Fuel cell stack

The invention claimed is: 1. A fuel cell stack comprising: a plurality of power generating cells stacked on one another; a heat exchange unit disposed between two of the power generating cells which are located adjacent to each other; a fuel gas supply path for supplying fuel gas to the power generating cells; and an oxidant gas supply path for supplying oxidant gas to the power generating cells, wherein the fuel gas supply path includes, in series, a first path passing through the heat exchange unit, a second path passing in parallel through some of the plurality of power generating cells, and a third path passing in parallel through the remaining power generating cells; in the second path, when the power generating cells are viewed in a stacking direction thereof, two inlets of the fuel gas in each of the some power generating cells are located at a first position PA and a second position PB located along one side of each power generating cell, and one outlet of the fuel gas in each of the some power generating cells is located at a third position PC along another side of each power generating cell that is opposite the one side; and in the third path, when the power generating cells are viewed in the stacking direction, an inlet of the fuel gas in each of the remaining power generating cells is located at a position coinciding with the third position PC, and an outlet of the fuel gas in each of the remaining power generating cells is located at a position between the first position PA and the second position PB. 2. A fuel cell stack comprising: a plurality of power generating cells stacked on one another; a heat exchange unit disposed at at least one of a position between two of the power generating cells which are located adjacent to each other and a position outside of one of the plurality of power generating cells that is located at an end in a stacking direction of the power generating cells; a fuel gas supply path for supplying fuel gas to the power generating cells; and an oxidant gas supply path for supplying oxidant gas to the power generating cells, wherein the fuel gas supply path includes, in series, a first path passing through the heat exchange unit, a second path passing in parallel through some of the plurality of power generating cells, and a third path passing in parallel through the remaining power generating cells; in the second path, when the power generating cells are viewed in a stacking direction thereof, two inlets of the fuel gas in each of the some power generating cells are located at a first position PA and a second position PB located along one side of each power generating cell, and one outlet of the fuel gas in each of the some power generating cells is located at a third position PC along another side of each power generating cell that is opposite the one side; and in the third path, when the power generating cells are viewed in the stacking direction, an inlet of the fuel gas in each of the remaining power generating cells is located at a position coinciding with the third position PC, and an outlet of the fuel gas in each of the remaining power generating cells is located at a position between the first position PA and the second position PB. 3. A fuel cell stack according to claim 1 , wherein a plurality of the heat exchange units are provided; and in the first path, the fuel gas flows in parallel through the plurality of heat exchange units. 4. A fuel cell stack according to claim 1 , wherein the fuel gas supply path comprises a plurality of fuel gas passages extending within the fuel cell stack in the stacking direction, and connection ports that connect the fuel gas passages to the heat exchange unit and interiors of at least some of the plurality of power generating cells; and the inlets and the outlets are part of the connection ports. 5. A fuel cell stack according to claim 4 , further comprising a plurality of bolts passing through the fuel cell stack in the stacking direction and used to fix the plurality of power generating cells and the heat exchange unit, wherein the plurality of fuel gas passage are cavities formed inside the plurality of bolts. 6. A fuel cell stack according to claim 1 , wherein, when the power generating cells are viewed in the stacking direction, the distance from the first position PA to the third position PC and the distance from the second position PB to the third position PC are substantially the same. 7. A fuel cell stack according to claim 2 , wherein a plurality of the heat exchange units are provided; and in the first path, the fuel gas flows in parallel through the plurality of heat exchange units. 8. A fuel cell stack according to claim 2 , wherein the fuel gas supply path comprises a plurality of fuel gas passages extending within the fuel cell stack in the stacking direction, and connection ports that connect the fuel gas passages to the heat exchange unit and interiors of at least some of the plurality of power generating cells; and the inlets and the outlets are part of the connection ports. 9. A fuel cell stack according to claim 8 , further comprising a plurality of bolts passing through the fuel cell stack in the stacking direction and used to fix the plurality of power generating cells and the heat exchange unit, wherein the plurality of fuel gas passage are cavities formed inside the plurality of bolts. 10. A fuel cell stack according to claim 2 , wherein, when the power generating cells are viewed in the stacking direction, the distance from the first position PA to the third position PC and the distance from the second position PB to the third position PC are substantially the same.