IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0820123
(2007-06-18)
|
등록번호 |
US-7400057
(2008-07-15)
|
우선권정보 |
AU-2004907279(2004-12-23) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Katru Eco Energy Group Pte. Ltd
|
대리인 / 주소 |
Stetina Brunda Garred & Brucker
|
인용정보 |
피인용 횟수 :
26 인용 특허 :
9 |
초록
▼
An omni directional, vertical discharge wind turbine, consisting of a shroud that captures wind from any direction and directs it to flow vertically through a throat section where an aerofoil multi-bladed rotor is mounted. The rotor shaft is connected to an electrical power generator. The intake of
An omni directional, vertical discharge wind turbine, consisting of a shroud that captures wind from any direction and directs it to flow vertically through a throat section where an aerofoil multi-bladed rotor is mounted. The rotor shaft is connected to an electrical power generator. The intake of the shroud incorporates multiple horizontally curved blades of toroidal form varying up to nearly twice the size of the rotor diameter, stacked, staggered and secured in place by multiple aerodynamic vertical walls in the radial direction, to form a central collection chamber for wind. The blade curving angles and the stacking arrangement are such that while accelerating and focusing the wind, across the full swept area of the rotor blades, the loss of air from the central collection chamber is significantly reduced by air flow forming a fluid dynamic gate across inactive faces. Utilizing a wedge and collar near the open top discharge the free wind stream flowing across the open top assists in increasing the flow of air through the rotor. With the increased extraction and wider operational envelop, the energy produced per annum of this omni-directional shrouded vertical wind turbine is anticipated to be much higher than that of a standard free wind turbine of same rotor diameter.
대표청구항
▼
What is claimed is: 1. An omni-directional, shrouded vertical wind turbine for generating electricity, the omni directional, shrouded vertical wind turbine comprising: a) a plurality of curved members defining a central collection chamber substantially expanding in a direction of airflow there with
What is claimed is: 1. An omni-directional, shrouded vertical wind turbine for generating electricity, the omni directional, shrouded vertical wind turbine comprising: a) a plurality of curved members defining a central collection chamber substantially expanding in a direction of airflow there within; b) a plurality of substantially vertical support members; c) a hollow member wherein the hollow member expands in cross section in the direction of air flow; d) a rotating member disposed above the central collection chamber wherein the rotating member is connected to a generator to generate electricity from rotation of the rotating member; wherein the rotating member is connected to the omni directional, shrouded vertical wind turbine and located near an inlet of the hollow member; wherein each of the plurality of curved members is connected to at least one of the plurality of substantially vertical support members so as to form a plurality of air inlets into the central collection chamber; wherein at least one of the plurality of curved members and the plurality of substantially vertical support members are shaped and spaced to direct air to a diametrically opposite side of an internal aspect of the omni directional, shrouded vertical wind turbine so as to form an air gate to reduce air leakage on the diametrically opposite side and adjacent sides of the internal aspect of the omni directional, shrouded vertical wind turbine; wherein the plurality of curved members and the plurality of substantially vertical support members are shaped and spaced to focus air directly to an entire lower surface of the rotating member; wherein the plurality of curved members form a central collection chamber that expands in cross section from a location furthest from the rotating member to a location nearest the rotating member. 2. The omni-directional, shrouded vertical wind turbine according to claim 1 wherein the plurality of curved members include toroid shaped radially curving blades. 3. The omni-directional, shrouded vertical wind turbine according to claim 1 wherein the plurality of substantially vertical support members includes vertical walls. 4. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the rotating member includes a horizontal--axis type wind turbine rotor, mounted vertically. 5. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the hollow member includes a diffuser. 6. The omni-directional, shrouded vertical wind turbine according to claim 2 above wherein the plurality of curved members have an aerofoil cross section. 7. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein all of the plurality of curved members have varying perimeter diameters and annular diameters. 8. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the plurality of curved members are secured in place in a concentric arrangement. 9. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the plurality of curved members are vertically staggered. 10. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the plurality of curved members are disposed in a stacked arrangement. 11. