A hydrogen fuel supply system includes a hydrogen generator for generating hydrogen from an energy source at an outlet pressure. An outlet conduit feeds the hydrogen to a user. A controller controls the hydrogen generator to produce hydrogen at the outlet pressure. An input interface receives user d
A hydrogen fuel supply system includes a hydrogen generator for generating hydrogen from an energy source at an outlet pressure. An outlet conduit feeds the hydrogen to a user. A controller controls the hydrogen generator to produce hydrogen at the outlet pressure. An input interface receives user demand data and activates the controller in accordance with the user demand data.
대표청구항▼
The invention claimed is: 1. A hydrogen fuel supply system disposed at a facility that is offboard a vehicle, for supplying hydrogen to one or more hydrogen powered vehicles, said system comprising: at least one water electrolysis-based hydrogen generator disposed at said facility for generating hy
The invention claimed is: 1. A hydrogen fuel supply system disposed at a facility that is offboard a vehicle, for supplying hydrogen to one or more hydrogen powered vehicles, said system comprising: at least one water electrolysis-based hydrogen generator disposed at said facility for generating hydrogen by separating hydrogen from oxygen in water using electrical energy received from a source of electrical energy; at least one hydrogen storage apparatus disposed at said facility connected to said at least one hydrogen generator for storing said hydrogen; at least one hydrogen dispenser disposed at said facility for dispensing hydrogen to one or more hydrogen powered vehicles, said at least one hydrogen dispenser being operatively connected to receive hydrogen from at least one of said at least one hydrogen generator and said at least one hydrogen storage apparatus; and at least one controller having a computer processor for receiving and processing control inputs including data pertaining to (i) availability of electrical energy from said source of electrical energy for use by said at least one hydrogen generator, (ii) demand for hydrogen for use by said one or more hydrogen vehicles (iii) operating status of said at least one hydrogen generator, and (iv) status of said at least one hydrogen storage apparatus, said at least one controller being operatively connected to said at least one hydrogen generator for controlling the generation of hydrogen based at least in part upon said control inputs (i)-(iv); wherein said data pertaining to availability of electrical energy includes data pertaining to a unit price per increment of electrical energy available for generating said hydrogen. 2. A hydrogen fuel supply system according to claim 1 wherein said at least one hydrogen dispenser includes a user interface for receiving said data pertaining to demand for hydrogen for use by said one or more hydrogen powered vehicles. 3. A hydrogen fuel supply system according to claim 1 further comprising at least one compressor for compressing hydrogen to a desired pressure prior to dispensing to said one or more hydrogen powered vehicles, said at least one compressor being operatively connected to receive hydrogen from at least one of said at least one hydrogen generator and said at least one hydrogen storage apparatus. 4. A hydrogen fuel supply system according to claim 3, wherein said at least one compressor is operatively connected to receive hydrogen from said at least one hydrogen generator and compresses said hydrogen to said desired pressure prior to said hydrogen being stored in said at least one hydrogen storage apparatus. 5. A hydrogen fuel supply station according to claim 1 wherein said data pertaining to availability of electrical energy includes data pertaining to the nature of electrical power available for generating said hydrogen. 6. A hydrogen fuel supply system according to claim 1 wherein said data pertaining to availability of electrical energy includes data pertaining to whether said electrical energy is produced from renewable energy resources or non-renewable energy resources. 7. A hydrogen fuel supply system according to claim 1 wherein said data pertaining to availability of electrical energy includes data pertaining to the type of energy resource used for producing said electrical energy. 8. A hydrogen fuel supply system according to claim 1 wherein said controller controls the generation of hydrogen to meet the demand for hydrogen subject to the availability of electrical energy. 9. A hydrogen fuel supply system according to claim 8 wherein said data pertaining to availability of electrical energy includes data pertaining to the unit price per increment of electrical energy and wherein said controller processes said data for use in controlling the generation of hydrogen at an optimum time to generate sufficient hydrogen to meet the hydrogen demand using electrical energy at a unit price per increment of electrical energy reduced from a maximum unit price. 10. A hydrogen fuel supply system according to claim 1 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired quantity of hydrogen. 11. A hydrogen fuel supply system according to claim 1 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired pressure of hydrogen. 12. A hydrogen fuel supply system according to claim 1 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired rate of delivery of hydrogen. 