The disclosed embodiments relate to wind and hydropower vessel plant. The vessel plant is configured for generating renewable electrical energy. The wind and hydropower vessel plant comprises apparatus which relates to exposable turbine and/or submersible turbine configuration. Both exposable and su
The disclosed embodiments relate to wind and hydropower vessel plant. The vessel plant is configured for generating renewable electrical energy. The wind and hydropower vessel plant comprises apparatus which relates to exposable turbine and/or submersible turbine configuration. Both exposable and submersible turbines are incorporated in a system by reference, comprising a platform for producing renewable electrical energy that is storable and/or transportable. The disclosed embodiments further include a plant for the production of hydrogen, methane, oxygen, desalinated water, salt and supplemental energy.
대표청구항▼
1. A hybrid vessel comprising a wind and hydropower vessel plant for producing renewable energy; comprising: a. at least a housing assembly disposed with at least a turbine apparatus;b. at least a generator apparatus affixed in said housing assembly, in communication with said turbine apparatus;c. a
1. A hybrid vessel comprising a wind and hydropower vessel plant for producing renewable energy; comprising: a. at least a housing assembly disposed with at least a turbine apparatus;b. at least a generator apparatus affixed in said housing assembly, in communication with said turbine apparatus;c. at least a vessel apparatus disposed with said housing assembly;d. at least an energy cell apparatus in communication with said generator apparatus, said generator apparatus further comprising energy generation mechanism;e. said turbine apparatus further disposed with means for communication with fluid passage;f. said vessel apparatus further disposed with at least a structure comprising at least one of: an outer wall; a side wall; a vertical wall; a horizontal wall; a moveable wall; a flexible wall; a rigid wall; an angular wall; at least an energy plant comprising at least one of: electricity generation plant; desalination plant: fuel plant: hydrogen plant; oxygen plant: salt plant; methane plant. 2. A hybrid wind and hydropower vessel plant of claim 1, wherein said turbine apparatus responsive to at least a form of energy comprising at least one of: converting fluid pressure/force into kinetic energy; converting kinetic energy into mechanical energy; and wherein said generator apparatus further converting said mechanical energy into renewable electrical energy. 3. A hybrid wind and hydropower vessel plant of claim 1, wherein said generator apparatus further responsive to at least a torque in association to a propulsive force from said turbine apparatus operation. 4. A hybrid wind and hydropower vessel plant of claim 1, wherein said generator apparatus coupled to said turbine apparatus and disposed with said housing assembly on said vessel apparatus for converting fluid pressure and/or force into renewable electrical energy. 5. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprising at least a platform for renewable energy generation. 6. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform operatively configured for at least one of: generating at least energy; harvesting energy; producing energy; and storing at least energy. 7. A hybrid, wind and hydropower vessel plant of claim 2, wherein said form of energy further comprises at least one of: wind energy; ocean current; tidal energy; wave energy. 8. A hybrid wind and hydropower vessel plant of claim 1, wherein said generator apparatus further comprises generator assembly outputly in association with at least a thermal apparatus for producing at least a form of energy comprising at least one of: steam; desalination; fuel; electrical energy; water; hydrogen; methane; salt; oxygen. 9. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least a floating means comprising at least one of: at least a ship; at least a water craft; at least a vessel; at least a hull; means for mooring at least a hull to at least an offshore location. 10. A hybrid wind and hydropower vessel plant of claim 1, wherein at least one turbine apparatus is in association at least one generator apparatus, each being coupled to at least one housing assembly and disposed with said hull. 11. A hybrid wind and hydropower vessel plant of claim 1, wherein said energy cell apparatus further comprising means for storing and/or for generation of renewable energy; further comprising at least one of at least an ultra capacitor; at least a transformer; at least a battery bank; at least a grid ready inverter; at least a solar cell apparatus; at least an electrical circuit; further comprising a thermal apparatus in communication with said energy cell apparatus for generation of at least one on steam; energy; desalination; methane; hydrogen; oxygen; salt; and fuel. 12. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further comprises arrays of apparatus for generating renewable energy. 13. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further configured with means for adjusting said hull relative to at least one of: wave motion; wind direction; ocean current flow-direction. 14. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further comprises at least one of: is skid mounted; is affixed on said vessel apparatus. 15. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least a crane mounted platform, and wherein said platform being affixed with said thermal apparatus in communication with said energy cell apparatus for generation of at least one of: steam; renewable energy; desalination; methane; hydrogen; oxygen; salt; and fuel. 16. