Wind turbine system using twin savonius-type rotors

What is claimed is:

1. A Savonius rotor assembly for interacting with a moving fluid, comprising:

a support framework;

a first rotor rotatably mounted on the support framework for rotation about a first central, vertically extending axis, the first rotor having a shaft, a top, a bottom, a height and at least two blades, each blade having an inner and an outer edge with respect to the first central, vertically extending axis, the blades positioned to allow fluid flow between the inner edges thereof;

a second rotor rotatably mounted on the support framework for rotation about a second central, vertically extending axis, the second rotor having a shaft, a top, a bottom, a height and at least two blades, each blade having an inner and an outer edge with respect to the second central, vertically extending axis, the blades positioned to allow fluid flow between the inner edges thereof, the second rotor being positioned at substantially the same horizontal level as the first rotor;

a deflector member, extending substantially along the heights of the first and second rotors and positioned on a side of the first and second rotors facing the direction from which the fluid is flowing, the deflector member including a substantially planar surface facing the direction from which the fluid is flowing, the deflector member having a width less than the horizontal distance between the first central, vertically extending axis and the second central, vertically extending axis and being centered between a first plane extending through the first central, vertically extending axis of the first rotor substantially perpendicular to a line drawn through the first and second central, vertically extending axes and a plane drawn through the second central, vertically extending axis of the second rotor substantially perpendicular to the line drawn through the first and second central, vertically extending axes.

2. A Savonius rotor assembly in accordance with claim 1, wherein the height of the second rotor is substantially equal to the height of the first rotor.

3. A Savonius rotor assembly in accordance with claim 1, wherein the blades of the first rotor and the blades of the second rotor are configured so that the first rotor rotates in the opposite direction as the second rotor rotates.

4. A Savonius rotor assembly in accordance with claim 1, wherein the deflector member extends beyond the tops and bottoms of the first and second rotors.

5. A Savonius rotor assembly in accordance with claim 1, wherein the deflector member is substantially parallel to a plane drawn through the first and second central, vertically extending axes.

6. A Savonius rotor assembly in accordance with claim 1, wherein the deflector member has a first edge which is closest to the plane extending through the first central, vertically extending axis and a second edge which is closest to the plane extending through the second central, vertically extending axis nd includes a first curved portion, a second curved portion and a straight portion, the first curved portion extending from the first edge to the straight portion and defining a surface generally concave with respect to the first central, vertically extending axis, the second curved portion extending from the second edge to the straight portion and defining a surface generally concave with respect to the second central, vertically extending axis.

7. A Savonius rotor assembly in accordance with claim 6, wherein the straight portion of the deflector member is substantially parallel to a plane drawn through the first and second central, vertically extending axes.

8. A Savonius rotor assembly in accordance with claim 1, further comprising:

a rigid partition interconnected to the deflector member and the support framework, the partition extending substantially along the heights of the first and second rotors and positioned intermediate the first and second rotors, the partition plate extending from the deflector member in the direction of fluid flow substantially perpendicular to a line drawn through the first and second central, vertically extending axes.

9. A Savonius rotor assembly in accordance with claim 1, wherein the support framework is rotatably mounted for rotation about a third substantially vertical axis.

10. A Savonius rotor assembly in accordance with claim 9, wherein the support framework is supported for rotation about the third substantially vertical axis by central vertical shaft means.

11. A Savonius rotor assembly in accordance with claim 1, wherein the shaft of the first rotor extends beyond the top and beyond the bottom of the first rotor and the shaft of the second rotor extends beyond the top and beyond the bottom of the second rotor.

12. A Savonius rotor assembly in accordance with claim 11, wherein the support framework includes:

a substantially vertical tube;

first arm means for connecting the top of the shaft of the first rotor and the top of the shaft of the second rotor to the tube; and

second arm means for connecting the bottom of the shaft of the first rotor and the bottom of the shaft of the second rotor to the tube.

13. A Savonius rotor assembly in accordance with claim 12, wherein the vertical tube is positioned equidistance from the first central, vertically extending axis and the second central, vertically extending axis.