13. A hydrogen fuel supply system according to claim 1 wherein said controller dynamically controls the generation of hydrogen by said hydrogen generator. 14. A hydrogen fuel supply system according to claim 1 wherein said at least one hydrogen storage apparatus comprises at least one hydride storage chamber. 15. A hydrogen fuel supply system according to claim 1 wherein said at least one hydrogen storage apparatus comprises at least one container for storing pressurized hydrogen. 16. A hydrogen fuel supply system according to claim 1 wherein at least some of said electrical energy is obtained from a grid source of electrical energy. 17. A hydrogen fuel supply system according to claim 1 wherein at least some of said electrical energy is obtained from a non-grid source of electrical energy. 18. A hydrogen fuel supply system according to claim 1 wherein said electrical energy availability data includes real time data. 19. A hydrogen fuel supply system according to claim 1 wherein said electrical energy availability data includes stored data. 20. A process for controlling a hydrogen fuel supply system disposed at a facility that is offboard a vehicle, for delivering hydrogen to one or more hydrogen powered vehicles, comprising the steps of: processing data concerning a demand for hydrogen for at least one hydrogen-powered vehicle; processing data concerning a status of at least one hydrogen storage apparatus; processing data concerning a status of at least one electrolysis based hydrogen generator for separating hydrogen from oxygen in water using electrical energy received from at least one source of electrical energy; processing data concerning the availability of electrical energy from said at least one source of electrical energy for use by said at least one hydrogen generator; generating hydrogen using said at least one electrolysis based hydrogen generator, storing said hydrogen in said at least one hydrogen storage apparatus and delivering hydrogen from said at least one hydrogen storage apparatus to at least one hydrogen powered vehicle in accordance with desired parameters to meet said demand for hydrogen, wherein the processing steps occur at the facility; and, wherein said step of generating hydrogen includes the step of modulating a supply of electrical energy to said hydrogen generator. 21. A process as claimed in claim 20 wherein said data concerning the availability of electrical energy includes data pertaining to a unit price per increment of electrical energy available for generating said hydrogen. 22. A process as claimed in claim 20 wherein said data concerning the availability of electrical energy includes data pertaining to the nature of energy resource used in the production of said electrical energy. 23. A process as claimed in claim 20 wherein said data concerning the availability of electrical energy includes data pertaining to availability of electrical energy produced from renewable energy resources or non-renewable energy resources. 24. A process as claimed in claim 20 wherein said step of generating, storing and delivering hydrogen is carried out in order to meet said hydrogen demand while optimizing the use of electrical energy at the lowest available price. 25. A process as claimed in claim 20 wherein said step of generating, storing and delivering hydrogen is carried out in order to meet said hydrogen demand while optimizing use of electrical energy produced from renewable resources. 26. A process as claimed in claim 20 wherein said data for at least one of said process steps includes real time data. 27. A process as claimed in claim 20 wherein said data for at least one of said process steps includes stored data. 28. A hydrogen fuel supply process comprising the steps of: providing at least one water electrolysis based hydrogen generator for generating hydrogen by separating hydrogen from oxygen in water using electrical energy received from at least one source of electrical energy, at least one hydrogen storage apparatus and at least one hydrogen delivery system, the at least one hydrogen generator, the at least one hydrogen storage apparatus and the at least one hydrogen delivery system being provided at a facility that is disposed offboard a vehicle; delivering hydrogen from said at least one hydrogen storage apparatus to one or more hydrogen-powered vehicles attending at said facility using said at least one hydrogen delivery system; processing data concerning availability of electrical energy from said at least one source of electrical energy for use in generating hydrogen by said at least one hydrogen generator; periodically generating hydrogen using said at least one hydrogen generator based upon data inputs including said data concerning availability of electrical energy, and storing the generated hydrogen in said at least one hydrogen storage apparatus; wherein said data concerning availability of said electrical energy includes data pertaining to a unit price per increment of electrical energy used for generating hydrogen using said at least one water electrolysis based hydrogen generator. 29. A process as claimed in claim 28 wherein said data concerning availability of electrical energy includes data pertaining to the nature of energy resource used in the production of said electrical energy. 