Abstract

The aim of this study is to characterize thermal insulating local material, kapok, from a study in 3 dimensions in Cartesian coordinate and in dynamic frequency regime. From a study a 3 dimensional the heat transfer through a material made of wool kapok (thermal conductivity: λ = 0.035 W/m/K; density: ρ = 12.35 kg/m³; thermal diffusivity: α = 17, 1.10-7 m²/s) is presented. The evolution curves of temperature versus convective heat transfer coefficient have helped highlight the importance of pulse excitation and the depth in the material. The thermal impedance is studied from representations of Nyquist and Bode diagrams allowing characterizing the thermal behavior from thermistors. The evolution of the thermal impedance with the thermal capacity of the material is presented.

Keywords:

Dynamic frequency regime, heat exchange coefficient, kapok, thermal impedance, thermal insulation,

References

Competing interests

The authors have no competing interests.

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Copyright

The authors have no competing interests.