Fuel cell module

The invention claimed is: 1. A fuel cell module comprising: a fuel cell stack for generating electricity by electrochemical reactions of a fuel gas and an oxygen-containing gas; a reformer for reforming a mixed gas of water vapor and a raw fuel chiefly containing hydrocarbon to produce the fuel gas, and supplying the fuel gas to the fuel cell stack; an evaporator for evaporating water, and supplying water vapor to the reformer; a heat exchanger for raising a temperature of 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 for combusting 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 a first portion of the combustion gas; and a start-up combustor for combusting the raw fuel and the oxygen-containing gas to produce a second portion of the combustion gas, wherein the fuel cell module includes a thermoelectric converter for performing thermoelectric conversion based on a temperature difference between the combustion gas and the oxygen-containing gas; further comprising a combustion gas channel for supplying the combustion gas successively to the heat exchanger, the reformer, and the evaporator; and an oxygen-containing gas channel for supplying the oxygen-containing gas from the heat exchanger to the fuel cell stack, wherein the thermoelectric converter is provided downstream of the evaporator in the combustion gas channel, and upstream of the heat exchanger in the oxygen-containing gas channel. 2. The fuel cell module according to claim 1 , wherein the oxygen-containing gas channel includes a cooling channel for cooling the start-up combustor at a position upstream of the heat exchanger; and the thermoelectric converter is provided upstream of the cooling channel. 3. The fuel cell module according to claim 2 , wherein another thermoelectric converter is provided in the start-up combustor. 4. The fuel cell module according to claim 1 , wherein the combustion gas and the oxygen-containing gas flow in the thermoelectric converter in parallel to each other, and the thermoelectric converter includes a plurality of thermoelectric conversion elements each having a different thermoelectric conversion temperature. 5. The fuel cell module according to claim 1 , wherein the combustion gas and the oxygen-containing gas flow in the thermoelectric converter in a counterflow manner, and the thermoelectric converter includes a plurality of thermoelectric conversion elements having a predetermined thermoelectric conversion temperature. 6. The fuel cell module according to claim 1 , wherein the combustion gas and the oxygen-containing gas flow in the thermoelectric converter in a manner that the combustion gas and the oxygen-containing gas intersect with each other, and the thermoelectric converter includes a plurality of thermoelectric conversion elements having a predetermined thermoelectric conversion temperature. 7. The fuel cell module according to claim 1 , wherein the combustion gas and the oxygen-containing gas flow in the thermoelectric converter symmetrically with each other, and the thermoelectric converter includes a plurality of thermoelectric conversion elements having a predetermined thermoelectric conversion temperature. 8. The fuel cell module according to claim 1 , wherein the oxygen-containing gas channel is branched into a first oxygen-containing gas supply channel for supplying the oxygen-containing gas to the heat exchanger and a second oxygen-containing gas supply channel for supplying the oxygen-containing gas to the start-up combustor; and an oxygen-containing gas regulator valve for regulating a distribution amount of the oxygen-containing gas is provided at a branch portion. 9. The fuel cell module according to claim 1 , further comprising a raw fuel channel for supplying the raw fuel to the reformer, wherein a raw fuel branch channel for supplying the raw fuel to the start-up combustor is branched from the raw fuel channel; and a raw fuel regulator valve for regulating a distribution amount of the raw fuel is provided at the branch portion. 10. The fuel cell module according to claim 1 , wherein the exhaust gas combustor is provided integrally in the heat exchanger; and the start-up combustor is provided adjacent to one end of the heat exchanger, and the reformer is provided adjacent to the other end of the heat exchanger. 11. The fuel cell module according to claim 1 , wherein the fuel cell module is a solid oxide fuel cell module.