Fuel cells and fuel cell systems containing non-aqueous electrolytes
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/14
H01M-008/06
출원번호
US-0745407
(2003-12-22)
등록번호
US-7258946
(2007-08-21)
발명자
/ 주소
Edlund,David J.
출원인 / 주소
IdaTech, LLC
대리인 / 주소
Kolisch Hartwell, PC
인용정보
피인용 횟수 :
9인용 특허 :
26
초록▼
Fuel cells and fuel cell systems that include at least one non-aqueous electrolyte. Fuel cells according to the present disclosure may include an anode region that is adapted to receive an anode feed stream containing chemically bound hydrogen and which liberates protons at an anode of the fuel cell
Fuel cells and fuel cell systems that include at least one non-aqueous electrolyte. Fuel cells according to the present disclosure may include an anode region that is adapted to receive an anode feed stream containing chemically bound hydrogen and which liberates protons at an anode of the fuel cell, a cathode region that is adapted to receive a stream containing oxygen, and an electrolytic barrier that separates the anode and cathode regions and which contains a non-aqueous electrolyte. The non-aqueous electrolyte is preferably acidic or basic. The electrolyte may have an acid ionization constant (Ka) greater than 5횞10-6 at 25째 C. if the non-aqueous electrolyte is an acid and a base ionization constant (Kb) greater than 5횞10-6 at 25째 C. if the non-aqueous electrolyte is a base. The fuel cell has an operating temperature of less than 300째 C., and may operate at temperatures above, at, and below 100째 C.
대표청구항▼
I claim: 1. A fuel cell, comprising: an anode region adapted to receive an anode feedstock comprising at least one composition that contains chemically bound hydrogen and which liberates protons at an anode of the fuel cell; a cathode region adapted to receive a stream containing oxygen; and an ele
I claim: 1. A fuel cell, comprising: an anode region adapted to receive an anode feedstock comprising at least one composition that contains chemically bound hydrogen and which liberates protons at an anode of the fuel cell; a cathode region adapted to receive a stream containing oxygen; and an electrolytic barrier separating the anode region from the cathode region, wherein the electrolytic barrier includes a non-aqueous liquid electrolyte containing an organic ionic liquid, and further wherein the fuel cell has an operating temperature of less than 300째 C. 2. The fuel cell of claim 1, wherein the non-aqueous liquid electrolyte is acidic. 3. The fuel cell of claim 2, wherein the non-aqueous liquid electrolyte has an acid ionization constant (Ka) greater than 5횞10-6 at 25째 C. 4. The fuel cell of claim 2, wherein the non-aqueous liquid electrolyte has an acid ionization constant (Ka) in the range of 5횞10-6 and 7횞10-3 at 25째 C. 5. The fuel cell of claim 2, wherein the non-aqueous liquid electrolyte has an acid ionization constant (Ka) greater than 1횞10-2 at 25째 C. 6. The fuel cell of claim 1, wherein the non-aqueous liquid electrolyte is basic. 7. The fuel cell of claim 6, wherein the non-aqueous liquid electrolyte has a base ionization constant (Kb) greater than 5횞10-6 at 25째 C. 8. The fuel cell of claim 6, wherein the non-aqueous liquid electrolyte has a base ionization constant (Kb) greater than 1횞10-225째 C. 9. The fuel cell of claim 1, wherein the organic ionic liquid is a solvent, and further wherein the non-aqueous liquid electrolyte includes a solute. 10. The fuel cell of claim 9, wherein the solute is an acidic solute. 11. The fuel cell of claim 10, wherein the acidic solute comprises at least one component selected from the group consisting of: hydrogen hexafluorophosphate, hydrogen tetraphenylborate, sulfuric acid, and perchloric acid. 12. The fuel cell of claim 9, wherein the solute is a basic solute. 13. The fuel cell of claim 12, wherein the basic solute includes a tetraalkylammonium hydroxide. 14. The fuel cell of claim 1, wherein the non-aqueous liquid electrolyte contains less than 5% water on a molar basis. 15. The fuel cell of claim 1, wherein the boiling point of the non-aqueous liquid electrolyte is at least 90째 C. 16. The fuel cell of claim 1, wherein the boiling point of the non-aqueous liquid electrolyte is at least 130째 C. 17. The fuel cell of claim 1, wherein the boiling point of the non-aqueous liquid electrolyte is at least 150째 C. 18. The fuel cell of claim 1, wherein the melting point of the non-aqueous liquid electrolyte is less than 50째 C. 19. The fuel cell of claim 1, wherein the melting point of the non-aqueous liquid electrolyte is less than 0째 C. 20. The fuel cell of claim 1, wherein the operating temperature of the fuel cell is between 15째 C. and 200째 C. 21. The fuel cell of claim 1, wherein the operating temperature of the fuel cell is between 15째 C. and 150째 C. 22. The fuel cell of claim 1, wherein the operating temperature of the fuel cell is between 0째 C. and 100째 C. 23. The fuel cell of claim 1, wherein the operating temperature of the fuel cell is above 100째 C. 24. The fuel cell of claim 1, wherein the operating temperature of the fuel cell is between 150째 C. and 300째 C. 25. The fuel cell of claim 1, wherein the operating temperature of the fuel cell is above the boiling point of water at the operating conditions of the fuel cell. 26. The fuel cell of claim 1, in combination with a source of the anode feedstock. 