for low drag in turbulent flow.
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