A fuel cell system comprises a combination of a first fuel cell of a first type and a second fuel cell of a second type, arranged downstream of the first fuel cell. The anode side of the first fuel cell is coupled with a cathode side of the second fuel cell; allowing the purge gas emanating from the
A fuel cell system comprises a combination of a first fuel cell of a first type and a second fuel cell of a second type, arranged downstream of the first fuel cell. The anode side of the first fuel cell is coupled with a cathode side of the second fuel cell; allowing the purge gas emanating from the first fuel cell to be fed to the cathode side of the second fuel chamber, rather than to outside air.
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The invention claimed is: 1. A fuel cell system comprising: a combination of a first fuel cell of a first type and a second fuel cell of a second type, different than the first type, arranged downstream of the first fuel cell, each fuel cell having an anode side and a cathode side, wherein the anod
The invention claimed is: 1. A fuel cell system comprising: a combination of a first fuel cell of a first type and a second fuel cell of a second type, different than the first type, arranged downstream of the first fuel cell, each fuel cell having an anode side and a cathode side, wherein the anode side of the first fuel cell communicates with the cathode side of the second fuel cell via a compressor, and wherein the first fuel cell is a proton exchange membrane fuel cell of the low-temperature type or the high-temperature type. 2. The fuel cell system of claim 1, wherein a coolant of the first fuel cell is air. 3. The fuel cell system of claim 2, wherein the coolant is drawn in from an environment. 4. The fuel cell system of claim 1, wherein the second fuel cell is a high-temperature fuel cell type. 5. The fuel cell system of claim 4, wherein the second fuel cell is a solid oxide fuel cell. 6. The fuel cell system of claim 1, wherein the first fuel cell and the second fuel cell are supplied with hydrogen on the anode side. 7. The fuel cell system of claim 6, wherein the hydrogen for supplying the first fuel cell and the second fuel cell are regulated separately. 8. The fuel cell system of claim 6, wherein the hydrogen for supplying the anode side of each of the fuel cells is preheated by waste heat of a turbine stage of the second fuel cell. 9. The fuel cell system of claim 6, wherein the hydrogen for supplying the anode side of each of the fuel cells may be transformed from a liquid state to a gaseous state. 10. The fuel cell system of claim 1, wherein an exhaust gas from the second fuel cell may be fed to a cooler/heater combination that preheats supplied cabin air using a portion of waste heat from the exhaust gas. 11. The fuel cell system of claim 10, wherein preheated cabin air may be fed to the cathode side of the first fuel cell using a compressor. 12. The fuel cell system of claim 11, wherein the compressor is mechanically connected or magnetically coupled to a compressor stage and to a turbine stage of the second fuel cell. 13. The fuel cell system of claim 12, wherein the compressor is mechanically connected using a coupling or a gear arrangement. 14. The fuel cell system of claim 12, further comprising a motor that is connected by a shaft to the compressor for generating an angular momentum during starting of the system. 15. The fuel cell system of claim 14, wherein the motor is mechanically connected or magnetically coupled to the compressor stage and to the turbine stage of the second fuel cell. 16. The fuel cell system of claim 1, wherein residual gas from the first fuel cell is added to suction air of the second fuel cell using a venturi nozzle. 17. The fuel cell system of claim 1, wherein water contained in cathode outlet air of the first fuel cell condenses out using a cooling circuit. 18. The fuel cell system of claim 17, wherein the cooling circuit comprises a condenser. 19. The fuel cell system of claim 17, wherein the condensed-out water is fed for further utilization to a water system or to a reformer that produces hydrogen from hydrocarbon. 20. The fuel cell system of claim 19, wherein hydrogen produced from the hydrocarbon using the reformer is fed to the second fuel cell. 21. The fuel cell system of claim 17, wherein the outlet air of the cathode of the first fuel cell after condensing out the water is added to suction air of the second fuel cell using a venturi nozzle. 22. The fuel cell system of claim 17, wherein the cooling circuit uses a heat pump process and the heat produced by the heat pump process is transferred to outlet air of the cathode side of the first fuel cell. 23. The fuel cell system of claim 1, wherein a cooled-down exhaust gas stream from the second fuel cell is fed to a wing de-icing system. 24. The fuel cell system of claim 1, further comprising an electronic sensor technology-/control unit for regulating the system. 25. The fuel cell system of claim 24, wherein the sensor technology-/control unit is supplied with energy from an on-board electricity network. 26. The fuel cell system of claim 24, further comprising an independent energy source, connected to the sensor technology-/control unit, for starting the system. 27. The fuel cell system of claim 26, wherein the energy source is a battery, a storage battery and/or a super cap high-performance capacitor. 28. An aircraft using the fuel cell system of claim 1. 29. The fuel cell system of claim 1, wherein the second fuel cell is a combination of a combustion chamber and a catalytic burner providing thermal energy. 30. The fuel cell system of claim 1, wherein the second fuel cell is a combination of a combustion chamber and a solid oxide fuel cell.
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이 특허에 인용된 특허 (7)
Hums Erich,DEX ; Vortmeyer Nicolas,DEX, Catalytic combustion chamber operating on preformed fuel, preferably for a gas turbine.
Koethe Terence L. (1021 Oakwood Dr. Keller TX 76248) Wilson Richard M. (Rte. 6 ; Box 918 Burleson TX 76028) Reid Gary L. (6213 Greenlee Fort Worth TX 76112), Method and apparatus for using hot fuels to de-ice aircraft.
Huber, James M.; Lindstrom, Joel D.; Daggett, David L.; Friend, Michael G., Solid oxide fuel cell as auxiliary power source installation in transport aircraft.
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