Fuel cell system and method of recoverying cell voltage thereof

What is claimed is: 1 . A fuel cell system including a fuel battery composed of a plurality of cells, the fuel cell system comprising cell voltage recovery unit configured to increase an amount of power generation in the case where a difference in water content between some and others of the cells is greater than a predetermined value. 2 . The fuel cell system according to claim 1 , wherein the cell voltage recovery unit configured to cause the fuel battery to perform operation in which the amount of power generation exceeds that in the normal operation in the case where a first condition is satisfied such that the difference in water content between some and others of the cells is greater than the predetermined value. 3 . The fuel cell system according to claim 2 , wherein the first condition is that a cell voltage difference ΔV, which is a difference between an average cell voltage Va and a minimum cell voltage Vb, is greater than a first threshold value. 4 . The fuel cell system according to claim 3 , wherein the cell voltage recovery unit configured to stop cell voltage recovery control in the case where the cell voltage difference ΔV between the average cell voltage Va and the minimum cell voltage Vb decreases to the first threshold value or less after satisfying the first condition and then a state where the cell voltage difference ΔV is smaller than a second threshold value, which is smaller than the first threshold value, has continued for a predetermined time or longer. 5 . The fuel cell system according to claim 2 , wherein the first condition is that a difference in water content between end cells and central cells obtained by calculation is greater than a predetermined value. 6 . The fuel cell system according to claim 1 , wherein the cell voltage recovery unit configured to increases the flow rate of the oxidation gas in synchronization with increasing the amount of power generation. 7 . The fuel cell system according to claim 2 , wherein the cell voltage recovery unit configured to increases the flow rate of the oxidation gas in synchronization with increasing the amount of power generation. 8 . The fuel cell system according to claim 3 , wherein the cell voltage recovery unit configured to increases the flow rate of the oxidation gas in synchronization with increasing the amount of power generation. 9 . The fuel cell system according to claim 4 , wherein the cell voltage recovery unit configured to increases the flow rate of the oxidation gas in synchronization with increasing the amount of power generation. 10 . The fuel cell system according to claim 5 , wherein the cell voltage recovery unit configured to increases the flow rate of the oxidation gas in synchronization with increasing the amount of power generation. 11 . A method of recovering a cell voltage of a fuel cell system including a fuel battery composed of a plurality of cells, comprising the step of increasing an amount of power generation in the case where a difference in water content between some and others of the cells is greater than a predetermined value. 12 . The method of recovering the cell voltage of the fuel cell system according to claim 11 , wherein the fuel battery is caused to perform operation in which the amount of power generation exceeds that in the normal operation in the case where a first condition is satisfied such that the difference in water content between some and others of the cells is greater than the predetermined value to reduce a cell voltage difference ΔV between an average cell voltage Va and a minimum cell voltage Vb. 13 . A fuel cell system comprising: a fuel cell which has a plurality of cells; a cell monitor which detects cell voltage of the cells; and a control device, wherein the control device comprises: a cell voltage determination unit configured to determine whether a voltage difference between an average voltage of the cells and a minimum cell voltage Vb of the cells, which has been detected by the cell monitor, has reached a predetermined threshold value or greater; an output current control unit configured to perform power generation of a predetermined value or greater so that a water content difference between the cells is reduced in the case where the cell voltage determination unit determines that the voltage difference between the average voltage of the cells and the minimum cell voltage Vb of the cells is equal to or greater than the predetermined threshold value; and an air flow rate increase processor unit configured to perform an increase process of the air flow rate of the fuel cell so that the water content difference between the cells in synchronization with an increase in power generation is reduced in a case where the cell voltage determination unit determines that the voltage difference between the average voltage of the cells and the minimum cell voltage Vb of the cells is equal to or greater than the predetermined threshold value.