Wind energy harnessing apparatuses, systems, methods, and improvements
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03B-013/10
F03B-013/00
H02K-007/18
출원번호
US-0584409
(2006-10-19)
등록번호
US-7484363
(2009-02-03)
발명자
/ 주소
Reidy,Michael T.
Iyer,Hari S.
Monttinen,Jarmo
출원인 / 주소
Michael Reidy
대리인 / 주소
Bryan Cave LLP
인용정보
피인용 횟수 :
22인용 특허 :
40
초록▼
Improvements to wind farms and wind generators for harnessing wind energy or generating electricity from wind. Secondary wind turbines are provided at particular locations within a wind farm to generate additional electricity, in some embodiments, using a common electrical power collection system. E
Improvements to wind farms and wind generators for harnessing wind energy or generating electricity from wind. Secondary wind turbines are provided at particular locations within a wind farm to generate additional electricity, in some embodiments, using a common electrical power collection system. Enclosures or venturis may surround wind turbines to facilitate mounting close to the ground. Venturis may accelerate wind speed through the turbine and may have a particular shape, may be made of particular materials arranged in particular ways, or both. In different embodiments, wind turbines may be axial-flow horizontal-axis turbines, or may be Savonius turbines, as examples. And in some embodiments, wind turbines may be combined with other power production equipment, such as solar power equipment, for instance.
대표청구항▼
What is claimed is: 1. A method of improving the power production capability of a wind farm, the wind farm having at least two primary wind turbines and a predominant wind direction, the method comprising at least the steps of: obtaining at least one secondary wind turbine having a substantially sm
What is claimed is: 1. A method of improving the power production capability of a wind farm, the wind farm having at least two primary wind turbines and a predominant wind direction, the method comprising at least the steps of: obtaining at least one secondary wind turbine having a substantially smaller size than either of the primary wind turbines; installing the secondary wind turbine in between, down wind of, and substantially below the primary wind turbines; and obtaining a venturi; and wherein the step of installing the secondary wind turbine includes installing the secondary wind turbine within the venturi. 2. The method of claim 1 wherein the wind farm comprises a row of at least three primary wind turbines, and wherein the step of obtaining at least one secondary wind turbine comprises obtaining at least a plurality of secondary wind turbines, each secondary wind turbine having a substantially smaller size than at least a plurality of the primary wind turbines, and wherein the step of installing the secondary wind turbines comprises installing the secondary wind turbines in a row substantially parallel to the row of at least three primary wind turbines, and wherein at least a plurality of the secondary wind turbines are each in between, down wind of, and substantially below two of the primary wind turbines. 3. The method of claim 2 wherein the row of at least three primary wind turbines is substantially perpendicular to the predominant wind direction. 4. The method of claim 2 wherein the wind farm comprises a plurality of substantially parallel rows of at least three primary wind turbines in each row, and wherein the step of installing the secondary wind turbines comprises installing the secondary wind turbines in a plurality of rows of secondary wind turbines that are each substantially parallel to the rows of primary wind turbines, and wherein at least one of the rows of secondary wind turbines is in between two rows of the primary wind turbines. 5. A method of improving the power production capability of a wind farm, the wind farm having at least two primary wind turbines and a predominant wind direction, the method comprising at least the steps of: obtaining at least one secondary wind turbine having a substantially smaller size than either of the primary wind turbines; installing the secondary wind turbine in between, down wind of, and substantially below the primary wind turbines; and obtaining an enclosure having at least one screen; and wherein the step of installing the secondary wind turbine includes at least one of installing the secondary wind turbine within the enclosure or installing the enclosure around the secondary wind turbine. 6. A method of improving the power production capability of an existing wind farm, the wind farm having a plurality of primary wind turbines, the method comprising in the following order at least the steps of: measuring the wind speed in the wind farm at a plurality of locations and at a plurality of times; identifying a plurality of target locations within the wind farm where the wind speed is substantially greatest, at least during particular time periods; and installing secondary wind turbines at at least some of the plurality of target locations; and obtaining an enclosure having at least one screen; and wherein the step of installing the secondary wind turbine includes at least one of installing the secondary wind turbine within the enclosure or installing the enclosure around the secondary wind turbine. 7. The method of claim 6 further comprising, before the step of installing secondary wind turbines, a step of evaluating whether installing secondary wind turbines at the target locations would adversely effect the primary wind turbines. 8. The method of claim 6 further comprising, before the step of installing secondary wind turbines, a step of determining an appropriate size of the secondary wind turbines. 9. The method of claim 6 wherein the target locations are in between the primary wind turbines when viewed looking down wind from a predominant wind direction. 10. The method of claim 6 wherein the target locations are down wind from the primary wind turbines with reference to a predominant wind direction. 11. The method of claim 6 wherein the target locations are at a lower elevation than the primary wind turbines. 12. A method of improving the power production capability of an existing wind farm, the wind farm having a plurality of primary wind turbines, the method comprising in the following order at least the steps of: measuring the wind speed in the wind farm at a plurality of locations and at a plurality of times; identifying a plurality of target locations within the wind farm where the wind speed is substantially greatest, at least during particular time periods; installing secondary wind turbines at at least some of the plurality of target locations; and installing a plurality of venturis at the plurality of target locations. 