27. The fuel cell of claim 26, wherein the anode feedstock includes hydrogen gas and the source is adapted to deliver a stream containing hydrogen gas to the anode region of the fuel cell. 28. The fuel cell of claim 26, wherein anode feedstock includes methanol and the source is adapted to deliver a stream containing methanol to the anode region of the fuel cell. 29. The fuel cell of claim 26, wherein the anode feedstock includes hydrazine and the source is adapted to deliver a stream containing hydrazine to the anode region of the fuel cell. 30. The fuel cell of claim 26, wherein the anode feedstock includes formaldehyde and the source is adapted to deliver a stream containing formaldehyde to the anode region of the fuel cell. 31. The fuel cell of claim 26, wherein the anode feedstock includes ethanol and the source is adapted to deliver a stream containing ethanol to the anode region of the fuel cell. 32. The fuel cell of claim 26, wherein the source of the anode feedstock includes at least one storage tank containing the anode feedstock. 33. The fuel cell of claim 26, wherein the source includes a device adapted to produce the anode feedstock through a chemical reaction. 34. The fuel cell of claim 26, wherein the source includes a fuel processor with a hydrogen-producing region. 35. The fuel cell of claim 34, wherein the fuel processor is a steam reformer that includes a reforming catalyst. 36. The fuel cell of claim 34, wherein the fuel processor is adapted to produce the anode feedstock by at least one of the following methods: partial oxidation of a carbon-containing feedstock, electrolysis of water and irradiation of a carbon-containing feedstock. 37. The fuel cell of claim 34, wherein the hydrogen-producing region of the fuel processor is adapted to receive a feed stream that includes a carbon-containing feedstock and to produce therefrom a mixed gas stream containing hydrogen gas and other gases. 38. The fuel cell of claim 37, wherein the fuel processor further comprises a separation region adapted to receive the mixed gas stream and to separate the mixed gas stream into an at least substantially pure hydrogen stream and a byproduct stream containing substantially the other gases. 39. The fuel cell of claim 38, wherein the separation region of the fuel processor includes at least one hydrogen-selective membrane. 40. The fuel cell of claim 38, wherein the fuel processor includes a polishing catalyst bed adapted to increase the purity of the at least substantially pure hydrogen stream. 41. A fuel cell system, comprising: means for producing an anode feedstock containing hydrogen gas; at least one fuel cell comprising: an anode region adapted to receive at least a portion of the anode feed stock; a cathode region adapted to receive a stream containing oxygen; and an electrolytic barrier separating the anode region from the cathode region, wherein the electrolytic barrier includes an acidic or basic non-aqueous electrolyte; wherein the non-aqueous electrolyte includes an organic ionic liquid and has an acid ionization constant (Ka) greater than 5횞10-6 at 25째 C. if the non-aqueous electrolyte is an acid and a base ionization constant (Kb) greater than 5횞10-6 at 25째 C. if the non-aqueous electrolyte is a base; and further wherein the fuel cell has an operating temperature of less than 300째 C. 42. The fuel cell system of claim 41, wherein the non-aqueous electrolyte is an acid. 43. The fuel cell system of claim 41, wherein the non-aqueous electrolyte is a base. 44. The fuel cell system of claim 41, wherein the non-aqueous electrolyte further includes sulfuric acid. 45. The fuel cell system of claim 41, wherein the organic ionic liquid is a solvent and the non-aqueous electrolyte further includes an acidic or basic solute. 46. The fuel cell system of claim 45, wherein the acidic solute is selected from the group consisting of: hydrogen hexafluorophosphate, hydrogen tetraphenylborate, sulfuric acid, and perchloric acid. 47. The fuel cell system of claim 45, wherein the basic solute is a tetraalkylam monium hydroxide. 48. The fuel cell system of claim 41, wherein the non-aqueous electrolyte has a Ka greater than 1횞10-2 at 25째 C. if the electrolyte is an acid and a Kb greater than 1횞10-225째 C. if the electrolyte is a base. 49. The fuel cell system of claim 41, wherein the non-aqueous electrolyte has a Ka greater than 1횞10-4 at 25째 C. if the electrolyte is an acid and a Kb greater than 1횞10-4 at 25째 C. if the electrolyte is a base. 50. The fuel cell system of claim 41, wherein the non-aqueous electrolyte contains less than 5% water on a molar basis. 51. The fuel cell system of claim 41, wherein the boiling point of the non-aqueous electrolyte is at least 90째 C. 52. The fuel cell system of claim 41, wherein the boiling point of the non-aqueous electrolyte is at least 130째 C. 53. The fuel cell system of claim 41, wherein the boiling point of the non-aqueous electrolyte is at least 150째 C. 54. The fuel cell system of claim 41, wherein the melting point of the non-aqueous electrolyte is less than 5째 C. 55. The fuel cell system of claim 41, wherein the melting point of the non-aqueous electrolyte is less than 0째 C. 56. The fuel cell system of claim 41, wherein the operating temperature of the fuel cell is above the boiling point of water at the operating conditions of the fuel cell.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (26)
Maricle ; Donald L., Anhydrous H.sub.2 /Cl.sub.2 regenerative fuel cell.
Zupancic Joseph J. (Bensenville IL) Swedo Raymond J. (Mt. Prospect IL) Petty-Weeks Sandra L. (Naperville IL), Electrochemical method and apparatus using proton-conducting polymers.
Petrow Henry G. (Watertown MA) Allen Robert J. (Saugus MA), Finely particulated colloidal platinum compound and sol for producing the same and method of preparation of fuel cell el.
Ramunni Enrico,ITX ; Fleba Giampiero,ITX ; Brambilla Massimo,ITX, Membrane electrochemical cell provided with gas diffusion electrodes in contact with porour, flat, metal current conductors having highly distributed contact area.
Isomura Manabu,JPX ; Soma Takao,JPX ; Takahashi Tomonori,JPX, System for production of high-purity hydrogen, process for production of high-purity hydrogen, and fuel cell system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.