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A platform for research: civil engineering, architecture and urbanism
Interior thermal insulation system based on hydrophilic mineral wool
An interior thermal insulation system based on hydrophilic mineral wool is presented in this paper. Basic thermal and hygric parameters of the applied materials are given. The design and development of the thermal insulation system including its verification in semiscale experiments are described. Finally, an example of the application of the designed system in the reconstruction of a historical building in Prague is shown, and the results of in situ experiments are presented. The results of all the tests performed on the functionality of the designed interior thermal insulation system based on hydrophilic mineral wool consisting of computational simulations, semiscale experiments, and the pilot-scale experiment, conclude that the good hygrothermal function of the designed system and its substantial contribution to a decrease of the heat loss was clearly evidenced. The designed system can find application in practice particularly in the field of reconstruction of historical buildings and contemporary buildings with complicated facades, where the application of exterior thermal insulation systems is impracticable. The designed system can also conveniently replace the currently used interior thermal insulation systems with vaportight layer that are susceptible to easy mechanical damage.
Interior thermal insulation system based on hydrophilic mineral wool
An interior thermal insulation system based on hydrophilic mineral wool is presented in this paper. Basic thermal and hygric parameters of the applied materials are given. The design and development of the thermal insulation system including its verification in semiscale experiments are described. Finally, an example of the application of the designed system in the reconstruction of a historical building in Prague is shown, and the results of in situ experiments are presented. The results of all the tests performed on the functionality of the designed interior thermal insulation system based on hydrophilic mineral wool consisting of computational simulations, semiscale experiments, and the pilot-scale experiment, conclude that the good hygrothermal function of the designed system and its substantial contribution to a decrease of the heat loss was clearly evidenced. The designed system can find application in practice particularly in the field of reconstruction of historical buildings and contemporary buildings with complicated facades, where the application of exterior thermal insulation systems is impracticable. The designed system can also conveniently replace the currently used interior thermal insulation systems with vaportight layer that are susceptible to easy mechanical damage.
Interior thermal insulation system based on hydrophilic mineral wool
Ein Innenwärmedämmungssystem für Altbausanierung auf der Basis von hydrophiler Mineralwolle
Pavlik, Zbysek (author) / Jirickova, Milena (author) / Pavlik, Jaroslay (author) / Cerny, Robert (author)
Journal of Buildings Physics ; 29 ; 21-35
2005
15 Seiten, 11 Bilder, 1 Tabelle, 8 Quellen
Article (Journal)
English
Altbausanierung , Digitalsimulation , Energieeinsparung , experimentelle Untersuchung , Feuchtedurchlässigkeit , Feuchtigkeitsschutz , Gebäude , Hydrophilie , Innenraum , In-Situ-Messung , Luftfeuchtigkeitsmessung , Mineralwolle , Pilotprojekt , Rekonstruktion , Wärmedämmstoff , Wärmedämmung , Wärmeeigenschaft , Wärmeschutzschicht , Wärmeverlust , Werkstoffauswahl