Counterweight system for balanced hub wind turbine blade installation

What is claimed is: 1. A counterweight system for mounting a rotor blade on a balanced rotatable hub of a wind turbine, the rotatable hub mounted to a nacelle and having at least one blade root region configured to receive a blade root of the rotor blade, and a pitch system configured to rotate the rotor blade around a pitch axis, the counterweight system comprising: at least one support structure comprising a proximal end spaced apart from a distal end, the proximal end mountable to at least one blade root region of the rotatable hub; and at least one counterweight mass coupled to the distal end of the at least one support structure, the at least one support structure arranged substantially parallel to the pitch axis such that the pitch system rotates the counterweight mass about the pitch axis, and, wherein a centroid of the at least one counterweight mass is varied in a radial direction, as the counterweight mass rotates about the pitch axis, to change the length of a counterweight mass moment arm about an axial centerline of the rotatable hub, wherein an axial centerline of the counterweight mass is positioned at an angle with respect to the pitch axis, the angle being greater 0 degrees and less than 90 degrees. 2. The counterweight system of claim 1 , wherein an overall shape of the counterweight mass is at least one of round, cylindrical, square, rectangular, elliptical, and combinations thereof. 3. The counterweight system of claim 1 , wherein an axial centerline of the at least one counterweight mass is non-perpendicular to the pitch axis. 4. The counterweight system of claim 1 , wherein the counterweight mass is subdivided into at least one of individually fluid-fillable portions or solid mass portions and combinations thereof. 5. The counterweight system of claim 1 , wherein the rotatable hub is configured to rotate a plurality of blades, and wherein the product of the counterweight mass times the counterweight mass moment arm is substantially equal to the product of the mass of a single blade times the blade moment arm. 6. The counterweight system of claim 1 , wherein the support structure is at least partially telescopic such that a distance between the proximate and distal ends of the support structure can be changed. 7. The counterweight system of claim 1 , wherein the at least one counterweight mass is at least partially fluid-fillable. 8. The counterweight system of claim 7 , further comprising a fluid pumping system for at least partially filling and emptying the at least one counterweight mass. 9. The counterweight system of claim 1 , wherein the wind turbine is one of a gearbox driven wind turbine or a direct drive wind turbine. 10. A wind turbine, comprising; a tower; a nacelle mounted atop the tower; a generator coupled to a main frame within the nacelle; and a counterweight system for mounting a rotor blade on a balanced rotatable hub of the wind turbine, the rotatable hub mounted to the nacelle and having at least one blade root region configured to receive a blade root of the rotor blade, and a pitch system configured to rotate the rotor blade around a pitch axis, the counterweight system comprising: at least one support structure comprising a proximal end spaced apart from a distal end, the proximal end mountable to the at least one blade root region of the rotatable hub; and, at least one counterweight mass coupled to the distal end of the at least one support structure, the at least one support structure arranged substantially parallel to the pitch axis such that the pitch system rotates the counterweight mass about the pitch axis, wherein a centroid of the at least one counterweight mass is varied in a radial direction as the counterweight mass rotates about the pitch axis to adjust the length of a counterweight mass moment arm about the axial centerline of the rotatable hub, and wherein an axial centerline of the counterweight mass is positioned at an angle with respect to the pitch axis, the angle being greater 0 degrees and less than 90 degrees. 11. The wind turbine of claim 10 , wherein an overall shape of the counterweight mass is at least one of round, cylindrical, square, rectangular, elliptical, and combinations thereof. 12. The wind turbine of claim 11 , wherein the axial centerline of the at least one counterweight mass is non-perpendicular to the pitch axis. 13. The wind turbine of claim 10 , wherein the counterweight mass is subdivided into at least one of individually fluid-fillable portions or solid mass portions and combinations thereof. 14. The wind turbine of claim 10 , wherein the rotatable hub is configured to rotate a plurality of blades, and wherein the product of the counterweight mass times the counterweight mass moment arm is substantially equal to the product of the mass of a single blade times the blade moment arm. 15. The wind turbine of claim 10 , wherein the support structure is at least partially telescopic such that a distance between the proximate and distal ends of the support structure can be varied. 16. The wind turbine of claim 10 , wherein the at least one counterweight mass is at least partially fluid-fillable, and wherein the wind turbine further comprises a fluid pumping system for at least partially filling and emptying the at least one counterweight mass.