IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0290812
(2014-05-29)
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등록번호 |
US-10100809
(2018-10-16)
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발명자
/ 주소 |
|
출원인 / 주소 |
- MAGNELAN TECHNOLOGIES INC.
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대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
8 |
초록
▼
Vertical axis wind turbines are provided having foil design and geometry that facilitates lift, torque and laminar flow along a 360 degree radial. Contemplated foils are non-planar, and have a chord length that is at least three times greater than a distance between a trailing end of a leading foil,
Vertical axis wind turbines are provided having foil design and geometry that facilitates lift, torque and laminar flow along a 360 degree radial. Contemplated foils are non-planar, and have a chord length that is at least three times greater than a distance between a trailing end of a leading foil, and a leading end of a trailing foil. Additionally or alternatively, the foils are located away from a turbine axis at a distance that is about 2.9-3.5 times greater than a chord length of the foils. In some embodiments, the foils are circumferentially distributed via one or more laminar stall vanes.
대표청구항
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1. A circular-oriented laminar flow facilitating turbine, comprising: a rotary portion comprising an asymmetric first airfoil having a first high pressure portion, a first leading edge, and a first trailing edge, an asymmetric second airfoil having a second pressure portion, a second leading edge, a
1. A circular-oriented laminar flow facilitating turbine, comprising: a rotary portion comprising an asymmetric first airfoil having a first high pressure portion, a first leading edge, and a first trailing edge, an asymmetric second airfoil having a second pressure portion, a second leading edge, and a second trailing edge, an asymmetric third airfoil having a third high pressure portion, a third leading edge, and a third trailing edge, an asymmetric fourth airfoil having a fourth high pressure portion, a fourth leading edge, and a fourth trailing edge, and an asymmetric fifth airfoil having a fifth high pressure portion, a fifth leading edge, and a fifth trailing edge, wherein the first airfoil, second airfoil, third airfoil, fourth airfoil, and fifth airfoil are circumferentially distributed and rotate about an axis, and are sized and spaced to generate a circular laminar flow slip stream between the trailing edge of the first airfoil and the leading edge of the second airfoil, the trailing edge of the second airfoil and the leading edge of the third airfoil, the trailing edge of the third airfoil and the leading edge of the fourth airfoil, and the trailing edge of the fourth airfoil and the leading edge of the fifth airfoil;wherein the first, second, third, fourth, and fifth leading edges are at distances R1, R2, R3, R4, and R5, respectively, from the axis;wherein the first, second, third, fourth, and fifth airfoils have chords with lengths C1, C2, C3, C4, and C5, respectively;wherein the first and second airfoil are spaced apart by a distance S1, the second and third airfoils are spaced apart by a distance S2, the third and fourth airfoils are spaced apart by a distance S3, and the fourth and fifth airfoils are spaced apart by a distance S4;wherein R2, R3, R4, and R5 are within 10% of R1, and C2, C3, C4, and C5 are within 10% of C1;wherein R1:C1, R2:C2, R3:C3, R4:C4, and R5:C5 are between 2.9 and 3.5, inclusive;wherein C1:S1, C2:S2, C3:S3, and C4:S4 are at least 3:1, inclusive; andwherein at least 90% of each of the first, second, third, fourth, and fifth high pressure portions is curved in a manner that facilitates the circular laminar flow slip stream. 2. The turbine of claim 1, wherein at least one of the first, second, third, fourth, and fifth high pressure portions comprises a low pressure portion configured to maintain a constant rotational speed at a given temperature and density. 3. The turbine of claim 1, wherein the first airfoil has angle of attack between −30 degrees and 30 degrees. 4. The turbine of claim 1, further comprising at least one laminar stall vane configured to maintain the circular laminar flow slip stream. 5. The turbine of claim 1, further comprising a laminar stall vane having at least first and second cavities, wherein the first and second cavities are configured to hold the first and second airfoils in proper relative positions and angle of attack. 6. The turbine of claim 5, further comprising first and second magnets, wherein the first magnet is mounted on a base and the second magnet is mounted on the laminar stall vane. 7. The turbine of claim 6, wherein the first magnet is positioned adjacent to the second magnet to thereby produce magnetic levitation of the laminar stall vane. 8. The turbine of claim 7, further comprising a generator coupled to the laminar stall vane, wherein the generator comprises first and second generator rings that define a slot configured to hold at least a portion of a first coil. 9. The turbine of claim 8, wherein the first coil is attached to the base. 10. The turbine of claim 1, wherein the turbine is a vertical axis turbine. 11. The turbine of claim 1, wherein the turbine is made of a composite material. 12. The turbine of claim 1, further comprising a generator ring assembly coupled to a laminar stall vane, and including a slot sized and dimensioned to support a first coil shoe. 13. The turbine of claim 1, further comprising a magnetic linear axial flux generator at least partially embedded within a composite base. 14. The turbine of claim 13, wherein the composite base comprises a ring-shaped base, and wherein the magnetic linear axial flux generator is mounted on an internal portion of the ring-shaped base. 15. The turbine of claim 1, wherein the first and second airfoils are shaped and positioned such that the turbine responds to a flow of fluid by spinning with a tangential velocity greater than the velocity of the fluid against the turbine.
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