Asymmetric load control for torsion fatigue reduction in a wind turbine tower
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03D-007/04
F03D-011/04
F03D-007/02
출원번호
US-0628096
(2012-09-27)
등록번호
US-9551320
(2017-01-24)
발명자
/ 주소
Perley, Thomas Franklin
Gerber, Brandon Shane
출원인 / 주소
General Electric Company
대리인 / 주소
Dority & Manning, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A method and system for reducing a torsional movement and/or a torsional loading of a tower of a wind turbine is disclosed includes generating a tower torsion signal with a detection system and providing the signal to an asymmetric load control assembly. The tower torsion signal may correspond to an
A method and system for reducing a torsional movement and/or a torsional loading of a tower of a wind turbine is disclosed includes generating a tower torsion signal with a detection system and providing the signal to an asymmetric load control assembly. The tower torsion signal may correspond to an actual torsional movement of the tower or a torsional loading of the tower. The asymmetric load control assembly is configured to mitigate an asymmetric load acting on the wind turbine using the tower torsion signal.
대표청구항▼
1. A wind turbine, comprising: a lattice structure tower;a nacelle configured atop the tower;a rotor comprising a rotatable hub connected to a main shaft, and at least one rotor blade;a tower torsion detection system comprising a plurality of sensors circumferentially spaced about the lattice struct
1. A wind turbine, comprising: a lattice structure tower;a nacelle configured atop the tower;a rotor comprising a rotatable hub connected to a main shaft, and at least one rotor blade;a tower torsion detection system comprising a plurality of sensors circumferentially spaced about the lattice structure tower, the plurality of sensors operably configured to generate a tower torsion signal, wherein the tower torsion signal is at least one of: i) an actual torsional movement of the lattice structure tower, or ii) a torsional loading of the lattice structure tower; and,an asymmetric load control assembly communicatively coupled to the tower torsion detection system, the asymmetric load control assembly configured to: receive the tower torsion signal,determine at least one of a magnitude or an orientation of an asymmetric load acting on the wind turbine based on the tower torsional signal, andimplement a control action to mitigate the asymmetric load acting on the wind turbine based on at least one of the magnitude or the orientation of the asymmetric load acting on the wind turbine. 2. The wind turbine of claim 1, comprising at least three of the sensors circumferentially spaced apart in a common, generally horizontal plane around the lattice structure tower so as to detect the torsional loading or the torsional movement of the lattice structure tower. 3. The wind turbine of claim 2, wherein the sensors are one of an accelerometer, a pressure sensor, or a strain gauge. 4. The wind turbine of claim 1, wherein the wind turbine further comprises a rotor blade pitch control system, the asymmetric load control assembly in communication with the pitch control system to mitigate the asymmetric load acting on the rotor by altering a pitch angle of the rotor blade. 5. The wind turbine of claim 1, wherein the asymmetric load control assembly is configured to mitigate the asymmetric load based directly on the tower torsion signal. 6. The wind turbine of claim 1, wherein the asymmetric load control assembly further comprises a sensor configured to directly or indirectly detect bending of the main shaft due to asymmetric loading of the rotor, and to generate a corresponding asymmetric load signal, the asymmetric load control assembly configured to mitigate the asymmetric load using the asymmetric load signal and the tower torsion signal. 7. The wind turbine of claim 6, wherein the asymmetric load control assembly is further configured to: i) mitigate the asymmetric load directly based on the asymmetric load signal; and, ii) use the tower torsion signal for validating the asymmetric load signal. 8. A method of operating a wind turbine, the wind turbine including a rotor mounted to a nacelle atop a lattice structure tower, the rotor having a rotatable hub connected to a main shaft and at least one rotor blade, the method comprising: generating, via a plurality of tower torsion detection sensors circumferentially spaced about the lattice structure tower, a tower torsion signal, wherein the tower torsion signal is at least one of: i) an actual torsional movement of the lattice structure tower, or, ii) a torsional loading of the lattice structure tower;determining, via an asymmetric load control assembly, at least one of a magnitude or an orientation of an asymmetric load acting on the wind turbine based on the tower torsional signal; andmitigating the asymmetric load acting on the wind turbine based on at least one of the magnitude or the orientation of the asymmetric load acting on the wind turbine. 9. The method of claim 8, wherein mitigating the asymmetric load includes altering the pitch angle of the at least one rotor blade. 10. The method of claim 8, wherein mitigating the asymmetric load is performed directly based on the tower torsion signal. 11. The method of claim 8, further comprising directly or indirectly detecting bending of the main shaft due to asymmetric loading of the rotor and generating a corresponding asymmetric load signal, wherein the asymmetric load is mitigated using the asymmetric load signal and the tower torsion signal. 12. The method of claim 11, further comprising: mitigating the asymmetric load directly based on the asymmetric load signal; and, using the tower torsion signal for validating the asymmetric load signal. 13. A control system for a wind turbine, the wind turbine having a rotor mounted to a nacelle atop a lattice structure tower, the rotor having a rotatable hub connected to a main shaft and at least one rotor blade, the control system comprising: a tower torsion detection system comprising a plurality of sensors circumferentially spaced about the lattice structure tower, the plurality of sensors operably configured to generate a tower torsion signal, wherein the tower torsion signal is at least one of: i) an actual torsional movement of the lattice structure tower, or ii) a torsional loading of the lattice structure tower; and,an asymmetric load control assembly configured to: a) receive the tower torsion signal, b) determine at least one of a magnitude or an orientation of an asymmetric load acting on the wind turbine based on the tower torsional signal and, c) implement a control action to mitigate the asymmetric load acting on the rotor based on at least one of the magnitude or the orientation of the asymmetric load acting on the wind turbine. 14. The control system of claim 13, wherein the asymmetric load control assembly is configured to mitigate the asymmetric load based directly on the tower torsion signal. 15. The control system of claim 13, wherein the asymmetric load control assembly further comprises a sensor configured to directly or indirectly detect bending of the main shaft due to asymmetric loading of the rotor, and to generate a corresponding asymmetric load signal, the asymmetric load control assembly is configured to mitigate the asymmetric load using the asymmetric load signal and the tower torsion signal. 16. The control system of claim 13, wherein the asymmetric load control assembly is further configured to: i) mitigate the asymmetric load directly based on the asymmetric load signal; and, ii) use the tower torsion signal for validating the asymmetric load signal.
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이 특허에 인용된 특허 (3)
Pierce,Kirk G.; LeMieux,David Lawrence, Method and apparatus for wind turbine rotor load control.
Pierce,Kirk G.; LeMieux,David Lawrence; Blakemore,Ralph W., Method and apparatus for wind turbine rotor load control based on shaft radial displacement.
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