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least a transportable platform. 17. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises means for producing said at least one form of energy on demand. 18. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least a mobile platform. 19. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least a fixed platform. 20. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least a submersible platform. 21. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises a deliverable platform configured to be delivered by at least a vessel means. 22. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further comprises at least a nuclear power plant. 23. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further comprises at least a plant configured for producing at least one of: electrical energy, hydrogen, oxygen, steam, methane, desalinated water, fuel, and/or salt. 24. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further comprises at least an energy plant. 25. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus comprising at least an energy plant, further comprises at least one of: a solar energy plant; electrical energy plant; enclosed wind turbine plant; renewable energy plant; a mobile energy plant, a transportable energy plant; a fixed energy plant; fuel plant; desalination plant; hydrogen plant; oxygen plant; salt plant; methane plant. 26. A hybrid wind and hydropower vessel plant of claim 5, wherein said platform further comprises at least an island. 27. A hybrid wind and hydropower vessel plant of claim 9, wherein said hull further comprises means fur harvesting electrical energy. 28. A hybrid wind and hydropower vessel plant of claim 9, wherein said hull further comprises an energy generation apparatus in association with at least one of: a water tank; at least a ballast tank; at least a ballast water chamber operable to cause resonance. 29. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further comprises at least an oscillating water column in association with said housing assembly, wherein said turbine apparatus responsive to said at least one form of energy for producing mechanical energy, and wherein said generator apparatus responsive to said mechanical energy for generation of electrical energy. 30. A hybrid wind and hydropower vessel plant of claim 1, wherein said vessel apparatus further disposed with means responsive to water swells for increasing production of electrical energy. 31. A hybrid wind and hydropower vessel plant of claim 9, wherein said hull further comprises at least one of at least an anchor; at least an adjustable guide; at least a retractable guide; a floatable guide; a retractable turbine; a submersible opened-end chamber in association with at least one of: a fluid entrance channel, a fluid exit channel; at least a suspend-able device; at least an oscillating water column; at least a ballast water chamber. 32. A hybrid wind and hydropower plant of claim 1, wherein said vessel apparatus further comprises at least an energy conversion means in association with at least one of: an oscillating water column; an oscillating water chamber; a ballast water chamber. 33. A hybrid wind and hydropower plant of claim 1, wherein said generator apparatus further disposed with a housing assembly; said housing assembly further comprising at least a submersible opened-end chamber. 34. A hybrid wind and hydropower plant of claim 33, wherein said submersible opened-end chamber further comprises at least one of: at least a fluid entrance channel; at least a fluid exit channel. 35. A hybrid wind and hydropower plant of claim 1, wherein said housing assembly further comprising an energy conversion means, where in said energy conversion means further comprises at least one of: at least a retractable device; at least an extendable device; at least an anchor means; at least a suspend-able device; at least a floatable device; at least a partially floatable device; at least a pull-able device; at least a drag-able device; at least a regenerative energy device; at least a compressible device; at least a hollow extrusion device; at least a structural means configured with at least an aerofoil cross section; at least an adjustable mooring link in association with at least a hull; means for converting kinetic energy in fluid into mechanical energy; means for converting said mechanical energy into electrical energy. 36. A hybrid wind and hydropower plant of claim 7, wherein said wave energy further comprises at least one of an oscillating water column; a float water column; a channel water column. 37. A hybrid vessel comprising wind and hydropower vessel plant for energy generation and for desalination; comprising: at least a housing assembly; at least a turbine apparatus is disposed with said housing assembly; at least a generator apparatus affixed in said housing assembly and responsive to said turbine apparatus operation; at least an energy cell apparatus in communication with said generator apparatus; at least a vessel apparatus disposed with said housing assembly; said vessel apparatus being disposed with at least a structure comprising at least one of an outer wall; a side wall; a vertical wall; a horizontal wall; a moveable wall; a flexible wall; a rigid wall; an angular wall, and said structure further affixed with at least one of: at least an electrolytic chamber; at least a thermal apparatus in association with said electrolytic chamber, and communicatively connected to at least one of: said energy cell apparatus; at least an electrical circuit. 