Horizontal-axis hydrokinetic water turbine system with water pump
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03B-013/10
F03B-013/12
F03B-013/00
F03B-017/06
출원번호
US-0953375
(2013-07-29)
등록번호
US-8786122
(2014-07-22)
발명자
/ 주소
Rajadhyaksha, Vikram V.
Huff, Roger Sam
Cherian, Mookencheril P.
출원인 / 주소
DLZ Corporation
대리인 / 주소
Porter, Wright, Morris & Arthur, LLP
인용정보
피인용 횟수 :
2인용 특허 :
21
초록▼
A hydrokinetic water turbine system includes a frame structure, a horizontally-disposed rotor shaft supported by the frame structure, and a rotor secured to the rotor shaft. The rotor has a plurality of spaced-apart blades so that the flowing stream of water revolves the rotor. The flowing stream of
A hydrokinetic water turbine system includes a frame structure, a horizontally-disposed rotor shaft supported by the frame structure, and a rotor secured to the rotor shaft. The rotor has a plurality of spaced-apart blades so that the flowing stream of water revolves the rotor. The flowing stream of water rotates the rotor shaft, which drives a liquid pump, which pumps a liquid to a desired location. Such as, for example, pumping water from the flowing stream to an irrigations system.
대표청구항▼
1. A hydrokinetic water turbine system configured to be placed in a flowing stream of water, said water turbine system comprising, in combination: a frame structure;a rotor shaft supported by the frame structure to rotate about a horizontally-disposed central axis of the rotor shaft;a rotor secured
1. A hydrokinetic water turbine system configured to be placed in a flowing stream of water, said water turbine system comprising, in combination: a frame structure;a rotor shaft supported by the frame structure to rotate about a horizontally-disposed central axis of the rotor shaft;a rotor secured to the rotor shaft and having a first plurality of spaced-apart blades parallel to the central axis of the rotor shaft and circumferentially spaced apart about the rotor shaft, and a second plurality of space-apart blades extending parallel to the central axis of the rotor shaft and circumferentially space-apart about the rotor shaft so that the flowing stream of water revolves the rotor about the central axis of the rotor shaft;wherein the first and second plurality of blades are each rigidly secured to prevent relative movement between each of the blades;wherein the first and second plurality of blades are each straight in the longitudinal direction and have a hydrofoil shape in cross-section configured to generate lift and rotate the rotor about the horizontally disposed central axis as the flowing stream of water passes around the hydrofoil shape;wherein the second plurality of blades is spaced-apart from the first plurality of blades in the longitudinal direction and offset from the first plurality of blades so that the second plurality of blades is circumferentially located between the first plurality of blades for smooth rotation of the rotor; anda water pump having an inlet configured to intake water from the flowing stream of water, an outlet configured to outflow water from the stream of water, and a pump shaft directly driven by rotation of the rotor and configured to rotate at the same speed of rotation as the rotor. 2. The hydrokinetic water turbine system according to claim 1, wherein the water pump is a low-speed centrifugal pump. 3. The hydrokinetic water turbine system according to claim 1, wherein the water pump operates in the range of about 60 RPM to about 80 RPM. 4. The hydrokinetic water turbine system according to claim 1, wherein the pump shaft is operatively connected to the rotor shaft for rotation of a pump shaft at an intermediate position along the rotor shaft and between the first plurality of blades and the second plurality of blades. 5. The hydrokinetic water turbine system according to claim 4, wherein the water pump is located underwater. 6. The hydrokinetic water turbine system according to claim 5, wherein the pump shaft is co-axial with the shaft, located between first and second portions of the rotor shaft, and is rigidly secured to the first and second portions of the rotor shaft for rotation therewith. 7. The hydrokinetic water turbine system according to claim 1, wherein the first and second plurality of blades are each hollow extrusions with internal ribs between hollow cavities and the hollow cavities are filled with a material having a weight less than a weight of a material forming the extrusions. 8. The hydrokinetic water turbine system according to claim 7, wherein the hollow cavities are filled with a foam material. 9. The hydrokinetic water turbine system according to claim 7, wherein the extrusions comprise one of aluminum and carbon fiber composite. 