Polymer electrolyte fuel cell and fuel cell stack including the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/04
H01M-004/64
H01M-008/24
H01M-002/38
출원번호
US-0531414
(2008-03-17)
등록번호
US-8309273
(2012-11-13)
우선권정보
JP-2007-066860 (2007-03-15)
국제출원번호
PCT/JP2008/000613
(2008-03-17)
§371/§102 date
20090915
(20090915)
국제공개번호
WO2008/126358
(2008-10-23)
발명자
/ 주소
Gemba, Miho
Tsuji, Yoichiro
Takeguchi, Shinsuke
출원인 / 주소
Panasonic Corporation
대리인 / 주소
McDermott Will & Emery LLP
인용정보
피인용 횟수 :
0인용 특허 :
9
초록▼
A polymer electrolyte fuel cell includes: a membrane-electrode assembly (10) having a polymer electrolyte membrane (1) and a pair of electrodes (4, 8) sandwiching a portion of the polymer electrolyte membrane (1) which portion is located inwardly of a peripheral portion of the polymer electrolyte me
A polymer electrolyte fuel cell includes: a membrane-electrode assembly (10) having a polymer electrolyte membrane (1) and a pair of electrodes (4, 8) sandwiching a portion of the polymer electrolyte membrane (1) which portion is located inwardly of a peripheral portion of the polymer electrolyte membrane (1); an electrically-conductive first separator (30) disposed to contact the membrane-electrode assembly (10) and formed such that a groove-like first reactant gas channel (37) is formed on one main surface thereof so as to bend; and an electrically-conductive second separator (20) disposed to contact the membrane-electrode assembly (10) and formed such that a groove-like second reactant gas channel (27) is formed on one main surface thereof so as to bend, wherein the first reactant gas channel (27) is formed such that a width of a portion of the first reactant gas channel (27) which portion is formed at least a portion (hereinafter referred to as an uppermost stream portion 8C of the first separator 30) located between a portion where the first reactant gas channel (27) extending from an upstream end thereof first contacts the electrode 8 and a portion where the second reactant gas channel (27) extending from an upstream end thereof first contacts the electrode 4 is smaller than a width of a portion of the first reactant gas channel (27) which portion is formed at a portion other than the uppermost stream portion 8C of the first separator 30.
대표청구항▼
1. A polymer electrolyte fuel cell comprising: a membrane-electrode assembly including a polymer electrolyte membrane and a pair of electrodes sandwiching a portion of the polymer electrolyte membrane, the portion being located inwardly of a peripheral portion of the polymer electrolyte membrane;an
1. A polymer electrolyte fuel cell comprising: a membrane-electrode assembly including a polymer electrolyte membrane and a pair of electrodes sandwiching a portion of the polymer electrolyte membrane, the portion being located inwardly of a peripheral portion of the polymer electrolyte membrane;an electrically-conductive first separator having a plate shape, disposed on a first face of the membrane-electrode assembly, and including a groove-like first reactant gas channel having a serpentine configuration and formed on one main surface of the first separator so as to contact one of the electrode; andan electrically-conductive second separator having a plate shape, disposed on a second face of the membrane-electrode assembly, and including a groove-like second reactant gas channel having a serpentine configuration and formed on one main surface of the second separator so as to contact the other one of the electrodes so as to bend, wherein:the first reactant gas channel includes an uppermost stream portion which is a part of the first reactant gas channel between at least a first portion where the first reactant gas channel extending from a first gas inlet first contacts the electrode and a second portion where the first reactant gas channel overlapping the second reactant gas channel first separates from the second reactant gas channel so as not to overlap the second reactant gas channel,when viewed from a thickness direction of the first separator, a width of the uppermost stream portion is smaller than a width of a portion of the first reactant gas channel which is a part of the first reactant gas channel other than the uppermost stream portion of the first reactant gas channel, anda cross-sectional area of the uppermost stream portion of the first reactant gas channel is substantially the same as a cross-sectional area of the part other than the uppermost stream portion of the first reactant gas channel. 2. The polymer electrolyte fuel cell according to claim 1, wherein: the second reactant gas channel includes an uppermost stream portion of the second channel which is a part of the second reactant gas channel between a third portion where the second reactant gas channel extending from a second gas inlet first contacts the electrode and a fourth portion where the first reactant gas channel extending from the upstream end thereof first contacts the electrode, andwhen viewed from a thickness direction of the second separator, a width of the uppermost stream portion of the second gas channel is smaller than a width of a portion of the second reactant gas channel which is a part of the second reactant gas channel other than the uppermost stream portion of the second separator. 