Direct organic fuel cell having a vapor transport member
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/00
H01M-008/18
H01M-008/10
H01M-002/00
H01M-002/14
출원번호
US-0153065
(2002-05-21)
발명자
/ 주소
Cropley, Cecelia C.
Stone, Simon G.
출원인 / 주소
Giner Electro Chemical Systems, LLC
대리인 / 주소
Kriegsman & Kriegsman
인용정보
피인용 횟수 :
16인용 특허 :
4
초록▼
A fuel cell and method using the same. The fuel cell comprises a membrane electrode assembly, the membrane electrode assembly comprising a proton exchange membrane having a front face and a rear face. An anode is coupled to the front face of the proton exchange membrane, and a cathode is coupled to
A fuel cell and method using the same. The fuel cell comprises a membrane electrode assembly, the membrane electrode assembly comprising a proton exchange membrane having a front face and a rear face. An anode is coupled to the front face of the proton exchange membrane, and a cathode is coupled to the rear face of the proton exchange membrane. A vapor diffusion chamber is positioned in the front of the anode, and a vapor transport member is positioned in front of the vapor diffusion chamber. The vapor transport member is substantially impermeable to an organic fuel/water mixture in a liquid phase but is permeable to the organic fuel/water mixture in a vapor phase. In operation, a liquid fuel mixture delivered to the vapor transport member evaporates from the vapor transport member and is delivered to the anode in vapor form.
대표청구항▼
1. A fuel cell comprising:(a) a membrane electrode assembly, said membrane electrode assembly comprising(i) a proton exchange membrane, said proton exchange membrane having a front face and a rear face,(ii) an anode, said anode coupled to said front face of said proton exchange membrane, and(iii) a
1. A fuel cell comprising:(a) a membrane electrode assembly, said membrane electrode assembly comprising(i) a proton exchange membrane, said proton exchange membrane having a front face and a rear face,(ii) an anode, said anode coupled to said front face of said proton exchange membrane, and(iii) a cathode, said cathode coupled to said rear face of said proton exchange membrane;(b) a vapor diffusion chamber, said vapor diffusion chamber being positioned in front of said anode;(c) a vapor transport member positioned in front of said vapor diffusion chamber, said vapor transport member being substantially impermeable to an organic fuel and water mixture in a liquid phase but being permeable to said organic fuel and water mixture in a vapor phase; and(d) means for electrically interconnecting said anode and said cathode through an external load. 2. The fuel cell as claimed in claim 1 wherein said vapor transport member is a pervaporation membrane. 3. The fuel cell as claimed in claim 1 wherein said vapor transport member is a permselective membrane. 4. The fuel cell as claimed in claim 1 wherein said vapor transport member is an ionomeric membrane. 5. The fuel cell as claimed in claim 4 wherein said vapor transport member is an anion-exchange membrane. 6. The fuel cell as claimed in claim 4 wherein said vapor transport member is a cation-exchange membrane. 7. The fuel cell as claimed in claim 6 wherein said vapor transport membrane is a perfluorosulfonic acid membrane. 8. The fuel cell as claimed in claim 1 wherein said vapor transport member is a porous separator or diaphragm material containing a ceramic material. 9. The fuel cell as claimed in claim 1 wherein said vapor transport member is electrically-conductive. 10. The fuel cell as claimed in claim 1 further comprising an electrically-conductive, vapor-permeable member positioned between said vapor transport member and said anode, said electrically-conductive, vapor-permeable member defining said vapor diffusion chamber. 11. The fuel cell as claimed in claim 10 wherein said vapor transport member is electrically-conductive and wherein said electrically-conductive, vapor-permeable member is in contact with each of said vapor transport member and said anode. 12. The fuel cell as claimed in claim 10 wherein said electrically-conductive, vapor-permeable member is selected from the group consisting of a metallic screen package; a porous metal or carbon foam, paper or felt; and a perforated metal or carbon plate. 13. The fuel cell as claimed in claim 1 wherein said anode comprises an anodic electrocatalytic film positioned at its interface with said proton exchange membrane and wherein said cathode comprises a cathodic electrocatalytic film positioned at its interface with said proton exchange membrane, said anodic electrocatalytic film comprising an oxidation electrocatalyst selected from the group consisting of (i) the combination of platinum and one or more metals from Groups IIIA, IVA, VA, IB, IIB, IIIB, IVB, VB, VIB, VIIB, and VIIIB of the periodic table; (ii) metal oxides of said combination including reduced metal oxides of said combination; and (iii) mixtures and/or alloys thereof, said cathodic electrocatalytic film comprising a reduction electrocatalyst selected from the group consisting of (i) platinum; (ii) metal oxides of platinum, including reduced metal oxides of platinum; and (iii) mixtures and/or alloys thereof. 14. The fuel cell as claimed in claim 13 wherein said anodic electrocatalytic film further comprises an electrically-conductive support upon which said oxidation electrocatalyst is supported. 15. The fuel cell as claimed in claim 13 wherein said cathodic electrocatalytic film further comprises an electrically-conductive support upon which said reduction electrocatalyst is supported. 16. The fuel cell as claimed in claim 13 wherein said oxidation electrocatalyst comprises platinum and ruthenium. 17. A plurality of electrically-connected fuel cells, each o f said plurality of electrically-connected fuel cells being a fuel cell as claimed in claim 1. 18. The plurality of electrically-connected fuel cells as claimed in claim 17 wherein said plurality of electrically-connected fuel cells are connected in parallel. 