38. A hybrid wind and hydropower vessel plant of claim 37, wherein said thermal apparatus in communication with said electrolytic chamber; said electrolytic chamber further comprises at least an anode and at least a cathode. 39. A hybrid wind and hydropower vessel plant of claim 38, wherein said anode further comprises at least a first alloyed material and said cathode further comprises at least a second alloyed material; wherein said first and second alloyed material is not limited to any one of: magnesium alloy; aluminum alloy. 40. A hybrid wind and hydropower vessel plant of claim 38, wherein said anode further comprises means for producing hydrogen and said cathode further comprises means for producing oxygen. 41. A hybrid wind and hydropower vessel plant of claim 37, wherein said turbine apparatus further configured with at least one of: at least a blade; at least a wheel; each radially positioned for at least one of: to be rotatable in communication with said generator apparatus; foldable on a vertically and/or horizontally plane in fluid communication, and outwardly of at least a shaft for communication with said generator apparatus. 42. A hybrid wind and hydropower vessel plant of claim 37 wherein said turbine apparatus further comprises at least one of a vertical axis turbine; a horizontal axis turbine. 43. A hybrid wind and hydropower vessel plant of claim 37 wherein said turbine apparatus further disposed with at least one of: at least a tower; at least a ring gear; at least a blade; at least a mooring line gear; at least a radial arm; at least a braking means; at least a cable means; at least a torque portion; at least an air-foiled surface; at least a fluid-foiled surface; and wherein at least a wire harness is coupled to said generator apparatus for communications with said energy cell apparatus. 44. A hybrid wind and hydropower vessel plant of claim 37, further comprising at least a hull configured with at least a housing comprising at least one of: at least a desalination plant; at least electrical energy plant; at least hydrogen production plant; at least nuclear power plant; at least methane plant; at least salt production plant; at least fuel production plant, at least oxygen plant. 45. A hybrid wind and hydropower vessel plant of claim 37, wherein said vessel apparatus further comprises means for harvesting renewable electrical energy via at least one of wind flow; water current; tidal energy; wave energy; solar energy; thermal energy. 46. A hybrid wind and hydropower vessel plant of claim 37, wherein said vessel apparatus further configured with at least one of: said electrolytic chamber; said thermal apparatus; in communication with at least one of: said electrical circuit; said energy cell apparatus; for generation of at least one of: steam; energy; desalination; methane; hydrogen; oxygen; salt; and fuel; further comprises means for varying the orientation of said hull relative to at least one of: wave motion; water current; wind direction. 47. A hybrid wind and hydropower vessel plant of claim 37, wherein said thermal apparatus thither disposed with said vessel apparatus; comprising at least one of: a water intake system comprising a water intake in communication with a body of water in communication with at least a pump means; a water desalination system configured with at least an electrical means to produce desalinated water responsive to at least a water drawn from the body of water; a tank on the vessel apparatus configured to mix at least a concentrate with at least the water drawn from the body of water to produce diluted concentrate; at least a concentrate discharge system configured to discharge the diluted concentrate into the body of water. 48. A hybrid wind and hydropower vessel plant of claim 37, wherein said vessel apparatus further comprising means for storing energy and water; comprising at least one of: providing said turbine apparatus in communication with said generator apparatus that generates electrical power by converting mechanical power in response to wind energy; providing solar cells that are mounted on said vessel apparatus; providing at least one electrical circuit that is configured for communication with at least an electrical power source for enabling at least one of: desalination; hydrogen production; methane production; salt production; oxygen production; fuel production; energy production; using said electrical power source for purification to provide a source of purified drinking water; storing said purified drinking water in a tank on said vessel apparatus; storing said purified drinking water in a tank on at least a vessel means; processing said purified drinking water for commercial application in at least a container. 49. A hybrid wind and hydropower vessel plant of claim 37, wherein said vessel apparatus further configured with said energy cell apparatus for storing energy; comprising: storing electrical power in at least one of: cells; capacitors; transformers; batteries for later use; using said electrical power to perform thermal operations in association with said electrolytic chamber for generation of at least one of: electrical energy; hydrogen; oxygen; methane; salt; desalinated water; fuel; using said hydrogen and oxygen in a fuel cell to further generate electrical power. 