IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0554460
(2009-09-04)
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등록번호 |
US-8668752
(2014-03-11)
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발명자
/ 주소 |
- Scotto, Mark Vincent
- Birmingham, Daniel P.
- DeBellis, Crispin L.
- Perna, Mark Anthony
- Rush, Gregory C.
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출원인 / 주소 |
- Rolls-Royce Fuel Cell Systems (US) Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
8 인용 특허 :
34 |
초록
▼
The present invention provides a gas generator that may be used for startup and shutdown of a fuel cell. In one non-limiting embodiment, the gas generator may include a nitrogen generator structured to receive air, extract oxygen (O2) from the air and discharge the balance in the form of a nitrogen-
The present invention provides a gas generator that may be used for startup and shutdown of a fuel cell. In one non-limiting embodiment, the gas generator may include a nitrogen generator structured to receive air, extract oxygen (O2) from the air and discharge the balance in the form of a nitrogen-rich gas; a merging chamber structured to receive a hydrocarbon fuel and the nitrogen-rich gas and to discharge a feed mixture containing both the hydrocarbon fuel and the nitrogen-rich gas; and a catalytic reactor structured to receive the feed mixture and to catalytically convert the feed mixture into a reducing gas.
대표청구항
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1. A reducing gas generator for startup and shutdown of a fuel cell, comprising: an air intake;an oxidant source structured to generate a low oxygen (O2) content oxidant using air received from the air intake and to vary the O2 content of the low O2 content oxidant, the low O2 content oxidant having
1. A reducing gas generator for startup and shutdown of a fuel cell, comprising: an air intake;an oxidant source structured to generate a low oxygen (O2) content oxidant using air received from the air intake and to vary the O2 content of the low O2 content oxidant, the low O2 content oxidant having an O2 content less than that of atmospheric air;a fuel input configured to receive a hydrocarbon fuel;a merging chamber in fluid communication with said oxidant source and in fluid communication with said fuel inlet, said merging chamber structured to receive the hydrocarbon fuel and the low oxygen (O2) content oxidant and to discharge a feed mixture containing both the hydrocarbon fuel and the low oxygen (O2) content oxidant;a catalytic reactor in fluid communication with said merging chamber, said catalytic reactor structured to receive the feed mixture and to catalytically convert the feed mixture into a reducing gas;a reducing gas output fluidly coupled to said catalytic reactor and in fluid communication with at least one of an anode and a reformer of the fuel cell, said reducing gas output operative to direct the reducing gas to said at least one of the anode and the reformer of the fuel cell; anda control system programmed to control a flow rate of the feed mixture and vary both the O2 content of the low O2 content oxidant and the oxidant/fuel ratio of the feed mixture to maintain a predetermined control temperature while varying a combustibles content of the reducing gas output by said catalytic reactor. 2. The reducing gas generator of claim 1, further comprising a nitrogen generator operable to extract oxygen (O2) from air and to discharge the balance in the form of a nitrogen-rich gas, the nitrogen-rich gas forming at least a part of the low O2 content oxidant. 3. The reducing gas generator of claim 2, further comprising an air charging system coupled to said nitrogen generator output, said air charging system structured to variably add air to the nitrogen-rich gas to vary the O2 content of the low O2 content oxidant. 4. The reducing gas generator of claim 2, further including a valve structured to add a controlled amount of air to one of the nitrogen-rich gas and the feed mixture. 5. The reducing gas generator of claim 4, wherein said nitrogen generator includes a nitrogen separation membrane configured to separate nitrogen out of air. 6. The reducing gas generator of claim 1, further including a control system configured to execute program instructions to regulate a control temperature by varying both the O2 content of the low O2 content oxidant and the oxidant/fuel ratio of the feed mixture. 7. The reducing gas generator of claim 6, further comprising a control temperature sensor and an O2 sensor communicatively coupled to said control system. 8. The reducing gas generator of claim 6, further comprising: an oxidant control valve communicatively coupled to said control system, said oxidant control valve structured to control a flow of the oxidant as directed by said control system; anda fuel control valve communicatively coupled to said control system, said fuel control valve structured to control a flow of the hydrocarbon fuel as directed by said control system,wherein said control system is configured to execute program instructions to vary the oxidant/fuel ratio by controlling the output of at least one of said fuel control valve and said oxidant control valve. 9. The reducing gas generator of claim 1, further including a control system configured to execute program instructions to selectively vary a combustibles content of the reducing gas while maintaining a selected temperature of the reducing gas by varying both the O2 content of the oxidant and the oxidant/fuel ratio of the feed mixture. 10. The reducing gas generator of claim 9, further comprising at least two of a control temperature sensor, an oxygen sensor and a reducing gas combustibles detection sensor communicatively coupled to said control system. 11. The reducing gas generator of claim 1, further comprising a heat exchanger fluidly coupled downstream of said catalytic reactor, said heat exchanger configured to control a temperature of said reducing gas. 12. The reducing gas generator of claim 1, further comprising a heater upstream of said catalytic reactor, said heater configured to initiate a catalytic reaction at the catalyst of said catalytic reactor by heating at least a portion of the feed mixture and supplying the heated mixture to said catalytic reactor. 13. The reducing gas generator of claim 12, wherein said heater includes a body configured to continuously maintain a temperature of one of at and above a catalyst light-off temperature of the feed mixture during normal operations of the fuel cell. 14. The reducing gas generator of claim 1, further comprising at least one of: a catalyst heater configured to maintain the catalyst of said catalytic reactor at a temperature one of at and above a catalyst light-off temperature of the feed mixture during normal operations of the fuel cell; andan other heater disposed adjacent the inlet of said catalytic reactor and structured to initiate catalytic reaction of the feed mixture in an upstream portion of said catalytic reactor. 