IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0304786
(2002-11-25)
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발명자
/ 주소 |
- Edlund, David J.
- Herron, Thomas G.
- Holmes, Craig F.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
17 인용 특허 :
99 |
초록
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A fuel cell system that includes a control system for regulating the power produced by the fuel cell system. The fuel cell system includes a fuel cell stack adapted to produce electrical power from a feed. In some embodiments, the fuel cell system includes a fuel processing assembly adapted to produ
A fuel cell system that includes a control system for regulating the power produced by the fuel cell system. The fuel cell system includes a fuel cell stack adapted to produce electrical power from a feed. In some embodiments, the fuel cell system includes a fuel processing assembly adapted to produce the feed for the fuel cell stack from one or more feedstocks. The control system regulates the power produced by the fuel cell system to prevent damage to, and/or failure of, the system.
대표청구항
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1. A fuel cell system, comprising:a fuel processing assembly adapted to produce a feed stream containing hydrogen gas from one or more feedstocks;a fuel cell stack including at least one fuel cell, wherein the fuel cell stack is adapted to receive at least a portion of the feed stream and to produce
1. A fuel cell system, comprising:a fuel processing assembly adapted to produce a feed stream containing hydrogen gas from one or more feedstocks;a fuel cell stack including at least one fuel cell, wherein the fuel cell stack is adapted to receive at least a portion of the feed stream and to produce electrical power therefrom, and further wherein the fuel cell stack has a currently available power output;a bypass adapted to selectively divert at least a portion of the feed stream from delivery to the fuel cell stack;a battery bank adapted to store electrical power, wherein the battery bank has a current level of stored power; anda control system adapted to selectively actuate the bypass to control the portion of the feed stream that is diverted from delivery to the fuel cell stack and thereby regulate the rate that the feed stream is delivered to the fuel cell stack, wherein the control system is adapted to selectively actuate the bypass responsive at least in part to an applied load to the fuel cell system and the current level of stored power of the battery bank.2. The fuel cell system of claim 1, wherein the bypass includes a first configuration, in which none of the feed stream is diverted from delivery to the fuel cell stack, a second configuration in which all of the feed stream is diverted from delivery to the fuel cell stack, and at least one intermediate configuration in which some, but not all, of the feed stream is diverted from delivery to the fuel cell stack.3. The fuel cell system of claim 1, wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the applied load does not exceed the currently available power output of the fuel cell stack.4. The fuel cell system of claim 1, wherein the battery bank has a maximum level of stored power and further wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the current level of stored power of the battery bank is at least as great as the maximum level of stored power.5. The fuel cell system of claim 1, wherein the fuel cell system is in communication with at least one facility adapted to apply the applied load to the fuel cell system.6. The fuel cell system of claim 5, wherein the applied load includes at least one of an electrical load and a thermal load.7. The fuel cell system of claim 1, wherein the control system is adapted to actuate the bypass without reducing the rate at which the fuel processing assembly produces the feed stream.8. The fuel cell system of claim 1, wherein the fuel cell system further includes a hydrogen storage device adapted to receive at least a portion of the feed stream diverted by the bypass.9. The fuel cell system of claim 1, wherein the fuel cell system further includes at least one hydrogen-consuming device that is adapted to receive at least a portion of the feed stream diverted by the bypass.10. The fuel cell system of claim 9, wherein the at least one hydrogen-consuming device includes a combustion assembly that is adapted to combust a fuel stream, and further wherein the combustion assembly is adapted to receive at least a portion of the feed stream diverted by the bypass.11. The fuel cell system of claim 10, wherein the combustion assembly includes a combustion chamber that is adapted to heat the fuel cell system.12. The fuel cell system of claim 1, wherein the fuel processing assembly includes at least one fuel processor adapted to produce the feed stream by steam reforming a feedstock comprising water and at least one of a hydrocarbon and an alcohol.13. The fuel cell system of claim 12, wherein the fuel processing assembly is adapted to produce a mixed gas stream containing hydrogen gas from the feedstock, and further wherein the fuel processing assembly includes a separation region in which the mixed gas stream is separated into the feed stream and at least one byproduct stream.14. The fuel cell system of claim 13, wherein the separation region includes a membrane module including at least one hydrogen selective membrane.15. The fuel cell system of claim 14, wherein the at least one hydrogen selective membrane is formed from at least one of palladium and a palladium alloy.16. The fuel cell system of claim 1, wherein the fuel processing assembly includes at least one fuel processor adapted to produce the feed stream.17. The fuel cell system of claim 16, wherein the fuel processing assembly is adapted to produce a mixed gas stream containing hydrogen gas from the feedstock, and further wherein the fuel processing assembly includes a separation region in which the mixed gas stream is separated into the feed stream and at least one byproduct stream.18. The fuel cell system of claim 2, wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the applied load does not exceed the currently available power output of the fuel cell stack.19. The fuel cell system of claim 2, wherein the battery bank has a maximum level of stored power and further wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the current level of stored power of the battery bank is at least as great as the