Partial-load de-rating for wind turbine control

What is claimed is: 1. A method of controlling a wind turbine, the method comprising: generating a power reference signal, which comprises: receiving an available power output signal, processing the available power output signal through a ramp rate limiter to produce a ramp rate limited available power output signal, comparing the ramp rate limited available power output signal to a requested power level signal, and selecting the lower of the ramp rate limited available power output signal and the requested power level signal as the power reference signal; receiving the power reference signal in a wind turbine controller that defines a requested power output level lower than an available power level; setting a blade pitch of a rotor of the wind turbine based on the received power reference signal that causes the rotor to capture wind power that is approximately equal to the requested power output level; and controlling the output power level of the wind turbine to the requested power output level by adjusting a load torque provided to the rotor by a generator coupled to the rotor. 2. The method of claim 1 wherein the blade pitch setting causes the rotor to capture less wind power than an optimal blade pitch setting. 3. The method of claim 1 wherein setting the blade pitch comprises: determining an actual wind speed; selecting a first coordinate of a two-dimensional lookup table based on the actual wind speed; selecting a second coordinate of the two-dimensional lookup table based on the requested power output level; identifying an entry of the two-dimensional lookup table based on the selected coordinates; and setting the blade pitch based on the value of the identified two-dimensional lookup table entry. 4. The method of claim 1 wherein the available power level is less than a rated power of the wind turbine. 5. The method of claim 1 wherein an available wind power is greater than a rated power of the wind turbine. 6. The method of claim 1 wherein the ramp rate limiter is configured to limit the rate of change of the ramp rate limited available power output signal to a first rate for an increasing available power output signal, and limit the rate of change of the ramp rate limited available power output signal to a second rate for a decreasing available power output signal. 7. The method of claim 1 wherein generating the power reference signal further comprises: adding a tuning factor to one of the available power output signal or the ramp rate limited available power output signal. 8. A controller for a wind turbine comprising: a processor; and a memory including instructions that, when executed by the processor, cause the processor to: receive a power reference signal that defines a requested power output level lower than an available power level, wherein generating the power reference signal comprises: receiving an available power output signal, processing the available power output signal through a ramp rate limiter to produce a ramp rate limited available power output signal, comparing the ramp rate limited available power output signal to a requested power level signal, and selecting the lower of the ramp rate limited available power output signal and the requested power level signal as the power reference signal; set a blade pitch of a rotor of the wind turbine based on the received power reference signal that causes the rotor to capture wind power that is approximately equal to the requested power output level; and control the output power level of the wind turbine to the requested power output level by adjusting a load torque provided to the rotor by a generator coupled to the rotor. 9. The controller of claim 8 wherein the processor is part of a power plant controller. 10. The controller of claim 8 wherein the processor is part of a wind turbine controller. 11. A computer program product comprising: a non-transitory computer readable storage medium; and program instructions stored on the computer readable storage medium, wherein the program instructions, when executed by a processor, cause the processor to: receive a power reference signal that defines a requested power output level lower than an available power level, wherein generating the power reference signal comprises: receiving an available power output signal, processing the available power output signal through a ramp rate limiter to produce a ramp rate limited available power output signal, comparing the ramp rate limited available power output signal to a requested power level signal, and selecting the lower of the ramp rate limited available power output signal and the requested power level signal as the power reference signal; set a blade pitch of a rotor of the wind turbine based on the received power reference signal that causes the rotor to capture wind power that is about equal to the requested power output level; and control the output power level of the wind turbine to the requested power output level by adjusting a load torque provided to the rotor by a generator coupled to the rotor.