A wind turbine station for generating electricity comprising a multi floor structure having open framing. The open framing comprising at least two spaced-apart, open, vertical frames, the frames each made primarily of uncovered beams and columns. The station has a plurality of vertically spaced, hor
A wind turbine station for generating electricity comprising a multi floor structure having open framing. The open framing comprising at least two spaced-apart, open, vertical frames, the frames each made primarily of uncovered beams and columns. The station has a plurality of vertically spaced, horizontal, interior platforms forming the floors of the structure, each interior platform extending between and joined to both of the frames over the length of the frames. Wind turbines are mounted on the structure about the outer periphery of each platform. The wind turbines face outwardly and are each operatively connected to a generator to produce electricity. In a preferred embodiment, the structure has an annular shape with an outer cylindrical or polygonal prism frame and an inner cylindrical or polygonal prism frame spaced from the outer frame. The interior platforms have a flat, ring shape. The invention includes a method for building the station.
대표청구항▼
1. A wind energy shell turbine station comprising; a multi floor structure having open framing; the open framing comprising, at least two spaced-apart open, substantially parallel vertical frames, the frames each having one or more spans in one or more horizontal directions, and each made of frame b
1. A wind energy shell turbine station comprising; a multi floor structure having open framing; the open framing comprising, at least two spaced-apart open, substantially parallel vertical frames, the frames each having one or more spans in one or more horizontal directions, and each made of frame beams and columns, the frames interconnected to each other by interconnecting beams and form one spatial structure; a plurality of vertically spaced horizontal flat interior platforms forming the floors of the structure, each interior platform extending between and supported by the frame beams and by the interconnecting beams over the length of the frames; wind turbines mounted on the structure about the outer periphery of each interior platform, the turbines facing outwardly, and wherein each wind turbine is operatively connected to a generator to produce electricity. 2. A station as claimed in claim 1; wherein the structure has spaced-apart exterior platforms extending outwardly from said outer periphery of each interior platform past the frames; the plurality of wind turbines being mounted on the exterior platforms, one wind turbine per exterior platform. 3. A station as claimed in claim 2; wherein each exterior platform includes track means extending inwardly past said periphery of the interior platform and onto the interior platform, said wind turbines, each movably mounted on the track means so that the wind turbines can be moved between a working position on the exterior platform and a servicing position on the interior platform between the spaced apart vertical frames. 4. A station as claimed in claim 1; wherein each interior platform is wide enough in order to allow space for moving each wind turbine from an operating position, inwardly relative to one of the vertical frames to a servicing position on the interior platform in order to allow space on the platform at the servicing position for said wind turbine to be serviced; and to allow space on the platform between the servicing position and another one of the vertical frames for a roadway for a vehicle mounted crane to travel between service positions and to have access to each turbine on the platform at its operating position. 5. A station as claimed in claim 1; wherein each interior platform has a first vehicle ramp on a roadway leading to an adjacent upper interior platform and a second vehicle ramp on a roadway leading to an adjacent lower interior platform. 6. A station as claimed in claim 1 wherein the wind turbines can be horizontal axis wind turbines; vertical axis wind turbines; or a combination of horizontal axis and vertical axis wind turbines, the wind turbines, each having a height slightly less than the distance between vertically spaced interior platforms. 7. A station as defined in claim 1, wherein hydrogen based electricity generation units are located on the multi floor structure, each unit comprising electrolyzers which are fed by electricity generated by said wind turbines, the electricity being converted to DC and transformed to proper low voltage and adequate amperage for the electrolyzers, and the electrolyzers producing hydrogen which is stored in hydrogen tanks, and the hydrogen tanks are in communication with hydrogen operated fuel cell generators which generate non-fluctuating electricity. 8. A station as claimed in 1; wherein the vertical frames are serpentine when viewed from above, with alternating half circular or polygon loops, the turbines mounted on the interior platforms adjacent to the peripheries of each loop. 9. A station as claimed in claim 8; wherein the structure has spaced-apart exterior platforms extending outwardly from said outer periphery of each interior platform past the frames; the plurality of wind turbines being mounted on the exterior platforms, one wind turbine per exterior platform. 10. A station as claimed in claim 9; wherein each exterior platform includes track means extending inwardly past said periphery of the interior platform and onto the interior platform, said wind turbines, each movably mounted on the track means so that the wind turbines can be moved between a working position on the exterior platform and a servicing position on the interior platform between the spaced apart vertical frames. 