Patent ID: 8748049

Claim:
A fuel cell system comprising: a fuel cell including a plurality of unit cells, each of the plurality of unit cells including a reactive electrode and an internal gas flow channel configured to supply a reactive gas to the reactive electrode, wherein the reactive gas is supplied via the internal gas flow channel to thereby implement an electric generation, the electric generation by the fuel cell starting at a time that corresponds to a start point of a time-series transition of a current extracted from the fuel cell, a current sensing section configured to sense the current extracted from the fuel cell; a gas supplying section configured to supply the reactive gas to the fuel cell; a differential pressure sensing section configured to sense a differential pressure between a pressure of the reactive gas on an inlet side of the fuel cell and a pressure of the reactive gas on an outlet side of the fuel cell; a determining section programmed to calculate, based on the time-series transition, a generated water added quantity that is a quantity of generated water that has outflowed to the internal gas flow channel, determine whether a number of unit cells in which the generated water has outflowed to the internal gas flow channel is more than or equal to a determination cell number, determine whether the generated water added quantity for the number of unit cells is a total quantity of generated water, the total quantity of generated water corresponding to generated water retainable by a number of unit cells equivalent to the determination cell number, determine whether the differential pressure sensed by the differential pressure sensing section reaches a certain differential pressure between the outlet side and the inlet side of the fuel cell, the certain differential pressure being obtained when the number of unit cells in which the generated water has outflowed to the internal gas flow channel is more or equal to the determination cell number; and a controlling section programmed to start supplying the reactive gas from the gas supplying section at a first flowrate when the determining section does not determine that a variation of a reactive gas distribution quantity to individual unit cells is improved, and after a determination that the generated water has outflowed to the internal gas flow channel among a number of unit cells that is more than or equal to the determination cell number so as to improve the variation of the reactive gas distribution quantity, change a flowrate of the reactive gas supplied from the gas supplying section from the first flowrate to a second flowrate that is smaller than the first flowrate.