Reformate cooling system and method for use in a fuel processing subsystem
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C01B-003/24
B01J-003/00
출원번호
UP-0725881
(2007-03-20)
등록번호
US-7666237
(2010-04-09)
발명자
/ 주소
Valensa, Jeroen
출원인 / 주소
Modine Manufacturing Company
대리인 / 주소
Michael Best & Friedrich LLP
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A cooling system (10) is provided for use with a fuel processing subsystem (12) for reducing a level of carbon monoxide in a reformate flow (14) for a proton exchange membrane fuel cell system (16). The fuel processing subsystem (12) includes first and second preferential oxidizers (18, 20) to oxidi
A cooling system (10) is provided for use with a fuel processing subsystem (12) for reducing a level of carbon monoxide in a reformate flow (14) for a proton exchange membrane fuel cell system (16). The fuel processing subsystem (12) includes first and second preferential oxidizers (18, 20) to oxidize the carbon monoxide carried in the reformate flow. The reformate cooling system (10) includes a coolant flow path (30), a reformate flow path (32), and first, second, third, and fourth heat exchanger core portions (34, 36, 38, 40). The core portions (36-40) are arranged in numbered sequence along the reformate flow path (32) with the first and second core portions (34, 36) located upstream of the first preferential oxidizer (18), and the third and fourth core portions (38, 40) located downstream of the first preferential oxidizer (18) and upstream of the second preferential oxidizer (20). The first and second core portions (34, 36) are arranged in numbered sequence along the coolant flow path (30), one of the third and fourth core portions (38, 40) is arranged upstream of the first core portion (34) along the coolant flow path (30), and the other of the third and fourth core portions (38, 40) is arranged downstream of the second core portion along the coolant flow path (30).
대표청구항▼
What is claimed is: 1. A reformate cooling system for use in a fuel processing subsystem for reducing a level of carbon monoxide in a reformate flow for a proton exchange membrane fuel cell system, the fuel processing subsystem including first and second preferential oxidizers to oxidize the carbon
What is claimed is: 1. A reformate cooling system for use in a fuel processing subsystem for reducing a level of carbon monoxide in a reformate flow for a proton exchange membrane fuel cell system, the fuel processing subsystem including first and second preferential oxidizers to oxidize the carbon monoxide carried in the reformate flow, the second preferential oxidizer located downstream from the first preferential oxidizer with respect to the reformate flow and requiring a lower catalytic reaction temperature range for the reformate flow than the first preferential oxidizer; the reformate cooling system comprising: a first heat exchanger unit to transfer heat from the reformate flow to a coolant flow, the first heat exchanger unit including first and second core portions through which the reformate flow and the coolant flow pass in heat exchange relation to each other, the first heat exchanger unit located upstream from the first preferential oxidizer with respect to the reformate flow, the first core portion located upstream from the second core portion with respect to both the coolant flow and the reformate flow; and a second heat exchanger unit to transfer heat from the reformate flow to the coolant flow, the second heat exchanger unit including third and fourth core portions through which the reformate flow and the coolant flow pass in heat exchange relation, the second heat exchanger unit located upstream from the second preferential oxidizer and downstream from the first preferential oxidizer with respect to the reformate flow, the third core portion located upstream from the fourth core portion with respect to the reformate flow, one of the third and fourth core portions located upstream from the first core portion with respect to the coolant flow, the other of the third and fourth core portions located downstream from the second core portion with respect to the coolant flow; wherein the coolant flows in series through the one of the third and fourth core portions, the first core portion, the second core portion, and then the other of the third and fourth core portions, and the reformate flows in series though the first core portion, the second core portion, the first preferential oxidizer, the third core portion, the fourth core portion, and then the second preferential oxidizer. 2. The reformate cooling system of claim 1 wherein the one of the third and fourth core portions is the third core portion, and the other of the third and fourth core portions is the fourth core portion. 3. The reformate cooling system of claim 1 wherein the one of the third and fourth core portions is the fourth core portions, and the other of the third and fourth core portions is the third core portion. 4. A reformate cooling system for use in a fuel processing subsystem for reducing a level of carbon monoxide in a reformate flow for a proton exchange membrane fuel cell system, the fuel processing system including first and second preferential oxidizers to oxidize the carbon monoxide carried in the reformate flow, the second preferential oxidizer located downstream from the first preferential oxidizer with respect to the reformate flow and requiring a lower catalytic reaction temperature range for the reformate flow than the first preferential oxidizer; the reformate cooling system comprising: a first heat exchanger unit to transfer heat from the reformate flow to a coolant flow, the first heat exchanger unit including first and second core portions through which the reformate flow and the coolant flow pass in heat exchange relation to each other, the first heat exchanger unit located upstream from the first preferential oxidizer with respect to the reformate flow, the first core portion connected to the second core portion to supply both the coolant flow and the reformate flow to the second core portion; and a second heat exchanger unit to transfer heat from the reformate flow to the coolant flow, the second heat exchanger unit including third and fourth core portions through which the reformate flow and the coolant flow pass in heat exchange relation, the second heat exchanger unit located upstream from the second preferential oxidizer and downstream from the first preferential oxidizer with respect to the reformate flow, the third core portion connected to the fourth core portion to supply the reformate flow to the fourth core portion, one of the third and fourth core portions connected to the first core portion to supply the coolant flow to the first core portion, the other of the third and fourth core portions connected to the second core portion to receive the coolant flow from the second core portion. 5. The reformate cooling system of claim 4 wherein the one of the third and fourth core portions is the third core portion, and the other of the third and fourth core portions is the fourth core portion. 6. The reformate cooling system of claim 4 wherein the one of the third and fourth core portions is the fourth core portion, and the other of the third and fourth core portions is the third core portion.
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