Some embodiments of a turbine system described herein provide a turbine that rotates in response to off-axis fluid flow, such as water flowing in a generally horizontal direction that is generally perpendicular to a vertical axis of rotation. The rotation of the turbine can drive a generator to outp
Some embodiments of a turbine system described herein provide a turbine that rotates in response to off-axis fluid flow, such as water flowing in a generally horizontal direction that is generally perpendicular to a vertical axis of rotation. The rotation of the turbine can drive a generator to output electrical energy.
대표청구항▼
1. A turbine for use in generating electricity in an underwater environment, comprising: a vertical-axis turbine configured to rotate about a vertical axis in response to water flowing toward the turbine in a flow direction that is generally perpendicular to the vertical axis;the vertical-axis turbi
1. A turbine for use in generating electricity in an underwater environment, comprising: a vertical-axis turbine configured to rotate about a vertical axis in response to water flowing toward the turbine in a flow direction that is generally perpendicular to the vertical axis;the vertical-axis turbine including: a central upper dome surface at least partially defined by an upwardly convex curve in a vertical cross-sectional plane, and a plurality of upwardly protruding fins that each extend from an outer region proximate to an outer periphery of the vertical-axis turbine toward the central upper dome surface,wherein the vertical-axis turbine has a maximum vertical height parallel to the vertical axis, the maximum vertical height being substantially smaller than a maximum diameter of the outer periphery of the vertical-axis turbine; andwherein each of the fins include a convex face and an oppositely disposed concave face; wherein both the convex face and the concave face of each upwardly protruding fin are upwardly facing surfaces. 2. The turbine of claim 1, wherein the maximum vertical height of the vertical-axis turbine is measured parallel to the vertical axis from a lower level at the outer periphery to a higher level at a peak of the central upper dome surface. 3. The turbine of claim 1, wherein the vertical-axis turbine includes a continuously solid upward facing surface having a generally circular border at the outer periphery of the vertical axis turbine. 4. The turbine of claim 3, wherein each of the fins terminates at a vertical height below an uppermost region of the central upper dome surface. 5. The turbine of claim 4, wherein all of the upwardly protruding fins are positioned inwardly of the circular border and extend to the vertical height which is above the circular border. 6. The turbine of claim 1, wherein the maximum diameter of the outer periphery of the vertical-axis turbine is about 5 feet or greater. 7. The turbine of claim 1, wherein the central upper dome surface is symmetric about the vertical axis. 8. A turbine for use in generating electricity in an underwater environment, comprising: a vertical-axis turbine configured to rotate about a vertical axis in response to water flowing toward the turbine in a flow direction that is generally perpendicular to the vertical axis;the vertical-axis turbine including: a central upper dome surface at least partially defined by an upwardly convex curve in a vertical cross-sectional plane, and a plurality of upwardly protruding fins that each extend from an outer region proximate to an outer periphery of the vertical-axis turbine toward the central upper dome surface, each of the fins being integrally formed as a unitary structure with the central upper dome surface,wherein the vertical-axis turbine has a maximum vertical height parallel to the vertical axis, the maximum vertical height being substantially smaller than a maximum diameter of the outer periphery of the vertical-axis turbine,wherein the central upper dome surface is symmetric about the vertical axis; and wherein the plurality of fins are non-symmetric about the vertical axis, and wherein each of the fins include a convex face and an oppositely disposed concave face, and both the convex face and concave face of each upwardly protruding fin are upwardly facing surfaces. 9. The turbine of claim 1, wherein all of the upwardly protruding fins have substantially the same shape and size, and wherein the convex face and the oppositely disposed concave face intersect at a curved upper ridge. 10. The turbine of claim 9, wherein the concave face of each of the upwardly protruding fins terminates in a non-radial direction that extends toward an adjacent fin and away from the vertical axis. 11. The turbine of claim 1, wherein the plurality of upwardly protruding fins are arranged such that vertical-axis turbine that rotates in a first direction about the vertical axis both in response to fluid flowing over the turbine in a first flow direction that is generally perpendicular to the vertical axis and in response to fluid flowing over the turbine in a second opposite flow direction that is generally perpendicular to the vertical axis. 12. The turbine of claim 1, wherein, while each fin rotates to different positions about the vertical axis, each fin is configured to capture fluid flowing over the vertical-axis turbine, redirect the fluid along a path different from the ambient fluid flow, and contribute to the creation of a high pressure region on downstream portion of the vertical-axis turbine. 13. A turbine system for generating electrical power in an underwater environment, comprising: a vertical-axis turbine configured to rotate about a vertical axis in response to water flowing toward the turbine in a flow direction that is generally perpendicular to the vertical axis, the vertical-axis turbine including: a central upper dome surface at least partially defined by an upwardly convex curve in a vertical cross-sectional plane, and a plurality of upwardly protruding fins that each include a convex face and an oppositely disposed concave face that intersect at a curved upper ridge, wherein the vertical-axis turbine has a maximum vertical height parallel to the vertical axis, the maximum vertical height being substantially smaller than a maximum diameter of an outer periphery of the vertical-axis turbine; anda base structure positioned below the vertical-axis turbine to remain generally stationary during rotation of the vertical-axis turbine, the base structure comprising a plurality of anchor legs extending away from the vertical-axis turbine for a length that is greater than the maximum vertical height of the vertical axis turbine, andwherein each of the fins include a convex face and an oppositely disposed concave face and both the convex face and concave face of each upwardly protruding fin are upwardly facing surfaces. 14. The system of claim 13, further comprising an electrical generator positioned between the vertical-axis turbine and the base structure so as to generate electrical power in response to the rotation of the vertical-axis turbine relative to the base structure. 15. The system of claim 14, further comprising an onshore electronics system electrically connectable to the electrical generator so as to condition the electrical power for output to an external power grid. 16. The system of claim 13, further comprising a pump mechanism positioned between the vertical-axis turbine and the base structure so as to force hydraulic fluid to an onshore generator systems in response to the rotation of the vertical-axis turbine relative to the base structure. 17. The system of claim 13, wherein the outer periphery of the vertical-axis turbine is defined by a diameter centered about vertical axis of about 5 feet or greater, wherein the central upper dome surface is symmetric about the vertical axis, and wherein the plurality of fins are non-symmetric about the vertical axis. 18. The system of claim 13, wherein each of the plurality of fins extend from an outer region proximate to the outer periphery of the vertical-axis turbine toward the central upper dome surface, wherein each of the fins directly joins with a lower region of the central upper dome surface such that an uppermost region of the central upper dome surface has a greater vertical height than each of the fins. 19. The system of claim 13, wherein each of the fins is integrally formed as a unitary structure with the central upper dome surface. 20. The system of claim 3, wherein the continuously solid upwardly facing surface includes the central upper dome surface, the plurality of upwardly protruding fins, and channel base surfaces between neighboring fins.
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