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Modeling and database development of conductive and apparent thermal conductivity of moist insulation materials
Computer simulation and modeling of coupled heat and moisture transfer are becoming increasingly significant for accurate calculations of heat and moisture transfer. However, to solve their equations, the true component, Lambda, of apparent thermal conductivity, Lambdaapp, as a function of temperature, moisture content, and material structure is required. An approach to the development of a comprehensive database for Lambda is discussed. Its key feature is demonstrated by the development of a theoretical model for Lambda and Lambdaapp of two common building insulation materials - expanded polystyrene insulation and highly porous calcium silicate - for a wide range of temperature and moisture conditions.
Modeling and database development of conductive and apparent thermal conductivity of moist insulation materials
Computer simulation and modeling of coupled heat and moisture transfer are becoming increasingly significant for accurate calculations of heat and moisture transfer. However, to solve their equations, the true component, Lambda, of apparent thermal conductivity, Lambdaapp, as a function of temperature, moisture content, and material structure is required. An approach to the development of a comprehensive database for Lambda is discussed. Its key feature is demonstrated by the development of a theoretical model for Lambda and Lambdaapp of two common building insulation materials - expanded polystyrene insulation and highly porous calcium silicate - for a wide range of temperature and moisture conditions.
Modeling and database development of conductive and apparent thermal conductivity of moist insulation materials
Modellierung und Zusammenstellung einer Datenbank der leitenden und scheinbaren Wärmeleitfähigkeit von feuchten Wärmeisolierungswerkstoffen
Mar, Jonathan D. (author) / Litovsky, Efim (author) / Kleiman, Jacob (author)
Journal of Buildings Physics ; 32 ; 9-31
2008
23 Seiten, 7 Bilder, Quellen
Article (Journal)
English
Baustoff , Calciumsilicat , Datenbank , EPS-Polystyrol , Feuchtegehalt , Feuchtigkeitsgehalt , Feuchtigkeitstransport , Konzentrationseinfluss , mathematisches Modell , poröser Werkstoff , Temperaturabhängigkeit , Temperaturbereich , theoretisches Modell , Theorie-Experiment-Vergleich , Wärmedämmstoff , Wärmeleitfähigkeit , Wärmeübertragung , Werkstoffgefüge
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