Methods and systems to operate a wind turbine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-019/00
F03D-007/02
F03D-009/00
출원번호
US-0306362
(2014-06-17)
등록번호
US-9534583
(2017-01-03)
발명자
/ 주소
Agarwal, Pranav
Cardinal, Mark Edward
Han, Nora Cheng-Huei
출원인 / 주소
General Electric Company
대리인 / 주소
Agosti, Ann M.
인용정보
피인용 횟수 :
1인용 특허 :
4
초록▼
A wind turbine system, comprising a tower, a plurality of blades, a rotor supported by the tower and rotatably coupled to the plurality of blades, a pitch control device for regulating pitch angles of the plurality of blades, a torque control device for regulating torque of the rotor, a processing s
A wind turbine system, comprising a tower, a plurality of blades, a rotor supported by the tower and rotatably coupled to the plurality of blades, a pitch control device for regulating pitch angles of the plurality of blades, a torque control device for regulating torque of the rotor, a processing subsystem programmed to slow down the wind turbine system by using the torque control device alone to slow down the rotor when the torque control device is fully capable of slowing down the rotor, and using both the torque control device and the pitch control device to slow down the rotor when the torque control device alone is not fully capable of slowing down the rotor.
대표청구항▼
1. A wind turbine system, comprising: a tower;a plurality of blades;a rotor supported by the tower and rotatably coupled to the plurality of blades;a pitch control device for regulating pitch angles of the plurality of blades;a torque control device for regulating torque of the rotor;a processing su
1. A wind turbine system, comprising: a tower;a plurality of blades;a rotor supported by the tower and rotatably coupled to the plurality of blades;a pitch control device for regulating pitch angles of the plurality of blades;a torque control device for regulating torque of the rotor;a processing subsystem programmed to slowdown the wind turbine system by: determining a required counter torque for the slowdown of the rotor;determining that the torque control device is fully capable of slowing down the rotor when the required counter torque for the slowdown of the rotor is less than or equal to an available counter torque corresponding to the torque control device;determining that the torque control device is not fully capable of slowing down the rotor when the required counter torque for the slowdown of the rotor is greater than the available counter torque corresponding to the torque control device;determining a required residual counter torque required for the slowdown of the rotor when the torque control device is not fully capable of slowing down the rotor; anddetermining a required pitch alteration in the pitch angles of one or more of the plurality of blades based at least in part on the required residual counter torque;using the torque control device alone to slowdown the rotor when the torque control device is fully capable of slowing down the rotor; andusing both the torque control device and the pitch control device to slowdown the rotor when the torque control device alone is not fully capable of slowing down the rotor. 2. The wind turbine system of claim 1, wherein the processing subsystem is further programmed to use the pitch control device for tasks other than the slowdown of the rotor when the torque control device is fully capable of slowing down the rotor. 3. The wind turbine system of claim 2, wherein the tasks comprise regulating an imbalance of the rotor, constraining a deflection of the tower, or both. 4. The wind turbine system of claim 1, wherein the required counter torque for the slowdown of the rotor is based upon a plurality of transfer functions that define pitch control dynamics and torque control dynamics of the wind turbine system, a current rotor speed and a commanded rotor speed, or combinations thereof. 5. The wind turbine system of claim 1, wherein the processing subsystem determines the required pitch alteration in the pitch angles of the one or more of the plurality of blades based upon current aerodynamic torque of the rotor, current pitch angles of the plurality of blades, gear ratio of a gearbox, the required residual counter torque, or combinations thereof. 6. The wind turbine system of claim 1, wherein the processing subsystem is programmed to use the torque control device when the torque control device is fully capable of slowing down the rotor by controlling the torque control device to apply the required counter torque on the rotor. 7. The wind turbine system of claim 6, wherein the processing subsystem is programmed to use the torque control device and the pitch control device to slowdown the rotor when the torque control device alone is not fully capable of slowing down the rotor by: controlling the torque control device to apply the available counter torque on the rotor; andcontrolling the pitch control device to change the pitch angles of the plurality of blades to attain the required pitch alteration. 8. A method of operating a wind turbine system, comprising: using a torque control device to slowdown a rotor of the wind turbine system when the torque control device is fully capable of slowing down the rotor;using both the torque control device and the pitch control device to slowdown the rotor when the torque control device alone is not fully capable of slowing down the rotor;determining a required counter torque for the slowdown of the rotor;determining a residual counter torque required for the slowdown of the rotor when the torque control device is not fully capable of slowing down the rotor; anddetermining a required pitch alteration in the pitch angles of one or more of the plurality of blades based at least in part on the required residual counter torque. 9. The method of claim 8, further comprising the step of using the pitch control device for tasks other than the slowdown of the rotor when the torque control device is fully capable of slowing down the rotor. 10. The method of claim 8, wherein the required counter torque for the slowdown of the rotor is based upon a plurality of transfer functions that define pitch control dynamics and torque control dynamics of the wind turbine system, a current rotor speed and a commanded rotor speed, or combinations thereof. 11. The method of claim 8, further comprising determining that the torque control device is fully capable of slowing down the rotor when the required counter torque for the slowdown of the rotor is less than or equal to an available counter torque corresponding to the torque control device. 12. The method of claim 8, further comprising determining the required pitch alteration in the pitch angles of the one or more of the plurality of blades based upon current aerodynamic torque of the rotor, current pitch angles of the plurality of blades, gear ratio of a gearbox, the residual counter torque, or combinations thereof. 13. The method of claim 8, further comprising using the torque control device when the torque control device is fully capable of slowing down the rotor by controlling the torque control device to apply the required counter torque on the rotor. 14. The method of claim 13, further comprising when the torque control device is not fully capable of slowing down the rotor by controlling the torque control device to apply the required counter torque on the rotor by: controlling the torque control device to apply the available counter torque on the rotor; andcontrolling the pitch control device to change the pitch angles of the plurality of blades to attain the required pitch alteration to provide the required residual counter torque. 15. A wind turbine system, comprising: a tower;a plurality of blades;a rotor supported by the tower and rotatably coupled to the plurality of blades;a pitch control device for regulating pitch angles of the plurality of blades;a torque control device for regulating torque of the rotor;a processing subsystem programmed to slowdown the wind turbine system by: determining a required counter torque for the slowdown of the rotor;determining that the torque control device is fully capable of slowing down the rotor when the required counter torque for the slowdown of the rotor is less than or equal to an available counter torque corresponding to the torque control device;determining that the torque control device is not fully capable of slowing down the rotor when the required counter torque for the slowdown of the rotor is greater than the available counter torque corresponding to the torque control device;determining a required residual counter torque required for the slowdown of the rotor when the torque control device is not fully capable of slowing down the rotor; anddetermining a required pitch alteration in the pitch angles of one or more of the plurality of blades based at least in part on the required residual counter torque;using the torque control device alone to slowdown the rotor when the torque control device is fully capable of slowing down the rotor; andusing the pitch control device during slowdown of the rotor for tasks other than the slowdown of the rotor when the torque control device is fully capable of slowing down the rotor. 16. The wind turbine system of claim 15, wherein the tasks comprise regulating an imbalance of the rotor, constraining a deflection of the tower, or both. 17. The wind turbine system of claim 15, wherein the tasks comprise reducing loads acting on the wind turbine.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
Kabatzke, Wolfgang; Richter, Kay; Schubert, Thomas, Method for torque and pitch control for a wind power plant according to the rotation speed.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.