Fuel cell system and method for stopping power generation in fuel cell system

What is claimed is: 1. A fuel cell system comprising: a fuel cell that generates electric power through an electrochemical reaction between an oxygen-containing gas, which is supplied to a cathode, and a fuel gas, which is supplied to an anode; an oxygen-containing gas supply device for supplying the oxygen-containing gas to the fuel cell; and a fuel gas supply device for supplying the fuel gas to the fuel cell, wherein the oxygen-containing gas supply device comprises: an oxygen-containing gas supply flow passage that communicates with an oxygen-containing gas inlet of the fuel cell; an oxygen-containing gas discharge flow passage that communicates with an oxygen-containing gas outlet of the fuel cell; a compressor disposed in the oxygen-containing gas supply flow passage; a supply flow passage sealing valve disposed in the oxygen-containing gas supply flow passage at a location downstream from the compressor; a discharge flow passage sealing valve disposed in the oxygen-containing gas discharge flow passage; and a discharge fluid circulation flow passage connected to the oxygen-containing gas discharge flow passage at a location upstream from the discharge flow passage sealing valve, while also connecting to the oxygen-containing gas supply flow passage at a location upstream from the compressor, wherein the discharge fluid circulation flow passage is configured to allow the oxygen-containing gas to flow from the oxygen-containing gas discharge flow passage to the oxygen-containing gas supply flow passage. 2. The fuel cell system according to claim 1 , wherein a circulation flow passage valve is disposed in the discharge fluid circulation flow passage. 3. The fuel cell system according to claim 1 , wherein a humidifier is arranged to straddle between the oxygen-containing gas supply flow passage and the oxygen-containing gas discharge flow passage. 4. The fuel cell system according to claim 3 , wherein the supply flow passage sealing valve is disposed in the oxygen-containing gas supply flow passage at a location upstream from the humidifier, whereas the discharge flow passage sealing valve is disposed in the oxygen-containing gas discharge flow passage at a location downstream from the humidifier. 5. The fuel cell system according to claim 1 , wherein the discharge flow passage sealing valve is capable of adjusting a degree of opening at least between a completely open state, and a minutely open state for maintaining a required flow rate to thereby raise the pressure on a side of the cathode above ordinary pressure and to thereby consume all of an oxygen component, and further comprising: a circulation flow passage valve disposed in the discharge fluid circulation flow passage; and a control device for controlling the discharge flow passage sealing valve to be placed in the minutely open state when the circulation flow passage valve is opened. 6. The fuel cell system according to claim 1 , wherein the fuel gas supply device comprises a fuel gas supply flow passage that communicates with a fuel gas inlet of the fuel cell; and one end of a branch passage communicates with the oxygen-containing gas supply flow passage at a location downstream from the supply flow passage sealing valve, and another end of the branch passage communicates with the fuel gas supply flow passage. 7. The fuel cell system according to claim 1 , wherein an expander turbine is disposed in the oxygen-containing gas discharge flow passage at a location downstream from the discharge flow passage sealing valve; and the expander turbine is connected to and is capable of transmitting power to the compressor.