The subway can transport a lot of people at a certain route at once, and the railway and the platform are underground,so it is advantageous to use the ground space efficiently. But If a fire occurs in a subway that is used by an unspecifiednumber of people, such as the Daegu Subway Fire Disaster, many casualties can occur. As a result of the previous research,it was confirmed that the performance of the ventilation system of the old subway platform was remarkably degraded. Therefore, in this study, based on the experimental results of the previous research, we confirmed the flow of the hot andCO flows according to the ventilation mode in the case of fire by three - dimensional numerical analysis. As a result, it wasfound that the old ventilation system could not maintain the hot air temperature below the reference value for 4 minutes basedon the evacuation time of the platform, and when the ventilation performance was enhanced by adding Oversized ExhaustPorts at the upper part of the platform, And the temperature of the heat flow can be maintained.