A separator includes a first fuel gas supply unit, a second fuel gas supply unit, first sandwiching sections, second sandwiching sections, a first case unit and a second case unit. The first and second sandwiching sections are connected to the first fuel gas supply unit and the second fuel gas suppl
A separator includes a first fuel gas supply unit, a second fuel gas supply unit, first sandwiching sections, second sandwiching sections, a first case unit and a second case unit. The first and second sandwiching sections are connected to the first fuel gas supply unit and the second fuel gas supply unit, respectively, through first bridges. The first case unit and the second case unit are connected to the first sandwiching sections and the second sandwiching sections through second bridges. A first surface pressure F1 generated near a fuel gas supply passage, a second surface pressure F2 generated near an oxygen-containing gas supply passage, and a third surface pressure F3 generated near electrolyte electrode assemblies have different values.
대표청구항▼
1. A fuel cell stack formed by stacking a plurality of fuel cells formed by stacking electrolyte electrode assemblies and separators, said electrolyte electrode assemblies each including an anode, a cathode, and an electrolyte interposed between said anode and said cathode, said separators each comp
1. A fuel cell stack formed by stacking a plurality of fuel cells formed by stacking electrolyte electrode assemblies and separators, said electrolyte electrode assemblies each including an anode, a cathode, and an electrolyte interposed between said anode and said cathode, said separators each comprising: sandwiching sections for sandwiching said electrolyte electrode assemblies, at least a fuel gas inlet for supplying a fuel gas along an electrode surface of said anode or an oxygen-containing gas inlet for supplying an oxygen-containing gas along an electrode surface of said cathode being formed in each of said sandwiching sections;first bridges connected to said sandwiching sections, and each having a first reactant gas supply channel for supplying the fuel gas to said fuel gas inlet or supplying the oxygen-containing gas to said oxygen-containing gas inlet;a first reactant gas supply unit connected to said first bridges, a first reactant gas supply passage extending through said first reactant gas supply unit in a stacking direction for supplying the fuel gas or the oxygen-containing gas to said first reactant gas supply channel;second bridges connected to said sandwiching sections, and each having a second reactant gas supply channel for supplying the fuel gas to said fuel gas inlet or supplying the oxygen-containing gas to said oxygen-containing gas inlet;a case unit connected to said second bridges, said case unit containing said electrolyte electrode assemblies;a second reactant gas supply unit provided in said case unit, a second reactant gas supply passage extending through said second reactant gas supply unit in the stacking direction for supplying the oxygen-containing gas or the fuel gas to said second reactant gas supply channel;a first load applying mechanism provided at said first reactant gas supply unit;a second load applying mechanism provided at said second reactant gas supply unit; anda third load applying mechanism provided at said sandwiching sections,wherein a first surface pressure in the stacking direction is generated by applying a first load to said first reactant gas supply unit, a second surface pressure in the stacking direction is generated by applying a second load to said second reactant gas supply unit, and a third surface pressure in the stacking direction is generated by applying a third load to said sandwiching sections, the first surface pressure being larger than the second surface pressure, and the second surface pressure being larger than the third surface pressure. 2. A fuel cell stack according to claim 1, further comprising a first load receiving member for receiving the first load in the stacking direction, a second load receiving member for receiving the second load in the stacking direction, and a third load receiving member for receiving the third load in the stacking direction, wherein said first load receiving member has a first Young's modulus, said second load receiving member has a second Young's modulus, and said third load receiving member has a third Young's modulus; andthe first Young's modulus is larger than the second Young's modulus, and the second Young's modulus is larger than the third Young's modulus. 3. A fuel cell stack formed by stacking a plurality of fuel cells formed by stacking electrolyte electrode assemblies and separators, said electrolyte electrode assemblies each including an anode, a cathode, and an electrolyte interposed between said anode and said cathode, said separators each comprising: sandwiching sections for sandwiching said electrolyte electrode assemblies, at least a fuel gas inlet for supplying a fuel gas along an electrode surface of said anode or an oxygen-containing gas inlet for supplying an oxygen-containing gas along an electrode surface of said cathode being formed in each of said sandwiching sections;first bridges connected to said sandwiching sections, and each having a first reactant gas supply channel for supplying the fuel gas to said fuel gas inlet or supplying the oxygen-containing gas to said oxygen-containing gas inlet;a first reactant gas supply unit connected to said first bridges, a first reactant gas supply passage extending through said reactant gas supply unit in a stacking direction for supplying the fuel gas or the oxygen-containing gas to said first reactant gas supply channel;second bridges connected to said sandwiching sections, and each having a second reactant gas supply channel for supplying the fuel gas to said fuel gas inlet or supplying the oxygen-containing gas to said oxygen-containing gas inlet;a case unit connected to said second bridges, said case unit containing said electrolyte electrode assemblies; anda second reactant gas supply unit provided in said case unit, a second reactant gas supply passage extending through said second reactant gas supply unit in the stacking direction for supplying the oxygen-containing gas or the fuel gas to said second reactant gas supply channel;a first load receiving member for receiving a first load applied to said first reactant gas supply unit in the stacking direction;a second load receiving member for receiving a second load applied to said second reactant gas supply unit in the stacking direction; anda third load receiving member for receiving a third load applied to said sandwiching sections in the stacking direction,wherein said first load receiving member has a first Young's modulus, said second load receiving member has a second Young's modulus, and said third load receiving member has a third Young's modulus; andthe first Young's modulus is larger than the second Young's modulus, and the second Young's modulus is larger than the third Young's modulus. 4. A fuel cell stack according to claim 3, wherein a first surface pressure is generated on said first load receiving member receiving said first load, a second surface pressure is generated on said second load receiving member receiving said second load, and a third surface pressure is generated on said third load receiving member receiving said third load; and the first surface pressure is larger than the second surface pressure, and the second surface pressure is larger than the third surface pressure. 5. A fuel cell stack according to claim 3, further comprising a load applying mechanism provided at said second reactant gas supply unit, for applying the first load, the second load, and the third load. 6. A fuel cell stack according to claim 3, further comprising a first load applying mechanism provided at said first reactant gas supply unit, and a second load applying mechanism provided at said second reactant gas supply unit, wherein the first load, the second load, and the third load are applied by said first load applying mechanism and said second load applying mechanism. 7. A fuel cell stack according to claim 3, further comprising a first load applying mechanism provided at said first reactant gas supply unit, a second load applying mechanism provided at said second reactant gas supply unit, and a third load applying mechanism provided at said sandwiching sections.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (1)
Richards William R. (Springfield VA), Fuel cell having uniform compressive stress distribution over active area.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.