Methods and systems for reducing amplitude modulation in wind turbines
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03D-007/02
F03D-007/04
출원번호
US-0022502
(2013-09-10)
등록번호
US-9593668
(2017-03-14)
발명자
/ 주소
Delport, Sara Simonne L.
Honhoff, Saskia Gerarda
출원인 / 주소
General Electric Company
대리인 / 주소
Agosti, Ann M.
인용정보
피인용 횟수 :
0인용 특허 :
19
초록▼
A wind turbine system is presented. The wind turbine system includes a rotor comprising a plurality of blades and a hub, and a turbine controller configured to reduce an abnormal amplitude modulation of the wind turbine by adjusting pitch angles of the plurality of blades during a rotation of the ro
A wind turbine system is presented. The wind turbine system includes a rotor comprising a plurality of blades and a hub, and a turbine controller configured to reduce an abnormal amplitude modulation of the wind turbine by adjusting pitch angles of the plurality of blades during a rotation of the rotor based upon aerodynamic loads acting on the rotor.
대표청구항▼
1. A wind turbine system, comprising: a rotor comprising a plurality of blades and a hub;at least one sensing device for generating signals representative of aerodynamic loads acting on the rotor; anda turbine controller communicatively coupled to the at least one sensing device and configured to re
1. A wind turbine system, comprising: a rotor comprising a plurality of blades and a hub;at least one sensing device for generating signals representative of aerodynamic loads acting on the rotor; anda turbine controller communicatively coupled to the at least one sensing device and configured to reduce an abnormal amplitude modulation of the wind turbine by dynamically adjusting pitch angles of the plurality of blades during a rotation of the rotor based upon the signals representative of the aerodynamic loads acting on the rotor by:determining high aerodynamic loads, low aerodynamic loads, locations of the high aerodynamic loads on the rotor, and locations of the low aerodynamic loads on the rotor; anddynamically adjusting the pitch angles of the plurality of blades during the rotation of the rotor based upon one of the high aerodynamic loads, the low aerodynamic loads, the locations of the high aerodynamic loads on the rotor, the locations of the low aerodynamic loads on the rotor, and combinations thereof. 2. The wind turbine system of claim 1, wherein the turbine controller is configured to dynamically adjust the pitch angles of the plurality of blades by collectively adjusting the pitch angles of the plurality of blades to alter an average of the pitch angles or adjusting the pitch angles of the plurality of blades to maintain the average of the pitch angles as constant during the rotation of the rotor. 3. The wind turbine system of claim 1, wherein the dynamically adjusting the pitch angles of the plurality of blades during the rotation of the rotor based upon the high aerodynamic loads, the low aerodynamic loads, the locations of the high aerodynamic loads on the rotor, the locations of the low aerodynamic loads on the rotor, and combinations thereof, reduces an angle of attack on the locations of the high aerodynamic loads, and maintains constant or increases an angle of attack on the locations of the low aerodynamic loads. 4. The wind turbine system of claim 1, wherein the turbine controller is configured to dynamically adjust the pitch angles of the plurality of blades by adjusting the pitch angles of the plurality of blades based upon wind shear at a time stamp, details of a habitation located at a distance from the wind turbine system, positions of the plurality of blades with respect to a location of the habitation at the time stamp, and combinations thereof, wherein the turbine controller is further configured to determine the positions of the plurality of blades, and wherein the positions of the plurality of blades with respect to the location of the habitation at the time stamp comprises a noise-sensitive position and a noise-insensitive position. 5. The wind turbine system of claim 4, wherein the turbine controller is configured to adjust the pitch angles of the plurality of blades by changing a pitch angle of one or more of the plurality of blades towards feather when the one or more of the plurality of blades is acted upon by the high aerodynamic loads at the time stamp, and a position of the one or more of the plurality of blades at the time stamp during the rotation is the noise-sensitive position. 6. The wind turbine system of claim 4, wherein the noise-sensitive position comprises the position of the one or more of the plurality of blades that leads to substantial travelling of noise created by the one or more of the plurality of blades to the habitation. 7. The wind turbine of claim 4, wherein the position of the one or more of the plurality of blades is the noise-sensitive position or the noise-insensitive position based upon a plurality of factors comprising a direction of wind, a direction of rotation of the blade, the location of the habitation with respect to the position of the blade, the location of the habitation with respect to a position of a wind turbine having the blade, details of the habitation, or combinations thereof. 8. The wind turbine system of claim 4, wherein the turbine controller is configured to adjust the pitch angles of the plurality of blades by changing a pitch angle of one or more of the plurality of blades towards stall when the one or more of the plurality of blades is acted upon by the low aerodynamic loads, and the position of the one or more of the plurality of blades at the time stamp during the rotation is the noise-insensitive position. 9. The wind turbine system of claim 4, wherein the turbine controller is configured to adjust the pitch angles of the plurality of blades by maintaining a pitch angle as constant or minimally changing the pitch angle of one or more of the plurality of blades towards feather when the one or more of the plurality of blades is acted upon by the high aerodynamic loads, and the position of the one or more of the plurality of blades at the time stamp during the rotation is the noise-insensitive position. 10. The wind turbine system of claim 4, wherein the turbine controller is configured to dynamically adjust the pitch angles of the plurality of blades by maintaining a pitch angle of one or more of the plurality of blades as constant or minimally decreasing the pitch angle of the one or more of the plurality of blades towards stall when the one or more of the plurality of blades is acted upon by the low aerodynamic loads, and the position of the one or more of the plurality of blades at the time stamp during the rotation is the noise-sensitive position. 11. The wind turbine system of claim 1, wherein the at least one sensing device comprises a proximity sensor, a pressure sensor, a stall flaps sensor, a wool tufts sensor, a strain gauge sensor, a vibe optic sensor, a radio sensor or a sensor that measures displacement or strain of a main shaft in the wind turbine using sensor technologies based on acoustic, optical, magnetic, capacitive or inductive field effects. 12. The wind turbine system of claim 1, wherein the signals generated by the at least one sensing device representative of aerodynamic loads acting on the rotor comprise bending moments of the plurality of blades, deflection of the plurality of blades, load acting on the hub of the wind turbine, deformation of the hub, bending moments of a main shaft in the wind turbine, deflection of the main shaft, and a distance between a flange of the main shaft in the wind turbine and a reference surface. 13. A method, comprising: receiving signals representative of aerodynamic loads acting on a rotor of a wind turbine;reducing abnormal amplitude modulation of the wind turbine by dynamically adjusting pitch angles of a plurality of blades during a rotation of the rotor based upon the signals representative of the aerodynamic loads acting on the rotor;determining high aerodynamic loads, low aerodynamic loads, locations of the high aerodynamic loads on the rotor, and locations of the low aerodynamic loads on the rotor during the rotation at a time stamp;determining positions of the plurality of blades at the time stamp during the rotation with respect to a location of a habitation near the wind turbine; anddynamically adjusting the pitch angles of the plurality of blades during the rotation of the rotor based upon the high aerodynamic loads, the low aerodynamic loads, the locations of the high aerodynamic loads, the locations of the low aerodynamic loads, the positions of the plurality of blades, details of the habitation located at a distance from the wind turbine, or combinations thereof.
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