A control method and a wind turbine for adaptively adjusting the operation of the wind turbine to maintain maximum power production during degraded conditions. The control system has an estimator module that determines a scaling factor based on the current set of control signals and at least the cur
A control method and a wind turbine for adaptively adjusting the operation of the wind turbine to maintain maximum power production during degraded conditions. The control system has an estimator module that determines a scaling factor based on the current set of control signals and at least the current set of measurement of the operating parameters. The scaling factor is transmitted to a control module which scales at least one aerodynamic property of the rotor based on this scaling factor. The control module further determines the ideal settings for the control signals based on the scaled aerodynamic properties. The present control method scales the aerodynamic properties to provide a better representation of the actual degraded aerodynamic properties.
대표청구항▼
1. A method for controlling the operation of a wind turbine having at least two pitchable wind turbine blades rotary connected to an electrical generator, the method comprising the steps of: operating the wind turbine to produce an electrical power output by means of one or more control signals,meas
1. A method for controlling the operation of a wind turbine having at least two pitchable wind turbine blades rotary connected to an electrical generator, the method comprising the steps of: operating the wind turbine to produce an electrical power output by means of one or more control signals,measuring one or more operating parameters of the wind turbine,determining a degradation value based on the measured one or more operating parameters, where the degradation value is indicative of the aerodynamic degradation of the wind turbine blades,adapting the operation of the wind turbine for maximizing the power output by adjusting at least one of the control signals based on the degradation value, wherein said adjusting at least one of the control signals comprises scaling at least one control parameter based on a scaling factor defining the degradation value, where the at least one control parameter is indicative of the aerodynamic properties of the wind turbine blades in an undegraded state. 2. A method according to claim 1, wherein the control parameter is selected from at least one of the following: an aerodynamic power coefficient,an aerodynamic thrust coefficient,an aerodynamic torque coefficient,an aerodynamic induction factor, anda radius of the rotor. 3. A method according to claim 2, wherein at least two of the aerodynamic power coefficient, aerodynamic thrust coefficient and the aerodynamic torque coefficient are scaled based on a common scaling factor. 4. A method according to claim 1, wherein the method further comprises the step of estimating a wind speed acting uniformly on the wind turbine blades. 5. A method according to claim 1, wherein the step of adapting the operation of the wind turbine comprises adapting at least a pitch control signal or a generator torque control signal based on at least one of the estimated wind speed or the degradation value. 6. A method according to claim 1, wherein the step of determining the degradation value comprises predicting a first set of operating parameters based on a current set of control signals and at least a second set of operating parameters. 7. A method according to claim 6, wherein the step of determining the degradation value further comprises determining the deviation between the current measured set of operating parameters and the first set of operating parameters, and correcting a subsequent third set of operating parameters based on this deviation. 8. A method according to claim 1, wherein the method comprises the steps of: calculating a test scaling factor by adding a first scaling factor to a second scaling factor,scaling the at least one control parameter based on the test scaling factor,measuring a first set of operating parameters,evaluating the first set of operating parameters by comparing it to a second set of operating parameters to detect whether or not at least one of the control parameters in the first set has an improved value over the corresponding control parameter in the second set, andif an improvement is detected, then saving the test scaling factor as the second scaling factor, orif no improvement is detected, then negating the value of the first scaling factor. 9. A wind turbine comprising a wind turbine tower, an electrical generator arranged on top of the wind turbine tower, a rotor with at least two wind turbine blades rotatably connected to the generator, and a control system configured to control the operation of the wind turbine based on one or more control signals, where the control system is configured to determine a degradation value indicative of the aerodynamic degradation of the wind turbine blades and to adapt the operation of the wind turbine based on this degradation value, wherein the degradation value is a scaling factor and the control system is configured to scale at least one control parameter indicative of the aerodynamic properties of the wind turbine blades in an undegraded state based on this scaling factor. 10. A wind turbine according to claim 9, wherein the control system comprises an estimator module configured to predict a first set of operating parameters based on a current set of control signals and at least a second set of operating parameters. 11. A wind turbine according to claim 10, wherein the estimator module is further configured to correct a subsequent third set of operating parameters based on a deviation between a current measured set of operating parameters and the first set of operating parameters. 12. A wind turbine according to claim 9, wherein the control system comprises an estimator module configured to calculate a test scaling factor by adding a first scaling factor to a second scaling factor, wherein the control system is further configured to evaluate a first set of operating parameters relative to a second set of operating parameters to detect whether at least one of the control parameters in the first set has an improved value over the corresponding control parameter in the second set or not. 13. A wind turbine according to claim 9, wherein at least one sensor unit is arranged relative to the wind turbine, wherein the at least one sensor unit is configured to directly or indirectly measure acceleration of the wind turbine tower. 14. A wind turbine according to claim 13, wherein the at least one sensor unit is a position sensor or a tilt sensor. 15. A wind turbine system comprising one or more wind turbines, wherein each wind turbine comprises a local control system configured to control the operation of that wind turbine, where each local control system is configured to communicate remotely with a remote control system, wherein the remote control system is configured to adapt the operation of at least one of the one or more wind turbines based on one or more control signals, where said remote control system is configured to determine a degradation value indicative of the aerodynamic degradation of the wind turbine blades and to adapt the operation of the wind turbine based on this degradation value, wherein the degradation value is a scaling factor and said remote control system is configured to scale at least one control parameter indicative of the aerodynamic properties of the wind turbine blades in an undegraded state based on this scaling factor.
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이 특허에 인용된 특허 (10)
Johnson, Kathryn E.; Fingersh, Lee Jay, Adaptive pitch control for variable speed wind turbines.
Spiegel Ronald J. (Chapel Hill NC) Bose Bimal K. (Knoxville TN), Fuzzy logic integrated electrical control to improve variable speed wind turbine efficiency and performance.
Volponi Allan J. (West Simsbury CT) Solomonides Jason B. (West Hartford CT), Fuzzy logic method and apparatus for changing the position of turbine blades via an induction motor, brake and a positio.
Christiansen, Per Moelhave; Esbensen, Thomas; Laurberg, Hans; Rieper, Johnny, Method for operating a wind turbine having a rotor hub supporting at least one rotor blade.
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