| 摘要 |
A synergic method for hydrodynamic energy generation includes providing a system and method utilization for producing electrical power or mechanical rotational pumping energy for pumping water to high level reservoir or to feeding a decorative water fall, providing a multi compartment housing, pumping water via the housing, providing a first vertically aligned compartment within or beside the housing, mechanically coupling a first water wheel, situated at the bottom of first compartment, to pump shaft, generating by the first wheel mechanical rotational power, providing a second vertically aligned compartment mechanically coupling a second water wheel to a generator, generating electrical or mechanical rotational power, by the generator, providing a third vertically aligned compartment providing a fourth compartment, a pump or external jet for removing water from the fourth compartment, utilizing energy and conductively coupling the hydrodynamic energy generation system with the external power source via a coupling. |
| 主权项 |
1. A method for hydrodynamic energy generation, comprising:
providing a system utilization for generating electrical power, or pumping energy; providing a housing comprising a hollow interior; situated between upper and lower water reservoirs; pumping water via the housing using a pump located at a bottom of the housing, the pump equipped with a first fluid inlet providing fluid at a low head pressure and a second fluid inlet which routes fluid from a high head pressure compartment; providing a first vertically aligned compartment within the housing, wherein the first vertically aligned compartment has a first opening on an upper end and a second opening on a lower end, which interfaces with the first fluid inlet; mechanically coupling at least one water wheel, located below the first opening on the upper end and within the first compartment, to a pump assembly; causing pump to initiate pumping and move when the connected first water wheel is moved by water that falls into the first compartment; mechanically coupling a first water wheel, proximate to the second opening of the first compartment, to the pump through an external gear box, shaft or chain; providing a second vertically aligned compartment within the housing, wherein the second compartment has a first opening on an upper end and a second opening on a lower end, which interfaces with the second fluid inlet; second water wheel located in the second compartment; generating mechanical rotational power or electrical power by the second generator, when the second water wheel is moved by means of water flow before exiting the lower end of the second compartment; providing a third vertically aligned compartment or tubing within or beside the housing, wherein the third compartment has a first opening on an upper end and a second opening on the lower end, wherein the upper end of the third compartment is in fluid communication with the first and second compartments; providing a fourth compartment within the housing arranged proximate to the lower ends of the first, second and third compartments, wherein the second openings of the first, second, and third compartments provide fluid communication with the fourth compartment; reading data from a controlled water level under the second water wheel; a pump or external jet for removing water from the fourth compartment into the third compartment, wherein the pump is mechanically coupled to the first water wheel through the shaft, chain or external gear box and at least partially powered by the second generator, and wherein the pump is at least partially powered by an external power source; and conductively coupling the hydrodynamic energy generation system with the external power source via a coupling. |
