Fuel cell module

The invention claimed is: 1. A fuel cell module comprising a fuel cell stack formed by stacking electrolyte electrode assemblies and separators alternately in a stacking direction, the electrolyte electrode assemblies each including an anode, a cathode, and an electrolyte interposed between the anode and the cathode, a fuel gas channel for supplying a fuel gas along an electrode surface of the anode being formed on one surface of each of the separators, an oxygen-containing gas channel for supplying an oxygen-containing gas along an electrode surface of the cathode being formed on the other surface of each of the separators, and a fuel gas inlet for supplying the fuel gas into the fuel gas channel being formed in each of the separators; an end separator is provided at the one end in the stacking direction, adjacent to the electrolyte electrode assembly, wherein the end separator has substantially a same shape and configuration as the separators alternately stacked with the electrolyte electrode assembly in the stacking direction except that the fuel gas inlet is not formed in the end separator in order to limit supply of the fuel gas to the fuel gas channel, and the end separator includes the oxygen-containing gas channel to allow supply of the oxygen-containing gas; and a load absorption member having a shape substantially similar to that of the electrolyte electrode assembly and overlapping with the electrolyte electrode assembly in the stacking direction is provided at the other end in the stacking direction, directly adjacent to a final separator at the other end of the fuel cell stack. 2. The fuel cell module according to claim 1 , wherein the end separator is provided such that the fuel gas channel is positioned at an extreme end of the fuel cell stack in the stacking direction. 3. The fuel cell module according to claim 1 , wherein the load absorption member is a metal stack body formed by stacking a plurality of metal plates. 4. The fuel cell module according to claim 1 , wherein the load absorption member is formed by stacking a flat metal plate and a corrugated metal plate. 5. The fuel cell module according to claim 1 , wherein the load absorption member is foamed metal. 6. The fuel cell module according to claim 1 , wherein the load absorption member is mesh-like metal. 7. The fuel cell module according to claim 1 , wherein the load absorption member is a stack body formed by stacking a ceramic felt and an electrically conductive metal plate. 8. The fuel cell module according to claim 1 , wherein a load applying mechanism is provided adjacent to the end separator of the fuel cell stack for applying a load to the fuel cell stack in the stacking direction; and a fluid unit including a reformer for producing the fuel gas to be supplied to the fuel cell stack and a heat exchanger for performing heat exchange between an exhaust gas discharged from the fuel cell stack and the oxygen-containing gas is provided adjacent to the load absorption member. 9. The fuel cell module according to claim 8 , wherein the load applying mechanism and the fluid unit are provided symmetrically with respect to an axis of the fuel cell stack.