Catalyst combustion system, fuel reforming system, and fuel cell system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23C-011/11
H01M-008/06
출원번호
US-0784197
(2001-02-16)
우선권정보
JP-P2000-041194(2000-02-18)
발명자
/ 주소
Kobayashi,Katsuya
출원인 / 주소
Nissan Motor Co., Ltd.
대리인 / 주소
Foley &
인용정보
피인용 횟수 :
4인용 특허 :
4
초록▼
A catalyst combustor (11) includes an inner catalyst combustion portion (20) connected to a substitute fuel supply line (LS21, 12, 16) and a substitute oxidizer supply line (LS22, 13), an outer catalyst combustion portion (40) connected to an effluent fuel supply line (LS23, 14) and an effluent oxid
A catalyst combustor (11) includes an inner catalyst combustion portion (20) connected to a substitute fuel supply line (LS21, 12, 16) and a substitute oxidizer supply line (LS22, 13), an outer catalyst combustion portion (40) connected to an effluent fuel supply line (LS23, 14) and an effluent oxidizer supply line (LS24, 15), and a fluid communication portion ( 60) connecting the inner catalyst combustion portion (20) and the outer catalyst combustion portion (40) to each other, and has a fixed relationship provided among a fluid resistance (R2) of the inner catalyst combustion portion (20), a fluid resistance (R4) of the outer catalyst combustion portion (40), and a fluid resistance (R6) of the fluid communication portion ( 60), whereby substantially a warming catalyst combustion is caused to occur simply in the inner catalyst combustion portion (20), and a regular catalyst combustion is caused to occur in the inner catalyst combustion portion (20) and the outer catalyst combustion portion (40).
대표청구항▼
What is claimed is: 1. A catalyst combustion system comprising: a closable first fuel supply line which supplies a fluid containing a first fuel; a closable first oxidizer supply line which supplies a fluid containing a first oxidizer for the first fuel to be combustible therewith under assistance
What is claimed is: 1. A catalyst combustion system comprising: a closable first fuel supply line which supplies a fluid containing a first fuel; a closable first oxidizer supply line which supplies a fluid containing a first oxidizer for the first fuel to be combustible therewith under assistance of a catalyst; a second fuel supply line which supplies a fluid containing a second fuel different from the first fuel; a second oxidizer supply line which supplies a fluid containing a second oxidizer for the second fuel to be combustible therewith under assistance of the catalyst; and a catalyst combustor configured to alternately perform a first catalyst combustion between the first fuel and the first oxidizer and a second catalyst combustion between the second fuel and the second oxidizer, and to supply as a thermal medium a fluid containing one of a combustion product of the first catalyst combustion and a combustion product of the second catalyst combustion to the system, wherein the catalyst combustor comprises a first catalyst combustion portion connected to the first fuel supply line and the first oxidizer supply line, a second catalyst combustion portion connected to the second fuel supply line and the second oxidizer supply line, and a fluid communication portion between the first catalyst combustion portion and the second catalyst combustion portion, which connects the first catalyst combustion portion and the second catalyst combustion portion in fluid communication with each other, wherein the first catalyst combustion portion and the second catalyst combustion portion have predetermined fluid resistances, wherein the first catalyst combustion takes place only in the first catalyst combustion portion, as the fluid containing the first fuel and the fluid containing the first oxidizer are supplied to the first catalyst combustion portion, and the second catalyst combustion takes place in both the first and second catalyst combustion portions, as the fluid containing the second fuel and the fluid containing the second oxidizer are supplied to the second catalyst combustion portion. 2. A catalyst combustion system according to claim 1, wherein the fluid resistance of the second catalyst combustion portion is greater than the fluid resistance of the first catalyst combustion portion. 3. A catalyst combustion system comprising: a closable first fuel supply line which supplies a fluid containing a first fuel; a closable first oxidizer supply line which supplies a fluid containing a first oxidizer for the first fuel to be combustible therewith under assistance of a catalyst; a second fuel supply line which supplies a fluid containing a second fuel different from the first fuel; a second oxidizer supply line which supplies a fluid containing a second oxidizer for the second fuel to be combustible therewith under assistance of the catalyst; and a catalyst combustor configured to alternately perform a first catalyst combustion between the first fuel and the first oxidizer and a second catalyst combustion between the second fuel and the second oxidizer, and to supply as a thermal medium a fluid containing one of a combustion product of the first catalyst combustion and a combustion product of the second catalyst combustion to the system, wherein the catalyst combustor comprises a first catalyst