FIELD: machine building.
SUBSTANCE: wind-power hybrid rotor (10) contains a rotor (12) with the transverse direction of the flow, directing device (14), and rotor using the Magnus effect (16). The rotor with the transverse direction of the flow is secured with possibility of rotation relatively to the axis D (18) of rotation, and has multiple (20) passing axially rotor blades (22). The directing device has a housing segment (24), that partially encloses the rotor with the transverse direction of the flow in the direction of the contour such that the rotor with the transverse direction of the flow is driven by the incoming wind W (26). The rotor using the Magnus effect is located inside the rotor with the transverse direction of the flow, wherein the axis of the rotor using the Magnus effect is located in the direction of the axis of rotation. The rotor using the Magnus effect has closed side surface (28), and by means of the drive (30) is put into rotation around the axis of rotation of the rotor using the Magnus effect.
EFFECT: maximum effective use of wind energy.
18 cl, 21 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| HYBRID ROTOR | 2011 |
|
RU2570741C2 |
| WIND-POWERED ROTOR AND ELECTRIC POWER GENERATION THEREWITH | 2011 |
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| CAROUSEL-TYPE WIND-ELECTRIC SET (WES) WITH CYCLIC SYMMETRIC BLADES SMOOTHLY ROTATING IN OPPOSITE PHASE TO ROTOR | 2009 |
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| WIND GENERATOR | 2015 |
|
RU2708478C2 |
| MAGNUS EFFECT AMPLIFICATION TECHNIQUE | 2006 |
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| HORIZONTAL WIND-POWERED TURBINE | 2010 |
|
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| WIND POWER PLANT | 2017 |
|
RU2684068C1 |
| ROTOR BLADE OF WIND-POWERED ENGINE WITH VARIABLE ANGULAR MOMENTUM | 2010 |
|
RU2449168C2 |
