IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0918624
(2005-04-15)
|
등록번호 |
US-7645531
(2010-02-22)
|
국제출원번호 |
PCT/US2005/013040
(2005-04-15)
|
§371/§102 date |
20071015
(20071015)
|
국제공개번호 |
WO06/112833
(2006-10-26)
|
발명자
/ 주소 |
- Darling, Robert M.
- Evans, Craig E.
- Reiser, Carl A.
- Skiba, Tommy
- Balliet, Ryan J.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
A fuel cell power plant (19, 19a) has a plurality of fuel cells (70, 70a, 70c) arranged in a stack (20, 20c), each fuel cell having porous, at least partially hydrophilic water transport plates (75, 81) with fuel (74) and oxidant (82) reactant gas channels, there being water channels (78, 85, 78a, 8
A fuel cell power plant (19, 19a) has a plurality of fuel cells (70, 70a, 70c) arranged in a stack (20, 20c), each fuel cell having porous, at least partially hydrophilic water transport plates (75, 81) with fuel (74) and oxidant (82) reactant gas channels, there being water channels (78, 85, 78a, 85a, 78c, 85c) exchanging water with the water transport plates. On shut down, water is retained in the water channels and water transport plates by means of either a micro vacuum pump (46), one or two valves (89, 90, 118, 120), a check valve (95, 99), capillary force in the water channels to prevent water from entering the reactant channels which, if frozen, could block flow of reactant gas upon startup.
대표청구항
▼
The invention claimed is: 1. A fuel cell power plant (19) comprising: a plurality of fuel cells (70, 70a, 70c) arranged in a stack (20), each fuel cell including a unitized electrode assembly (72) having a proton exchange, polymer electrolyte membrane disposed between catalysts of an anode and a ca
The invention claimed is: 1. A fuel cell power plant (19) comprising: a plurality of fuel cells (70, 70a, 70c) arranged in a stack (20), each fuel cell including a unitized electrode assembly (72) having a proton exchange, polymer electrolyte membrane disposed between catalysts of an anode and a cathode which each have a gas diffusion layer, a porous, at least partly hydrophilic anode water transport plate (75) with fuel reactant gas flow channels (74) adjacent the anode gas diffusion layer, and a porous, at least partly hydrophilic cathode water transport plate (81) with oxidant reactant gas flow channels (82) adjacent the cathode gas diffusion layer; a plurality of water channels disposed between said anode water transport plate and said cathode water transport plate of adjacent fuel cells; means providing water to said water channels when said fuel cell power plant is operating, said water transferring between said water channels and said water transfer plates; characterized by: means configured so that water is retained in said water channels and said water transport plates when said fuel cell power plant is inoperative. 2. A fuel cell power plant according to claim 1 wherein: said water channels are vented. 3. A fuel cell power plant according to claim 2 wherein: said water channels are vented at the top of the stack. 4. A fuel cell power plant according to claim 2 further comprising a micro vacuum pump connected to said vent and providing just sufficient vacuum to cause water to rise to the top of said stack without flow through said pump. 5. A fuel cell power plant according to claim 4 wherein said pump is operative when said fuel cell power plant is operating as well as when said fuel cell power plant is shut down, thereby to retain water in said water channels during shutdown. 6. A fuel cell power plant according to claim 2 wherein there is a valve at either the top or the bottom of said water channels or at both the top and the bottom of said water channels. 7. A fuel cell power plant according to claim 2 wherein said water channels are vented through a check valve. 8. A fuel cell power plant according to claim 7 wherein said check valve comprises a hydrophobic diaphragm with a hydrophobic fluid disposed above said diaphragm. 9. A fuel cell power plant according to claim 8 wherein said hydrophobic fluid does not freeze above about −50° C. 10. A fuel cell power plant according to claim 2 wherein the characteristics of water channels are chosen to provide capillary rise of water to at least one-third of the height of the stack when said fuel cell power plant is not operating. 11. A method of operating a fuel cell power plant (19) said fuel cell power plant comprising a plurality of fuel cells (70, 70a, 70c) arranged in a stack (20), each fuel cell including a unitized electrode assembly (72) having a proton exchange, polymer electrolyte membrane disposed between catalyst layers of an anode and a cathode which each have a gas diffusion layer, a porous, at least partly hydrophilic anode water transport plate (75) with fuel reactant gas flow channels (74) adjacent the anode gas diffusion layer, and a porous, at least partly hydrophilic cathode water transport plate (81) with oxidant reactant gas flow channels (82) adjacent the cathode gas diffusion layer, them being a plurality of water channels disposed between said anode water transport plates and said cathode water transport plates of adjacent fuel cells; said method comprising: providing water to said water channels when said fuel cell power plant is operating, said water transferring between said water channels and said water transfer plates; characterized by: retaining water in said water channels and said water transport plates when said fuel cell power plant is inoperative. 12. A method according to claim 11 wherein: said step of retaining comprises: upon shutdown of said fuel cell power plant, blocking either the upper end of said water channels, the lower end of said water channels or both. 13. A method according to claim 11 wherein: said step of retaining comprises selecting the characteristics of said water channels to provide capillary rise of water in said water channels to at least one-third of the height of said stack. 14. A method according to claim 11 wherein: said step of retaining comprises applying a negative pressure to said water channels.
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