Fuel cell system incorporating and integrated cathode exhaust condenser and stack cooler
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/04
H01M-008/10
출원번호
US-0906336
(2001-07-16)
발명자
/ 주소
Wattelet, Jonathan P.
Voss, Mark C.
출원인 / 주소
Modine Manufacturing Company
대리인 / 주소
Wood, Phillips, Katz, Clark & Mortimer
인용정보
피인용 횟수 :
2인용 특허 :
6
초록▼
A fuel cell system ( 10 ) is provided and includes a fuel cell stack ( 11 ) and an integrated heat exchanger unit ( 12 ). The integrated heat exchanger unit ( 12 ) includes a fuel cell stack cooler ( 14 ) and a cathode exhaust gas condenser ( 16 ) arranged in a side-by-side relationship to be cooled
A fuel cell system ( 10 ) is provided and includes a fuel cell stack ( 11 ) and an integrated heat exchanger unit ( 12 ). The integrated heat exchanger unit ( 12 ) includes a fuel cell stack cooler ( 14 ) and a cathode exhaust gas condenser ( 16 ) arranged in a side-by-side relationship to be cooled by a common cooling air stream ( 18 ) that flows in parallel through the cooler ( 14 ) and the condenser ( 16 ).
대표청구항▼
1. A fuel cell system, the system comprising:a fuel cell stack including an anode inlet to receive a fuel flow, a cathode inlet to receive an oxygen flow, a cathode exhaust to discharge cathode exhaust gas, and a coolant passage to direct a coolant through the fuel cell stack; andan integrated heat
1. A fuel cell system, the system comprising:a fuel cell stack including an anode inlet to receive a fuel flow, a cathode inlet to receive an oxygen flow, a cathode exhaust to discharge cathode exhaust gas, and a coolant passage to direct a coolant through the fuel cell stack; andan integrated heat exchanger unit including a cathode exhaust condenser and a fuel cell stack cooler arranged in side-by-side relation to be cooled by a common cooling air stream that flows in parallel through said condenser and cooler;said condenser including a condensation path in heat exchange relation with the cooling air stream to reject heat from the cathode exhaust gas to the cooling air stream, a first inlet manifold in fluid communication with the cathode exhaust to receive cathode exhaust gas therefrom and connected to the condensation path to distribute the cathode exhaust gas thereto, and a first outlet manifold connected to the condensation path to receive the cathode exhaust gas therefrom;the fuel cell stack cooler including a coolant path in heat exchange relation with the cooling air stream to reject heat from the coolant to the cooling air stream, a second inlet manifold in fluid communication with the coolant passage of the fuel cell stack to receive coolant therefrom and connected to the coolant path to distribute the coolant thereto, and a second outlet manifold connected to the coolant path to receive the coolant therefrom and in fluid communication with said coolant passage of the fuel cell stack to direct coolant thereto. 2. The fuel cell system of claim 1 wherein said integrated heat exchanger unit further comprises a common fan shroud attached to said condenser and said cooler to direct the cooling air stream from a fan system through the cathode exhaust condenser and the fuel cell stack cooler. 3. A fuel cell system, the system comprising:a fuel cell stack including an anode inlet to receive a fuel flow, a cathode inlet to receive an oxygen flow, a cathode exhaust to discharge cathode exhaust gas, and a coolant passage to direct a coolant through the fuel cell stack;an integrated heat exchanger unit including a cathode exhaust condenser and a fuel cell stack cooler arranged in side-by-side relation to be cooled by a common cooling air stream that flows in parallel through said condenser and cooler;said condenser including a condensation path in heat exchange relation with the cooling air stream to reject heat from the cathode exhaust gas to the cooling air stream, a first inlet manifold in fluid communication with the cathode exhaust to receive cathode exhaust gas therefrom and connected to the condensation path to distribute the cathode exhaust gas thereto, and a first outlet manifold connected to the condensation path to receive the cathode exhaust gas therefrom;the fuel cell stack cooler including a coolant path in heat exchange relation with the cooling air stream to reject heat from the coolant to the cooling air stream, a second inlet manifold in fluid communication with the coolant passage of the fuel cell stack to receive coolant therefrom and connected to the coolant path to distribute the coolant thereto, and a second outlet manifold connected to the coolant path to receive the coolant therefrom and in fluid communication with said coolant passage of the fuel cell stack to direct coolant thereto; whereinsaid condensation cooling path and said coolant path comprise a plurality of parallel, spaced heat exchange tubes;said first and second inlet manifolds comprise a common inlet header tank connected to first ends of said heat exchange tubes, and a first baffle plate liquid tightly sealed in said common inlet header tank to prevent intermixing of said cathode exhaust gas and said coolant; andsaid first and second outlet manifolds comprise a common outlet header tank connected to second ends of said heat exchange tubes, and a second baffle plate liquid tightly sealed in said common outlet header tank to prevent intermi xing of said cathode exhaust gas and said coolant. 4. A fuel cell system, the system comprising:a fuel cell stack including an anode inlet to receive a fuel flow, a cathode inlet to receive an oxygen flow, a cathode exhaust to discharge cathode exhaust gas, and a coolant passage to direct a coolant through the fuel cell stack; andan integrated heat exchanger package including a plurality of spaced heat exchange tubes in heat exchange relation with a common cooling air stream, a common inlet header tank connected to first ends of the heat exchange tubes, a first baffle plate liquid tightly sealed in the inlet header tank to divide the inlet header tank into first and second inlet manifolds, a common outlet header tank connected to second ends of the heat exchange tubes, and a second baffle plate liquid tightly sealed in the outlet header tank to divide the outlet header tank into first and second outlet manifolds, the first inlet manifold in fluid communication with the cathode exhaust to receive cathode exhaust gas therefrom and to distribute the cathode exhaust gas to a first set of said heat exchange tubes, the first outlet manifold to receive the cathode exhaust gas from said first set of heat exchange tubes, the second inlet manifold in fluid communication with the coolant passage of the fuel cell stack to receive coolant therefrom and to distribute the coolant to a second set of said heat exchange tubes, and the second outlet manifold in fluid communication with said coolant passage of the fuel cell stack to direct coolant thereto from said second set of heat exchange tubes, and said first and second sets of heat exchange tubes arranged so that the common cooling air stream flows in parallel past said first and second sets of heat exchange tubes.
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이 특허에 인용된 특허 (6)
Grasso Albert P. (Vernon CT), Fuel cell power plant coolant cleaning system and method.
Watkins David S. (Coquitlam) Dircks Kenneth W. (North Vancouver) Epp Danny G. (Tsawwassen) Merritt Robert D. (Vancouver) Gorbell Brian N. (Vancouver CAX), Integrated fuel cell power generation system.
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