IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0788155
(2004-02-26)
|
등록번호 |
US-7517372
(2009-07-01)
|
발명자
/ 주소 |
- Sennoun, Mohammed E
- Voecks, Gerald E
- Robb, Gary M
- Pettit, William H
- Goebel, Steven G
|
출원인 / 주소 |
- General Motors Corporation
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
5 |
초록
▼
The present invention includes an integrated fuel processor subsystem incorporating a thermal combustor, a catalytic combustor, a quasi-autothermal reactor (QATR) and a air-fuel-steam (AFS) mixer to provide a range of operating modes exhibiting performance between that of a pure steam reformer and a
The present invention includes an integrated fuel processor subsystem incorporating a thermal combustor, a catalytic combustor, a quasi-autothermal reactor (QATR) and a air-fuel-steam (AFS) mixer to provide a range of operating modes exhibiting performance between that of a pure steam reformer and a pure autothermal reformer to increase the flexibility of the fuel processor to handle transient system demands such as cold starts, suppress emissions and carbon formation and improve efficiency.
대표청구항
▼
We claim: 1. An apparatus for producing hydrogen from hydrocarbon fuels comprising a thermal combustor, a catalytic combustor, and a catalytic reformer, wherein: the thermal combustor includes a combustion zone, a cooling zone, and an enriching zone; the combustion zone providing: a first fuel inle
We claim: 1. An apparatus for producing hydrogen from hydrocarbon fuels comprising a thermal combustor, a catalytic combustor, and a catalytic reformer, wherein: the thermal combustor includes a combustion zone, a cooling zone, and an enriching zone; the combustion zone providing: a first fuel inlet and a first gas inlet for introducing a ratio of a first hydrocarbon fuel and a first oxygen-containing gas into the combustion zone, the ratio being controllable to provide combustion of the first hydrocarbon fuel within the combustion zone; an ignition source for inducing combustion of the first hydrocarbon fuel and the first oxygen-containing gas to produce an exhaust stream that flows from the combustion zone into the cooling zone; the cooling zone providing one or more inlets selected from a group consisting of a first water inlet and a second gas inlet through which at least one fluid is injected into the exhaust stream to produce a cooled exhaust stream that is fed into the enriching zone; the enriching zone providing a second fuel inlet for introducing a second hydrocarbon fuel into the cooled exhaust stream to produce an enriched exhaust stream that is fed into the catalytic combustor; the catalytic combustor providing a first catalytic substrate upon which a first catalyst is supplied, the first catalyst selected to combust a portion of the enriched exhaust stream and thereby produce a second exhaust stream, the second exhaust stream being fed into the catalytic reformer; and the catalytic reformer includes: an inlet for receiving a gaseous feed mixture of a third hydrocarbon fuel, a second oxygen-containing gas and steam into an enclosed catalytic region, the catalytic region being heated by the second exhaust stream, the catalytic region providing a second catalytic substrate upon which a second catalyst is supplied, the second catalyst selected to reform the feed mixture to produce a hydrogen-containing reformate stream, an outlet for removing the reformate stream from the catalytic region, and an exhaust outlet for removing the second exhaust stream from the catalytic reformer. 2. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 1, wherein the first and second oxygen-containing gases are air and the first, second and third hydrocarbon fuels are substantially identical. 3. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 1, wherein the apparatus further comprises: a fuel cell, the fuel cell being configured to receive a portion of the reformate stream into an anode chamber and a fourth oxygen-containing gas stream into a cathode chamber for the production of electricity. 4. An apparatus for producing hydrogen from hydrocarbon fuels according in the claim 3 wherein the fourth oxygen-containing gas comprises air. 5. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 1, further comprising: an air-fuel-steam (AFS) mixer, wherein the AFS mixer having a mixing chamber, a gas inlet for introducing the second oxygen-containing gas into the mixing chamber, a fuel inlet for introducing the third hydrocarbon fuel into the mixing chamber, and a steam inlet for introducing steam into the mixing chamber; the air inlet, fuel inlet, steam inlet and the mixing chamber being arranged and configured to promote mixing of the second oxygen-containing gas, the third hydrocarbon fuel and the steam to produce the gaseous feed mixture; and a feed mixture outlet in fluid communication with the catalytic reformer for introducing the feed mixture into the catalytic reformer. 6. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 5, wherein the catalytic reformer further comprises: a casing, the casing providing an inlet for receiving the second exhaust stream, providing an outlet for removing the second exhaust stream, and enclosing a plurality of reformer tubes arranged so that an exterior surface of the reformer tubes is contacted and warmed by the second exhaust stream; wherein each of the reformer tube includes a feed mixture inlet for receiving the feed mixture from the AFS mixer, a catalytic region in which the feed mixture contacts the second catalyst to produce the reformate stream and a reformate outlet for removing the reformate stream from the reformer tube. 7. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 6, wherein each of the reformer tubes further comprises: a first tube providing the exterior surface; and a second tube arranged within the first tube to define a space therebetween. 8. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 7, wherein the catalytic region is disposed within the space between the first tube and the second tube. 9. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 7, wherein the catalytic region is disposed within the second tube. 10. An apparatus for producing hydrogen from hydrocarbon fuels according to claim 7, wherein the space defined between the first tube and the second tube is substantially annular.
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