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the plurality of curved members have an overlapping arrangement. 12. The omni-directional, shrouded vertical wind turbine according to claim 1, above wherein the central collection chamber converges towards a central throat region. 13. The omni-directional, shrouded vertical wind turbine according to claim 12 above wherein the central collection chamber is continuous with an internal aspect of the hollow member. 14. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the plurality of substantially vertical support members are aerodynamically shaped. 15. The omni-directional, shrouded vertical wind turbine according to claim 4 above wherein the rotating member is mounted, with its axis vertical, near the central throat region. 16. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the rotating member includes airfoil blades. 17. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein focusing of air entering the shroud by the plurality of curved members results in the air gate being formed across air passages formed by inactive members of the plurality of curved members so as to reduce air leakage. 18. The omni-directional, shrouded vertical wind turbine according to claim 17 above wherein the lowermost of the plurality of curved members is shaped and configured to direct the air to the inactive curved members at a lower pressure than air external to the shroud so as to contribute to the air gate. 19. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the orientation of the plurality of curved members and the plurality of substantially vertical support members receive and use wind coming from substantially any direction. 20. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the orientation of the plurality of curved members and the plurality of substantially vertical support members directs air across the full swept area of the rotating member. 21. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the rotating member is connected via a rotating shaft to an electricity generating power train assembly and device. 22. The omni-directional, shrouded vertical wind turbine according claim 1 above including between 3 and 6 substantially vertical support members to secure the plurality of curved members, between a bell mouth upper body and a base supporting plate. 23. The omni-directional, shrouded vertical wind turbine according claim 22 above wherein the plurality of substantially vertical support members include a reversed aerofoil section with identical surface curvatures on both vertical wall faces of the reversed aerofoil section. 24. The omni-directional, shrouded vertical wind turbine according to claim 23 above wherein the plurality of substantially vertical support members has boundary layer preserving air channels formed from a leading edge to a trailing half of both faces of each of the plurality of substantially vertical support members. 25. The omni-directional, shrouded vertical wind turbine according claim 24 above wherein the boundary layer preserving air channels exit both faces of each of the plurality of substantially vertical support members tangentially at an angle less than 15 degrees to an outer surface. 26. The omni-directional, shrouded vertical wind turbine according to claim 22 above having the plurality of substantially vertical support members arranged radially at equal intervals, from the plurality of air inlets to a perimeter of the central collection chamber. 27. The omni-directional, shrouded vertical wind turbine according to claim 23 above wherein the plurality of substantially vertical support members includes an aerofoil wall blade thickness being between 35%-50% of chord length. 28. The omni-directional, shrouded vertical wind turbine according to claim 22 above wherein a thickest point of each of the plurality of substantially vertical support members is greater than 51% of the chord length from the leading edge. 29. The omni-directional, shrouded vertical wind turbine according to claim 23 above with an included angle between two faces of each of the plurality of substantially vertical support members being in the range 75-150 degrees and within 15% of the chord length from a trailing edge. 30. The omni-directional, shrouded vertical wind turbine according to claim 2 above including four or more, horizontal to near vertical curved toroidal blades varying in internal annulus diameter from 20% to 145% of the rotor diameter. 31. The omni-directional, shrouded vertical wind turbine according to claim 2 above with convex and concave surface radii of curvature of each of the plurality of curved members being equal to between 25% and 55% of the diameter of the rotating member. 32. The omni-directional, shrouded vertical wind turbine according to claim 2 above wherein the plurality of curved members start to curve with an angle less than 20 degrees to the horizontal at an outer diameter and finish at a vertical bending angle of between 50 to 70 degrees to a horizontal direction. 33. The omni-directional, shrouded vertical wind turbine according to claim 10 above with a slope of a shortest straight line connecting an inner perimeter of a largest of the plurality of curved members to an inner perimeter of any of the other plurality of curved members and any vertical axis being between 5 to 35 degrees. 