Solid polymer electrolyte fuel cell assembly, fuel cell stack, and method of operating cell assembly
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/10
H01M-008/24
출원번호
US-0093234
(2002-03-06)
등록번호
US-7465515
(2008-12-16)
우선권정보
JP-2001-061438(2001-03-06)
발명자
/ 주소
Sugiura,Seiji
Wariishi,Yoshinori
Enjoji,Naoyuki
Sugita,Narutoshi
출원인 / 주소
Honda Giken Kogyo Kabushiki Kaisha
대리인 / 주소
Lahive & Cockfield, LLP
인용정보
피인용 횟수 :
1인용 특허 :
11
초록
A cell assembly is formed by stacking a first unit cell and a second unit cell to each other. The first unit cell includes a first unified body, and the second unit cell includes a second unified body. In the cell assembly, the first and second unit cells have structures different from each other.
대표청구항▼
What is claimed is: 1. A solid polymer electrolyte fuel cell assembly, comprising a plurality of unit cells stacked to each other, the unit cells each having a unified body including an anode, a cathode, and a solid polymer electrolyte membrane disposed between said anode and said cathode, said fue
What is claimed is: 1. A solid polymer electrolyte fuel cell assembly, comprising a plurality of unit cells stacked to each other, the unit cells each having a unified body including an anode, a cathode, and a solid polymer electrolyte membrane disposed between said anode and said cathode, said fuel cell assembly further comprising: fuel gas inlet holes and fuel gas outlet holes penetrating through said unit cells in the stacking direction; and fuel gas passages connected to said fuel gas inlet holes and said fuel gas outlet holes and formed along a reaction surface of said solid polymer electrolyte membrane, wherein a cross-sectional area in the stacking direction of said fuel gas passages of one unit cell is substantially different than a cross-sectional area in the stacking direction of said fuel gas passages of an adjacent unit cell, and wherein the size of said inlet holes of the one unit cell is substantially the same as the size of said inlet holes of the adjacent unit cell, and the size of said outlet holes of the one unit cell is substantially the same as the size of said outlet holes of the adjacent unit cell. 2. A solid polymer electrolyte fuel cell assembly according to claim 1, wherein the cross-sectional area of said fuel gas passages is different from each other by making at least one of the depths, the widths, and the number of grooves of said fuel gas passages of said one of said unit cells different from the depths, the widths, and the number of grooves of said fuel gas passages of said other of said unit cells. 3. A solid polymer electrolyte fuel cell assembly according to claim 1, wherein in said cell assembly, reaction gas passages for allowing at least one of a fuel gas and an oxidizing gas as reaction gases to flow in said plurality of unit cells therethrough are provided in such a manner that at least portions thereof are communicated in series to each other among the unit cells. 4. A solid polymer electrolyte fuel cell assembly according to claim 1, wherein lengths of fuel gas passages of one unit cell are different from lengths of fuel gas passages of an adjacent unit cell. 5. A solid polymer electrolyte fuel cell assembly according to claim 1, wherein shapes of fuel gas passages of one unit cell are different from shapes of fuel gas passages of an adjacent unit cell. 6. A solid polymer electrolyte fuel cell assembly according to claim 1, wherein the fuel gas passages of one unit cell are substantially of different sizes from oxidizing gas passages of the same unit cell. 7. A fuel cell stack comprising, a plurality of cell assemblies stacked to each other, wherein each of said plurality of cell assemblies includes a plurality of unit cells stacked to each other, and each of said plurality of unit cells has a unified body including an anode, a cathode, and a solid polymer electrolyte membrane between said anode and said cathode, said fuel cell assembly further comprising: fuel gas inlet holes and fuel gas outlet holes penetrating through said unit cells in the stacking direction; and fuel gas passages connected to said fuel gas inlet holes and said fuel gas outlet holes and formed along a reaction surface of said solid polymer electrolyte membrane, wherein a cross-sectional area in the stacking direction of said fuel gas passages of one unit cell is substantially different than a cross-sectional area in the stacking direction of said fuel gas passages of an adjacent unit cell, and wherein the size of said inlet holes of the one unit cell is substantially the same as the size of said inlet holes of the adjacent unit cell, and the size of said outlet holes of the one unit cell is substantially the same as the size of said outlet holes of the adjacent unit cell. 8. The fuel cell stack of claim 7, wherein the fuel gas passages of one unit cell are substantially of different sizes from oxidizing gas passages of the same unit cell.
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