Investigation techniques for fire prevention in low-temperature warehouses were studied using energy dispersive X-rayfluorescence (ED-XRF). In the first experiment, a sample (galvanized steel sheet plus urethane foam plus sandwich panel)was burned with 500 mL of a flammable liquid (gasoline, thinner, kerosene, and light oil)/ Then, the component changeof the sample was measured. In the combustion experiment, there was a difference in the heat of combustion dependingon the type of flammable liquid; however, as a result of measuring the component change of the sample with ED-XRFafter combustion, the largest component change was measured in the combustion experiment with gasoline. The change wasin the order of thinner, kerosene, and diesel. Using ED-XRF, it was possible to distinguish the flammable liquid used inthe experiment by measuring the component change of the sample resulting from the difference in the combustion heat ofthe flammable liquid. A second experiment was conducted under the same conditions as the first experiment, assuming afire brigade fire suppression condition, and the combustion time of the flammable liquid was limited to 600 s. A combustioncharacteristic of flammable liquids is that the temperature and heat flux reach the maximum value within 300 s after thestart of combustion regardless of the type of liquid. Because the change of composition was confirmed in the order of lightoil, it was possible to distinguish the flammable liquid used at the fire site using the ED-XRF measurement result.