10. A hydrokinetic water turbine system configured to be placed in a flowing stream of water, said water turbine system comprising, in combination: a frame structure;a rotor shaft supported by the frame structure to rotate about a horizontally-disposed central axis of the rotor shaft;a rotor secured to the rotor shaft and having a first plurality of spaced-apart blades parallel to the central axis of the rotor shaft and circumferentially spaced apart about the rotor shaft, and a second plurality of space-apart blades extending parallel to the central axis of the rotor shaft and circumferentially space-apart about the rotor shaft so that the flowing stream of water revolves the rotor about the central axis of the rotor shaft;wherein the first and second plurality of blades are each rigidly secured to prevent relative movement between each of the blades;wherein the first and second plurality of blades are each straight in the longitudinal direction and have a hydrofoil shape in cross-section configured to generate lift and rotate the rotor about the horizontally disposed central axis as the flowing stream of water passes around the hydrofoil shape;wherein the second plurality of blades is spaced-apart from the first plurality of blades in the longitudinal direction and offset from the first plurality of blades so that the second plurality of blades is circumferentially located between the first plurality of blades for smooth rotation of the rotor;wherein the first and second plurality of blades are each hollow extrusions with internal ribs between hollow cavities and the hollow cavities are filled with a material having a weight less than a weight of a material forming the extrusions; anda liquid pump having a pump shaft driven by rotation of the rotor. 11. The hydrokinetic water turbine system according to claim 10, wherein the liquid pump has an inlet configured to intake water from the flowing stream of water and an outlet configured to outflow water from the stream of water. 12. The hydrokinetic water turbine system according to claim 10, wherein the pump shaft is directly driven by rotation of the rotor and configured to rotate at the same speed of rotation as the rotor. 13. The hydrokinetic water turbine system according to claim 12, wherein the liquid pump is a low-speed centrifugal pump. 14. The hydrokinetic water turbine system according to claim 12, wherein the liquid pump operates in the range of about 60 RPM to about 80 RPM. 15. The hydrokinetic water turbine system according to claim 12, wherein the pump shaft is operatively connected to the rotor shaft for rotation of a pump shaft at an intermediate position along the rotor shaft and between the first plurality of blades and the second plurality of blades. 16. The hydrokinetic water turbine system according to claim 15, wherein the liquid pump is located underwater. 17. The hydrokinetic water turbine system according to claim 16, wherein the pump shaft is co-axial with the shaft, located between first and second portions of the rotor shaft, and is rigidly secured to the first and second portions of the rotor shaft for rotation therewith. 18. The hydrokinetic water turbine system according to claim 10, wherein the hollow cavities are filled with a foam material. 19. A hydrokinetic water turbine system configured to be placed in a flowing stream of water, said water turbine system comprising, in combination: a frame structure;a rotor shaft supported by the frame structure to rotate about a horizontally-disposed central axis of the rotor shaft;a rotor secured to the rotor shaft and having a first plurality of spaced-apart blades parallel to the central axis of the rotor shaft and circumferentially spaced apart about the rotor shaft, and a second plurality of space-apart blades extending parallel to the central axis of the rotor shall and circumferentially space-apart about the rotor shaft so that the flowing stream of water revolves the rotor about the central axis of the rotor shaft;wherein the first and second plurality of blades are each rigidly secured to prevent relative movement between each of the blades;wherein the first and second plurality of blades are each straight in the longitudinal direction and have a hydrofoil shape in cross-section configured to generate lift and rotate the rotor about the horizontally disposed central axis as the flowing stream of water passes around the hydrofoil shape;wherein the second plurality of blades is spaced-apart from the first plurality of blades in the longitudinal direction and offset from the first plurality of blades so that the second plurality of blades is circumferentially located between the first plurality of blades for smooth rotation of the rotor;wherein the first and second plurality of blades are each hollow extrusions with internal ribs between hollow cavities and the hollow cavities are filled with a material having a weight less than a weight of a material forming the extrusions; anda submerged water pump having an inlet configured to intake water from the flowing stream of water, an outlet configured to outflow water from the stream of water, and a pump shaft directly driven by rotation of the rotor and configured to rotate at the same speed of rotation as the rotor. 20. The hydrokinetic water turbine system according to claim 19, wherein the pump shaft is operatively connected to the rotor shaft for rotation of a pump shaft at an intermediate position along the rotor shaft and between the first plurality of blades and the second plurality of blades, and wherein the pump shaft is co-axial with the shaft, located between first and second portions of the rotor shah, and is rigidly secured to the first and second portions of the rotor shaft for rotation therewith.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (21)
Matheny, Alfred P., Bladed rotor with shear pin attachment.
Lin, Cheng S., Hinged blade device to convert the natural flow or ocean or river current or ocean waves to rotational mechanical motion for power generation.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.