Solid-oxide fuel cell system having an integrated air/fuel manifold
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/02
H01M-008/04
H01M-008/06
B60L-011/18
출원번호
US-0178878
(2002-06-24)
등록번호
US-7279246
(2007-10-09)
발명자
/ 주소
Kelly,Sean M.
Haltiner, Jr.,Karl J.
DeMinco,Christopher M.
출원인 / 주소
Delphi Technologies, Inc.
인용정보
피인용 횟수 :
7인용 특허 :
17
초록▼
A solid-oxide fuel cell system having a compact, highly space-efficient basal manifold for conveying high temperature air, exhaust, and hydrogen-rich reformate fuel to and from the core components of the system. The manifold is a three-dimensional assembly of plates and partitioned elements which ar
A solid-oxide fuel cell system having a compact, highly space-efficient basal manifold for conveying high temperature air, exhaust, and hydrogen-rich reformate fuel to and from the core components of the system. The manifold is a three-dimensional assembly of plates and partitioned elements which are easily and inexpensively formed. When assembled, the manifold comprises a network of passageways which allow for the mounting, close-coupling, and integration of critical fuel cell system components, including heat exchangers, a tail gas combustor and fuel reformer, solid-oxide fuel cell stacks, check valves, and oxygen scavengers.
대표청구항▼
What is claimed is: 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) a reformer for re
What is claimed is: 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) a reformer for reforming hydrocarbons to provide said fuel; c) an air supply system for supplying said oxygen in the form of air; and d) an integrated fuel/air manifold having a plurality of external openings communicating with a plurality of internally-connected chambers for receiving said fuel from said reformer, conveying said fuel to said anodes, and returning said fuel as tail gas from said anodes, and for receiving said air from said air supply system, conveying said air to said cathodes, and returning said air from said cathodes, said manifold including a bottom plate, a top plate, a middle plate disposed between said top plate and said bottom plate, a lower partitioned element disposed between said bottom plate and said middle plate defining a pattern of lower chambers, and an upper partitioned element disposed between said middle plate and said top plate defining a pattern of upper chambers, said middle plate having a plurality of openings for communication between said lower and upper chambers, and said top plate mounted to said stack and said reformer; and said manifold including means for flow communication of said reformer and said air supply system with said stack assembly. 2. A fuel cell system in accordance with claim 1 wherein said fuel cells are solid-oxide fuel cells. 3. A fuel cell system in accordance with claim 1 wherein said system includes a plurality of fuel cell stacks connected electrically in series, and wherein said manifold includes means for supplying fuel to said stacks in parallel and for supplying air to said stacks in parallel. 4. A fuel cell system in accordance with claim 3 wherein said system includes two fuel cell stacks and wherein said means for supplying fuel and air to said stacks in parallel are disposed in said manifold in mirror-image symmetry. 5. A fuel cell system in accordance with claim 3 wherein said system includes a heat exchanger for tempering said air being conveyed to each of stacks, said manifold being further provided with a mounting surface for each of said heat exchangers and with means for passage of air between said manifold and each of said heat exchangers. 6. A fuel cell system in accordance with claim 5 further comprising a tail gas combustor disposed within said reformer for burning said tail gas fuel returned from said anodes, said manifold having openings communicating with internal chambers for conveying said tail gas from said anodes to said combustor and for conveying combustor exhaust from said combustor to and from said cathode air heat exchanger. 7. A fuel cell system in accordance with claim 6 wherein said fuel cell stack is provided with a tempering jacket, and wherein said manifold further comprises openings communicating with internal chambers for. 8. A fuel cell system in accordance with claim 6 wherein said air flowing from said air supply system is divided into a plurality of flows directed to a plurality of destinations in said manifold, said stack, and said reformer, and wherein said air supply system further comprises a plurality of valves for regulating said plurality of flows of air. 9. A fuel cell system in accordance with claim 8 further comprising a control system for controlling the actions of said valves. 10. A fuel cell system in accordance with claim 9 further comprising a thermal enclosure defining a hot zone therewithin. 11. A fuel cell system in accordance with claim 10 wherein said manifold, said heat exchangers, said stacks, and said combustor are disposed within said thermal enclosure. 12. A fuel cell system in accordance with claim 11 further comprising a structural enclosure for enclosing said thermal enclosure, containing said manifold, heat exchangers, stacks, and combustor, and for enclosing said air supply system and said control system, said structural enclosure having means for communicating air flow and electric signals to outside of said structural enclosure. 