Systems, devices and methods for improving efficiency of wind power generation systems

What is claimed is: 1. A wind turbine comprising: one or more turbine blades that are joined at a hub assembly; a rotor shaft attached to the hub assembly; one or more electrical generators coupled to the rotor shaft; a nacelle that at least partially houses the rotor shaft and one or more electrical generators; and one or more airflow components positioned externally of the nacelle for inducing a secondary airflow that emanates from a rearward location on the wind turbine and that travels in a downstream direction relative to the wind direction. 2. The wind turbine of claim 1 , wherein the one or more airflow components are mounted on a rearward location on the nacelle of the wind turbine. 3. The wind turbine of claim 1 , wherein the rotor shaft is designed and configured for downwind operation and wherein the one or more airflow components are mounted on a rearward location on the hub assembly of the wind turbine. 4. The wind turbine of claim 1 , wherein the wind turbine is designed and configured to operate as a downwind turbine, and wherein the wind turbine further comprises one or more out-of-rotational-plane blades attached to the rotor shaft or hub assembly. 5. The wind turbine of claim 1 , wherein the one or more airflow components are designed and configured for inducing a secondary airflow that has a velocity higher than the farfield velocity flow. 6. A method for minimizing wake effects in the wind turbine of claim 1 , the method comprising inducing a secondary airflow that emanates from a rearward location on the wind turbine and that travels in a downstream direction relative to the wind direction. 7. A method for minimizing wake effects in the turbine of claim 1 , the method comprising inducing a secondary fluid flow that emanates from a rearward location on the turbine and that travels in a downstream direction relative to the fluid flow direction. 8. The wind turbine of claim 1 , wherein the one or more airflow components comprise a fan, a turbine, a diffuser, or a vortex generator. 9. The wind turbine of claim 8 , wherein the fan is an axial fan, a centrifugal fan, a ducted fan, a tangential fan, a bladeless fan, blower fan, or a variable pitch fan. 10. A wind farm comprising a plurality of the wind turbines of claim 1 . 11. The wind farm of claim 10 , wherein the one or more airflow components are designed and configured to induce secondary air flows that improve the downstream wake angle and velocity profile of wind for the one or more downstream turbines. 12. A wind farm comprising: one or more upstream wind turbines and one or more downstream wind turbines, wherein the one or more upstream wind turbines each comprise one or more airflow components for inducing a secondary airflow that emanates from a rearward location on the wind turbine and that travels in a downstream direction relative to the wind direction; one or more sensors mounted on the one or more downstream wind turbines for sensing incoming wind speed; and one or more control units for receiving incoming wind speed data from the one or more sensors and transmitting a corresponding signal to control the one or more airflow components. 13. The wind farm of claim 12 , further comprising: one or more sensors mounted on at least each downstream wind turbine for sensing incoming wind speed, wherein the one or more upstream wind turbines each comprise one or more airflow components positioned externally of the nacelle for inducing a secondary airflow that emanates from a rearward location on the wind turbine and that travels in a downstream direction relative to the wind direction. 14. The wind farm of claim 12 , further comprising: one or more sensors mounted on at least each downstream wind turbine for sensing incoming wind speed; and one or more control units for receiving incoming wind speed data from the one or more sensors and transmitting a corresponding control signal for adjusting the pitch of one or more blades of the one of more upstream wind turbines to maximize the downstream wind velocities for the one or more downstream wind turbines. 15. A method for improving the efficiency of the wind farm of claim 12 , the method comprising, inducing in each of the one or more upstream wind turbines, a secondary airflow that emanates from a rearward location of the wind turbine and that travels in a downstream direction relative to the wind direction. 16. A turbine system comprising one or more turbine blades that are joined at a hub assembly; a rotor shaft attached to the hub assembly; a nacelle that at least partially houses the turbine rotor shaft; and one or more working fluid flow components positioned externally of the nacelle for inducing a secondary fluid flow that emanates from a rearward location on the turbine and that travels in a downstream direction relative to the fluid flow direction. 17. An array of turbines comprising the turbine system of claim 16 , the array comprising: one or more upstream turbines and one or more downstream turbines, wherein the one or more upstream turbines each comprise one or more fluid flow components positioned externally of the nacelle for inducing a secondary fluid flow that emanates from a rearward location on the turbine and that travels in a downstream direction relative to the fluid flow direction. 18. The array of turbines of claim 17 , further comprising: one or more sensors mounted on at least each downstream turbine for sensing incoming fluid speed, wherein the one or more upstream turbines each comprise one or more fluid flow components positioned externally of the nacelle for inducing a secondary fluid flow that emanates from a rearward location on the turbine and that travels in a downstream direction relative to the fluid flow direction. 19. The array of turbines of claim 17 , further comprising one or more sensors mounted on at least each downstream turbine for sensing incoming fluid speed; and one or more control units for receiving incoming fluid speed data from the one or more sensors and transmitting a corresponding control signal for adjusting the pitch of one or more blades of the one of more upstream turbines to maximize the downstream fluid velocities for the one or more downstream turbines. 20. A method for improving the efficiency of the array of turbines of claim 17 , the method comprising, inducing in each of the one or more upstream turbines, a secondary airflow that emanates from a rearward location of the turbine and that travels in a downstream direction relative to the fluid flow direction; or de-tuning the one or more upstream turbines to obtain a higher downstream velocity for the one or more downstream turbines; or de-tuning the turbines in each row to maximize the wind velocities for the turbines in each downstream row.