IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0429457
(2003-05-05)
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발명자
/ 주소 |
- Marianowski, Leonard G.
- Koncar, Gerald J.
- Fan, Qinbai
- Chervinko, Jeremy
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
In a fuel cell stack, a bipolar separator plate having two joined together coextensive separator plate elements having perpendicularly disposed corrugated regions and forming a coolant chamber there between. By virtue of this arrangement, fuel and oxidant gases fed to the fuel cell stack have a cros
In a fuel cell stack, a bipolar separator plate having two joined together coextensive separator plate elements having perpendicularly disposed corrugated regions and forming a coolant chamber there between. By virtue of this arrangement, fuel and oxidant gases fed to the fuel cell stack have a cross-flow relationship. Internal stack manifolding is provided for distribution of a coolant to each of the coolant chambers.
대표청구항
▼
1. In a fuel cell stack comprising a plurality of substantially planar fuel cell units, each said fuel cell unit comprising an anode layer, a cathode layer and an electrolyte layer disposed there between, and a separator plate having an anode facing surface and a cathode facing surface, said separat
1. In a fuel cell stack comprising a plurality of substantially planar fuel cell units, each said fuel cell unit comprising an anode layer, a cathode layer and an electrolyte layer disposed there between, and a separator plate having an anode facing surface and a cathode facing surface, said separator plate disposed between said anode layer of one of said fuel cell units and a cathode layer of an adjacent said fuel cell unit, the improvement comprising:said separator plate comprising two joined together coextensive separator plate elements having perpendicularly disposed corrugated regions and forming a coolant chamber there between, each said separator plate element having an electrode facing face and a coolant facing face and having two flattened peripheral seal regions extending along opposed edges of said separator plate elements, said opposed edges extending perpendicular to a direction of corrugation of said corrugated region; a first gasket material disposed in said flattened peripheral seal regions on said coolant facing face of one of said separator plate elements and said flattened peripheral seal regions on said electrode facing face of said other said separator plate element; a second gasket material disposed in said flattened peripheral seal regions on opposite faces of said separator plate elements on which said first gasket material is disposed; a filler material disposed within said corrugations on said coolant facing faces along non-flattened edges of said separator plate elements, whereby a peripheral seal is effected between said separator plate elements; and coolant means for introducing a coolant into said coolant chamber. 2. A fuel cell stack in accordance with claim 1, wherein said separator plate elements are constructed of folded metal sheets.3. A fuel cell stack in accordance with claim 1, wherein said separator plate elements are welded together by welds disposed in said coolant chamber.4. A fuel cell stack in accordance with claim 1, wherein said first gasket material has a compressed thickness corresponding to a height of said corrugations when said fuel cell stack is fully assembled.5. A fuel cell stack in accordance with claim 1, wherein said separator plate elements are constructed of pressed metal sheets.6. A fuel cell stack in accordance with claim 1, wherein said second gasket material is a film material.7. A fuel cell stack in accordance with claim 1, wherein said coolant means comprises a plurality of internal coolant manifolds disposed within said fuel cell stack, each of said internal coolant manifolds in fluid communication with said coolant chamber.8. A fuel cell stack comprising:a plurality of substantially planar fuel cell units, each of said fuel cell units comprising an anode layer, a cathode layer and an electrolyte layer disposed there between; and a bipolar separator plate having an anode facing surface and a cathode facing surface, said separator plate disposed between said anode layer of one of said fuel cell units and a cathode layer of an adjacent said fuel cell unit, said bipolar separator plate comprising two joined together coextensive separator plate elements having perpendicularly disposed corrugated regions and forming a coolant chamber there between, each said separator plate element having an electrode facing face and a coolant facing face and having two flattened peripheral seal regions extending along opposed edges of said separator plate elements, said opposed edges extending perpendicular to a direction of corrugation of said corrugated region, a first gasket material disposed in said flattened peripheral seal regions on said coolant facing face of one of said separator plate elements and said flattened peripheral seal regions on said electrode facing face of said other said separator plate element, a second gasket material disposed in said flattened peripheral seal regions on opposite faces of said separator plate elements on which said first gasket material is disposed, a filler material disposed within said corrugations on said coolant facing faces along non-flattened edges of said separator plate elements, whereby a peripheral seal is effected between said separator plate elements, and coolant means for introducing a coolant into said coolant chamber. 9. A fuel cell stack in accordance with claim 8, wherein said fuel cell units are selected from the group of fuel cell types consisting of polymer electrolyte membrane fuel cells, molten carbonate fuel cells, solid oxide fuel cells and phosphoric acid fuel cells.10. A fuel cell stack in accordance with claim 8, wherein said separator plate elements are constructed of folded metal sheets.11. A fuel cell stack in accordance with claim 8, wherein said separator plate elements are welded together by welds disposed in said coolant chamber.12. A fuel cell stack in accordance with claim 8, wherein said first gasket material has a compressed thickness corresponding to a height of said corrugations when said fuel cell stack is fully assembled.13. A fuel cell stack in accordance with claim 8, wherein said second gasket material is a film material.14. A fuel cell stack in accordance with claim 8, wherein said coolant means comprises a plurality of internal coolant manifolds disposed within said fuel cell stack, each of said internal coolant manifolds in fluid communication with said coolant chamber.
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