A Cycloidal Turbine Power Generator contained within a Venturi is disclosed. The Venturi is equipped with mechanisms to vary its inlet width to control flow volume through the Venturi, and to open and close the inlet as required. The Venturi is also equipped with inflatable turbulators installed ups
A Cycloidal Turbine Power Generator contained within a Venturi is disclosed. The Venturi is equipped with mechanisms to vary its inlet width to control flow volume through the Venturi, and to open and close the inlet as required. The Venturi is also equipped with inflatable turbulators installed upstream from the turbine, and which extend upward from the Venturi bottom to cause a downstream eddy to reduce drag on the advancing blades of the turbine. The turbine includes a plurality of airfoil-shaped blades mounted to vary their angle of attack during rotation of the turbine. The rotation of the blades about the common hub is caused by the action of the water flow over the blades. A ring gear may be fixed to the circumference of the blade disk for power generator interface.
대표청구항▼
1. An electrical power generating apparatus for generating electrical power from flowing water comprising: a water inlet configured as a variable geometry Venturi through which a flow of water enters said power generating apparatus,a water inlet controller for controlling size of said water inlet in
1. An electrical power generating apparatus for generating electrical power from flowing water comprising: a water inlet configured as a variable geometry Venturi through which a flow of water enters said power generating apparatus,a water inlet controller for controlling size of said water inlet in accordance with velocity of flow of water through said power generating apparatus,a water outlet through which said flow of water exits said power generating apparatus,a turbine housing between said water inlet and said water outlet,a turbine supported for rotation within said turbine housing, said turbine comprising:a plurality of turbine blades,a variable pitch mechanism associated with said plurality of turbine blades so that pitch of each turbine blade of said plurality of turbine blades is varied as said turbine rotates,an electrical generator coupled to said turbine. 2. An electrical power generating apparatus as set forth in claim 1 wherein said water inlet comprises a debris guard further comprising: a plurality of spaced apart vanes across said water inlet, with front edges of said vanes configured at an angle selected to deflect debris around said inlet,at least one rotating cylinder across said inlet and perpendicular to said vanes, for moving debris either across or around said inlet. 3. An electrical power generating apparatus as set forth in claim 2 wherein said spaced apart vanes are horizontally oriented across said water inlet, with a vertex of said vanes at about a center of said water inlet, and edges of said vanes angled backwards from said vertex toward sides of said water inlet, so that debris is urged around said power generating apparatus. 4. An electrical power generating apparatus as set forth in claim 3 wherein a first said rotating cylinder extends vertically across said vertex of said vanes. 5. An electrical power generating apparatus as set forth in claim 4 further comprising second and third rotating cylinders vertically extending across said vanes at sides of said water inlet. 6. An electrical power generating apparatus as set forth in claim 5 further comprising actuators mounted to said first, second and third cylinders, for displacing a position of said first, second and third cylinders in order to dislodge debris thereform. 7. An electrical power generating apparatus as set forth in claim 1 wherein said water inlet further comprises hinges between at least two of said inlet panels and said turbine housing so that said inlet is variable from a fully closed position to a fully open position. 8. An electrical power generating apparatus as set forth in claim 7 further comprising: at least one water flow sensor positioned to sense flow of water into said inlet,a lead screw between said at least two inlet panels,a motor connected to rotate said lead screw responsive to said water flow sensor, thereby moving said inlet panels and varying said size of said inlet in accordance with said flow of water into said inlet. 9. An electrical power generating apparatus as set forth in claim 8 wherein said inlet panels are opposed sides of said inlet. 10. An electrical power generating apparatus as set forth in claim 1 further comprising: at least one turbulator in said flow of water,a vortex generated in said flow of water by said turbulator, said vortex being generally the length of said turbine blades and generally parallel with said turbine blades, and located to interact with said turbine blades along the length of said turbine blades in a vortex region where each turbine blade of said turbine blades is moving toward said flow of water, creating additional rotational force on said turbine by said turbine blades in said vortex region, said additional force being in a direction said turbine is rotating. 11. An electrical power generating apparatus as set forth in claim 10 wherein said turbulator is an elongated, controllably inflatable bladder generally parallel to said turbine blades, and positioned just in front of said turbine blades moving toward said flow of water. 12. An electrical power generating apparatus as set forth in claim 10 wherein said water outlet is configured as a second variable geometry Venturi with a respective second water inlet controller, allowing said power generating apparatus to be used in a tidal environment. 13. An electrical power generating apparatus as set forth in claim 12 further comprising: a second turbulator in said flow of water,a second vortex generated in said flow of water by said turbulator, said second vortex being generally the length of said turbine blades and generally parallel with said turbine blades, and located to interact with said turbine blades along the length of said turbine blades in a second vortex region where each turbine blade of said turbine blades is moving toward said flow of water entering said water outlet, creating additional rotational force on said turbine by said turbine blades in said second vortex region, said additional rotational force being in a direction of rotation of said turbine. 14. An electrical power generating apparatus as set forth in claim 13 wherein said turbulator is an elongated, controllably inflatable bladder generally parallel to said turbine blades, and positioned just in front of said turbine blades moving toward said flow of water. 15. An electrical power generating apparatus as set forth in claim 1 further comprising at least one water flow straightener mounted within said turbine, said water flow straightener extending generally the length of said turbine blades, for reducing or eliminating turbulence caused by upstream said turbine blades. 16. An electrical power generating apparatus as set forth in claim 15 further comprising a plurality of water flow straighteners mounted within said turbine. 17. An apparatus as set forth in claim 1 wherein said variable pitch mechanism develops a Pi-pitch motion. 18. An apparatus as set forth in claim 1 wherein said variable pitch mechanism develops a Curtate motion. 19. An apparatus as set forth in claim 18 further comprising an adjustment mechanism for adjusting extent of pitch of said turbine blades. 20. An apparatus as set forth in claim 1 further comprising a blade shape adjustment mechanism in each turbine blade of said turbine blades, for adjusting shape of each said blade depending on whether a said blade is in an upstream position or a downstream position.
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