combustion portion connected to the first fuel supply line and the first oxidizer supply line, a second catalyst combustion portion connected to the second fuel supply line and the second oxidizer supply line, and a fluid communication portion between the first catalyst combustion portion and the second catalyst combustion portion, which connects the first catalyst combustion portion and the second catalyst combustion portion in fluid communication with each other, wherein the first catalyst combustion portion and the second catalyst combustion portion have predetermined fluid resistances, wherein the first catalyst combustion takes place only in the first catalyst combustion portion, as the fluid containing the first fuel and the fluid containing the first oxidizer are supplied to the first catalyst combustion portion, and the second catalyst combustion takes place in both the first and second catalyst combustion portions, as the fluid containing the second fuel and the fluid containing the second oxidizer are supplied to the second catalyst combustion portion, wherein the fluid resistance of the second catalyst combustion portion is substantially equal to a sum of the fluid resistance of the first catalyst combustion portion and a fluid resistance of the fluid communication portion. 4. A catalyst combustion system comprising: a closable first fuel supply line which supplies a fluid containing a first fuel; a closable fist oxidizer supply line which supplies a fluid containing a first oxidizer for the first fuel to be combustible therewith under assistance of a catalyst; a second fuel supply line which supplies a fluid containing a second fuel different from the first fuel; a second oxidizer supply line which supplies a fluid containing a second oxidizer for the second fuel to be combustible therewith under assistance of the catalyst; and a catalyst combustor configured to alternately perform a first catalyst combustion between the first fuel and the first oxidizer and a second catalyst combustion between the second fuel and the second oxidizer, and to supply as a thermal medium a fluid containing one of a combustion product of the first catalyst combustion and a combustion product of the second catalyst combustion to the system, wherein the catalyst combustor comprises a first catalyst combustion portion connected to the first fuel supply line and the first oxidizer supply line, a second catalyst combustion portion connected to the second fuel supply line and the second oxidizer supply line, and a fluid communication portion between the first catalyst combustion portion and the second catalyst combustion portion, which connects the first catalyst combustion portion and the second catalyst combustion portion in fluid communication with each other, wherein the first catalyst combustion portion and the second catalyst combustion portion have predetermined fluid resistances, wherein the first catalyst combustion takes place only in the first catalyst combustion portions, as the fluid containing the first fuel and the fluid containing the first oxidizer are supplied to the first catalyst combustion portion, and the second catalyst combustion takes place in both the first and second catalyst combustion portions, as the fluid containing the second fuel and the fluid containing the second oxidizer are supplied to the second catalyst combustion portion, wherein the first catalyst combustion portion comprises a first gas chamber connected to the first fuel supply line and the first oxidizer supply line, a first set of catalyst combustion path parts connected to the first gas chamber, a first substrate formed with the first set of catalyst combustion path parts, and a heat insulating first accommodation part which accommodates the first substrate, the fluid resistance of the first catalyst combustion portion is representative of a sum of a fluid resistance of the first gas chamber and a fluid resistance of the first set of catalyst combustion path parts, the second catalyst combustion portion comprises a second gas chamber connected to the second fuel supply line and the second oxidizer supply line, a second set of catalyst combustion path parts connected to the second gas chamber, a second substrate formed with the second set of catalyst combustion path parts, and a heat insulating second accommodation part which accommodates the second substrate, and the fluid resistance of the second catalyst combustion portion is representative of a sum of a fluid resistance of the second gas chamber and a fluid resistance of the second set of catalyst combustion path parts. 5. A catalyst combustion system according to claim 4, wherein the first set of catalyst combustion path parts comprises a first set of combustion paths communicating with the first gas chamber, and a first set of films of the catalyst configured to define the first set of combustion paths, the fluid resistance of the first set of catalyst combustion path parts is representative of a fluid resistance of the first set of combustion paths, the second set of catalyst combustion path parts comprises a second set of combustion paths communicating with the second gas chamber, and a second set of films of the catalyst configured to define the second set of combustion paths, and the fluid resistance of the second set of catalyst combustion path parts is representative of a fluid resistance of the second set of combustion paths. 