High-temperature operation fuel cell system

What is claimed is: 1. A fuel cell system comprising: a cell stack for generating an electric power by a reaction between a fuel gas and electric power generation air; a reformer for generating the fuel gas by reforming a raw material and for supplying the fuel gas to the cell stack; a raw material supplier for supplying the raw material to the reformer; a water supplier for supplying reforming water to the reformer; an air supplier for supplying the electric power generation air to the cell stack; a combustion chamber in which an off-gas discharged from the cell stack is combusted and which heats the cell stack and the reformer by heat generated in association with the combustion; an igniter for igniting the off-gas in the combustion chamber; and a controller including a processor and a memory storing a control instruction, wherein the control instruction, when executed by the processor, in a start-up sequence, causes the controller to control the fuel cell system such that the raw material supplier supplies the raw material to the reformer, the air supplier supplies the electric power generation air to the cell stack, the igniter ignites the off-gas discharged from the cell stack, and after the ignition, the water supplier starts the supply of the reforming water to the reformer, and after the supply of the reforming water is started by the water supplier, causes the controller to further control the air supplier to increase a flow rate of the electric power generation air in a stepwise manner. 2. The fuel cell system according to claim 1 , wherein when the reformer reaches a predetermined temperature after the off-gas is ignited, the control instruction, when executed by the processor causes the controller to control the water supplier to start the supply of the reforming water to the reformer. 3. The fuel cell system according to claim 2 , wherein when the supply of the reforming water is started by the water supplier, the control instruction, when executed by the processor causes the controller to control the flow rate of the electric power generation air by the air supplier and the flow rate of the raw material by the raw material supplier so that an air excess ratio of the air relating to the combustion in the combustion chamber is 1.0 to 2.0. 4. The fuel cell system according to claim 1 , wherein the control instruction, when executed by the processor causes the controller to control the air supplier to increase the flow rate of the electric power generation air when a temperature of the reformer reaches predetermined temperatures.