Reactor module for use in a compact fuel processor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01N-003/10
B01D-050/00
F28D-021/00
B28B-005/02
B28B-005/00
출원번호
US-0006880
(2001-12-05)
발명자
/ 주소
Deshpande,Vijay A.
출원인 / 주소
Texaco Inc.
대리인 / 주소
Howrey LLP
인용정보
피인용 횟수 :
2인용 특허 :
21
초록▼
A reactor module for use in a compact fuel processor having a module inlet for receiving a feed stream, a module outlet for producing an effluent stream, a reactor having a reactor inlet, a reactor outlet, and catalyst, an inlet spiral passage in fluid communication with the module inlet to the reac
A reactor module for use in a compact fuel processor having a module inlet for receiving a feed stream, a module outlet for producing an effluent stream, a reactor having a reactor inlet, a reactor outlet, and catalyst, an inlet spiral passage in fluid communication with the module inlet to the reactor inlet, and an outlet spiral passage in fluid communication with the reactor outlet to the module outlet. Such a design provides for the feed stream to be introduced to the module inlet, where it then passes through the inlet spiral passage, and is heated by hot reactor product passing through the outlet spiral passage. The reactor may be any type of fixed bed exothermic containing supported catalyst particles or the reactor bed may be a monolith with catalytic material coated on to the surface of the structural members.
대표청구항▼
What is claimed is: 1. An autothermal reforming module for use in a compact fuel processor, comprising: a module inlet for receiving a feed stream; a module outlet for producing an effluent stream; a fixed bed reactor having a reactor inlet, a reactor outlet, and autothermal reforming catalyst; an
What is claimed is: 1. An autothermal reforming module for use in a compact fuel processor, comprising: a module inlet for receiving a feed stream; a module outlet for producing an effluent stream; a fixed bed reactor having a reactor inlet, a reactor outlet, and autothermal reforming catalyst; an inlet spiral passage in fluid communication with the module inlet to the reactor inlet; an outlet spiral passage in fluid communication with the reactor outlet to the module outlet; a flow distribution manifold in fluid communication with the reactor inlet for evenly distributing flow into the reactor; a flow collection manifold in fluid communication with the reactor for directing hot reactor product to the reactor outlet; and a cover fitted to a side of the reforming module; wherein the flow distribution manifold is disposed between the reactor and the cover for evenly distributing flow into the reactor; and wherein the feed stream is introduced to the module inlet, passes through the inlet spiral passage, and is heated by the hot reactor product passing through the outlet spiral passage. 2. The autothermal reforming module described in claim 1, wherein the autothermal reforming catalyst includes supported catalyst particles. 3. The autothermal reforming module described in claim 1, wherein the autothermal reforming catalyst includes monoliths. 4. The autothermal reforming module described in claim 1, wherein the autothermal reforming catalyst includes a partial oxidation catalyst. 5. The autothermal reforming module described in claim 4, wherein the autothermal reforming catalyst includes a steam reforming catalyst. 6. The autothermal reforming module described in claim 1, wherein the feed stream is a mixture of air, steam, and hydrocarbon fuel. 7. A module for use in a compact fuel processor, comprising: a module inlet for receiving a feed stream; an inlet spiral passage in fluid communication with the module inlet; a flow distribution manifold in fluid communication with the inlet spiral passage and a reactor inlet; a reactor having a reactor inlet, a reactor outlet, and catalyst; an outlet spiral passage in fluid communication with the reactor outlet; a module outlet in fluid communication with the outlet spiral passage for producing an effluent stream; and a cover fitted to a side of the module; wherein the flow distribution manifold is disposed between the reactor and the cover for evenly distributing flow into the reactor and wherein the feed stream is introduced to the module inlet, passes through the inlet spiral passage, and is heated by hot reactor product passing through the outlet spiral passage. 8. The module of claim 7, further comprising a flow collection manifold in fluid communication with the reactor outlet for directing a hot reactor product to the outlet spiral passage. 9. A module for use in a compact fuel processor, comprising: a module inlet for receiving a feed stream; an inlet spiral passage in fluid communication with the module inlet; a reactor inlet piping in fluid communication with the inlet spiral passage; a flow distribution manifold in fluid communication with the reactor inlet piping; a reactor having a reactor inlet in fluid communication with the flow distribution manifold, a reactor outlet, and catalyst; an outlet spiral passage in fluid communication with the reactor outlet; and a module outlet in fluid communication with the outlet spiral passage for producing an effluent stream. 10. The module of claim 9, further comprising: a flow collection manifold in fluid communication with the reactor outlet; and a reactor outlet piping in fluid communication with the flow collection manifold and the outlet spiral passage. 11. A module for use in a compact fuel processor, comprising: a module inlet for receiving a feed stream; an inlet spiral passage in fluid communication with the module inlet; a flow distribution manifold in fluid communication with the inlet spiral passage; a reactor having a reactor inlet in fluid communication with the flow distribution manifold, a reactor outlet, and catalyst; an outlet spiral passage in fluid communication with the reactor outlet; and a module outlet in fluid communication with the outlet spiral passage for producing an effluent stream; wherein the module has a circular cross sectional configuration and the flow distribution manifold is centrally disposed for evenly distributing flow into the reactor. 12. The module of claim 11, further comprising a flow collection manifold in fluid communication with the reactor outlet and wherein the flow collection manifold is centrally disposed. 13. The module of claim 11, further comprising a reactor inlet piping providing fluid communication between the inlet spiral passage and the flow distribution manifold.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (21)
Trocciola John C. (Glastonbury CT) Schroll Craig R. (Glastonbury CT) Lesieur Roger R. (Enfield CT), Apparatus for removing carbon monoxide from gaseous media.
Kumar Romesh (Naperville IL) Ahmed Shabbir (Evanston IL) Krumpelt Michael (Naperville IL) Myles Kevin M. (Downers Grove IL), Fuel cell system for transportation applications.
Frederick Geoffrey (7 Knowsley Close ; Pinkneys Green Maidenhead ; Berkshire GB2) Dwight Anthony (19 Fernbrook Rd. Reading RG4 7HG ; Berkshire GB2), Production of reducing gas for furnace injection.
McShea ; III William T. (Martinsville NJ) Yarrington Robert M. (Westfield NJ), Production of synthetic natural gas from coal gasification liquid by-products.
Autenrieth Rainer,DEX ; Boneberg Stefan,DEX ; Heil Dietmar,DEX ; Schuessler Martin,DEX ; Strobel Barbara,DEX ; Wieland Steffen,DEX ; zur Megede Detlef,DEX, System and process for the water vapor reforming of a hydrocarbon.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.