System and method for managing output flicker generated by a wind farm

What is claimed is: 1. A method for managing output flicker of a wind farm connected to a power grid, the wind farm comprising a plurality of wind turbines, the method comprising: detecting, with a farm controller of the wind farm, at least one parameter of the wind farm indicative of output flicker resulting from a synchronized flicker from at least two wind turbines of the plurality of wind turbines, the output flicker occurring in the power grid, wherein detecting the at least one parameter indicative of the output flicker further comprises receiving, with the farm controller, a timing signal from the at least two wind turbines indicative of a rotor position of the at least two wind turbines, determining, with the farm controller, a degree of synchronicity amongst the at least two wind turbines based on the respective timing signals, and determining, with the farm controller, a difference between the degree of synchronicity and a synchronicity threshold; upon detecting the at least one parameter, generating a command offset for at least one wind turbine of the at least two wind turbines; and changing an operating parameter of the at least one wind turbine based on the command offset so as to desynchronize the synchronized flicker in output signals of the at least two wind turbines. 2. The method of claim 1 , wherein generating the command offset comprises: generating a random biasing value; and introducing the random biasing value into a control loop of at least one wind turbine. 3. The method of claim 2 , wherein changing the operating parameter of the at least one wind turbine comprises: introducing the random biasing value into a speed feedback loop of a turbine controller to develop a variable rotor speed for the at least one wind turbine. 4. The method of claim 1 , wherein the wind farm further comprises at least one output sensor operably coupled to the farm controller at a point of interconnect with the power grid, and wherein detecting the at least one parameter indicative of output flicker further comprises: monitoring, via the at least one output sensor, a frequency and amplitude of variations in current or voltage of an output of the wind farm at the point of interconnect with the power grid, wherein the frequency and amplitude of the variations are indicative of the synchronized flicker; and detecting, with the farm controller, an approach of the output to a flicker threshold for the wind farm. 5. The method of claim 4 , wherein the wind farm further comprises at least one environmental sensor operably coupled to the farm controller, and wherein detecting the at least one parameter indicative of the output flicker further comprises: monitoring, via the at least one environmental sensor, at least one environmental parameter indicative of an environmental condition affecting the wind farm; and correlating, with the farm controller, the at least one environmental parameter to a level of output flicker as detected by the at least one output sensor at the monitored environmental condition. 6. The method of claim 5 , further comprising: determining, with the farm controller, an output flicker potential for the wind farm based at least in part on the correlation and a forecasted environmental condition. 7. The method of claim 6 , wherein generating the command offset further comprises generating the command offset when at least one of the output flicker potential or the output of the wind farm approaches or exceeds the flicker threshold for the wind farm. 8. The method of claim 5 , further comprising: determining an impact on the level of the out flicker resulting from the changing of the operating parameter of the at least one wind turbine based on the command offset; correlating, with the farm controller, the impact with the environmental condition affecting the wind farm; assigning a synchronicity impact score to the at least one wind turbine based on the computed correlation for the detected environmental condition; and selecting the at least one wind turbine from the plurality of wind turbines to receive the command offset based, at least partially, on the synchronicity impact score. 9. The method of claim 1 , wherein determining the degree of synchronicity amongst the at least two wind turbines of the plurality of wind turbines further comprises: establishing, with the farm controller, a plurality of time slices; and determining, with the farm controller, a standard deviation for the timing signals across the time slices, wherein the standard deviation for the timing signals is indicative of the degree of synchronicity amongst the plurality of wind turbines. 10. The method of claim 1 , wherein the at least two wind turbines of the plurality of wind turbines comprises at least a first sub grouping of wind turbines and a second sub grouping of wind turbines, and wherein the respective timing signals are indicative of a combined timing of the wind turbines comprising the first sub grouping and a combined timing of the wind turbines comprising the second sub grouping of wind turbines. 11. The method of claim 1 , wherein changing the operating parameter of the at least one wind turbine based on the command offset further comprises changing the operating parameter corresponding to at least one of generator torque, power output, rotor speed, or mechanical loading of the wind turbine. 12. A system for managing output flicker generated by a wind farm, the system comprising: a plurality of wind turbines coupled to an electrical grid; and a farm controller communicatively coupled to the plurality of wind turbines and to the power grid, the farm controller comprising at least one processor configured to perform a plurality of operations, the plurality of operations comprising: detecting at least one parameter of the wind farm indicative of a synchronized flicker from at least two wind turbines of the plurality of wind turbines, the synchronized flicker occurring in the power grid, wherein detecting the at least one parameter indicative of the output flicker further comprises receiving, with the farm controller, a timing signal from the at least two wind turbines indicative of a rotor position of the at least two wind turbines, determining, with the farm controller, a degree of synchronicity amongst the at least two wind turbines based on the respective timing signals, and determining, with the farm controller, a difference between the degree of synchronicity and a synchronicity threshold, upon detecting the at least one parameter, generating a command offset for at least one wind turbine of the at least two wind turbines, and changing an operating parameter of the at least one wind turbine based on the command offset so as to desynchronize the synchronized flicker in output signals of the at least two wind turbines. 13. The system of claim 12 , wherein changing the operating parameter of the at least one wind turbine comprises: introducing a random biasing value into a speed feedback loop of a turbine controller to develop a variable rotor speed for the at least one wind turbine. 14. The system of claim 12 , wherein the wind farm further comprises at least one output sensor operably coupled to the farm controller at a point of interconnect with the power grid, and wherein detecting the at least one parameter indicative of the output flicker further comprises: monitoring, via the at least one output sensor, a frequency and amplitude of variations in current or voltage of an output of the wind farm at the point of interconnect with the power grid, wherein the frequency and amplitude of the variations are indicat