maximum level of stored power.20. The fuel cell system of claim 2, wherein the fuel cell system is in communication with at least one facility adapted to apply the applied load to the fuel cell system, and further wherein the applied load includes at least one of an electrical load and a thermal load.21. The fuel cell system of claim 2, further comprising at least one hydrogen-consuming device that includes a combustion assembly that is adapted to combust a fuel stream, and further wherein the combustion assembly is adapted to receive at least a portion of the feed stream diverted by the bypass, and further wherein the combustion assembly is adapted to heat at least a portion of the fuel processing assembly.22. The fuel cell system of claim 2, wherein the fuel processing assembly includes at least one fuel processor adapted to produce the feed stream.23. The fuel cell system of claim 22, wherein the fuel processing assembly is adapted to produce a mixed gas stream containing hydrogen gas from the feedstock, and further wherein the fuel processing assembly includes a separation region in which the mixed gas stream is separated into the feed stream and at least one byproduct stream.24. The fuel cell system of claim 2, wherein the fuel processing assembly includes at least one fuel processor adapted to produce the feed stream by steam reforming a feedstock comprising water and at least one of a hydrocarbon and an alcohol.25. The fuel cell system of claim 24, wherein the fuel processing assembly is adapted to produce a mixed gas stream containing hydrogen gas from the feedstock, and further wherein the fuel processing assembly includes a separation region in which the mixed gas stream is separated into the feed stream and at least one byproduct stream.26. A fuel cell system, comprising:a fuel processing assembly adapted to produce a feed stream containing hydrogen gas from one or more feedstocks;a fuel cell stack including at least one fuel cell, wherein the fuel cell stack is adapted to receive at least a portion of the feed stream and to produce electrical power therefrom, and further wherein the fuel cell stack has a currently available power output;a battery bank adapted to store electrical power, wherein the battery bank has a current level of stored power;a bypass adapted to selectively divert at least a portion of the feed stream from delivery to the fuel cell stack; anda control system adapted to selectively actuate the bypass to control the portion of the feed stream that is diverted from delivery to the fuel cell stack and thereby regulate the rate that the feed stream is delivered to the fuel cell stack, wherein the control system is adapted to selectively actuate the bypass responsive at least in part to the current level of stored power of the battery bank.27. The fuel cell system of claim 26, wherein the bypass includes a first configuration, in which none of the feed stream is diverted from delivery to the fuel cell stack, a second configuration in which all of the feed stream is diverted from delivery to the fuel cell stack, and at least one intermediate configuration in which some, but not all, of the feed stream is diverted from delivery to the fuel cell stack.28. The fuel cell system of claim 26, wherein the battery bank has a maximum level of stored power and further wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the current level of stored power of the battery bank is within a selected range of the maximum level of stored power.29. The fuel cell system of claim 26, wherein the battery bank has a maximum level of stored power and further wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the current level of stored power of the battery bank is at least as great as the maximum level of stored power.30. The fuel cell system of claim 26, wherein the control system is adapted to actuate the bypass without reducing the rate at which the fuel processing assembly produces the feed stream.31. The fuel cell system of claim 26, wherein the fuel cell system further includes a hydrogen storage device adapted to receive at least a portion of the feed stream diverted by the bypass.32. The fuel cell system of claim 26, wherein the fuel cell system further includes a hydrogen-consuming device that is adapted to receive at least a portion of the feed stream diverted by the bypass.33. The fuel cell system of claim 26, wherein the battery bank has a maximum level of stored power and further wherein the control system is adapted to actuate the bypass to selectively divert at least a portion of the feed stream when the current level of stored power of the battery bank is at least as great as the maximum level of stored power.34. The fuel cell system of claim 26, wherein the fuel cell system is in communication with at least one facility adapted to apply the applied load to the fuel cell system, and further wherein the applied load includes at least one of an electrical load and a thermal load.35. The fuel cell system of claim 26, further comprising at least one hydrogen-consuming device that includes a combustion assembly that is adapted to combust a fuel stream, and further wherein the combustion assembly is adapted to receive at least a portion of the feed stream diverted by the bypass, and further wherein the combustion assembly is adapted to heat at least a portion of the fuel processing assembly.36. The fuel cell system of claim 26, wherein the fuel processing assembly includes at least one fuel processor adapted to produce the feed stream.37. The fuel cell system of claim 36, wherein the fuel processing assembly is adapted to produce a mixed gas stream containing hydrogen gas from the feedstock, and further wherein the fuel processing assembly includes a separation region in which the mixed gas stream is separated into the feed stream and at least one byproduct stream.38. The fuel cell system of claim 26, wherein the fuel processing assembly includes at least one fuel processor adapted to produce the feed stream by steam reforming a feedstock comprising water and at least one of a hydrocarbon and an alcohol.39. The fuel cell system of claim 38, wherein the fuel processing assembly is adapted to produce a mixed gas stream containing hydrogen gas from the feedstock, and further wherein the fuel processing assembly includes a separation region in which the mixed gas stream is separated into the feed stream and at least one byproduct stream.
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