30. A process as claimed in claim 28 wherein said data concerning availability of electrical energy includes data pertaining to availability of electrical energy produced from renewable energy resources or non-renewable energy resources. 31. A process as claimed in claim 28 wherein said data inputs include data pertaining to the status of said at least one hydrogen storage apparatus. 32. A process as claimed in claim 31 wherein said hydrogen storage status data inputs include data pertaining to the amount of hydrogen stored in said at least one hydrogen storage apparatus. 33. A process as claimed in claim 28 wherein said processing step further processes data pertaining to a demand for hydrogen for use by said one or more hydrogen powered vehicles. 34. A process as claimed in claim 28 wherein said step of generating said hydrogen includes a step of compressing said hydrogen to a desired pressure prior to storing said hydrogen in said at least one hydrogen storage apparatus. 35. A process as claimed in claim 28 wherein said steps of generating and storing said hydrogen are carried out in order to maintain a desired amount of hydrogen in said at least one hydrogen storage apparatus while optimizing the use of electrical energy at the lowest available price. 36. A process as claimed in claim 32 wherein said steps of generating and storing said hydrogen are carried out in order to meet said demand for hydrogen while optimizing the use of electrical energy at the lowest available price. 37. A process as claimed in claim 31 wherein said steps of generating and storing said hydrogen are carried out in order to maintain a desired amount of hydrogen stored in said at least one hydrogen storage apparatus while optimizing use of electrical energy produced from renewable resources. 38. A process as claimed in claim 32 wherein said steps of generating and storing said hydrogen are carried out in order to meet said demand for hydrogen while optimizing use of electrical energy produced from renewable resources. 39. A process as claimed in claim 28 wherein said step of generating said hydrogen includes the step of modulating a supply of electrical energy to said at least one hydrogen generator. 40. A process as claimed in claim 28 wherein at least some of said data inputs include real time data. 41. A process as claimed in claim 28 wherein at least some of said data inputs include stored data. 42. A hydrogen fuel supply system disposed at a facility that is offboard of a vehicle, for supplying hydrogen to one or more hydrogen powered vehicles, said system comprising: at least one hydrogen generator disposed at said facility for generating hydrogen by separating hydrogen from oxygen in water using electrical energy received from at least one source of electrical energy; at least one hydrogen storage apparatus disposed at said facility and connected to said at least one hydrogen generator for storing said hydrogen; at least one hydrogen dispenser disposed at said facility for dispensing hydrogen to one or more hydrogen powered vehicles, said at least one hydrogen dispenser being operatively connected to receive hydrogen from at least one of said at least one hydrogen generator and said at least one hydrogen storage apparatus; and at least one controller having a computer processor for receiving and processing control inputs including data pertaining to demand for hydrogen for use by said one or more hydrogen powered vehicles, said at least one controller being operatively connected to said at least one hydrogen generator for controlling the generation of hydrogen based at least in part upon said control inputs; wherein said data concerning demand for hydrogen includes data from at least one of said at least one hydrogen storage apparatus and said at least one hydrogen dispenser; and, wherein said at least one hydrogen dispenser includes a user interface for receiving inputs pertaining to hydrogen demand for said one or more hydrogen powered vehicles. 43. A hydrogen fuel supply system according to claim 42 further comprising at least one compressor for compressing hydrogen to a desired pressure prior to dispensing to said one or more hydrogen powered vehicles, said at least one compressor being operatively connected to receive hydrogen from said at least one hydrogen generator. 44. A hydrogen fuel supply system according to claim 43, wherein said at least one compressor compresses said hydrogen to said desired pressure prior to said hydrogen being stored in said at least one hydrogen storage apparatus. 45. A hydrogen fuel supply system according to claim 42 wherein said hydrogen demand data includes data pertaining to a desired quantity of hydrogen. 46. A hydrogen fuel supply system according to claim 42 wherein said hydrogen demand data includes data pertaining to a desired pressure of hydrogen. 47. A hydrogen fuel supply system according to claim 42 wherein said hydrogen demand data includes data pertaining to a desired rate of delivery of hydrogen. 48. A hydrogen fuel supply system according to claim 42 wherein said controller dynamically controls the generation of hydrogen by said hydrogen generator. 49. A hydrogen fuel supply system according to claim 42 wherein said at least one hydrogen storage apparatus comprises at least one hydride storage chamber. 