System and method for root loss reduction in wind turbine blades
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03D-001/06
F03D-011/00
출원번호
US-0328337
(2011-12-16)
등록번호
US-8936435
(2015-01-20)
발명자
/ 주소
Gupta, Anurag
Gopinath, Arathi Kamath
출원인 / 주소
General Electric Company
대리인 / 주소
Agosti, Ann M.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A wind turbine blade includes a root region. A first extension (LEX) is attached to the leading edge side of the root region while a trailing edge strake (TES) is attached to the trailing edge side of the root region. The LEX and TES each include an outer profile that becomes more pronounced relativ
A wind turbine blade includes a root region. A first extension (LEX) is attached to the leading edge side of the root region while a trailing edge strake (TES) is attached to the trailing edge side of the root region. The LEX and TES each include an outer profile that becomes more pronounced relative to their respective locations in the root region as the root region of the wind turbine blade morphs from a substantially cylindrical shape to a substantially airfoil shape. The LEX provides both optimal angle of attack and lift generation in the root region, while the TES mitigates airflow separation and enhances airfoil lift in the root region.
대표청구항▼
1. A wind turbine blade comprising: a root region comprising a circular portion, a leading edge side and a trailing edge side;an extension attached to the leading edge side of the root; anda strake retractably attached to the trailing edge side of the root region, wherein the strake is separate and
1. A wind turbine blade comprising: a root region comprising a circular portion, a leading edge side and a trailing edge side;an extension attached to the leading edge side of the root; anda strake retractably attached to the trailing edge side of the root region, wherein the strake is separate and distinct from the leading edge side extension (LEX), and further wherein the LEX provides both optimal angle of attack and lift generation in the root region, and further wherein the strake mitigates airflow separation and enhances airfoil lift in the root region, and further wherein the circular portion of the root region of the wind turbine blade comprises at least one opening for receiving at least a portion of the strake. 2. The wind turbine blade according to claim 1, wherein the LEX is attached to the leading edge side of the root section by adhesive material, mechanical devices, frictional force, or any combination of adhesive material, mechanical devices, and frictional force. 3. The wind turbine blade according to claim 1, wherein the strake is attached to the trailing edge side of the root region by adhesive material, mechanical devices, frictional force, or any combination of adhesive material, mechanical devices, and frictional force. 4. The wind turbine blade according to claim 1, wherein the LEX comprises a modular structure configured to be both quickly and easily attached and quickly and easily removed from the root region of a wind turbine blade. 5. The wind turbine blade according to claim 1, wherein the strake comprises a modular structure configured to be both quickly and easily attached and quickly and easily removed from the root region of a wind turbine blade. 6. The wind turbine blade according to claim 1, wherein the LEX comprises an outer profile that becomes more pronounced relative to the location of the LEX in the root region as the root region of the wind turbine blade morphs from a substantially cylindrical shape to a substantially airfoil shape. 7. The wind turbine blade according to claim 1, wherein the strake comprises an outer profile that becomes more pronounced relative to the location of the strake in the root region as the root region of the wind turbine blade morphs from a substantially cylindrical shape to a substantially airfoil shape. 8. The wind turbine blade according to claim 1, further comprising a pressure side and a suction side, wherein at least a portion of the strake is retractable, and further wherein the pressure side, the suction side, or both the pressure side and the suction side of the wind turbine blade comprise one or more openings configured to receive at least a portion of the strake as the strake is partially or fully retracted into the one or more openings. 9. A wind turbine blade comprising: a root region attached to a rotor disk portion of a wind turbine, the root region comprising a circular portion, a leading edge side and a trailing edge side;a leading edge extension (LEX) attached to the leading edge side of the root section, the extension configured to provide an enhanced lift coefficient and reduced flow separation in the root section; anda trailing edge strake (TES) that is and distinct from the LEX and that is retractably attached to the trailing edge side of the root region, the TES configured to provide enhanced lift to drag ratio in the root region, reduced flow separation in the root region, or both enhanced lift to drag ratio and reduced flow separation in the root region, wherein the LEX and TES together are configured to reduce radial centrifuging of flow slipping through the rotor disk portion of the wind turbine without extraction of energy, and further wherein the circular portion of the root region of the wind turbine blade comprises at least one opening for receiving at least a portion of the TES. 10. The wind turbine blade according to claim 9, wherein the LEX is attached to the leading edge side of the root region by adhesive material, mechanical devices, frictional force, or any combination of adhesive material, mechanical devices, and frictional force. 11. The wind turbine blade according to claim 9, wherein the strake is attached to the trailing edge side of the root region by adhesive material, mechanical devices, frictional force, or any combination of adhesive material, mechanical devices, and frictional force. 12. The wind turbine blade according to claim 9, wherein the TES comprises a modular structure configured to be both quickly and easily attached and quickly and easily removed from the root region of a wind turbine blade. 13. The wind turbine blade according to claim 9, wherein the strake comprises a modular structure configured to be both quickly and easily attached and quickly and easily removed from the root region of a wind turbine blade. 14. The wind turbine blade according to claim 9, wherein the LEX comprises an outer profile that becomes more pronounced relative to the location of the LEX in the root region as the root region of the wind turbine blade morphs from a substantially cylindrical shape to a substantially airfoil shape. 15. The wind turbine blade according to claim 9, wherein the TES comprises an outer profile that becomes more pronounced relative to the location of the TES in the root region as the root region of the wind turbine blade morphs from a substantially cylindrical shape to a substantially airfoil shape. 16. The wind turbine blade according to claim 9, further comprising a pressure side and a suction side, wherein at least a portion of the strake is retractable, and further wherein the pressure side, the suction side, or both the pressure side and the suction side of the wind turbine blade comprise one or more openings configured to receive at least a portion of the strake as the strake is partially or fully retracted into the one or more openings. 17. A wind turbine blade comprising: a root region comprising a circular portion, a leading edge side and a trailing edge side;a leading edge extension (LEX) attached to the leading edge side of the root region; anda trailing edge strake (TES) that is separate and distinct from the LEX and that is retractably attached to the trailing edge side of the root region, wherein the LEX and TES each comprise an outer profile that becomes more pronounced relative to their respective locations in the root region as the root region of the wind turbine blade morphs from a substantially cylindrical shape to a substantially airfoil shape, and further wherein the circular portion of the root region of the wind turbine blade comprises at least one opening for receiving at least a portion of the TES. 18. The wind turbine blade according to claim 17, wherein the LEX is configured to provide both optimal angle of attack and lift generation in the root region, and further wherein the strake or TES is configured to mitigate airflow separation in the root region, enhance airfoil lift in the root region, and enhance mix out of wakes and vortices in the root region. 19. The wind turbine blade according to claim 17, wherein both the LEX and TES are attached to the root region of the wind turbine blade by adhesive material, mechanical devices, frictional force, or any combination of adhesive material, mechanical devices, and frictional force. 20. The wind turbine blade according to claim 17, wherein the LEX and TES together comprise a modular structure configured to be both quickly and easily attached and quickly and easily removed from the root region of a wind turbine blade. 21. The wind turbine blade according to claim 17, further comprising a pressure side and a suction side, wherein at least a portion of the strake is retractable, and further wherein the pressure side, the suction side, or both the pressure side and the suction side of the wind turbine blade comprise one or more openings configured to receive at least a portion of the strake as the strake is partially or fully retracted into the one or more openings.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (6)
Dehlsen, James G. P., Extendable rotor blades for power generating wind and ocean current turbines within a module mounted atop a main blade.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.