The Arizona Board of Regents on behalf of the University of Arizona
대리인 / 주소
Klarquist Sparkman, LLP
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
A vertical axis wind turbine comprises upper and lower rotor blades and upper and lower bearing assemblies. Horizontal members connect the upper rotor blades to the upper bearing assembly and the lower blades connect the upper rotor blades to the lower bearing assembly. The upper rotor blades can be
A vertical axis wind turbine comprises upper and lower rotor blades and upper and lower bearing assemblies. Horizontal members connect the upper rotor blades to the upper bearing assembly and the lower blades connect the upper rotor blades to the lower bearing assembly. The upper rotor blades can be arranged vertically or non-vertically. In non-vertical arrangements, the upper rotor blades can be twisted or swept back in a straight manner. Sweeping jet actuators are incorporated into the rotor blades to deliver oscillating air jets to surfaces of the rotor blades to delay occurrence of dynamic stall. Conduits in the blades can deliver pressurized flow of air to the actuators. The turbine can be supported by a structure that can exerts only horizontal and/or lifting forces on the rotor blade assembly to reduce the load on the lower bearing.
대표청구항▼
1. A vertical axis wind turbine, comprising: an upper bearing assembly situated about a vertical rotational axis;a lower bearing assembly situated about the vertical rotational axis; anda rotor blade assembly comprising: a plurality of upper rotor blades, each upper rotor blade comprising an upper e
1. A vertical axis wind turbine, comprising: an upper bearing assembly situated about a vertical rotational axis;a lower bearing assembly situated about the vertical rotational axis; anda rotor blade assembly comprising: a plurality of upper rotor blades, each upper rotor blade comprising an upper end, a lower end, and a plurality of sweeping jet actuators;one or more upper horizontal members connected to the upper ends of the plurality of upper rotor blades, the one or more upper horizontal members connected to the upper bearing assembly;one or more lower horizontal members connected to the lower ends of the plurality of upper rotor blades; anda plurality of lower rotor blades, each lower rotor blade comprising a respective upper end connected to a lower end of one of the upper rotor blades, and a respective lower end connected to the lower bearing assembly;wherein the rotor blade assembly is rotatable about the vertical rotational axis without a continuous axial shaft extending from the lower bearing assembly to the upper bearing assembly;wherein each upper rotor blade further comprises one or more conduits for delivering a pressurized flow of air to the plurality of sweeping jet actuators of the upper rotor blade;wherein the lower bearing assembly comprises one or more main conduits connected to a source of compressed air; andwherein each lower rotor blade comprises one or more lower rotor blade conduits, each lower rotor blade conduit comprising a respective first end connected to one of the upper rotor blade conduits and a second end connected to the one or more lower bearing assembly main conduits. 2. The vertical axis wind turbine of claim 1, wherein each upper rotor blade is arranged substantially parallel to the vertical rotational axis. 3. The vertical axis wind turbine of claim 1, wherein the one or more upper horizontal members are angularly offset from the one or more lower horizontal members about the vertical rotational axis. 4. The vertical axis wind turbine of claim 1, wherein: each upper rotor blade comprises a leading edge portion; andfor each upper rotor blade, at least some of the plurality of sweeping jet actuators are incorporated in the respective leading edge portion thereof. 5. The vertical axis wind turbine of claim 1, wherein: each of the sweeping jet actuators comprises a respective output nozzle;each upper rotor blade comprises an outer face facing away from the vertical rotational axis and an inner face facing toward the vertical rotational axis; andeach upper rotor blade comprises one or more sweeping jet actuator output nozzles located on the respective outer face arranged symmetrically to one or more sweeping jet actuator output nozzles located on the respective inner face. 6. The vertical axis wind turbine of claim 5, wherein the sweeping jet actuator output nozzles are arranged in respective rows on the outer and inner faces. 7. The vertical axis wind turbine of claim 5, wherein each sweeping jet actuator output nozzle is offset by an angle of approximately between 20 degrees and 90 degrees from the normal of the respective outer or inner face where the respective output nozzle is located. 8. The vertical axis wind turbine of claim 1, wherein: each lower rotor blade comprises a leading edge portion; andeach lower rotor blade comprises a plurality of sweeping jet actuators arranged along the respective leading edge portion. 9. The vertical axis wind turbine of claim 1, further comprising: a plurality of angularly spaced supports spaced substantially equi-angularly about and relative to the vertical rotational axis and connected to and extending upward from a base on which the vertical axis wind turbine is located; anda plurality of guy-lines connecting the upper bearing assembly to the base on which the wind turbine is located, each guy-line being supported by a respective support. 10. The vertical axis wind turbine of claim 9, further comprising a respective tensioning device coupled to each of the plurality of guy-lines, and configured to apply a tension to a respective guy-line such that the plurality of guy-lines collectively impart a lifting force on the rotor blade assembly. 11. The vertical axis wind turbine of claim 1, wherein each upper horizontal member and each lower horizontal member comprises a respective truss comprising a top plate, a bottom plate and a plurality of diagonal supports arranged in a row connecting the top plate to the bottom plate. 12. The vertical axis wind turbine of claim 1, wherein each blade comprises a leading edge and a trailing edge, the rotor blade assembly further comprising one or more braces, each brace connecting the leading edge of a first upper blade to the trailing edge of a second upper blade located opposite the first upper blade. 13. The vertical axis wind turbine of claim 1, wherein the sweeping jet actuators comprise fluidic feedback loops and produce an output jet that oscillates between two divergent angles. 14. A vertical axis wind turbine, comprising: an upper bearing assembly situated about a vertical rotational axis;a lower bearing assembly situated about the vertical rotational axis; anda rotor blade assembly comprising: a plurality of upper rotor blades, each upper rotor blade comprising an upper end, a lower end, and a plurality of sweeping jet actuators that comprise fluidic feedback loops;one or more upper horizontal members connected to the upper ends of the plurality of upper rotor blades, the one or more upper horizontal members connected to the upper bearing assembly;one or more lower horizontal members connected to the lower ends of the plurality of upper rotor blades; anda plurality of lower rotor blades, each lower rotor blade comprising a respective upper end connected to a lower end of one of the upper rotor blades, and a respective lower end connected to the lower bearing assembly;wherein the rotor blade assembly is rotatable about the vertical rotational axis without a continuous axial shaft extending from the lower bearing assembly to the upper bearing assembly; andwherein the sweeping jet actuators produce an output jet that oscillates between two divergent angles. 15. The vertical axis wind turbine of claim 14, wherein: each of the sweeping jet actuators comprises a respective output nozzle;each upper rotor blade comprises an outer face facing away from the vertical rotational axis and an inner face facing toward the vertical rotational axis; andeach upper rotor blade comprises one or more sweeping jet actuator output nozzles located on the respective outer face arranged symmetrically to one or more sweeping jet actuator output nozzles located on the respective inner face. 16. The vertical axis wind turbine of claim 15, wherein each sweeping jet actuator output nozzle is offset by an angle of approximately between 20 degrees and 90 degrees from the normal of the respective outer or inner face where the respective output nozzle is located. 17. The vertical axis wind turbine of claim 14, wherein the one or more upper horizontal members are angularly offset from the one or more lower horizontal members about the vertical rotational axis.
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이 특허에 인용된 특허 (10)
Hassan Ahmed A. ; Straub Friedrich K. ; Domzalski David B. ; Kennedy Dennis K., Active blowing system for rotorcraft vortex interaction noise reduction.
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