Fuel cell module

What is claimed is: 1. A fuel cell module comprising: a fuel cell stack formed by stacking a plurality of fuel cells configured to generate electrical energy by electrochemical reactions of a fuel gas and an oxygen-containing gas; a reformer configured to reform a raw fuel containing hydrocarbon and produce the fuel gas supplied to the fuel cell stack; an air preheater configured to heat the oxygen-containing gas by heat exchange with a combustion gas and supplying the oxygen-containing gas to the fuel cell stack; an exhaust gas combustor configured to combust the fuel gas discharged from the fuel cell stack as a fuel exhaust gas and the oxygen-containing gas discharged from the fuel cell stack as an oxygen-containing exhaust gas to produce the combustion gas; a start-up combustor configured to combust the raw fuel and the oxygen-containing gas to produce the combustion gas; and a hollow casing that is formed by outer wall surfaces and contains the fuel cell stack, the reformer, the air preheater, the exhaust gas combustor, and the start-up combustor, wherein the outer wall surfaces are formed of a plurality of hollow surface members; a single continuous fluid channel is formed by connecting spaces inside the surface members, and the fluid channel has one fluid inlet and one fluid outlet; a first surface member has the fluid inlet of the fluid channel allowing fluid to flow initially in the first surface member; and a fixing flange of a heating member that is inserted into the casing to form a heating source of the exhaust gas combustor is provided on the first surface member. 2. The fuel cell module according to claim 1 , wherein a fixing flange of a heating member that is inserted into the casing to form a heating source of the start-up combustor is provided on the first surface member. 3. The fuel cell module according to claim 1 , wherein the fluid is at least one of the fuel gas and the oxygen-containing gas to be supplied to the fuel cell stack. 4. The fuel cell module according to claim 1 , wherein a guide plate configured to guide the fluid to the fixing flange is provided inside the first surface member. 5. The fuel cell module according to claim 4 , wherein a partition plate is provided inside at least one surface member other than the first surface member for forming the fluid channel in a serpentine pattern and increasing the channel length of the fluid channel. 6. The fuel cell module according to claim 1 , wherein the fluid channel has the fluid outlet in a second surface member that is the closest to the air preheater. 7. The fuel cell module according to claim 1 , wherein the casing has a cubic shape or a rectangular parallelepiped shape including six surface members; the fluid channel has the fluid outlet in a second surface member that is a surface member among the surface members that is closest to the air preheater; and the fluid channel is formed inside at least two to four surface members other than the first surface member and the second surface member. 8. The fuel cell module according to claim 7 , further comprising an evaporator configured to evaporate water and supply water vapor to the reformer; the fuel cell stack, the reformer, the air preheater, the exhaust gas combustor, the start-up combustor, and the evaporator are assembled to form a fuel cell unit; and the fuel cell unit is fixed to only a third surface member among the surface members of the casing. 9. The fuel cell module according to claim 8 , wherein, for the fluid channel, the fluid is initially supplied into the first surface member, and then, supplied into the third surface member. 10. The fuel cell module according to claim 8 , wherein an outer shape of the fuel cell unit is same as an inner shape of the casing.