A power generator for a hydro turbine is axially coupled to the hydro turbine. The generator comprises a rotor arranged to rotate about an axis in response to fluid flow through said turbine. A first stator structure incorporates at least a first winding disposed circumferentially around the axis an
A power generator for a hydro turbine is axially coupled to the hydro turbine. The generator comprises a rotor arranged to rotate about an axis in response to fluid flow through said turbine. A first stator structure incorporates at least a first winding disposed circumferentially around the axis and axially displaced in a first inboard direction from the rotor. A second stator structure incorporates a least a second winding disposed circumferentially around the axis and axially displaced in a second outboard direction from the rotor, the rotor being arranged to electrically couple with the windings.
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1. A power generator for a hydro turbine, the power generator being axially coupled to the hydro turbine and comprising a rotor arranged to rotate about an axis in response to fluid flow through said turbine, a first stator structure incorporating a first winding disposed circumferentially around th
1. A power generator for a hydro turbine, the power generator being axially coupled to the hydro turbine and comprising a rotor arranged to rotate about an axis in response to fluid flow through said turbine, a first stator structure incorporating a first winding disposed circumferentially around the axis and axially displaced in a first inboard direction from the rotor, and a second stator structure incorporating a second winding disposed circumferentially around the axis and axially displaced in a second outboard direction from the rotor, the rotor being arranged to electrically couple with the windings, wherein each of said first and second windings is a single phase winding, each of said first and second stators comprising a plurality of laminates having a plurality of slots for accommodating said first and second windings respectively, and wherein the respective slots of each of said first and second stators are non-uniformly spaced apart with the spacing between successive slots being progressively increased and then progressively decreased to create an approximately sinusoidal distribution of said slots. 2. The power generator of claim 1, wherein the power generator is a direct drive generator. 3. The power generator of claim 2, wherein the power generator is connected to a two-stage converter comprising a first stage having one port arranged to connect to a grid and a second port arranged to connect to a DC link and a second stage having one port arranged to connect to the DC link and a second port arranged to connect to the windings of the stator. 4. The power generator of claim 3, wherein the first stage converter is a 3-phase voltage source inverter and the second stage is a 3-phase voltage source inverter. 5. The power generator of claim 4, wherein the second stage converter is connected to three outboard stator blocks in a delta configuration and three inboard stator blocks in a star configuration. 6. The power generator of claim 4, wherein the second stage converter is connected to three outboard stator blocks in a star configuration and three inboard stator blocks in a delta configuration. 7. The power generator of claim 3, wherein the first stage converter is a 3-phase voltage source inverter and the second stage is a double H-Bridge providing a 2-phase output. 8. The power generator of claim 3, wherein said respective single phase windings provide for a single-phase connection to the converter. 9. The power generator of claim 8, wherein the single phase winding is a cable winding. 10. The power generator of claim 1, wherein the at least a first winding of the first stator structure is tangentially displaced from the at least a first winding of the second stator structure. 11. The power generator of claim 1, wherein the generator is an induction generator. 12. The power generator of claim 1, wherein the generator is a permanent-magnet generator. 13. The power generator of claim 1, wherein said hydro turbine is an open-centre, shaftless tidal-current turbine. 14. The power generator of claim 1, wherein, for each of said first and second stators, a respective group of said slots is provided for each pole of the generator, the spacing between adjacent slots of each group becoming progressively smaller in a direction towards a centre of the respective group. 15. A power generator for a hydro turbine, the power generator being axially coupled to the hydro turbine and comprising a rotor arranged to rotate about an axis in response to fluid flow through said turbine, a first stator structure incorporating a first winding disposed circumferentially around the axis and axially displaced in a first inboard direction from the rotor, and a second stator structure incorporating a second winding disposed circumferentially around the axis and axially displaced in a second outboard direction from the rotor, the rotor being arranged to electrically couple with the windings, wherein each of said first and second windings is a single phase winding, each of said first and second stators comprising a plurality of laminates having a plurality of slots for accommodating said first and second windings respectively, and wherein the respective slots of each of said first and second stators are uniformly spaced apart with successive slots accommodating a progressively higher number of turns of the respective first or second winding and then progressively lower number of turns of the respective first or second winding to create an approximately sinusoidal distribution of turns in said slots.
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McCarty Frederick B. (San Pedro CA) Fizer Leroy A. (Huntington Beach CA) Wilson Daniel E. (Wilmington CA) Wuertz Kenneth L. (Torrance CA), Electromechanical apparatus for varying blade of variable-pitch fan blades.
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