50. A hydrogen fuel supply system according to claim 42 wherein said at least one hydrogen storage apparatus comprises at least one container for storing pressurized hydrogen. 51. A hydrogen fuel supply system according to claim 42 wherein said demand data includes real time data. 52. A hydrogen fuel supply system according to claim 42 wherein said demand data includes stored data. 53. A hydrogen fuel supply system disposed at a facility that is offboard of a vehicle for supplying hydrogen to one or more hydrogen powered vehicles, said system comprising: at least one water electrolysis-based hydrogen generator disposed at said facility for generating hydrogen by separating hydrogen from oxygen in water using electrical energy received from at least one source of electrical energy; at least one hydrogen storage apparatus disposed at said facility and connected to said at least one hydrogen generator for storing said hydrogen; at least one hydrogen dispenser disposed at said facility dispensing hydrogen to one or more hydrogen powered vehicles, said at least one hydrogen dispenser being operatively connected to receive hydrogen from said at least one hydrogen storage apparatus; and at least one controller having a computer processor for receiving and processing control inputs including data pertaining to hydrogen demand and cost of electrical energy from said at least one source of electrical energy, said at least one controller being operatively connected to said at least one hydrogen generator for controlling the generation of hydrogen based at least in part upon said control inputs. 54. A hydrogen fuel supply system according to claim 53 wherein said data concerning hydrogen demand includes data received from said at least one hydrogen dispenser. 55. A hydrogen fuel supply system according to claim 54 wherein said at least one hydrogen dispenser includes a user interface for receiving inputs pertaining to hydrogen demand for said one or more hydrogen powered vehicles. 56. A hydrogen fuel supply system according to claim 53 further comprising at least one compressor for compressing hydrogen to a desired pressure prior to dispensing to said one or more hydrogen powered vehicles, said at least one compressor being operatively connected to receive hydrogen from said at least one hydrogen generator. 57. A hydrogen fuel supply system according to claim 56, wherein said at least one compressor compresses said hydrogen to said desired pressure prior to said hydrogen being stored in said at least one hydrogen storage apparatus. 58. A hydrogen fuel supply system according to claim 53 wherein said controller controls the generation of hydrogen to meet the demand for hydrogen subject to the cost of electrical energy. 59. A hydrogen fuel supply system according to claim 53 wherein said controller controls the generation of hydrogen to generate sufficient hydrogen to meet the hydrogen demand at the lowest cost of electrical energy. 60. A hydrogen fuel supply system according to claim 53 wherein said hydrogen demand data includes data pertaining to a desired quantity of hydrogen. 61. A hydrogen fuel supply system according to claim 53 wherein said hydrogen demand data includes data pertaining to a desired pressure of hydrogen. 62. A hydrogen fuel supply system according to claim 53 wherein said hydrogen demand data includes data pertaining to a desired rate of delivery of hydrogen. 63. A hydrogen fuel supply system according to claim 53 wherein said controller dynamically controls the generation of hydrogen by said hydrogen generator. 64. A hydrogen fuel supply system according to claim 53 wherein said at least one hydrogen storage apparatus comprises at least one hydride storage chamber. 65. A hydrogen fuel supply system according to claim 53 wherein said at least one hydrogen storage apparatus comprises at least one container for storing pressurized hydrogen. 66. A hydrogen fuel supply system according to claim 53 wherein said electrical energy is obtained from a grid source of electrical energy. 67. A hydrogen fueling system according to claim 53 wherein said electrical energy is obtained from a non-grid source of electrical energy. 68. A hydrogen fuel supply system according to claim 53 wherein said control inputs include real time data. 69. A hydrogen fuel supply system according to claim 53 wherein said control inputs include stored data. 70. A hydrogen fuel supply process comprising the steps of: providing at least one water electrolysis based hydrogen generator for generating hydrogen by separating hydrogen from oxygen in water using electrical energy received from at least one source of electrical energy, at least one hydrogen storage apparatus and at least one hydrogen delivery system, the at least one hydrogen generator, the at least one hydrogen storage apparatus and the at least one hydrogen delivery system being provided at a facility that is disposed offboard a vehicle; delivering hydrogen from said at least one hydrogen storage apparatus to one or more hydrogen-powered vehicles attending at said facility using said at least one hydrogen delivery system; processing data concerning demand for hydrogen for use by said one or more hydrogen powered vehicles; periodically generating hydrogen using said at least one hydrogen generator based upon data inputs including said data concerning demand for hydrogen, and storing said hydrogen in said at least one hydrogen storage apparatus; wherein said step of generating said hydrogen includes the step of modulating a supply of electrical energy to said at least one hydrogen generator. 