Fuel cell system

The invention claimed is: 1. A fuel cell system comprising a fuel cell for generating electric power while receiving supplies of an anode gas and a cathode gas and a circulation mechanism configured to supply an anode off-gas discharged from the fuel cell to the fuel cell, the fuel cell system further comprising: a wetness target value calculating unit programmed to calculate a wetness target value of a wet state of the fuel cell; a cathode gas required flow rate calculating unit programmed to calculate a cathode gas required flow rate on the basis of a power generation request to the fuel cell; a wetness-control anode gas flow rate calculating unit programmed to calculate a wetness-control anode gas circulation flow rate at least on the basis of the wetness target value and the cathode gas required flow rate during a dry control; an anode gas flow rate control unit programmed to control an anode gas circulation flow rate on the basis of the wetness-control anode gas circulation flow rate; a wetness-control cathode gas flow rate calculating unit programmed to calculate a wetness-control cathode gas flow rate at least on the basis of the wetness target value and a measured value or estimated value of the anode gas circulation flow rate during the dry control; and a cathode gas flow rate control unit programmed to control a cathode gas flow rate on the basis of the cathode gas required flow rate and the wetness-control cathode gas flow rate. 2. The fuel cell system according to claim 1 , wherein the anode gas flow rate control unit is programmed to carry out control to, during dry control, decrease the anode gas circulation flow rate, and the cathode gas flow rate control unit is programmed to carry out a control to increase the cathode gas flow rate after the control of the anode gas flow rate control unit. 3. The fuel cell system according to claim 1 , wherein the cathode gas required flow rate calculating unit is programmed to calculate an anode gas required circulation flow rate on the basis of the power generation request to the fuel cell; wherein the wetness-control cathode gas flow rate calculating unit is programed to calculate the wetness-control cathode gas flow rate at least on the basis of the wetness target value and the anode gas required circulation flow rate during a wet control; and wherein the wetness-control anode gas flow rate calculating unit is programmed to calculate the wetness-control anode gas circulation flow rate at least on the basis of the wetness target value and a measured value or estimated value of the cathode gas flow rate during the wet control. 4. The fuel cell system according to claim 3 , wherein the cathode gas flow rate control unit is programmed to carry out, during wet control, control to decrease the cathode gas flow rate, and the anode gas flow rate control unit is programmed to carry out a control to increase the anode gas circulation flow rate after the control of the cathode gas flow rate control unit. 5. The fuel cell system according to claim 1 , wherein the wetness-control anode gas flow rate calculating unit is programmed to calculate the wetness-control anode gas circulation flow rate on the basis of the wetness target value and a measured value or estimated value of the cathode gas flow rate in a case where execution of a flow rate control by the cathode gas flow rate control unit is impossible during the dry control. 6. The fuel cell system according to claim 1 , wherein the wetness-control cathode gas flow rate calculating unit is programmed to calculate the wetness-control cathode gas flow rate on the basis of the wetness target value and the measured value or estimated value of the anode gas circulation flow rate in a case where execution of a circulation flow rate control by the anode gas flow rate control unit is impossible during a wet control.