Wind turbine power generation system

The invention claimed is: 1. A wind turbine power generation system, comprising: a vertical rotor apparatus, and a generator; wherein a shaft of the vertical rotor apparatus rotates in response to wind, wherein the shaft is mechanically connected to the generator to transfer mechanical energy from the vertical rotor apparatus to the generator and generate electricity, and wherein the vertical rotor apparatus comprises: a rotor having an axis of rotor rotation defined by the shaft; a plurality of rotor blades longitudinally aligned in parallel with the shaft, each rotor blade defining an axis of blade rotation, wherein each rotor blade is attached to the shaft by an upper strut attached to an upper end of the rotor blade through an upper attachment point and a lower strut attached to a lower end of the rotor blade through a lower attachment point, the upper and lower attachments points defining an axis of rotor blade rotation; a sensor to determine whether any of the rotor blades are within rotor b azimuthal angles of blade stall regions, wherein the sensor comprises: a fluid vane configured to indicate wind direction; contact wires connected to the fluid vane and displaced with rotation thereof, the contact wires defining the blade stall regions as a function of the wind direction; and a contact sensor mounted proximally to the shaft and moving through azimuthal angles therewith, the contact sensor generating a signal in response to contacting the contact wires; a controller to provide blade pitch information for the blade stall regions; and an actuator mechanically coupled to each of the rotor blades to alter blade pitch about the respective axis of rotor blade rotation in accordance with the blade pitch information so as to avoid blade stall for all rotor azimuthal angles. 2. The wind turbine power generation system of claim 1 , wherein the contact sensor is mounted on the upper struts. 3. The wind turbine power generation system of claim 2 , wherein the actuator is mounted on the upper struts. 4. The wind turbine power generation system of claim 1 , wherein the sensor further comprises a rotary encoder. 5. The wind turbine power generation system of claim 4 , further comprising a photovoltaic power source to provide power to the rotary encoder. 6. The wind turbine power generation system of claim 1 , wherein the blade pitch information includes a blade pitch profile, and the blade pitch profile is constant at a predetermined blade pitch for all azimuthal angles. 7. The wind turbine power generation system of claim 1 , wherein the blade pitch information includes a blade pitch profile, and the blade pitch profile is a sinusoid. 8. The wind turbine power generation system of claim 1 , wherein the actuator is internal to each of the rotor blades and rotates the corresponding blade about the respective axis of rotor blade rotation.