Özet:

The energy performance of the building is related to the thermophysical properties of the materials which they are constructed. Thermal effusivity is a thermophysical property of the materials that depends on the thermal conductivity value (λ, W/mK), specific heat (c, J/kgK) and density (ρ, kg/m3). Thermal athalet gives information about the thermal behaviour of the material at different heat conditions. While the surface temperature of a low thermal inertia material changes very rapidly under the effect of a temperature changing environment, the surface temperature of a high thermal inertia material changes more slowly. In this study, the thermal properties of an existing building facades were investigated by quantitative infrared thermography method. The west (ÇA1) and north (ÇA2) facades of the building have been chosen as the study area. The study was conducted between 07:00 am and 19:30 pm, on a sunny day in July. Thermal images were taken per hour of study areas coded as CA1 and CA2; thermal maps of the study areas were created with this thermal images. The thermal parameters such as temperature difference (ΔT), rate of warming up (RW) and ratio of the rate of warming up between the defect area and sound area (RWDEFECT / RWSOUND) were obtained with the surface temperature on thermal maps. The thermal properties of the materials using in building facades were examined by these thermal parameters In addition, the thermal defects areas in the study regions were determined and these defects areas were evaluated with quantitative data. The result of the study has shown that materials with high thermal inertia have lower rate of warming up data. It has been determined that the heating rate of the defect areas warming up faster than the reference areas.

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