Methods for controlling a wind farm

What is claimed is: 1. A method for controlling a wind farm during low wind speeds, the wind farm having a plurality of wind turbines operably coupled to a farm controller and a power grid, the method comprising: monitoring a wind profile of a wind affecting the wind farm, wherein the profile comprises wind speed and wind direction; designating, with the farm controller, at least one of the plurality of wind turbines as a designated wind turbine, wherein designating at least one of the plurality of wind turbines as the designated wind turbine further comprises selecting, with the farm controller, at least one of the plurality of wind turbines based on a power production profile for each of the plurality of wind turbines for the wind profile; forecasting, with the farm controller, a performance profile for the designated wind turbine for wind affecting the wind farm based on the power production profile; correlating, with the farm controller, the power production profile to a recorded power production profile of the designated wind turbine; refining, with the farm controller, the power production profile for the designated wind turbine based on the correlation; operating the designated wind turbine in a full auxiliary mode when the wind speed of the wind farm is below a wind speed threshold, wherein the full auxiliary mode comprises, at least, enabling pitching and yawing of the designated wind turbine; operating remaining wind turbines of the plurality of wind turbines in a reduced auxiliary mode when the wind speed of the wind farm is below the wind speed threshold, wherein the reduced auxiliary mode comprises disabling at least one of pitching and yawing of the remaining wind turbines; and when a power output for the designated wind turbine exceeds a power threshold, directing, with the farm controller, at least one group of the remaining wind turbines to transition from the reduced auxiliary mode to the full auxiliary mode. 2. The method of claim 1 , further comprising: prior to directing the at least one group of the remaining wind turbines to transition from the reduced auxiliary mode, analyzing, with the farm controller, a grid demand signal received from the power grid so as to determine a power availability level within the power grid. 3. The method of claim 2 , wherein transitioning the at least one group from the reduced auxiliary mode further comprises delaying the transition until the power availability level within the power grid exceeds a threshold. 4. The method of claim 2 , further comprising: accelerating the transition of the at least one group from the reduced auxiliary mode in order to supply power to the power grid in response to a detected shortfall of power availability in the power grid. 5. The method of claim 1 , further comprising: analyzing, with the farm controller, a grid demand signal received from the power grid so as to determine a power availability level within the power grid; based on the determined power availability level, lowering, with the farm controller, the wind speed threshold so as to delay a transition of the remaining wind turbines of the plurality of wind turbines to the reduced auxiliary mode, wherein delaying the transition to the reduced auxiliary mode facilitates wind farm power production at reduced wind speeds in order to satisfy the demand signal from the power grid. 6. The method of claim 1 , wherein the wind profile further comprises a pressure gradient, determining the designated wind turbine further comprises: based on the pressure gradient, forecasting, with the farm controller, a wind speed below the wind speed threshold for a limited duration; and increasing the number of designated wind turbines based on the forecasted duration of the wind speed below the wind speed threshold. 7. The method of claim 1 , wherein transitioning the at least one group of the remaining wind turbines to the full auxiliary mode further comprises: selecting, with the farm controller, the wind turbines of the at least one group of the remaining wind turbines based on a power production profile for each of the plurality of wind turbines for the monitored wind profile. 8. The method of claim 1 , further comprising: initiating a safety override to at least partially transition at least one of the remaining wind turbines from the reduced auxiliary mode. 9. The method of claim 1 , wherein operating the remaining turbines in a reduced auxiliary mode comprises temporarily decoupling the remaining turbines from the power grid. 10. The method of claim 1 , wherein the reduced auxiliary mode further comprises disabling at least one of a fan, a pump, an internal light source, a deicing system, a heater, and power electronics. 11. A method for controlling a wind farm so as to modify a wind profile presented to a power grid, the wind farm having a plurality of wind turbines operably coupled to a farm controller and a power grid, the method comprising: designating, with the farm controller, at least one of the plurality of wind turbines as a designated wind turbine, wherein designating at least one of the plurality of wind turbines as the designated wind turbine further comprises selecting, with the farm controller, at least one of the plurality of wind turbines based on a power production profile for each of the plurality of wind turbines for the wind profile; forecasting, with the farm controller, a performance profile for the designated wind turbine for wind affecting the wind farm based on the power production profile; correlating, with the farm controller, the power production profile to a recorded power production profile of the designated wind turbine; refining, with the farm controller, the power production profile for the designated wind turbine based on the correlation; operating the designated wind turbine of the plurality of wind turbines in a full auxiliary mode; operating remaining wind turbines of the plurality of wind turbines in a reduced auxiliary mode until a power output for the designated wind turbine exceeds a power threshold, wherein the reduced auxiliary mode comprises disabling at least one of pitching and yawing of the remaining wind turbines; receiving, with the farm controller, a grid signal from the power grid indicative of a power availability within the power grid at a monitored wind speed; determining, with the farm controller, a power draw incident to transitioning each wind turbine of the remaining wind turbines from the reduced auxiliary mode to the full auxiliary mode; determining, with the farm controller, a draw profile for the wind farm corresponding to transitioning the wind farm to a power production state, wherein transitioning the wind farm to the power production state is based at least in part on the power draw incident to transitioning each wind turbine of the remaining wind turbines; determining, with the farm controller, a transition sequence for the remaining wind turbines so as to modify the draw profile for the wind farm during the transition; and transitioning the remaining wind turbines to the full auxiliary mode in accordance with the transition sequence. 12. The method of claim 11 , wherein determining the transition sequence for the remaining wind turbines comprises: partitioning, with the farm controller, the remaining wind turbines into a plurality of wind turbine groups, wherein the quantity of groups is selected to extend a period of transition of the wind farm from the reduced auxiliary mode to the full auxiliary mode; and sequencing, with the farm controller, the plurality of wind turbine groups in serial arrangement. 13. The method of claim