19. The plurality of electrically-connected fuel cells as claimed in claim 17 wherein said plurality of electrically-connected fuel cells are connected in series. 20. The plurality of electrically-connected fuel cells as claimed in claim 11 wherein said plurality of electrically-connected fuel cells are connected in series in a bipolar stack configuration. 21. A fuel cell comprising:(a) a membrane electrode assembly, said membrane electrode assembly comprising(i) a proton exchange membrane, said proton exchange membrane having a front face and a rear face,(ii) an anode, said anode coupled to said front face of said proton exchange membrane, and(iii) a cathode, said cathode coupled to said rear face of said proton exchange membrane;(b) an electrically-conductive, vapor-permeable member, said electrically-conductive, vapor-permeable member being positioned in front of and in contact with said anode and defining a vapor diffusion chamber,(c) a vapor transport member positioned in front of said electrically-conductive, vapor-permeable member, said vapor transport member being substantially impermeable to an organic fuel and water mixture in a liquid phase but being permeable to said organic fuel and water mixture in a vapor phase;(d) a first plate, said first plate positioned in front of said vapor transport member and having a cavity facing towards said vapor transport member, said cavity being adapted to hold a quantity of a liquid fuel;(e) a second plate, said second plate being positioned behind said membrane electrode assembly and having a cavity facing said cathode, said cavity being adapted to hold a quantity of an oxidant; and(f) a positive terminal positioned behind said second plate, said positive terminal being electrically coupled through an external load to said electrically-conductive, vapor-permeable member. 22. The fuel cell as claimed in claim 21 wherein said positive terminal is a first endplate, said fuel cell further comprising a second endplate, said first and second endplates being adapted to apply axially compressive force to said second and first plates, respectively. 23. The fuel cell as claimed in claim 21 wherein said vapor transport member is a perfluorosulfonic acid membrane. 24. The fuel cell as claimed in claim 21 wherein said vapor transport member is electrically-conductive. 25. The fuel cell as claimed in claim 21 further comprising a porous support positioned between and in contact with each of said first plate and said vapor transport membrane. 26. A co-planar fuel cell assembly comprising:(a) a plurality of coplanar fuel cells, each of said co-planar fuel cells comprising(i) a membrane electrode assembly, said membrane electrode assembly comprising:(A) a proton exchange membrane, said proton exchange membrane having a top face and a bottom face,(B) an anode, said anode coupled to said bottom face of said proton exchange membrane, and(C) a cathode, said cathode coupled to said top face of said proton exchange membrane;(ii) an anode current collector, said anode current collector being electrically-conductive and vapor-permeable, said anode current collector being positioned below and in contact with said anode and defining a vapor diffusion chamber;(iii) a vapor transport member positioned below said anode current collector, said vapor transport member being substantially impermeable to an organic fuel and water mixture in a liquid phase but being permeable to said organic fuel and water mixture in a vapor phase;(iv) an anode basin, said anode basin being positioned below said vapor transport member and having a cavity facing towards said vapor transport member, said cavity being adapted to hold a quantity of a liquid fuel;(v) a cathode cur rent collector positioned over said cathode, said cathode current collector being electrically coupled to said anode current collector; and(b) means for coupling together said co-planar fuel cells. 27. The co-planar fuel cell assembly as claimed in claim 26 wherein at least some of said co-planar fuel cells are connected in series. 28. The co-planar fuel cell assembly as claimed in claim 26 wherein at least some of said co-planar fuel cells are connected in parallel. 29. A method of generating an electrical current, said method comprising the steps of:(a) providing the fuel cell of claim 1;(b) delivering a liquid mixture of an organic fuel and water to said vapor transport membrane; and(c) delivering gaseous oxygen to said cathode. 30. The method as claimed in claim 29 wherein said organic fuel is selected from the group consisting of methanol, ethanol, propanol, isopropanol, trimethoxymethane, dimethoxymethane, dimethyl ether, trioxane, formaldehyde, and formic acid. 31. The method as claimed in claim 29 wherein said organic fuel is methanol. 32. A method of generating gaseous hydrogen, said method comprising the steps of:(a) providing the fuel cell of claim 1;(b) delivering a liquid mixture of an organic fuel and water to said vapor transport membrane; and(c) supplying electricity to the fuel cell;(d) whereby gaseous hydrogen is generated at said cathode. 33. The method as claimed in claim 32 wherein said organic fuel is selected from the group consisting of methanol, ethanol, propanol, isopropanol, trimethoxymethane, dimethoxymethane, dimethyl ether, trioxane, formaldehyde, and formic acid. 34. The method as claimed in claim 32 wherein said organic fuel is methanol. 35. A method of generating a hydrogen-containing species, said method comprising the steps of:(a) providing the fuel cell of claim 1;(b) delivering a liquid mixture of an organic fuel and water to said vapor transport membrane; and(c) delivering to said cathode a reducible species;(d) whereby said reducible species is reduced at said cathode to produce a hydrogen-containing species. 36. The method in claim 35 wherein said organic fiel is selected from the group consisting of methanol, ethanol, propanol, isopropanol, trimethoxymethane, dimethoxymethane, dimethyl ether, trioxane, formaldehyde, and formic acid. 37. The method in claim 35 wherein said organic fuel is methanol.
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