11. A station as claimed in claim 10; wherein said exterior platforms are vertically aligned with each other; said track means comprising a lower track on the exterior platform and the interior platform; and an upper track vertically aligned with the lower track, wherein the upper track is on the bottom of both an adjacent, upper exterior platform and an adjacent, upper interior platform. 12. A station as claimed in claim 8; wherein each interior platform is wide enough in order to allow space for moving each wind turbine from an operating position, inwardly relative to one of the vertical frames to a servicing position on the interior platform in order to allow space on the platform at the servicing position for said wind turbine to be serviced; and to allow space on the platform between the servicing position and another one of the vertical frames for a roadway for a vehicle mounted crane to travel between service positions and to have access to each turbine on the platform at its operating position. 13. A station as claimed in claim 8; wherein each interior platform has a first vehicle ramp on a roadway leading to an adjacent upper interior platform and a second vehicle ramp on a roadway leading to an adjacent lower interior platform. 14. A station as claimed in claim 8 wherein the wind turbines can be horizontal axis wind turbines; vertical axis wind turbines; or a combination of horizontal axis and vertical axis wind turbines. 15. A station as claimed in claim 8 or claim 1 wherein the wind turbines, each having a height slightly less than the distance between vertically spaced horizontal interior platforms. 16. A station as defined in claim 8, wherein hydrogen based electricity generation units are located on the multi floor structure, each unit comprising electrolyzers which are fed by electricity generated by said wind turbines, the electricity being converted to DC and transformed to proper low voltage and adequate amperage for the electrolyzers, and the electrolyzers producing hydrogen which is stored in hydrogen tanks, and the hydrogens tanks are in communication with hydrogen operated fuel cell generators which generate non-fluctuating electricity. 17. A station as claimed in claim 1 or claim 8; wherein locking means are associated with each wind turbine and said track means for locking the turbine on the track means in the operating position against movement from the operating position. 18. An array of stations; wherein each station is as constructed as claimed in claim 1, and wherein extremities of exterior frames of the stations in the array are located on a perimeter of a virtual open or closed curve, wherein first and last exterior frames located on the virtual open curves and first and last interior frames located on parallel correspondent virtual curves, are supported by tension cables to fix the frames to ground. 19. A wind turbine station comprising an annular, multi floor structure having a generally cylindrical or polygonal prism outer frame and at least another generally cylindrical or polygonal prism inner frame which is concentric within the outer frame, both frames each made of beams and columns to provide an open framing construction and interconnected to each other by beams to form one spatial structure; a plurality of vertically spaced horizontal interior platforms between the outer and inner frames and forming the floors of the structure, each interior platform having a flat, ring shape and fastened to both the outer and inner frames to extend across a space between the frames; and wind turbines mounted on the structure about the outer periphery of each interior platform, the wind turbines facing outwardly, and wherein each wind turbine is operatively connected to a generator to produce electricity. 20. A station as claimed in claim 19; wherein the height of the structure is about four times as large as the outside diameter of the structure. 21. A station as claimed in claim 19 wherein the outside diameter of the building is between 100-500 m. which is approximately one quarter the height of the station. 22. A method of building a wind turbine station of the type claimed in claim 1, claim 8 or claim 19 comprising building the frames of the station up, out of beams and columns, to a first floor level of the station using vehicle mounted cranes traveling on a ground floor, building at least part of the interior platforms forming the first floor, supported by the first floor frames, using the vehicle mounted cranes on the ground floor, including building a ramp up to the first floor from the ground floor; moving building material and wind turbines from the ground floor up to the first floor with the vehicle mounted cranes using the ramp; using the vehicle mounted cranes on the first floor to complete building the interior platforms of the first floor; building the frames up to a second floor level using the vehicle mounted cranes on the first floor; building part of the interior platforms of the second floor using the vehicle mounted cranes on the first floor, including building a ramp leading up from the first floor to the second floor; installing the wind turbines on the outer peripheries of the first floor interior platforms, and repeating the process to build each floor until the desired building height is reached. 23. A method as claimed in claim 22 including building at least one elevator large enough to carry construction materials and to carry the wind turbines during construction of the station, wherein the elevator is built in stages up from one floor to a next, adjacent to inner frames, and after building of frames of one floor in order to lift the required construction materials required to build the next floor and to lift the wind turbines.
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Pickett, Ronald W.; Sadle, Stephen L., Atmospheric energy extraction devices and methods.
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