IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
UP-0772689
(2007-07-02)
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등록번호 |
US-7807129
(2010-10-26)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
78 |
초록
▼
Described herein is a fuel processor that produces hydrogen from a fuel source. The fuel processor comprises a reformer and burner. The reformer includes a catalyst that facilitates the production of hydrogen from the fuel source. Voluminous reformer chamber designs are provided that increase the am
Described herein is a fuel processor that produces hydrogen from a fuel source. The fuel processor comprises a reformer and burner. The reformer includes a catalyst that facilitates the production of hydrogen from the fuel source. Voluminous reformer chamber designs are provided that increase the amount of catalyst that can be used in a reformer and increase hydrogen output for a given fuel processor size. The burner provides heat to the reformer. One or more burners may be configured to surround a reformer on multiple sides to increase thermal transfer to the reformer. Dewars are also described that increase thermal management of a fuel processor and increase burner efficiency. A dewar includes one or more dewar chambers that receive inlet air before a burner receives the air. The dewar is arranged such that air passing through the dewar chamber intercepts heat generated in the burner before the heat escapes the fuel processor.
대표청구항
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What is claimed is: 1. A method for generating hydrogen in a fuel processor, the fuel processor comprising a burner, a reformer and a dewar that at least partially contains the burner and reformer, the method comprising: generating heat in the burner; transferring heat from the burner to a dewar ch
What is claimed is: 1. A method for generating hydrogen in a fuel processor, the fuel processor comprising a burner, a reformer and a dewar that at least partially contains the burner and reformer, the method comprising: generating heat in the burner; transferring heat from the burner to a dewar chamber via conductive heat transfer using a wall shared by the dewar chamber and the burner; passing a process gas or liquid through the dewar chamber; recycling the heat transferred from the burner back into the burner, wherein recycling comprises: heating the process gas or liquid in the dewar chamber using heat generated in the burner, wherein the process gas or liquid in the dewar chamber is heated using heat from the wall shared by the dewar chamber and the burner to form a pre-heated gas or liquid; and supplying the pre-heated gas or liquid to the burner by supplying the process gas or liquid to the burner directly from the dewar chamber after it has been heated in the dewar chamber; transferring heat generated in the burner to the reformer; and reforming a fuel source to produce hydrogen. 2. The method of claim 1, wherein the generating heat further comprises turning on a heating element in the burner. 3. The method of claim 1, wherein the generating heat further comprises: providing burner fuel to the burner; and combusting the burner fuel with a burner catalyst to generate heat in the burner, wherein the burner catalyst includes a plurality of pellets. 4. The method of claim 1, wherein the transferring heat to the reformer occurs via conduction. 5. The method of claim 1, wherein the heating the process gas or liquid further comprises convectively transferring heat from the dewar wall to the process gas or liquid passing through the dewar chamber. 6. The method of claim 1, wherein the supplying the process gas or liquid to the burner further comprises flowing the process gas or liquid in the burner in a direction that at least partially counters a flow direction of the process gas or liquid in the dewar chamber. 7. The method of claim 1, wherein the dewar annularly surrounds the burner in a cross section. 8. The method of claim 1, further comprising: creating a second dewar chamber between the housing and the dewar; passing the process gas or liquid through the second dewar chamber before the dewar chamber receives the process gas or liquid; and heating the process gas or liquid in the second dewar chamber using heat generated in the burner. 9. The method of claim 8, wherein the heat transfers to a second dewar wall via radiative heat transfer from the wall shared by the dewar and the burner, and wherein the dewar includes a radiative layer disposed on the second wall that improves radiative heat reflectance of the second wall. 10. The method of claim 1, wherein the fuel processor includes a monolithic structure with a single material that forms a wall of a reformer chamber included in the reformer, a wall of a burner chamber included in the burner, and a wall of a dewar chamber included in the dewar. 11. A method for generating hydrogen in a fuel processor, the fuel processor comprising a burner, a reformer and a regenerator that at least partially contains the burner and reformer, the method comprising: generating heat in a burner chamber; transferring heat from the burner to a regenerator chamber via conductive heat transfer using a wall shared by the regeneration chamber and the burner; passing a process gas or liquid through the regenerator chamber; recycling the heat transferred from the burner back into the burner, wherein recycling comprises: heating the process gas or liquid in the regenerator chamber using heat generated in the burner, wherein the process gas or liquid in the regenerator chamber is heated using heat from the wall shared by the regenerator chamber and the burner to form a pre-heated gas or liquid; and supplying the pre-heated gas or liquid to the burner by supplying the process gas or liquid to the burner directly from the regenerator chamber after it has been heated in the regenerator chamber; conductively transferring at least a portion of the heat from the burner to a reformer through a wall shared by the burner and the reformer; and reforming a fuel source to produce hydrogen. 12. The method of claim 11, wherein the supplying the process gas or liquid to the burner further comprises combusting the process gas or liquid in the burner. 13. The method of claim 11, wherein the heating the process gas or liquid comprises further comprises convectively transferring heat from the regenerator wall to the process gas or liquid in the regenerator chamber. 14. The method of claim 11, wherein the regenerator annularly surrounds the burner in a cross section. 15. The method of claim 11, further comprising: creating a second regenerator chamber between the housing and the regenerator; passing the process gas or liquid through the second regenerator chamber before the regenerator chamber receives the process gas or liquid; and heating the process gas or liquid in the second regenerator chamber using heat generated in the burner. 16. The method of claim 15, wherein the heat transfers to a second regenerator wall via radiative heat transfer from the wall shared by the regenerator and the burner, wherein the regenerator includes a radiative layer disposed on the second wall that improves radiative heat reflectance of the second wall. 17. The method of claim 11, wherein the fuel processor includes a monolithic structure with a single material that forms a wall of a reformer chamber included in the reformer, a wall of a burner chamber included in the burner, and a wall of a regenerator chamber included in the regenerator. 18. A method for generating hydrogen in a fuel processor, the fuel processor comprising a burner, a reformer and a dewar that at least partially contains the burner and reformer, the method comprising: generating heat in the burner; providing burner fuel to the burner; combusting the burner fuel with a burner catalyst to generate heat in the burner, wherein the burner catalyst includes a plurality of pellets; transferring heat from the burner to a dewar chamber via conductive heat transfer using a wall shared by the dewar chamber and the burner, wherein the dewar chamber annularly surrounds the burner in a cross section; recycling the heat transferred from the burner back into the burner, wherein recycling comprises: passing a process gas or liquid through the dewar chamber; heating the process gas or liquid in the dewar chamber using heat generated in the burner, wherein the process gas or liquid in the dewar chamber is heated using heat from the wall shared by the dewar chamber and the burner to form a pre-heated gas or liquid; convectively transferring heat from the dewar wall to the process gas or liquid passing through the dewar chamber; and supplying the pre-heated gas or liquid to the burner by supplying the process gas or liquid to the burner directly from the dewar chamber after it has been heated in the dewar chamber; transferring heat generated in the burner to the reformer via conduction heat transfer; and reforming a fuel source to produce hydrogen. 19. The method of claim 18, wherein the fuel processor includes a monolithic structure with a single material that forms a wall of a reformer chamber included in the reformer, a wall of a burner chamber included in the burner, and a wall of a dewar chamber included in the dewar. 20. The method of claim 18, further comprising: creating a second dewar chamber between the housing and the dewar; passing the process gas or liquid through the second dewar chamber before the dewar chamber receives the process gas or liquid; and heating the process gas or liquid in the second dewar chamber using heat generated in the burner.
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