15. The reducing gas generator of claim 1, further comprising means for varying a combustibles content of the reducing gas while maintaining a constant control temperature. 16. The reducing gas generator of claim 15, wherein the feed mixture includes an oxidant having an O2 content, and wherein said means for varying includes: means for varying the O2 content in the oxidant; andmeans for varying an oxidant/fuel ratio of the feed mixture. 17. A fuel cell system, comprising: a fuel cell, including an anode, a cathode, an electrolyte coupled to said anode and said cathode, and a reformer; anda reducing gas generator configured for startup and shutdown of the fuel cell, the reducing gas generator including: an air intake;an oxidant source structured to generate a low oxygen (O2) content oxidant stream using air received from the air intake, the low O2 content oxidant stream having a variable O2 content, and the low O2 content oxidant stream having an O2 content less than that of atmospheric air;a fuel input configured to receive a hydrocarbon fuel;a merging chamber in fluid communication with said oxidant source and in fluid communication with said fuel inlet, said merging chamber structured to receive the hydrocarbon fuel and the low O2 content oxidant stream and to discharge a feed mixture containing both the hydrocarbon fuel and the low O2 content oxidant stream;a catalytic reactor in fluid communication with said merging chamber, said catalytic reactor structured to receive said feed mixture and catalytically convert said feed mixture into a reducing gas, wherein the oxidant source is configured to selectively vary the O2 content of the low O2 content oxidant stream to vary the reducing gas strength within a selected range of reducing gas strengths to achieve a desired reducing gas strength within the range;a reducing gas output fluidly coupled to said catalytic reactor and in fluid communication with at least one of said anode and said reformer, said reducing gas output operative to direct the reducing gas to said at least one of said anode and said reformer; anda control system programmed to control a flow rate of the feed mixture and vary both the O2 content of the low O2 content oxidant stream and the oxidant/fuel ratio of the feed mixture to maintain a predetermined control temperature while varying a combustibles content of the reducing gas output by said catalytic reactor. 18. The fuel cell system of claim 17, further comprising: an air intake,a nitrogen generator in fluid communication with said air intake, said nitrogen generator having a nitrogen generator output and structured to receive air from said air intake, to extract O2 from the air received from said air intake and to discharge from the nitrogen generator output the balance in the form of a nitrogen-rich gas, the nitrogen-rich gas forming at least a part of the low O2 oxidant stream. 19. A reducing gas generator, comprising: an air intake;an oxidant source fluidly coupled to the air intake and structured to supply a low-oxygen (O2) content oxidant stream, the low O2 oxidant stream having an O2 content less than that of atmospheric air;a fuel source fluidly coupled to said oxidant source and structured to supply a hydrocarbon fuel;a merging chamber fluidly coupled to said fuel source and said oxidant source, said merging chamber structured to combine the oxidant and the hydrocarbon fuel into a feed mixture, the feed mixture having an oxidant/fuel ratio defined by a ratio of the amount of the oxidant in the feed mixture to the amount of the hydrocarbon fuel in the feed mixture;a catalytic reactor fluidly coupled to said merging chamber and structured to catalytically convert the feed mixture to generate a reducing gas; anda control system programmed to control the flow rate of the feed mixture and vary both the O2 content of the oxidant stream and the oxidant/fuel ratio of the feed mixture to maintain a predetermined control temperature while varying a combustibles content of the reducing gas output by said catalytic reactor. 20. The reducing gas generator of claim 19, wherein said oxidant source employs a nitrogen generator to supply a nitrogen-rich gas. 21. The reducing gas generator of claim 20, wherein said nitrogen generator includes a nitrogen separation polymer. 22. The reducing gas generator of claim 19, wherein the reducing gas generator is structured to supply the reducing gas to a fuel cell having at least one of an anode and a reformer, further comprising a reducing gas output fluidly coupled to said catalytic reactor and in fluid communication with at least one of the anode and the reformer, said reducing gas output operative to direct the reducing gas to said at least one of said anode and said reformer. 23. A reducing gas generator for startup and shutdown of a fuel cell, comprising: an air intake;a fuel input configured to receive a hydrocarbon fuel flow;an oxidant source fluidly coupled to the air intake and configured to generate a low oxygen (O2) content oxidant flow;a merging chamber fluidly coupled to the fuel input and the oxidant source, wherein the merging chamber is configured to combine the low oxygen (O2) content oxidant flow with the hydrocarbon fuel flow to form an oxidant/fuel mixture; wherein the oxidant source is configured to vary the stoichiometry of the oxidant/fuel mixture without requiring a change in the hydrocarbon fuel flow or the low O2 content oxidant flow; and wherein the low O2 content oxidant has an O2 content less than that of atmospheric air;a catalytic reactor configured to receive the oxidant/fuel mixture and to catalytically convert the oxidant/fuel mixture into a reducing gas, wherein the oxidant source is configured to selectively vary the stoichiometry of the oxidant/fuel mixture to achieve a desired reducing gas strength; anda control system programmed to control a flow rate of the oxidant/fuel mixture and vary both the O2 content of the low O2 content oxidant flow and the oxidant/fuel ratio of the oxidant/fuel mixture to achieve a desired stoichiometry of the oxidant/fuel mixture and a desired combustibles content of the reducing gas output by said catalytic reactor,wherein the catalytic reactor is in fluid communication with at least one of an anode and a reformer of the fuel cell for supplying the reducing gas to the at least one of the anode and the reformer of the fuel cell.
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