초록 ▼

An electrical power plant that includes a fuel cell and at least one recycle system for recycling at least a first reactant, for reuse by the fuel cell. The fuel cell discharges a first exit stream that includes the first reactant and inerts. The recycle system comprises a separator that receives th

An electrical power plant that includes a fuel cell and at least one recycle system for recycling at least a first reactant, for reuse by the fuel cell. The fuel cell discharges a first exit stream that includes the first reactant and inerts. The recycle system comprises a separator that receives the first exit stream from the fuel cell and separates the first reactant contained in the first exit stream from inerts contained in the exit stream. The separated first reactant is directed back to the fuel cell for reuse. The remaining inerts and unseparated first reactant are discharged by the separator and then recirculated back into the separator, without progressing through the fuel cell, to separate additional first reactant from the inerts.

대표청구항 ▼

What is claimed is: 1. An electrical power plant, comprising: a fuel cell comprising a first reactant inlet and a first outlet; and a first reactant recycle system comprising a separator, said separator comprising a separator inlet, wherein said first outlet of said fuel cell is fluidly interconnec

What is claimed is: 1. An electrical power plant, comprising: a fuel cell comprising a first reactant inlet and a first outlet; and a first reactant recycle system comprising a separator, said separator comprising a separator inlet, wherein said first outlet of said fuel cell is fluidly interconnectable with said separator inlet, wherein said separator further comprises a first separator outlet fluidly interconnectable with said first reactant inlet of said fuel cell and a second separator outlet fluidly interconnectable with said separator inlet, wherein a flow out of said separator through said second separator outlet returns to said separator inlet without progressing through said fuel cell. 2. The electrical power plant of claim 1, wherein said fuel cell is a polymer electrolyte membrane fuel cell. 3. The electrical power plant of claim 1, further comprising means for selectively preventing fluid communication from said first outlet of said fuel cell to said separator inlet. 4. The electrical power plant of claim 1, further comprising means for selectively preventing fluid communication from said second separator outlet to said separator inlet. 5. The electrical power plant of claim 1, wherein said separator comprises an anode, a cathode and a solid electrolyte. 6. The electrical power plant of claim 5, wherein said solid electrolyte is selected from the group consisting of a polymer, a fluoropolymer, a ceramic, and a metal oxide. 7. The electrical power plant of claim 5, wherein said separator further comprises a secondary electrical power source. 8. The electrical power plant of claim 1, further comprising a first flowpath from said first outlet of said fuel cell to said separator inlet, a second flowpath from said first separator outlet to said first reactant inlet, and a third flowpath from said second separator outlet back to said separator inlet, wherein said second and third flowpaths are different, and wherein said third flowpath bypasses said fuel cell. 9. The electrical power plant of claim 1, wherein said first reactant recycle system further comprises an accumulator disposed between said first outlet of said fuel cell and said separator. 10. The electrical power plant of claim 9, wherein said first reactant recycle system further comprises a first conduit extending from said first outlet of said fuel cell to said separator inlet, a second conduit extending from said second separator outlet and fluidly interconnectable with said first conduit, and a first valve disposed at a first intermediate location along said first conduit between said first outlet of said fuel cell and where said second conduit fluidly connects with said first conduit, wherein said accumulator is disposed at a second intermediate location along said first conduit. 11. The electrical power plant of claim 1, wherein said first reactant recycle system further comprises a pump fluidly interconnected with said second separator outlet, a first flowpath fluidly interconnectable with a discharge of said pump and extending to a second reactant inlet of said fuel cell, and a second flowpath fluidly interconnectable with said discharge of said pump and extending back to said separator inlet, wherein said second flowpath bypasses said fuel cell. 12. The electrical power plant of claim 11, wherein said first reactant recycle system further comprises means for selectively directing said discharge from said pump to one of said first and second flowpaths. 13. The electrical power plant of claim 1, wherein said fuel cell further comprises a second reactant inlet and a second outlet. 14. The electrical power plant of claim 13, further comprising a first reactant source fluidly interconnectable with said first reactant inlet, as well as a second reactant source fluidly interconnectable with said second reactant inlet. 15. The electrical power plant of claim 14, wherein said first reactant source comprises a fuel and said second reactant source comprises an oxidizer. 16. The electrical power plant of claim 13, wherein said electrical power plant further comprises a second reactant recycle system comprising a first recovery chamber and a second recovery chamber, wherein said second reactant recycle system is fluidly interconnectable with said second outlet of said fuel cell. 17. The electrical power plant of claim 16, wherein said first recovery chamber comprises a first chamber inlet, a first chamber gas outlet fluidly interconnectable with said second reactant inlet, and a first chamber liquid outlet, wherein said second outlet of said fuel cell is fluidly interconnectable with said first chamber inlet. 18. The electrical power plant of claim 17, wherein said second recovery chamber comprises a second chamber inlet, a second chamber gas outlet fluidly interconnectable with said first chamber inlet, and a second chamber liquid outlet, wherein said first chamber liquid outlet is fluidly interconnectable with said second chamber inlet.