A computer simulation program based on the finite element method was develped in order to calculate the potential and current density distribution for the electrodes in a Ni-Fe battery, through which the depth of discharge(DOD) distribution and variation with time could be predicted. The analysis on the electrodes of different aspect ratios and tab positions revealed that the aspect ratio and the tab position influence the potential and current density distribution, thus affecting the DOD distribution within the electrode. As a result, it was found that an optimization for the design of an electrode shape is necessary to make the DOD distribution more uniform and to enhance the utility of the active material of an electrode influencing the cycle life of a battery.