초록 ▼

A solid-oxide fuel cell system including an integrated reforming unit comprising a hydrocarbon fuel reformer; an integral tail gas and cathode air combustor and reformer heat exchanger; a fuel pre-heater and fuel injector cooler; a fuel injector and fuel/air mixer and vaporizer; a reforming air pre-

A solid-oxide fuel cell system including an integrated reforming unit comprising a hydrocarbon fuel reformer; an integral tail gas and cathode air combustor and reformer heat exchanger; a fuel pre-heater and fuel injector cooler; a fuel injector and fuel/air mixer and vaporizer; a reforming air pre-heating heat exchanger; a reforming air temperature control valve and means; and a pre-reformer start-up combustor. The integration of a plate reformer, tail gas combustor, and combustor gas heat exchanger allows for efficient operation modes of the reformer, both endothermic and exothermic as desired. The combustor gas heat exchanger aids in temperature regulation of the reformer and reduces significant thermal gradients in the unit.

대표청구항 ▼

1. A fuel cell system for generating electric power by combination of oxygen with hydrogen-containing fuel, comprising:a) a plurality of individual fuel cells organized into at least one fuel cell stack assembly including a plurality of cathodes and anodes; b) manifold means having passageways for c

1. A fuel cell system for generating electric power by combination of oxygen with hydrogen-containing fuel, comprising:a) a plurality of individual fuel cells organized into at least one fuel cell stack assembly including a plurality of cathodes and anodes; b) manifold means having passageways for conveying said fuel and said oxygen in the form of air to said stack assembly and for returning spent cathode air and tail gas fuel from said stack assembly; and c) an integrating reformer unit connected to said manifold means for reforming hydrocarbons to provide said fuel to said stack assembly, said reformer unit including, a mixing chamber for mixing liquid hydrocarbon fuel to form a fuel/air mixture, means for injecting liquid hydrocarbon fuel into said mixing chamber, means for entering reforming air into said mixing chamber, a multiple-plate reformer downstream of said mixing chamber for producing reformed hydrocarbon fuel from said vaporized fuel/air mixture, means for conveying said reformed fuel within said reformer unit to said manifold, combustor means for receiving and burning tail gas and spent cathode air from said stack assembly via said manifold, heat exchanging means between said combustor means and said reformer, and means for conveying exhaust from said combustor means through said reformer unit and into said manifold means. 2. A fuel cell system in accordance with claim 1 wherein said integrating reformer unit further comprises:a) means for tempering said reforming air being entered into said mixing chamber; and b) heat exchanging means between said combustor means and said reforming air tempering means. 3. A fuel cell system in accordance with claim 1 wherein said integrating reformer unit further comprises means for vaporizing said fuel/air mixture in said mixing chamber.4. A fuel cell system in accordance with claim 1 wherein said integrating reformer unit further comprises a start-up combustion chamber communicating with said mixing chamber, including means for selectively igniting said fuel air mixture as desired in said start-up combustion chamber.5. A fuel cell system in accordance with claim 1 wherein said fuel cells are solid-oxide fuel cells.6. A fuel cell system in accordance with claim 1 wherein said fuel injecting means is a fuel injector.7. A fuel cell system in accordance with claim 1 wherein said combustor means is disposed within said multiple plate reformer.8. A fuel cell system in accordance with claim 7 wherein said multiple-plate reformer and combustor means includesa plurality of plates having a reforming catalyst on an A side thereof and having a B side opposite said A side, said plates being so ordered that A sides face A sides and B sides face B sides, each plate having a central opening, a plurality of reformer spacers disposed between said A sides to space said A sides apart, forming a plurality of slots between said A sides for passage of fuel/mixture into said reformer and passage of reformate out of said reformer, a plurality of combustor spacers disposed between said B sides to space said B sides apart, forming a plurality of slots between said B sides for passage of combustor exhaust out of said reformer wherein said spacers and said central openings in said plurality of plates cooperate to define a combustion chamber within said reformer, said combustion chamber being open to said combustor exhaust slots and closed to said reformer slots, said reformer spacers and said combustor spacers being so configured as to prevent gas flow communication of said reformate slots with said combustor exhaust slots wherein said combustor exhaust slots and said reformer slots define a means for transferring heat through said plates from said combustion exhaust to said reforming catalyst, and means for conveying said spent cathode air and said tail gas fuel from said manifold to said combustion chamber. 