14. A Savonius rotor assembly in accordance with claim 12, wherein the vertical tube is centered on a line drawn through the first central, vertically extending axis and the second central, vertically extending axis.

15. A Savonius rotor assembly for interacting with a moving fluid, comprising:

a support framework;

a first rotor rotatably mounted on the support framework for rotation about a first central, vertically extending axis, the first rotor having two blades disposed symmetrically about the first central, vertically extending axis, each of the blades having an outer edge and an inner edge with respect to the first central, vertically extending axis, the outer edges of the blades lying on a circle defining a diameter of the first rotor, the blades further having a first curved portion and a second curved portion, the first curved portion beginning at the outer edge and terminating at the second curved portion with the first curved portion defining a surface generally concave with respect to the first central, vertically extending axis, the first curved portion having a radius of curvature which becomes progressively less from the outer edge to the second curved portion, the second curved portion coming progressively closer to a plane containing the first central, vertically extending axis and the outer edge of the blade as the second curved portion extends from the first curved portion to the inner edge of the blade, the maximum displacement of the blades from the plane being less than one quarter of the diameter of the first rotor;

a second rotor rotatably mounted on the support framework for rotation about a second central, vertically extending axis the second rotor being positioned at substantially the same horizontal level as the first rotor, the second rotor having two blades disposed symmetrically about the second central, vertically extending axis, each of the blades having an outer edge and an inner edge with respect to the second central, vertically extending axis, the outer edges of the blades lying on a circle defining a diameter of the second rotor, the blades further having a first curved portion and a second curved portion, the first curved portion beginning at the outer edge and terminating at the second curved portion with the first curved portion defining a surface generally concave with respect to the second central, vertically extending axis, the first curved portion having a radius of curvature which becomes progressively less from the outer edge to the second curved portion, the second curved portion coming progressively closer to a plane containing the second central, vertically extending axis and the outer edge of the blade as the second curved portion extends from the first curved portion to the inner edge of the blade, the maximum displacement of the blades from the plane being less than one quarter of the diameter of the second rotor; and

a deflector member having a width and extending substantially along the heights of the first and second rotors and positioned on the side of the first and second rotors facing the direction from which the fluid is flowing.

16. A Savonius rotor assembly in accordance with claim 15, wherein the deflector member has a width less than the horizontal distance between the first central, vertically extending axis and the second central, vertically extending axis and is centered between a first plane extending through the first central, vertically extending axis of the first rotor substantially perpendicular to a line drawn through the first and second central, vertically extending axes and a plane drawn through the second central, vertically extending axis of the second rotor substantially perpendicular to the line drawn through the first and second central, vertically extending axes.

17. A Savonius rotor assembly for interacting with a moving fluid, comprising:

a support framework;

a first rotor rotatably mounted on the support framework for rotation about a first central, vertically extending axis, the first rotor having a shaft, a top, a bottom, a height and at least two blades, each blade having an inner and an outer edge with respect to the first central, vertically extending axis, the blades positioned to allow fluid flow between the inner edges thereof;

a second rotor rotatably mounted on the support framework for rotation about a second central, vertically extending axis, the second rotor having a shaft, a top, a bottom, a height and at least two blades, each blade having an inner and an outer edge with respect to the second central, vertically extending axis, the blades positioned to allow fluid flow between the inner edges thereof, the blades of the first rotor and the blades of the second rotor configured so that the first rotor rotates in the opposite direction as the second rotor rotates, the second rotor being positioned at substantially the same horizontal level as the first rotor;

a deflector member extending substantially along the heights of the first and second rotors and positioned on the side of the first and second rotors facing the direction from which the fluid is flowing, the deflector member having a width less than the horizontal distance between the first central, vertically extending axis and the second central, vertically extending axis and being centered between a first plane extending through the first central, vertically extending axis of the first rotor substantially perpendicular to a line drawn through the first and second central, vertically extending axes and a plane drawn through the second central, vertically extending axis of the second rotor substantially perpendicular to the line drawn through the first and second central, vertically extending axes, the deflector member further being substantially parallel to a plane drawn through the first and second central, vertically extending axes.