6. A catalyst combustion system according to claim 5, wherein the first set of combustion paths comprises a first plurality of straight fluid paths provided through the first substrate, the second set of combustion paths comprises a second plurality of straight fluid paths provided through the second substrate, the second plurality being greater than the first plurality, and the first plurality of straight fluid paths has a greater average sectional area than the second plurality of straight fluid paths. 7. A catalyst combustion system according to claim 5, wherein the first set of combustion paths includes a combustion path having a greater sectional area at an upstream end thereof than at a downstream end thereof. 8. A catalyst combustion system according to claim 4, wherein the fluid communication portion comprises a separation wall configured to separate the first gas chamber from the second gas chamber, and a set of through holes formed in the separation wall, and the fluid resistance of the fluid communication portion is representative of a fluid resistance of the set of through holes. 9. A catalyst combustion system according to claim 1, wherein the first catalyst combustion portion has a smaller heat capacity than the second catalyst combustion portion. 10. A catalyst combustion system comprising: a closable first fuel supply line which supplies a fluid containing a first fuel; a closable fist oxidizer supply line which supplies a fluid containing a first oxidizer for the first fuel to be combustible therewith under assistance of a catalyst; a second fuel supply line which supplies a fluid containing a second fuel different from the first fuel; a second oxidizer supply line which supplies a fluid containing a second oxidizer for the second fuel to be combustible therewith under assistance of the catalyst; and a catalyst combustor configured to alternately perform a first catalyst combustion between the first fuel and the first oxidizer and a second catalyst combustion between the second fuel and the second oxidizer, and to supply as a thermal medium a fluid containing one of a combustion product of the first catalyst combustion and a combustion product of the second catalyst combustion to the system, wherein the catalyst combustor comprises a first catalyst combustion portion connected to the first fuel supply line and the first oxidizer supply line, a second catalyst combustion portion connected to the second fuel supply line and the second oxidizer supply line, and a fluid communication portion between the first catalyst combustion portion and the second catalyst combustion portion, which connects the first catalyst combustion portion and the second catalyst combustion portion in fluid communication with each other, wherein the first catalyst combustion portion and the second catalyst combustion portion have predetermined fluid resistances, wherein the first catalyst combustion takes place only in the first catalyst combustion portion, as the fluid containing the first fuel and the fluid containing the first oxidizer are supplied to the first catalyst combustion portion, and the second catalyst combustion takes place in both the first and second catalyst combustion portions, as the fluid containing the second fuel and the fluid containing the second oxidizer are supplied to the second catalyst combustion portion wherein the first catalyst combustion portion has a smaller heat capacity than the second catalyst combustion portion and wherein the catalyst combustor has a heat insulating layer interposed between the first catalyst combustion portion and the second catalyst combustion portion. 11. A catalyst combustion system according to claim 1, wherein the first catalyst combustion portion is enclosed by the second catalyst combustion portion. 12. A catalyst combustion system according to claim 1, wherein the catalyst combustor has a substantially cylindrical enclosure circumscribed about the first catalyst combustion portion and the second catalyst combustion portion. 13. A catalyst combustion system according to claim 1, further comprising a separation wall disposed between the first catalyst combustion portion and the second catalyst combustion portion. 14. A catalyst combustion system according to claim 13, wherein the fluid communication portion comprises an opening through the separation wall. 15. A catalyst combustion system according to claim 14, wherein the fluid communication portion comprises an array of openings through the separation wall. 16. A catalyst combustion system according to claim 15, wherein at least one hole is circular, elliptic, triangular, rectangular or polygonal.
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이 특허에 인용된 특허 (4)
Davis ; Jr. L. Berkley (Schenectady NY) Hilt Milton B. (Sloansville NY) Wilkes Colin (Scotia NY), Catalytic combustion system.
Chaouki Jamai,CAX ; Sapoundjiev Hristo,CAX ; Guy Christophe,CAX ; Klvana Danilo,CAX ; Ratnani Kebir,CAX, Process and apparatus for gas phase exothermic reactions.
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