Abstract
Bio-based building materials such as earth bricks are attracting renewed interest throughout the world due to their thermal and environmental properties. In this work, a numerical study of the hygrothermal behavior of building walls consist of compressed earth bricks (CEB) and stabilized earth bricks (SEB) was performed. A two-dimensional Luikov model for evaluating the temperature and the moisture migration in porous building materials was proposed. The coupled heat and moisture transfer problem was modeled. The governing equations of a mathematical model were solved numerically with the finite difference method. Input parameters in the model and their dependency on stabilizers content were determined by laboratory experiments. In order to specify the effect of chemical stabilization on the heat and mass transfer within studied materials, average moisture content and temperature were presented as a function of time. Results show that the addition of chemical stabilizers enhances the heat transfer through the earthen materials and reduces their water vapor permeability.
Highlights
The objective of this paper is to investigate the hygrothermal behavior of earth-based walls
We presented a numerical investigation of the hygrothermal behavior of compressed earth bricks (CEB) and stabilized earth bricks with cement (SEBC) or with lime (SEBL)
The set of the results presented in this paper relates to the study of simultaneous heat and mass transfers that occur in wall made with CEB, three walls made with cement stabilized earth bricks (SEBC8, SEBC10, SEBC12) and three walls made with lime stabilized earth bricks (SEBL8, SEBL10, SEBL12)
Summary
The objective of this paper is to investigate the hygrothermal behavior of earth-based walls. In order to study coupled heat and moisture transfer within building walls, the coupled equations of Luikov's model were solved. The results allow to show the impact of chemical stabilization process on the hygrothermal behavior of studied materials. Nomenclature T: Temperature (K) w: Moisture content (Kg/Kg d.b). 2/s) D: Mass diffusivity of the porous material (m2/s) Lu: Luikov number Ko: Kosovitch number. -The initials conditions of the moisture content and temperature distribution in the wall are uniforms. -The initials conditions of the moisture content and temperature distribution in the wall are uniforms. y Te Hre Outdoor L h
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