13. A wind farm for generating electricity from wind, the wind farm comprising: a plurality of primary wind turbines, each primary wind turbine having a primary wind turbine height above a ground surface and each primary wind turbine comprising a primary electrical generator; a plurality of secondary wind turbines, each secondary wind turbine having a secondary wind turbine height above a ground surface, wherein the average secondary wind turbine height is substantially less than an average primary wind turbine height, and each secondary wind turbine comprising a secondary electrical generator; an enclosure at least partially surrounding each secondary wind turbine; and an electrical power collection system configured to collect electrical power from the primary electrical generators and from the secondary electrical generators and deliver the electrical power to an electrical power distribution grid; and wherein each enclosure comprises a venturi, each venturi having a venturi height above the ground surface, each venturi having a concentrator section extending from an entrance opening to a throat, the entrance opening having a substantially greater cross-sectional area than the throat, wherein each secondary wind turbine is located at the throat of one of the venturis. 14. The wind farm of claim 13 wherein a plurality of the venturis include a diffuser section, each diffuser section extending from the throat to an exit opening, the exit opening having a substantially greater cross-sectional area than the throat. 15. The wind farm of claim 13 further comprising a screen covering the entrance opening. 16. The wind farm of claim 13 wherein at least part of the concentrator section has the shape of at least a fifth-degree polynomial curve. 17. The wind farm of claim 13 wherein the primary wind turbines and the secondary wind turbines are alternately arranged in the wind farm. 18. A wind farm for generating electricity from wind, the wind farm comprising: a plurality of primary wind turbines, each primary wind turbine having a primary wind turbine height above a ground surface and each primary wind turbine comprising a primary electrical generator; a plurality of secondary wind turbines, each secondary wind turbine having a secondary wind turbine height above a ground surface, wherein the average secondary wind turbine height is substantially less than an average primary wind turbine height, and each secondary wind turbine comprising a secondary electrical generator; an enclosure at least partially surrounding each secondary wind turbine; and an electrical power collection system configured to collect electrical power from the primary electrical generators and from the secondary electrical generators and deliver the electrical power to an electrical power distribution grid; and wherein the primary wind turbines are arranged in at least one primary wind turbine row and the secondary wind turbines are arranged in at least one secondary wind turbine row and the at least one secondary wind turbine row is substantially parallel to the at least one primary wind turbine row. 19. A wind farm for generating electricity from wind, the wind farm comprising: a plurality of primary wind turbines, each primary wind turbine having a primary wind turbine height above a ground surface and each primary wind turbine comprising a primary electrical generator; a plurality of secondary wind turbines, each secondary wind turbine having a secondary wind turbine height above a ground surface, wherein the average secondary wind turbine height is substantially less than an average primary wind turbine height, and each secondary wind turbine comprising a secondary electrical generator; an enclosure at least partially surrounding each secondary wind turbine; and an electrical power collection system configured to collect electrical power from the primary electrical generators and from the secondary electrical generators and deliver the electrical power to an electrical power distribution grid; and wherein the primary wind turbines are arranged in a plurality of primary wind turbine rows and the secondary wind turbines are arranged in a plurality of secondary wind turbine rows wherein the secondary wind turbine rows and the primary wind turbine rows are substantially parallel and alternately arranged. 20. The wind farm of claim 19 wherein the primary wind turbine rows and the secondary wind turbine rows are each substantially perpendicular to a prevailing wind direction. 21. A wind farm for generating electricity from wind, the wind farm comprising: a plurality of primary wind turbines, each primary wind turbine having a primary wind turbine height above a ground surface and each primary wind turbine comprising a primary electrical generator; a plurality of secondary wind turbines, each secondary wind turbine having a secondary wind turbine height above a ground surface, wherein the average secondary wind turbine height is substantially less than an average primary wind turbine height, and each secondary wind turbine comprising a secondary electrical generator; an enclosure at least partially surrounding each secondary wind turbine; and an electrical power collection system configured to collect electrical power from the primary electrical generators and from the secondary electrical generators and deliver the electrical power to an electrical power distribution grid; and wherein the primary wind turbines are venturiless and each include a variable-pitch multi-blade propeller mounted on a tower. 22. A wind farm for generating electricity from wind, the wind farm comprising: a plurality of primary wind turbines, each primary wind turbine having a primary wind turbine height above a ground surface and each primary wind turbine comprising a primary electrical generator; a plurality of secondary wind turbines, each secondary wind turbine having a secondary wind turbine height above a ground surface, wherein the average secondary wind turbine height is substantially less than an average primary wind turbine height, and each secondary wind turbine comprising a secondary electrical generator; an enclosure at least partially surrounding each secondary wind turbine; and an electrical power collection system configured to collect electrical power from the primary electrical generators and from the secondary electrical generators and deliver the electrical power to an electrical power distribution grid; and wherein each enclosure comprises at least one screen.
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