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    Modeling the hygrothermal behavior of biobased construction materials

    New search for: Dubois, Samuel
    New search for: Evrard, Arnaud
    New search for: Lebeau, Frederic

    Materials with high moisture exchange capacity may have a strong impact on indoor climate conditions as well as building energy performance. Crop-based materials, characterized by their high porosity and hygroscopicity, belong to this category. Modeling their hygrothermal behavior accurately is thus particularly relevant for appropriate building design. A COMSOL Multiphysics transient heat air and moisture model is developed in this article to simulate moisture exchange between a lime–hemp concrete block and surrounding air during a Moisture Buffer Value evaluation test. Results are then compared with the validated heat air and moisture software using performance criteria showing a slight preference for both moisture exchanges and latent heat effect characterization. It offers yet additional advantages in terms of flexibility and transparency as well as further evolution potential.

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    Modeling the hygrothermal behavior of biobased construction materials

    New search for: Dubois, Samuel
    New search for: Evrard, Arnaud
    New search for: Lebeau, Frederic

    Materials with high moisture exchange capacity may have a strong impact on indoor climate conditions as well as building energy performance. Crop-based materials, characterized by their high porosity and hygroscopicity, belong to this category. Modeling their hygrothermal behavior accurately is thus particularly relevant for appropriate building design. A COMSOL Multiphysics transient heat air and moisture model is developed in this article to simulate moisture exchange between a lime–hemp concrete block and surrounding air during a Moisture Buffer Value evaluation test. Results are then compared with the validated heat air and moisture software using performance criteria showing a slight preference for both moisture exchanges and latent heat effect characterization. It offers yet additional advantages in terms of flexibility and transparency as well as further evolution potential.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Modeling the hygrothermal behavior of biobased construction materials

    New search for: Dubois, Samuel
    New search for: Evrard, Arnaud
    New search for: Lebeau, Frederic

    Materials with high moisture exchange capacity may have a strong impact on indoor climate conditions as well as building energy performance. Crop-based materials, characterized by their high porosity and hygroscopicity, belong to this category. Modeling their hygrothermal behavior accurately is thus particularly relevant for appropriate building design. A COMSOL Multiphysics transient heat air and moisture model is developed in this article to simulate moisture exchange between a lime–hemp concrete block and surrounding air during a Moisture Buffer Value evaluation test. Results are then compared with the validated heat air and moisture software using performance criteria showing a slight preference for both moisture exchanges and latent heat effect characterization. It offers yet additional advantages in terms of flexibility and transparency as well as further evolution potential.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Access

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    Document information
    Title:

    Modeling the hygrothermal behavior of biobased construction materials

    Contributors:

    Dubois, Samuel (author) / Evrard, Arnaud (author) / Lebeau, Frederic (author)

    Published in:

    Journal of Buildings Physics ; 38 ; 191-213

    Publication date:

    2014

    Size:

    23 Seiten, 28 Quellen

    ISSN:

    1744-2591

    DOI:

    https://doi.org/10.1177/1744259113489810

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    latente Wärme , Austausch , Feuchtigkeit , Baumaterial , Raumklima , Wasseraufnahmevermögen , Porosität

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