71. A process as claimed in claim 70 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired quantity of hydrogen. 72. A process as claimed in claim 70 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired pressure of hydrogen. 73. A process as claimed in claim 70 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired rate of delivery of hydrogen. 74. A process as claimed in claim 70 wherein said data inputs further include data pertaining to the amount of hydrogen stored in said at least one hydrogen storage apparatus. 75. A process as claimed in claim 70 wherein said step of generating said hydrogen includes a step of compressing said hydrogen to a desired pressure prior to storing said hydrogen in said at least one hydrogen storage apparatus. 76. A process as claimed in claim 70 wherein at least some of said data inputs include real time data. 77. A process as claimed in claim 70 wherein at least some of said data inputs include stored data. 78. A hydrogen fuel supply process comprising the steps of: providing at least one water electrolysis based hydrogen generator for generating hydrogen by separating hydrogen from oxygen in water using electrical energy received from at least one source of electrical energy, at least one hydrogen storage apparatus and at least one hydrogen delivery system, the at least one hydrogen generator, the at least one hydrogen storage apparatus and the at least one hydrogen delivery system being provided at a facility that is disposed offboard a vehicle; delivering hydrogen from said at least one hydrogen storage apparatus to one or more hydrogen-powered vehicles attending at said facility using said at least one hydrogen delivery system; processing data concerning (i)demand for hydrogen for use by said one or more hydrogen powered vehicles and (ii) availability of electrical energy from said at least one source of electrical energy for use in generating hydrogen by said at least one hydrogen generator; periodically generating hydrogen using said at least one hydrogen generator based upon data inputs including said data concerning (i) demand for hydrogen and (ii) availability of electrical energy, and storing said hydrogen in said at least one hydrogen storage apparatus; wherein said step of generating said hydrogen includes the step of modulating a supply of electrical energy to said at least one hydrogen generator. 79. A process as claimed in claim 78 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired quantity of hydrogen. 80. A process as claimed in claim 78 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired pressure of hydrogen. 81. A process as claimed in claim 78 wherein said data pertaining to demand for hydrogen includes data pertaining to a desired rate of delivery of hydrogen. 82. A process as claimed in claim 78 wherein said data inputs further include data pertaining to the amount of hydrogen stored in said at least one hydrogen storage apparatus. 83. A process as claimed in claim 78 wherein said data concerning availability of said electrical energy includes data pertaining to a unit price per increment of electrical energy used for generating hydrogen using said at least one water electrolysis based hydrogen generator. 84. A process as claimed in claim 78 wherein said data concerning availability of said electrical energy includes data pertaining to the nature of energy resource used in the production of said electrical energy. 85. A process as claimed in claim 78 wherein said data concerning availability of said electrical energy includes data pertaining to availability of electrical energy produced from renewable energy resources or non-renewable energy resources. 86. A process as claimed in claim 78 wherein said steps of generating and storing said hydrogen are carried out in order to maintain a desired amount of hydrogen in said at least one hydrogen storage apparatus while optimizing the use of electrical energy at the lowest available price. 87. A process as claimed in claim 78 wherein said steps of generating and storing said hydrogen are carried out in order to meet said demand for hydrogen while optimizing the use of electrical energy at the lowest available price. 88. A process as claimed in claim 78 wherein said steps of generating and storing said hydrogen are carried out in order to maintain a desired amount of hydrogen stored in said at least one hydrogen storage apparatus while optimizing use of electrical energy produced from renewable resources. 89. A process as claimed in claim 78 wherein said steps of generating and storing said hydrogen are carried out in order to meet said demand for hydrogen while optimizing use of electrical energy produced from renewable resources. 90. A process as claimed in claim 78 wherein said step of generating said hydrogen includes a step of compressing said hydrogen to a desired pressure prior to storing said hydrogen in said at least one hydrogen storage apparatus. 91. A process as claimed in claim 78 wherein at least some of said data inputs include real time data. 92. A process as claimed in claim 78 wherein at least some of said data inputs include stored data.
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