3. The polymer electrolyte fuel cell according to claim 1, wherein: the second reactant gas channel includes an uppermost stream portion of the second channel which is a part of the second reactant gas channel between a third portion where the second reactant gas channel extending from a second gas inlet first contacts the electrode and a fourth portion where the second reactant gas channel overlapping the first reactant gas channel first separates from the first reactant gas channel so as not to overlap the first reactant gas channel, andwhen viewed from a thickness direction of the second separator, a width of the uppermost stream portion of the second gas channel is smaller than a width of a portion of the second reactant gas channel which is a part of the second reactant gas channel other than the uppermost stream portion of the second reactant gas channel. 4. The polymer electrolyte fuel cell according to claim 1, wherein a depth of the uppermost stream portion of the first reactant gas channel is larger than a depth of the part other than the uppermost stream portion of the first reactant gas channel. 5. The polymer electrolyte fuel cell according to claim 2, wherein a depth of the uppermost stream portion of the second reactant gas channel is larger than a depth of the part of the second reactant gas channel other than the uppermost stream portion of the second reactant gas channel. 6. The polymer electrolyte fuel cell according to claim 2, wherein a cross-sectional area of the uppermost stream portion of the second reactant gas channel is substantially the same as a cross-sectional area of the part of the second reactant gas channel other than the uppermost stream portion of the second reactant gas channel. 7. The polymer electrolyte fuel cell according to claim 1, wherein: rib portions are formed between adjacent portions of the first reactant gas channel, respectively, andamong the rib portions, a rib portion formed by the uppermost stream portion has a width larger than a width of the other rib portion. 8. The polymer electrolyte fuel cell according to claim 2, wherein: rib portions are formed between adjacent portions of the second reactant gas channel, respectively, andamong the rib portions, a rib portion formed by the uppermost stream portion has a width larger than a width of the other rib portion. 9. The polymer electrolyte fuel cell according to claim 1, wherein: a groove-like cooling fluid channel is formed on at least one of the other main surface of the first separator and the other main surface of the second separator; andthe polymer electrolyte fuel cell is configured such that each of a dew point of a first reactant gas flowing through the first reactant gas channel and a dew point of a second reactant gas flowing through the second reactant gas channel is lower than a temperature of a cooling fluid flowing through the cooling fluid channel. 10. The polymer electrolyte fuel cell according to claim 1, wherein each of the first separator and the second separator is provided with a first reactant gas supplying manifold hole and a second reactant gas supplying manifold hole which are formed to penetrate separators in a thickness direction and be opposed to each other. 11. The polymer electrolyte fuel cell according to claim 1, wherein the first reactant gas channel and the second reactant gas channel are formed to realize parallel flow. 12. The polymer electrolyte fuel cell according to claim 1, wherein at least one of the first reactant gas channel and the second reactant gas channel is formed in a serpentine shape. 13. The polymer electrolyte fuel cell according to claim 1, wherein at least one of the first reactant gas channel and the second reactant gas channel is formed in a spiral shape. 14. The polymer electrolyte fuel cell according to claim 1, wherein the width of the entire uppermost stream portion of the first reactant gas channel is smaller than the width of the part other than the uppermost stream portion of the first reactant gas channel. 15. The polymer electrolyte fuel cell according to claim 14, wherein the width of the entire part other than the uppermost stream portion of the first reactant gas channel is constant. 16. The polymer electrolyte fuel cell according to claim 14, wherein the width of the entire uppermost stream portion of the first reactant gas channel is constant. 17. The polymer electrolyte fuel cell according to claim 3, wherein the width of the entire uppermost stream portion of the second reactant gas channel is smaller than the width of the entire part of the second reactant gas channel other than the uppermost stream portion of the second reactant gas channel. 18. The polymer electrolyte fuel cell according to claim 17, wherein the width of the entire part of the second reactant gas channel other than the uppermost stream portion of the second reactant gas channel is constant. 19. The polymer electrolyte fuel cell according to claim 17, wherein the width of the entire uppermost stream portion of the second reactant gas channel is constant. 20. A fuel cell stack configured such that a plurality of the polymer electrolyte fuel cells according to claim 1 are stacked and fastened.
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이 특허에 인용된 특허 (9)
Lee, James H.; Skala, Glenn W., Cooling system for a fuel cell stack.
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