The Board of Trustees of the Lealand Stanford Junior University
대리인 / 주소
Lumen Intellectual Property Services, Inc.
인용정보
피인용 횟수 :
1인용 특허 :
3
초록▼
A fuel cell assembly is provided that includes a plurality of cells. Each cell includes an electrolyte layer (2), a pair of gas diffusion electrode layers (3, 4) interposing the electrolyte layer between them, and a pair of flow distribution plates (5) for defining passages (10, 11) for fuel and oxi
A fuel cell assembly is provided that includes a plurality of cells. Each cell includes an electrolyte layer (2), a pair of gas diffusion electrode layers (3, 4) interposing the electrolyte layer between them, and a pair of flow distribution plates (5) for defining passages (10, 11) for fuel and oxidizer gases that contact the gas diffusion electrode layers. The electrolyte layer ( 2) includes a frame (21) with a grid (21a), which has a number of through holes (21b), and electrolyte (22) retained in each of the through holes. Because the electrolyte is not required to be interposed between structural members such as the gas diffusion electrode layers and flow distribution plates, the electrolyte is allowed to expand into the passages for the fuel and oxidizer gases so that no undesirable stresses are produced, and the structural members would not be affected by the expansion of the electrolyte.
대표청구항▼
The invention claimed is: 1. A fuel cell assembly comprising: (a) at least one cell including an electrolyte layer; (b) a pair of gas diffusion electrode layers interposing the electrolyte layer between them; and (c) a pair of flow distribution plates for defining passages for fuel and oxidizer gas
The invention claimed is: 1. A fuel cell assembly comprising: (a) at least one cell including an electrolyte layer; (b) a pair of gas diffusion electrode layers interposing the electrolyte layer between them; and (c) a pair of flow distribution plates for defining passages for fuel and oxidizer gases that contact the gas diffusion electrode layers, characterized by that: the flow distribution plates are formed by performing an etching process on a substrate, wherein the electrolyte layer comprises a frame including a grid having a number of through holes, and electrolyte retained in each of the through holes. 2. The fuel cell assembly according to claim 1, wherein each of the flow distribution plates comprises a central recess and a number of projections formed in the recess, and each projection of the flow distribution plates engages the corresponding gas diffusion electrode layer so as to interpose the gas diffusion electrode layer between the projection and the grid. 3. The fuel cell assembly according to claim 2, wherein each projection of the flow distribution plates is provided with an electrode terminal for electrically connecting the corresponding gas diffusion electrode layer with an external circuit. 4. The fuel cell assembly according to claim 2, wherein each flow distribution plate is made of a silicon substrate, and the central recess and projections are formed by anisotropic etching so as to form each projection in a pyramidal shape. 5. A fuel cell assembly comprising: (a) at least one cell including an electrolyte layer; (b) a pair of gas diffusion electrode layers interposing the electrolyte layer between them; and (c) a pair of flow distribution plates for defining passages for fuel and oxidizer gases that contact the gas diffusion electrode layers, characterized by that: the gas diffusion electrode layers are formed by performing an etching process on a substrate, and wherein the electrolyte layer comprises a frame including a grid having a number of through holes, and electrolyte retained in each of the through holes, and the frame grid is also formed by performing an etching process on a substrate. 6. A fuel cell assembly comprising at least one cell including an electrolyte layer, a pair of gas diffusion electrode layers interposing the electrolyte layer between them, and a pair of flow distribution plates for defining passages for fuel and oxidizer gases that contact the gas diffusion electrode layers, characterized by that: the electrolyte layer comprises a frame including a grid having a number of through holes, and electrolyte retained in each of the through holes. 7. The fuel cell assembly according to claim 6, wherein the grid of the frame is provided with a projection which projects into the corresponding through hole. 8. The fuel cell assembly according to claim 7, wherein the frame is made of silicon substrate, and the through holes and projections are formed by conducting anisotropic etching from two sides of the silicon substrate so as to produce a narrowed middle part in each through hole. 9. The fuel cell assembly according to claim 6, wherein each of the flow distribution plates comprises a central recess and a number of projections formed in the recess, and each projection of the flow distribution plates engages the corresponding gas diffusion electrode layer so as to interpose the gas diffusion electrode layer between the projection and the grid. 10. The fuel cell assembly according to claim 9, wherein each projection of the flow distribution plates is provided with an electrode terminal for electrically connecting the corresponding gas diffusion electrode layer with an external circuit. 11. The fuel cell assembly according to claim 9, wherein each flow distribution plate is made of silicon substrate, and the central recess and projections are formed by anisotropic etching so as to form each projection in a pyramidal shape.
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이 특허에 인용된 특허 (3)
Klitsner, Tom; Sylwester, Alan P.; Ryba, Gail N.; Zipperian, Thomas E.; Kravitz, Stanley H.; Hecht, Andrew, Fuel cell and membrane.
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