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Nonisothermal moisture transport in hygroscopic building materials: modeling for the determination of moisture transport coefficients

Qin, M ., Ait-mokhtar, R. B. A. and Nilsson, L.
2007
Journal Transport in Porous Media, int) 1573-1634


Qin, M ., Ait-mokhtar, R. B. A. and Nilsson, L., (2007), "Nonisothermal moisture transport in hygroscopic building materials: modeling for the determination of moisture transport coefficients", Journal Transport in Porous Media, int) 1573-1634.
Abstract:
Menghao Qin1, Rafik Belarbi1 Contact Information, Abdelkarim Ait-Mokhtar1 and Lars-Olof Nilsson1

(1) LEPTAB, La Rochelle University, Avenue Michel Cr¨¦peau, La Rochelle, 17142, France

A mathematical model for calculating the nonisothermal moisture transfer in building materials is presented in the article. The coupled heat and moisture transfer problem was modeled. Vapor content and temperature were chosen as principal driving potentials. The coupled equations were solved by an analytical method, which consists of applying the Laplace transform technique and the Transfer Function Method. A new experimental methodology for determining the temperature gradient coefficient for building materials was also proposed. Both the moisture diffusion coefficient and the temperature gradient coefficient for building material were experimentally evaluated. Using the measured moisture transport coefficients, the temperature and vapor content distribution inside building materials were predicted by the new model. The results were compared with experimental data. A good agreement was obtained.

Keywords Nonisothermal moisture transfer - Modeling - Building materials - Moisture transport coefficients

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Author Information and Other Publications Notes
Qin, M.
  1. Coupled heat and moisture transfer in multi-layer building materials
  2. Experimental and theoretical investigation of non-isothermal transfer in hygroscopic building materials  
Ait-mokhtar, R. B. A.
     
Nilsson, L.
  1. Coupled heat and moisture transfer in multi-layer building materials
  2. Experimental and theoretical investigation of non-isothermal transfer in hygroscopic building materials  



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