As the use of eco-friendly vehicles, such as electric and hydrogen vehicles, is rapidly increasing, the related infrastructureis also expanding, and they have become common in parking areas. The fire safety design of a car park is based on theexisting data of internal combustion engine vehicles; therefore, the characteristics of eco-friendly vehicles must be reflected. This study investigated the heat release rate of internal combustion engine vehicles, electric vehicles, and hydrogen vehiclesusing real-scale fire test data and analyzed the effects of curb weight and battery capacity. The fire growth rate andmaximum heat release rate of electric and hydrogen vehicles were similar to those of internal combustion engine vehicles,except for the batteries and hydrogen gas, which are the energy sources of electric and hydrogen vehicles, respectively. When ignited from the battery of an electric vehicle, the fire grew rapidly. When the thermally activated pressure reliefdevice was activated in the storage vessel of a hydrogen vehicle, the heat release rate instantaneously increased to 14.5 MW. To improve fire safety in car parks, the curb weight and fire resistance structure must be designed to reflect the increasein plastic interior materials and battery capacity of vehicles, and firefighting facilities must be installed based on vehicleswith greater fire severity.