There is provided a wind turbine apparatus which comprises blades having an aerofoil profile. The apparatus is arranged to start up even in light wind conditions and to act as a lift type device at higher rotational speeds. The apparatus may comprise wind deflectors to concentrate wind through the a
There is provided a wind turbine apparatus which comprises blades having an aerofoil profile. The apparatus is arranged to start up even in light wind conditions and to act as a lift type device at higher rotational speeds. The apparatus may comprise wind deflectors to concentrate wind through the apparatus. Further, the blades may be orientated at less than 90° to a radius line which leads to improved performance. Still further, the apparatus may be arranged to heat water by means of solar energy.
대표청구항▼
1. A wind turbine apparatus, comprising: a turbine blade assembly comprising a plurality of elongated turbine blades rotatably mounted about an axis, each turbine blade having a lift-producing aerofoil-shaped profile with a leading edge, a trailing edge, an outer low-pressure curved surface and an i
1. A wind turbine apparatus, comprising: a turbine blade assembly comprising a plurality of elongated turbine blades rotatably mounted about an axis, each turbine blade having a lift-producing aerofoil-shaped profile with a leading edge, a trailing edge, an outer low-pressure curved surface and an inner relatively high-pressure surface; anda pair of wind deflection members,wherein each wind deflection member comprises a flat elongated plate extending parallel to said axis and including an apex edge,wherein the apex edges are positioned at opposite ends of a diameter of the turbine blade assembly,wherein a first perpendicular direction extends from the diameter defined by the position of the apex edges, andwherein when the wind direction is in the first perpendicular direction, the turbine blades and the deflection members are exposed to an open, unobstructed wind flow, and no wind-guiding members compress the wind into the turbine blades; and wherein the plates terminate in the first perpendicular direction before the termination of the turbine blade assembly in the first perpendicular direction. 2. The wind turbine apparatus of claim 1, wherein each turbine blade has a leading edge, a trailing edge and a thickest portion therebetween, wherein a first line segment drawn from the axis to the center of a thickest portion of a first turbine blade and a second line segment drawn from the center of the thickest portion of the first turbine blade to the trailing edge of the turbine blade define an angle of less than 90°. 3. The wind turbine apparatus of claim 1, wherein the deflection members are disposed at a distance of less than 20% of the diameter of the turbine blade assembly. 4. The wind turbine apparatus of claim 2, wherein the deflection members are disposed at a distance of less than 20% of the diameter of the turbine blade assembly. 5. The wind turbine apparatus of claim 1, comprising only two deflection members, wherein one deflection member is on each side of the turbine blade assembly. 6. The wind turbine apparatus of claim 5, wherein the wind turbine apparatus is mounted such that said diameter of the turbine blade assembly is substantially perpendicular to an expected wind direction. 7. The wind turbine apparatus of claim 2, comprising only two deflection members, wherein one deflection member is on each side of the turbine blade assembly. 8. The wind turbine apparatus of claim 1, wherein the wind turbine apparatus comprises at least two spaced end plates with the axis extending there between, and where the turbine blades extend between the end plates. 9. The wind turbine apparatus of claim 8, comprising at least two sections located adjacent each other along the axis, each section having a plurality of blades, the blades of adjacent sections being rotated relative to each other about the axis. 10. The wind turbine apparatus of claim 2, comprising at least two spaced end plates with the axis extending there between; and where the turbine blades extend between the end plates. 11. The wind turbine apparatus of claim 10, comprising at least two sections located adjacent each other along the axis, each section having a plurality of blades, the blades of adjacent sections being rotated relative to each other about the axis. 12. The wind turbine apparatus of claim 5, comprising at least two spaced end plates with the axis extending there between, and where the turbine blades extend between the end plates. 13. The wind turbine apparatus of claim 12, comprising at least two sections located adjacent each other along the axis, each section having a plurality of blades, the blades of adjacent sections being rotated relative to each other about the axis. 14. The wind turbine apparatus of claim 1, wherein the turbine blades are formed by extrusion. 15. The wind turbine apparatus of claim 1, wherein the turbine blades have a solidity greater than 27%. 16. The wind turbine apparatus of claim 15, wherein the turbine blades have a solidity equal to about 33%. 17. The wind turbine apparatus of claim 8, wherein the turbine blades have a solidity greater than 27%. 18. The wind turbine apparatus of claim 1, wherein the wind turbine apparatus is supported by a mounting frame, and wherein the mounting frame comprises a solar heat collector for the heating of water. 19. The wind turbine apparatus of claim 1, wherein at least one of the apex edges comprises a v-shaped apex. 20. The wind turbine apparatus of claim 1, wherein the plates comprise straight lengths. 21. A method for capturing wind, power using, a wind turbine apparatus, comprising: receiving a flow of wind by the wind turbine apparatus, wherein the wind turbine apparatus comprises a turbine blade assembly comprising a plurality of elongated turbine blades rotatably mounted about an axis, each turbine blade having a lift-producing aerofoil-shaped profile with a leading edge, a trailing edge, an outer low-pressure curved surface and an inner relatively high-pressure surface; andwherein the wind turbine apparatus further comprises a pair of wind deflection members, wherein each wind deflection member comprises a plate including an apex edge, and wherein the apex edges are positioned at opposite ends of a diameter of the wind turbine apparatus such that the wind direction is perpendicular to said diameter in a first perpendicular direction defined by the position of the apex edges, wherein no wind-guiding members compress the flow of wind into the turbine blades when the wind is in the first perpendicular direction, and wherein the turbine blades and the deflection members are unobstructedly exposed to the flow of wind, and wherein the plates terminate in the wind direction before the termination of the turbine blade assembly in the wind direction; andwherein receiving the flow of wind comprises rotating the wind turbine blade assembly.
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