Physical modeling of heat and moisture transfer in wet bio-sourced insulating materials

Simultaneous heat and moisture transfers in bio-sourced insulating materials are significant phenomena in thermal metrology. The present study focuses on these phenomena by experimental and numerical approaches based on the asymmetric hot-plate method. In this paper, a bio-sourced insulating materia...

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Bibliographic Details
Published in:Review of scientific instruments 2018-10, Vol.89 (10), p.104902-104902
Main Authors: Aghahadi, Mohammad, Padayodi, Essolé, Abboudi, Saïd, Bahrani, S. Amir
Format: Article
Language:English
Subjects:
Atmospheric models
Finite difference method
Flax
Heat conductivity
Heat transfer
Insulation
Mathematical models
Moisture
Parameter estimation
Parameter sensitivity
Relative humidity
Scientific apparatus & instruments
Simulation
Thermal conductivity
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Summary:Simultaneous heat and moisture transfers in bio-sourced insulating materials are significant phenomena in thermal metrology. The present study focuses on these phenomena by experimental and numerical approaches based on the asymmetric hot-plate method. In this paper, a bio-sourced insulating material based on flax fibers is developed. The thermal and hygric properties of the sample are then investigated in the humid atmosphere. The temperature is maintained at 30 °C, and the relative humidity varies between 30% and 90% RH. A physics-based model of simultaneous heat and moisture transfer is developed for thermal conductivity estimation. This model is discretized with finite difference methods and implanted in MATLAB®. With the Levenberg-Marquardt algorithm, the thermal conductivity of the sample in different hygrothermal conditions is estimated and confirmed by experimental results. The reduced sensitivity of the model to estimated parameters is studied. The results confirm and validate the theoretical and the experimental results.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.5047049