Fuel cell and fuel cell stack

The invention claimed is: 1. A fuel cell formed by stacking an electrolyte electrode assembly and a separator, said electrolyte electrode assembly including an anode, a cathode, and an electrolyte interposed between said anode and said cathode, said fuel cell comprising: a fuel gas channel formed and extending on one surface of said separator for supplying a fuel gas along a surface of said anode, the separator including an outer circumference partially extended to form a plate-shaped extension protruding outwardly from an outer circumferential portion of the electrolyte electrode assembly; and an oxygen-containing gas channel formed on an other surface of said separator, for supplying an oxygen-containing gas along a surface of said cathode, wherein said fuel gas channel has an end point disposed at a first position corresponding to the outer circumferential portion of said electrolyte electrode assembly, and wherein a through hole extending from the one surface to the other surface of the separator connects the end point of said fuel gas channel on the one surface to a fuel gas discharge channel formed and extending on the other surface for emitting the fuel gas consumed in said electrolyte electrode assembly, the fuel gas discharge channel formed by the plate-shaped extension, the fuel gas emitted from a second position spaced outwardly from the first position corresponding to the outer circumferential portion of said electrolyte electrode assembly, and wherein a discharge groove member as a member separate from the separator is fixed to said plate-shaped extension, and said fuel gas discharge channel is formed between said plate-shaped extension and said discharge groove member, the discharge groove member starting on the other surface of the separator from the fuel gas channel at a location of the end point of the fuel gas channel at the outer circumferential portion and extending to the end of the plate-shaped extension. 2. A fuel cell according to claim 1 , wherein said fuel gas channel includes a channel unit provided on the one surface of said separator, said channel unit being connected from a fuel gas inlet that supplies the fuel gas to said fuel gas channel to said fuel gas discharge channel. 3. A fuel cell according to claim 1 , wherein said fuel gas discharge channel comprises the through hole extending through said separator, and a discharge groove formed on said discharge groove member provided on the other surface of said separator, said discharge groove being connected to said through hole and extending outwardly from said electrolyte electrode assembly. 4. A fuel cell according to claim 1 , wherein said fuel gas discharge channel comprises a discharge groove disposed on the one surface of said separator and being connected to said fuel gas channel, and a lid member as the discharge groove member disposed on the one surface of said separator so as to cover said discharge groove. 5. A fuel cell according to claim 1 , wherein a ring shaped protrusion is provided on the one surface of said separator so as to tightly contact an outer circumferential portion of said anode. 6. A fuel cell according to claim 2 , wherein said channel unit comprises a groove. 7. A fuel cell according to claim 2 , wherein said channel unit comprises a plurality of protrusions. 8. A fuel cell according to claim 2 , wherein said channel unit comprises a deformable elastic channel member disposed in tight contact with said anode. 9. A fuel cell according to claim 1 , wherein said oxygen-containing gas channel comprises a deformable elastic channel member disposed on the other surface of said separator in tight contact with said cathode. 10. A fuel cell according to claim 9 , wherein an area in which said elastic channel member is disposed is smaller than a power generation area of said anode. 11. A fuel cell according to claim 10 , wherein said elastic channel member comprises one of an electrically conductive mesh member and a felt member. 12. A fuel cell according to claim 1 , wherein said oxygen-containing gas channel comprises a plurality of protrusions disposed on the other surface of said separator. 13. A fuel cell according to claim 12 , wherein said protrusions comprise a plurality of solid portions formed by etching on the one surface of said separator. 14. A fuel cell according to claim 2 , further comprising: an exhaust gas channel for discharging the fuel gas and the oxygen-containing gas, which are consumed during the reaction in said electrolyte electrode assembly, as an exhaust gas in a stacking direction of said electrolyte electrode assembly and said separator; an oxygen-containing gas supply unit, serving as a passage for the oxygen-containing gas before consumption, and for supplying the oxygen-containing gas in the stacking direction to said oxygen-containing gas channel; and a fuel gas supply channel provided on the one surface or on the other surface of said separator, said fuel gas supply channel being connected to a fuel gas supply unit, serving as a passage for the fuel gas before consumption, and to said fuel gas inlet, wherein said fuel gas supply unit is disposed hermetically within said oxygen-containing gas supply unit, and wherein said fuel gas supply channel connects said fuel gas channel and said fuel gas supply unit, and is provided along the one surface or the other surface of said separator so as to intersect with said oxygen-containing gas supply unit extending in the stacking direction. 15. A fuel cell according to claim 14 , wherein said exhaust gas channel is disposed around said separator. 16. A fuel cell according to claim 14 , wherein said fuel gas supply unit is disposed hermetically at a center portion of said separator, and said oxygen-containing gas supply unit is disposed in an inner region of said separator. 17. A fuel cell according to claim 14 , wherein said fuel gas inlet is disposed at a center portion of said electrolyte electrode assembly. 18. A fuel cell according to claim 2 , further comprising: an exhaust gas channel for discharging the fuel gas and the oxygen-containing gas, which are consumed during the reaction in said electrolyte electrode assembly, as an exhaust gas in a stacking direction of said electrolyte electrode assembly and said separator; and an oxygen-containing gas supply unit, serving as a passage for the oxygen-containing gas before consumption, and for supplying the oxygen-containing gas in the stacking direction to said oxygen-containing gas channel, wherein said fuel gas supply unit and said oxygen-containing gas supply unit are disposed hermetically within said exhaust gas channel, wherein said fuel gas supply channel connects said fuel gas channel and said fuel gas supply unit, and is disposed along the other surface of the separator so as to intersect with said exhaust gas channel extending in the stacking direction, and wherein said oxygen-containing gas supply channel connects said oxygen-containing gas channel and said oxygen-containing gas supply unit, and is disposed along the other surface of the separator so as to intersect with said exhaust gas channel. 19. A fuel cell according to claim 18 , wherein said fuel gas channel forms a fuel gas pressure chamber, such that said anode is pressed when the fuel gas is supplied to said fuel gas channel; and said oxygen-containing gas channel forms an oxygen-containing gas pressure chamber, such that said cathode is pressed when said oxygen-containing gas is supplied to said oxygen-containing gas channel.