18. A Savonius rotor assembly in accordance with claim 17, wherein the height of the second rotor is substantially equal to the height of the first rotor.

19. A Savonius rotor assembly in accordance with claim 17, wherein the deflector member extends beyond the tops and bottoms of the first and second rotors.

20. A Savonius rotor assembly in accordance with claim 17, wherein the deflector member includes a substantially planar face facing the direction from which the fluid is flowing.

21. A Savonius rotor assembly in accordance with claim 17, wherein the deflector member has a first edge which is closest to the plane extending through the first central, vertically extending axis and a second edge which is closest to the plane extending through the second central, vertically extending axis and includes a first curved portion, a second curved portion and a straight portion, the first curved portion extending from the first edge to the straight portion and defining a surface generally concave with respect to the first central, vertically extending axis, the second curved portion extending from the second edge to the straight portion and defining a surface generally concave with respect to the second, central vertically extending axis, the straight portion being substantially parallel to a plane drawn through the first and second central, vertically extending axes.

22. A Savonius rotor assembly in accordance with claim 17, wherein the first rotor has two blades disposed symmetrically about the first central, vertically extending axis, the outer edges of the blades lying on a circle defining a diameter of the first rotor, the blades further having a first curved portion and a second curved portion, the first curved portion beginning at the outer edge and terminating at the second curved portion with the first curved portion defining a surface generally concave with respect to the first central, vertically extending axis, the first curved portion having a radius of curvature which becomes progressively less from the outer edge to the second curved portion, the second curved portion coming progressively closer to a plane containing the first, central vertically extending axis and the outer edge of the blade as the second curved portion extends from the first curved portion to the inner edge of the blade, the maximum displacement of the blades from the plane being less than one-quarter of the diameter of the first rotor; and wherein the second rotor has two blades disposed symmetrically about the second central, vertically extending axis, the outer edges of the blades lying on a circle defining a diameter of the second rotor, the blades further having a first curved portion and a second curved portion, the first curved portion beginning at the outer edge and terminating at the second curved portion with the first curved portion defining a surface generally concave with respect to the second central, vertically extending axis, the first curved portion having a radius of curvature which becomes progressively less from the outer edge to the second curved portion, the second curved portion coming progressively closer to a plane containing the second central, vertically extending axis and the outer edge of the blade as the second curved portion extends from the first curved portion to the inner edge of the blade, the maximum displacement of the blades from the plane being less than one-quarter of the diameter of the second rotor.

23. A Savonius rotor assembly for interacting with a moving fluid, comprising:

a support framework;

a first rotor rotatably mounted on the support framework for rotation about a first central, vertically extending axis, the first rotor having a shaft, a top, a bottom, a height and at least two blades, each blade having an inner and an outer edge with respect to the first central, vertically extending axis, the blades positioned to allow fluid flow between the inner edges thereof;

a second rotor rotatably mounted on the support framework for rotation about a second central, vertically extending axis, the second rotor having a shaft, a top, a bottom, a height and at least two blades, each blade having an inner and an outer edge with respect to the second central, vertically extending axis, the blades positioned to allow fluid flow between the inner edges thereof, the blades of the first rotor and the blades of the second rotor configured so that the first rotor rotates in the opposite direction as the second rotor rotates, the second rotor being positioned at substantially the same horizontal level as the first rotor;

a deflector member extending substantially along the heights of the first and second rotors and positioned on the side of the first and second rotors facing the direction from which the fluid is flowing, the deflector member having a width less then the horizontal distance between the first central, vertically extending axis and the second central, vertically extending axis and being positioned so that a line drawn anywhere along the height of the surface of the deflector member facing the direction from which the fluid is flowing is a substantially vertical line, the deflector member further being symmetrical about a plane centered between the first and second central, vertically extending axes perpendicular to a plane drawn through the first and second central, vertically extending axes.