13. A fuel cell system in accordance with claim 1 wherein said stack assembly and said reformer are mounted to a single surface of said top plate. 14. A fuel cell system in accordance with claim 1 further comprising at least one heat exchanger for tempering said air being conveyed to said cathodes, wherein said manifold is further provided with a mounting surface for said heat exchanger and with means for passage of air between said manifold and said heat exchanger. conveying said combustor exhaust from said heat exchanger to and from said tempering jacket. 15. A fuel cell system in accordance with claim 1 wherein said top plate includes said means for mounting said stack assembly and said reformer to said manifold. 16. A fuel cell system in accordance with claim 1 wherein said bottom plate and said lower partitioned element are provided as a first integral element and said middle plate and said upper partitioned element are provided as a second integral element such that said manifold comprises said first integral element, said second integral element, and said top plate. 17. A fuel cell system in accordance with claim 1 wherein said lower partitioned element and said middle plate are provided as a first integral element and said upper partitioned element and said top plate are provided as a second integral element such that said manifold comprises said first integral element, said second integral element, and said bottom plate. 18. A fuel cell system in accordance with claim 1 wherein said bottom plate and said lower partitioned element are provided as a first integral element and said upper partitioned element and said top plate are provided as a second integral element such that said manifold comprises said first integral element, said second integral element, and said middle plate. 19. A fuel cell system in accordance with claim 1 wherein said lower partitioned element, said middle plate and said upper partitioned element are provided as a first integral element such that said manifold comprises said first integral element, said top plate and said bottom plate. 20. A fuel cell system in accordance with claim 1 wherein said system is mounted on a vehicle. 21. A fuel cell system in accordance with claim 20 wherein said vehicle is selected from the group consisting of car, truck, boat, and airplane. 22. A fuel cell system in accordance with claim 21 wherein said system is an auxiliary power unit for said vehicle. 23. A fuel cell system in accordance with claim 1, wherein said top plate is disposed between said stack and said middle plate. 24. An automotive vehicle, comprising a fuel cell system for generating auxiliary power for said vehicle, said system including a plurality of individual fuel cells organized into at least one fuel cell stack assembly including a plurality of cathodes and anodes, a reformer for reforming hydrocarbons to provide said fuel, an air supply system for supplying said oxygen in the form of air, and an integrated fuel/air manifold having a plurality of external openings communicating with a plurality of internally-connected chambers for receiving said fuel from said reformer, conveying said fuel to said anodes, and returning said fuel as tail gas from said anodes, and for receiving said air from said air supply system, conveying said air to said cathodes, and returning said air from said cathodes, said manifold including a bottom plate, a top plate, a middle plate disposed between said top plate and said bottom plate, a lower partitioned element disposed between said bottom plate and said middle plate defining a pattern of lower chambers, and an upper partitioned element disposed between said middle plate and said top plate defining a pattern of upper chambers, said middle plate having a plurality of openings for communication between said lower and upper chambers, and said top plate mounted to said stack and said reformer; and said manifold including means for flow communication of said reformer and said air supply system with said stack assembly. 25. An automotive vehicle in accordance with claim 24, wherein said top plate is disposed between said stack and said middle plate. 26. 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) a reformer for reforming hydrocarbons to provide said fuel; and c) an integrated fuel/air manifold including a bottom plate, a top plate, a middle plate disposed between said top plate and said bottom plate, a lower partitioned element disposed between said bottom plate and said middle plate defining a pattern of lower chambers, and an upper partitioned element disposed between said middle plate and said top plate defining a pattern of upper chambers, said middle plate having a plurality of openings for communication between said lower and upper chambers, and said top plate mounted to said stack and said reformer to provide flow communication of said reformer with said stack assembly. 27. A fuel cell system in accordance with claim 26, wherein said top plate is disposed between said stack and said middle plate. 28. A fuel cell system in accordance with claim 26, further comprising an air supply system for supplying said oxygen in the form of air. 29. A fuel cell system in accordance with claim 28, wherein said manifold includes a plurality of external openings communicating with said lower and upper chambers to provide flow communication of said reformer and said air supply system with said stack assembly.
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