9. A fuel cell system in accordance with claim 8 wherein said plates and said spacers are stamped from sheet metal.10. A fuel cell system in accordance with claim 8 wherein said reformer spacers are formed integrally with said plates.11. A fuel cell system in accordance with claim 8 wherein said combustor spacers are formed integrally with said plates.12. A fuel cell system in accordance with claim 8 further comprising means for igniting said spent cathode air and said tail gas fuel in said combustion chamber.13. A fuel cell system in accordance with claim 1 further comprising means for pre-heating said hydrocarbon fuel before injection of said fuel into said mixing chamber.14. A fuel cell system in accordance with claim 1 wherein said means for tempering said reforming air being entered into said mixing chamber includes a heat exchanger disposed within said multiple plate reformer and combustor.15. A fuel cell system in accordance with claim 14 wherein means for tempering further includes an air control valve disposed in a flow path of said air being tempered.16. A fuel cell system in accordance with claim 1 wherein said system is mounted on a vehicle.17. A fuel cell system in accordance with claim 16 wherein said vehicle is selected from the group consisting of car, truck, boat, and airplane.18. A fuel cell system in accordance with claim 16 wherein said system is an auxiliary power unit for said vehicle.19. An automotive vehicle, comprising a fuel cell system for generating auxiliary power for said vehicle, said system includinga plurality of individual fuel cells organized into at least one fuel cell stack assembly including a plurality of cathodes and anodes, manifold means having passageways for conveying said fuel and said oxygen in the form of air to said stack assembly and for returning spent cathode air and tail gas fuel from said stack assembly, and an integrating reformer unit connected to said manifold means for reforming hydrocarbons to provide said fuel to said stack assembly, wherein said reformer unit includes, a mixing chamber for mixing liquid hydrocarbon fuel to form a fuel/air mixture, means for injecting liquid hydrocarbon fuel into said mixing chamber, means for entering reforming air into said mixing chamber, a multiple-plate reformer downstream of said mixing chamber for producing reformed hydrocarbon fuel from said vaporized fuel/air mixture, means for conveying said reformed fuel within said reformer unit to said manifold, combustor means for receiving and burning tail gas and spent cathode air returned from said stack assembly via said manifold, heat exchanging means between said combustor means and said reformer, and means for conveying exhaust from said combustor means through said reformer unit and into said manifold means. 20. An automotive vehicle in accordance with claim 19 wherein said integrating reformer unit further comprises:means for tempering said reforming air being entered into said mixing chamber, and heat exchanging means between said combustor means and said reforming air tempering means. 21. An automotive vehicle in accordance with claim 19 wherein said integrating reformer unit further comprises means for vaporizing said fuel/air mixture in said mixing chamber.22. An integrating reformer unit for reforming hydrocarbons to provide hydrogen-rich fuel to a fuel cell stack, said reformer unit including,a mixing chamber for mixing liquid hydrocarbon fuel to form a fuel/air mixture, means for injecting liquid hydrocarbon fuel into said mixing chamber, means for entering reforming air into said mixing chamber, a multiple-plate reformer downstream of said mixing chamber for producing reformed hydrocarbon fuel from said vaporized fuel/air mixture, means for conveying said reformed fuel within said reformer unit to said manifold, combustor means for receiving and burning tail gas and spent cathode air from said stack assembly via said manifold, heat exchanging means between said combustor means and said reformer, and means for conveying exhaust from said combustor means through said reformer unit and into said manifold means. 23. An integrating reformer unit in accordance with claim 22 further comprising:means for tempering said reforming air being entered into said mixing chamber, and heat exchanging means between said combustor means and said reforming air tempering means. 24. An integrating reformer unit in accordance with claim 22 further comprising means for vaporizing said fuel/air mixture in said mixing chamber.