A fuel cell (1) includes an electromotive unit (2) having a membrane electrode assembly (MEA) (12), a fuel storage unit (4) storing a liquid fuel, and a fuel supply mechanism (3) supplying the fuel from the fuel storage unit (4) to a fuel electrode (7) of the membrane electrode assembly (12). The me
A fuel cell (1) includes an electromotive unit (2) having a membrane electrode assembly (MEA) (12), a fuel storage unit (4) storing a liquid fuel, and a fuel supply mechanism (3) supplying the fuel from the fuel storage unit (4) to a fuel electrode (7) of the membrane electrode assembly (12). The membrane electrode assembly (12) has a gas vent hole (17) provided in a manner to penetrate through at least an electrolyte membrane (11) to let a gas component generated on a side of the fuel electrode (7) escape to a side of an air electrode (10).
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1. A fuel cell, comprising: an electromotive unit including a membrane electrode assembly having a fuel electrode, an air electrode, and an electrolyte membrane sandwiched between the fuel electrode and the air electrode;a fuel storage unit storing a liquid fuel;a fuel supply mechanism supplying the
1. A fuel cell, comprising: an electromotive unit including a membrane electrode assembly having a fuel electrode, an air electrode, and an electrolyte membrane sandwiched between the fuel electrode and the air electrode;a fuel storage unit storing a liquid fuel;a fuel supply mechanism supplying the fuel from the fuel storage unit to the fuel electrode, the fuel supply mechanism including a fuel distribution plate having a fuel injection port connected to the fuel storage unit via a flow path so that the liquid fuel flows in, and a plurality of fuel discharge ports connected to the fuel injection port via a fuel passage to supply the fuel while dispersing the fuel in a plane direction of the fuel electrode; anda gas vent hole provided at the membrane electrode assembly to discharge a gas component generated on the side of the fuel electrode to a side of the air electrode,wherein the gas vent hole has a through hole which penetrates through the fuel electrode, the electrolyte membrane, and the air electrode in the membrane electrode assembly, andwherein the gas vent hole is provided at a position where the gas vent hole does not substantially overlap with the plurality of fuel discharge ports in plan view. 2. The fuel cell according to claim 1, wherein the electromotive unit has a plurality of unit cells each composed of the fuel electrode and the air electrode disposed with the electrolyte membrane intervening therebetween, and the plurality of unit cells are separately arranged within a plane of the electrolyte membrane and electrically connected with each other. 3. The fuel cell according to claim 2, wherein the gas vent hole is provided at each of the plurality of unit cells in a manner to penetrate through the fuel electrode, the electrolyte membrane, and the air electrode. 4. The fuel cell according to claim 3, wherein the gas vent hole has a first hole portion which penetrates through the fuel electrode, a second hole portion which penetrates through the electrolyte membrane, and a third hole portion which penetrates through the air electrode, andwherein a first diameter of the first hole portion and a third diameter of the third hole portion are equal to or larger than a second diameter of the second hole portion. 5. The fuel cell according to claim 1, wherein the fuel supply mechanism includes a fuel supply pump provided along the flow path. 6. The fuel cell according to claim 1, wherein the gas vent hole has a pore diameter maintaining part maintaining a pore diameter thereof by securing an inner wall surface thereof. 7. The fuel cell according to claim 1, wherein a filter containing a catalyst material is disposed at least one of in the gas vent hole or above the gas vent hole. 8. The fuel cell according to claim 1, further comprising: a moisture retention layer stacked on the air electrode of the membrane electrode assembly, the moisture retention layer having a through hole or a thin portion provided at a position corresponding to the gas vent hole. 9. The fuel cell according to claim 1, wherein the liquid fuel is a methanol aqueous solution having a methanol concentration of 80% or higher or pure methanol. 10. A fuel cell, comprising: an electromotive unit including a membrane electrode assembly having a fuel electrode, an air electrode, and an electrolyte membrane sandwiched between the fuel electrode and the air electrode;a fuel storage unit storing a liquid fuel;a fuel supply mechanism supplying the fuel from the fuel storage unit to the fuel electrode, the fuel supply mechanism including a fuel distribution plate having a fuel injection port connected to the fuel storage unit via a flow path so that the liquid fuel flows in, and a plurality of fuel discharge ports connected to the fuel injection port via a fuel passage to supply the fuel while dispersing the fuel in a plane direction of the fuel electrode; anda gas vent hole provided at the membrane electrode assembly to discharge a gas component generated on a side of the fuel electrode to a side of the air electrode,wherein the electromotive unit has a plurality of unit cells each composed of the fuel electrode and the air electrode disposed with the electrolyte membrane intervening therebetween, and the plurality of unit cells are separately arranged within a plane of the electrolyte membrane and electrically connected with each other, andwherein the gas vent hole is provided as a through hole which penetrates through the electrolyte membrane in a space between the plurality of unit cells and at a predetermined location where the gas vent hole does not substantially overlap with the plurality of fuel discharge ports in plan view. 11. The fuel cell according to claim 10, wherein the fuel supply mechanism includes a fuel supply pump provided along the flow path. 12. The fuel cell according to claim 10, wherein the liquid fuel is a methanol aqueous solution having a methanol concentration of 80% or higher or pure methanol.
Clark Douglas J. (Ontario CA) Galica Leo M. (Mira Loma CA) Losey Robert W. (Lancaster CA) Suitor Jerry W. (El Toro CA), Ceramic distribution members for solid state electrolyte cells and method of producing.
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