Fuel cell system and control method for fuel cell system

1 .- 8 . (canceled) 9 . A control method for a fuel cell system that comprises a fuel cell including a cell stack configured to have a reforming catalyst for generating hydrogen from hydrocarbon, a first flow path configured to supply a fuel containing hydrocarbon to the cell stack, and a second flow path configured to supply an oxidant gas to the cell stack such that the oxidant gas flows oppositely or orthogonally to the fuel, the control method comprising: detecting a temperature of a discharged oxidant gas that is the oxidant gas discharged from the second flow path; and performing a temperature control of the fuel cell based on the temperature of the discharged oxidant gas when partial oxidation reforming occurs in the cell stack by supplying air to the first flow path. 10 . The control method for a fuel cell system according to claim 9 , wherein: the fuel cell system further includes a fuel flow rate adjustment device configured to adjust a flow rate of the fuel to be supplied to the fuel cell, and an air flow rate adjustment device configured to adjust a flow rate of air to be mixed with the fuel, wherein controlling the flow rate of the fuel and the flow rate of the air such that a heat generation by partial oxidation reforming in the cell stack becomes a predetermined target heat generation based on the temperature of the discharged oxidant gas. 11 . The control method for a fuel cell system according to claim 10 , wherein: setting the target heat generation such that the temperature of the discharged oxidant gas does not exceed a heatproof limit temperature of the reforming catalyst in the temperature control of the fuel cell. 12 . The control method for a fuel cell system according to claim 10 , wherein: performing the temperature control of the fuel cell when the temperature of the discharged oxidant gas is equal to or higher than a temperature at which partial oxidation reforming is possible in the cell stack. 13 . A fuel cell system, comprising: a first fuel cell comprising a cell stack configured to have a reforming catalyst for generating hydrogen from hydrocarbon, a first flow path configured to supply a fuel containing hydrocarbon to the cell stack, and a second flow path configured to supply an oxidant gas to the cell stack such that the oxidant gas flows oppositely or orthogonally to the fuel; a temperature sensor configured to detect a temperature of a discharged oxidant gas that is the oxidant gas discharged from the second flow path; and a controller configured to perform a temperature control of the first fuel cell based on the temperature of the discharged oxidant gas when partial oxidation reforming occurs in the cell stack by supplying air to the first flow path. 14 . The fuel cell system according to claim 13 , further comprising: a second fuel cell to which the fuel discharged from the first fuel cell is supplied. 15 . The fuel cell system according to claim 14 , wherein: an oxidant gas discharged from the second fuel cell is supplied to the first fuel cell. 16 . The fuel cell system according to claim 14 , wherein: the second fuel cell has less reforming catalyst than the first fuel cell.