34. The omni-directional, shrouded vertical wind turbine according to claim 11 above with the plurality of curved members stacked with spacing in between the plurality of curved members such that a leading edge and trailing edge of each of the plurality of curved members overlap by a minimum amount of 2% of a diameter of the rotating member. 35. The omni-directional, shrouded vertical wind turbine according to claim 1 above with the plurality of curved members focusing air entering the shroud across a full swept area of the rotating member. 36. The omni-directional, shrouded vertical wind turbine according to claim 1 above where an internal exit passage area of the omni-directional wind turbine is a minimum of 25% and a maximum 75% of an external perimeter entry passage area between any pair of the plurality of curved members. 37. The omni-directional, shrouded vertical wind turbine according to claim 12 above where the throat region has an area that is not less than 70% of the annular core area of the uppermost member of the plurality of curved members. 38. The omni-directional, shrouded vertical wind turbine according to claim 37 above wherein the uppermost member of the plurality of curved members is a bell mouth toroid blade. 39. The omni-directional, shrouded vertical wind turbine according to claim 6 above including multiple air passages formed within at least one of the plurality of curved members to transfer air from a concave surface side to a convex surface side of the at least one of the plurality of curved members. 40. The omni-directional, shrouded vertical wind turbine according to claim 39 above including multiple air passages terminating and exiting the convex surface side of at least one of the plurality of curved members tangentially at less than 15 degrees to a surface of the at least one of the plurality of curved members. 41. The omni-directional, shrouded vertical wind turbine according to claim 5 above where a discharge outlet of a concentric open top of the hollow member has a diameter that is between 130% and 180% of the diameter of the rotating member. 42. The omni-directional, shrouded vertical wind turbine according to claim 1 above where an open top discharge outlet of the hollow member is provided with a horizontal wedge and collar around its perimeter. 43. The omni-directional, shrouded vertical wind turbine according to claim 42 above with the wedge located below an outlet of the hollow member at a height of between 7%-19% of an upper diameter of the hollow member. 44. The omni-directional, shrouded vertical wind turbine according to any claim 42 above where a face length of the wedge is between 135%-160% of a height of the collar of the hollow member. 45. The omni-directional, shrouded vertical wind turbine according to claim 1 above including additional mini-wedges placed circumferentially around an external body of the hollow member and spaced evenly below a main wedge with multiple air passages from an outer surface to an inside surface of the hollow member. 46. The omni-directional, shrouded vertical wind turbine according to claim 45 above including multiple air passages terminating and exiting an internal face of the hollow member tangentially to an inner surface of the hollow member, in the expanding direction of the hollow member. 47. The omni-directional, shrouded vertical wind turbine according to claim 1 above where an electricity generating unit is placed directly above the rotating member in an independently supported nacelle that is down stream of a shadow of the rotating member. 48. The omni-directional, shrouded vertical wind turbine according to claim 1 above having the nacelle secured by a "sloped" radial support structure connected to the hollow member. 49. The omni-directional, shrouded vertical wind turbine according to claim 1 above where electricity generating units are placed directly below the rotating member in an independently supported rotor hub nose cone. 50. The omni-directional, shrouded vertical wind turbine according to claim 1 above having a nose cone secured by a column support structure extending from a base supporting plate to the nose cone. 51. The omni-directional, shrouded vertical wind turbine according to claim 1 above where the rotating member is connected to a complete power generation assembly via a rotating shaft on supporting bearings. 52. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the plurality of curved members includes non toroidal vertically curved blades connected to each other in a closed polygon arrangement. 53. The omni-directional, shrouded vertical wind turbine according to claim 42 above with the sloping surface of the collar forming an angle between 5-20 degrees to a vertical direction. 54. The omni-directional, shrouded vertical wind turbine according to claim 1 above wherein the hollow member is substantially semi ellipsoid with angles of tangent specified at a starting location on the ellipsoid and at a finishing location. 55. The omni-directional, shrouded vertical wind turbine according to claim 42 above where an angle formed by an upper surface of the wedge to a horizontal is between 10-60 degrees.
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