Propeller-type double helix turbine apparatus and method
First Claim
1. A single turbine blade adapted to rotate in response to a fluid flow, the single turbine blade comprising of:
- a single, continuous piece of material formed of one of fiber glass or carbon fiber, the single piece of material being formed into a configuration having a first endpoint and a second endpoint located a distance apart on a central axis;
a first helical edge spiraling in a directional rotation about the central axis from the first endpoint to the second endpoint; and
a second helical edge spiraling in the directional rotation about the central axis from the first endpoint to the second endpoint, the first helical edge and the second helical edge being equidistant from the central axis and the second helical edge being approximately congruent to the first helical edge and being connected to the first helical edge such that the distance between the first helical edge and second helical edge defines a diameter of the turbine blade, and such that the turbine blade approximates a double helix in shape having a solid cross section and a pitch-to-diameter ratio of from about 1;
1 to about 10;
1; and
wherein the single turbine blade is further adapted to rotate in response to a fluid flow having a velocity of less than 3.0 meters per second and is connected to a generator via a tethering means at only one of the first and second endpoints thereof and further wherein the first or second endpoint to which the tethering means is connected is reinforced with a coating of metal, the other of the first and second endpoints remaining untethered.
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Accused Products
Abstract
A turbine blade is provided having a double helix shape with solid cross section. The turbine blades described herein may be adapted to be deployed in water or air such that usable energy may be extracted therefrom. The turbine blades may include a first and second endpoint located a distance apart on a central axis, with a helical edge spiraling in a directional rotation about the central axis from the first endpoint to the second endpoint. The turbine blade may also include a second helical edge spiraling in the same directional rotation about the central axis from the first endpoint to the second endpoint, such that the second helical edge is approximately congruent to the first helical edge and is located a distance from the first helical edge which defines a diameter.
117 Citations
17 Claims
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1. A single turbine blade adapted to rotate in response to a fluid flow, the single turbine blade comprising of:
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a single, continuous piece of material formed of one of fiber glass or carbon fiber, the single piece of material being formed into a configuration having a first endpoint and a second endpoint located a distance apart on a central axis; a first helical edge spiraling in a directional rotation about the central axis from the first endpoint to the second endpoint; and a second helical edge spiraling in the directional rotation about the central axis from the first endpoint to the second endpoint, the first helical edge and the second helical edge being equidistant from the central axis and the second helical edge being approximately congruent to the first helical edge and being connected to the first helical edge such that the distance between the first helical edge and second helical edge defines a diameter of the turbine blade, and such that the turbine blade approximates a double helix in shape having a solid cross section and a pitch-to-diameter ratio of from about 1;
1 to about 10;
1; andwherein the single turbine blade is further adapted to rotate in response to a fluid flow having a velocity of less than 3.0 meters per second and is connected to a generator via a tethering means at only one of the first and second endpoints thereof and further wherein the first or second endpoint to which the tethering means is connected is reinforced with a coating of metal, the other of the first and second endpoints remaining untethered. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A system for producing electrical energy from a fluid medium flowing at a velocity in a flow direction, the system comprising:
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a single turbine blade in communication with the flowing fluid medium having a velocity of less than 3.0 meters per second, the single turbine blade adapted to receive energy from the medium and produce mechanical energy therefrom, the single turbine blade comprising of; a single, continuous piece of material formed of one of fiber glass or carbon fiber, the single piece of material being formed into a configuration having a first endpoint and a second endpoint located a distance apart on a central axis; a first helical edge spiraling in a directional rotation about the central axis from the first endpoint to the second endpoint; and a second helical edge spiraling in the directional rotation about the central axis from the first endpoint to the second endpoint, the first helical edge and the second helical edge being equidistant from the central axis and the second helical edge being approximately congruent to the first helical edge and being connected to the first helical edge such that the distance between the first helical edge and second helical edge defines a diameter of the turbine blade, and such that the turbine blade approximates a double helix in shape having a solid cross section and a pitch-to-diameter ratio of from about 1;
1 to about 10;
1; anda generator adapted to convert mechanical energy to electrical energy; and a tethering means in communication with the turbine blade and the generator, the tethering means adapted to translate mechanical energy from the turbine blade to the generator, wherein the tethering means is in communication with only one of the first and second endpoints of the single turbine blade and further wherein the first or second endpoint to which the tethering means is in communication is reinforced with a coating of metal, the other of the first and second endpoints remaining untethered. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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Specification