IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0642282
(2003-08-18)
|
등록번호 |
US-7491462
(2009-02-17)
|
우선권정보 |
JP-2002-248054(2002-08-28); JP-2003-072994(2003-03-18) |
발명자
/ 주소 |
- Ito,Naoki
- Iijima,Masahiko
- Aoyama,Satoshi
- Iguchi,Satoshi
- Numata,Koichi
|
출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
The invention provides an electrolyte membrane that allows an operating temperature of a solid polymer membrane fuel cell to be raised and an operating temperature of a solid oxide fuel cell to be lowered. This electrolyte membrane can be used in a fuel cell that is operable in an intermediate tempe
The invention provides an electrolyte membrane that allows an operating temperature of a solid polymer membrane fuel cell to be raised and an operating temperature of a solid oxide fuel cell to be lowered. This electrolyte membrane can be used in a fuel cell that is operable in an intermediate temperature range. The invention also provides a fuel cell using such an electrolyte membrane. The electrolyte membrane has a hydrated electrolyte layer, and dense layers made of a hydrogen permeable material that are formed on both sides of this electrolyte layer. Both sides of the electrolyte membrane are coated with dense layers. Consequently, evaporation of moisture contained in the electrolyte layer is suppressed, and increase in the resistance of the membrane is inhibited. As a result, the range of the operating temperature of the fuel cell can be enlarged.
대표청구항
▼
What is claimed is: 1. A fuel cell, comprising: an electrolyte membrane having a substrate formed from a dense hydrogen permeable material and an inorganic electrolyte layer formed on at least one side of the substrate; an oxygen electrode disposed on one side of the electrolyte membrane; an oxidiz
What is claimed is: 1. A fuel cell, comprising: an electrolyte membrane having a substrate formed from a dense hydrogen permeable material and an inorganic electrolyte layer formed on at least one side of the substrate; an oxygen electrode disposed on one side of the electrolyte membrane; an oxidizing gas supply portion that supplies an oxidizing gas to the oxygen electrode; a hydrogen electrode disposed on the other side of the electrolyte membrane; and a fuel gas supply portion that supplies a hydrogen-rich fuel gas to the hydrogen electrode; wherein the substrate permeates the hydrogen in the state of protons or hydrogen atoms and the electrolyte layer has proton conductivity; wherein the substrate made of the hydrogen permeable material includes at least two hydrogen separation membrane layers respectively made of different kinds of metal, and a metal diffusion suppression layer, provided on at least a part of a contact interface between the separation membrane layers of the different kinds of metal, for suppressing diffusion of the different kinds of metal. 2. The fuel cell according to claim 1, wherein a surface of a side of the electrolyte layer that is not in contact with the substrate is coated with a coating made of a hydrogen permeable material; and the substrate and the coating are formed from different kinds of metallic materials, respectively. 3. The fuel cell according to claim 1, wherein the metal diffusion suppression layer contains at least one of a proton conductor, a mixed conductor, an insulating material, a ceramic, and a proton-nonconductive metal. 4. The fuel cell according to claim 1, wherein the electrolyte layer has a thickness of 0.1 to 1 μm. 5. A fuel cell, comprising: an electrolyte membrane having a substrate formed from a dense hydrogen permeable material and an inorganic electrolyte layer formed on at least one side of the substrate; an oxygen electrode disposed on one side of the electrolyte membrane; an oxidizing gas supply portion that supplies an oxidizing gas to the oxygen electrode; a hydrogen electrode disposed on the other side of the electrolyte membrane; and a fuel gas supply portion that supplies a hydrogen-rich fuel gas to the hydrogen electrode; wherein the substrate permeates the hydrogen in the state of protons or hydrogen atoms and the electrolyte layer has proton conductivity; wherein the electrolyte layer is formed from a solid oxide, and the electrolyte membrane has a reaction suppression layer, provided on at least a part of an interface between the substrate and the electrolyte layer, for suppressing a reaction between an oxygen atom, which is contained in the electrolyte layer, and the substrate. 6. The fuel cell according to claim 5, wherein the reaction suppression layer contains at least one of a proton conductor, a mixed conductor, and an insulating material. 7. The fuel cell according to claim 5, wherein a surface of a side of the electrolyte layer that is not in contact with the substrate is coated with a coating made of a hydrogen permeable material; and the substrate and the coating are formed from different kinds of metallic materials, respectively. 8. The fuel cell according to claim 5, wherein the electrolyte layer has a thickness of 0.1 to 1 μm. 9. A fuel cell, comprising: an electrolyte membrane having a substrate formed from a dense hydrogen permeable material and an inorganic electrolyte layer formed on at least one side of the substrate; an oxygen electrode disposed on one side of the electrolyte membrane; an oxidizing gas supply portion that supplies an oxidizing gas to the oxygen electrode; a hydrogen electrode disposed on the other side of the electrolyte membrane; and a fuel gas supply portion that supplies a hydrogen-rich fuel gas to the hydrogen electrode; wherein the substrate permeates the hydrogen in the state of protons or hydrogen atoms and the electrolyte layer has proton conductivity; wherein an electrolyte of the electrolyte layer is a composite oxide containing an A-site material having an alkali metal element as a principal component, and a B-site material having another element as a principal component, such that a molar ratio of the A-site material to the B-site material is constant, and also containing a predetermined amount of oxygen; the composite oxide is synthesized by a reaction between the A-site material and the B-site material, and during the reaction, the molar ratio of the A-site material to the B-site material is smaller than the constant molar ratio. 10. The fuel cell according to claim 9, wherein a surface of a side of the electrolyte layer that is not in contact with the substrate is coated with a coating made of a hydrogen permeable material; and the substrate and the coating are formed from different kinds of metallic materials, respectively. 11. The fuel cell according to claim 9, wherein the electrolyte layer has a thickness of 0.1 to 1 μm. 12. A fuel cell, comprising: an electrolyte membrane having a substrate formed from a dense hydrogen permeable material and an inorganic electrolyte layer formed on at least one side of the substrate; an oxygen electrode disposed on one side of the electrolyte membrane; an oxidizing gas supply portion that supplies an oxidizing gas to the oxygen electrode; a hydrogen electrode disposed on the other side of the electrolyte membrane; and a fuel gas supply portion that supplies a hydrogen-rich fuel gas to the hydrogen electrode; wherein the substrate permeates the hydrogen in the state of protons or hydrogen atoms and the electrolyte layer has proton conductivity; wherein an electrolyte of the electrolyte layer is a composite oxide containing an A-site material having an alkali metal element as a principal component, and a B-site material having another element as a principal component, such that a molar ratio of the A-site material to the B-site material is constant, and also containing a predetermined amount of oxygen; and the composite oxide is synthesized in a state in which the composite oxide contains a predetermined amount of an oxide of a third material that forms an oxide together with the alkali metal element. 13. The fuel cell according to claim 12, wherein a surface of a side of the electrolyte layer that is not in contact with the substrate is coated with a coating made of a hydrogen permeable material; and the substrate and the coating are formed from different kinds of metallic materials, respectively. 14. The fuel cell according to claim 12, wherein the electrolyte layer has a thickness of 0.1 to 1 μm.
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