50. A hybrid wind and hydropower vessel plant of claim 37, wherein said vessel apparatus further comprising a floating platform for generating hydrogen; comprising at least one of: feed water; a heat loop comprising at least a recirculated heat transfer medium; a steam generator connected to at least one of: said heat loop, said heat transfer medium, and said feed water; said steam generator being operable for raising the temperature of said feed water; wherein said feed water is coupled to at least a water cracking system by said feed water input line; and wherein said feed water input line is in flow communication with said steam generator and said water cracking system. 51. A hybrid wind and hydropower vessel plant of claim 37, wherein said vessel apparatus further comprises at least one of an intake port; a desalination plant; a water clean-up system; a steam turbine; a steam turbine condenser; a discharge port; an energy plant. 52. A hybrid wind and hydropower vessel plant of claim 37, wherein said turbine apparatus is thither configured with means for communication with fluid passage. 53. A hybrid wind and hydropower vessel plant of claim 37, wherein said turbine apparatus further configured for converting rotational motion into mechanical power, said generator apparatus operable for converting said mechanical power into electrical energy. 54. A hybrid wind and hydropower vessel plant of claim 52, wherein said means for communication with fluid passage further comprises at least one of: an anchor; a blade; a wheel, an armature; a hub; a mechanical device; a thrust device; a propulsive device; a ballast. 55. A hybrid vessel comprising wind and hydropower vessel plant for energy generation and for desalination; comprising: at least a housing; at least a turbine apparatus disposed with said housing; at least a generator apparatus in association with said turbine apparatus; at least a vessel apparatus disposed with said housing assembly; at least an energy cell apparatus communicatively connected to said generator apparatus; said vessel apparatus being further disposed with at least a wall comprising at least one of an outer wall; a side wall; a vertical wall; a horizontal wall; a moveable wall; a flexible wall; a rigid wall; an angular wall; at least a tank is affixed on said at least one wall; at least an intake port is affixed with said at least one wall; at least a thermal apparatus, said thermal apparatus in communication with said generator apparatus; said at least one wall in association with at least a discharge port. 56. A hybrid vessel comprising wind and hydropower vessel plant; comprising: at least a vessel apparatus being configured with at least a structure comprising at least one of: an outer wall; a side wall; a vertical wall; a horizontal wall; an angular wall; a flexible wall; a rigid wall; wherein at least one wall causes movements with wave motion; at least a housing assembly is affixed on said structure; at least a turbine apparatus is disposed with said housing assembly, in communication with at least a fluid body; at least a generator apparatus is coupled to said turbine apparatus for generation of electrical energy; at least an energy cell apparatus in communication with said generator apparatus. 57. A hybrid vessel comprising wind and hydropower vessel plant; comprising: at least a vessel apparatus being configured with at least a structure comprising at least one of: a lower end; a middle end; an upper end; a mobile end, a submersible end; a transportable end; a flexible end; a rigid end; each said end comprising at least one of: an anchor; an alliance; an alignment; an affiliation; an axis; a ballast; a ballast water tank; a tank; a chamber; an oscillating water column; a water swell; in association with at least a hull; at least a housing assembly is further affixed on said structure; at least a turbine apparatus is disposed with said housing assembly, in communication with at least a fluid body; at least a generator apparatus is coupled to said turbine apparatus for generation of electrical energy: at least an energy cell apparatus in communication with said generator apparatus; said structure further comprises at least one of: an outer wall; a side wall; a vertical wall; a horizontal wall; a moveable wall; a flexible wall; a rigid wall; an angular wall; at least an energy plant comprising at least one of: electricity generation plant; desalination plant; fuel plant; hydrogen plant; oxygen plant; salt plant; methane plant. 58. A hybrid vessel comprising wind and hydropower vessel plant; comprising: at least a vessel apparatus comprising a floating means; said floating means further comprises at least one of: at least a cross flow water turbine apparatus; at least a ship; at least a water craft; at least a vessel; at least a hull; means for mooring at least a hull to at least an offshore location; at least a generator apparatus in communication with said turbine apparatus; at least an energy cell apparatus in communication with said generator apparatus; said vessel apparatus further disposed with at least a structure comprising at least one of: an outer wall; a side wall; a vertical wall; a horizontal wall; a moveable wall; a flexible wall; a rigid wall; an angular wall; at least an energy plant comprising at least one of: electricity generation plant; desalination plant; fuel plant; hydrogen plant; oxygen plant; salt plant; methane plant.
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Van Breems, Martinus, Apparatus and methods for energy conversion in an ocean environment.
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