Abstract
Internal insulation is generally considered a risky solution regarding the risk of moisture-induced damage such as mould growth and wood decay, and this might particularly be problematic for half-timbered buildings due to the extensive use of wooden elements in the walls. These would be particularly exposed in the case of internal insulation. This study investigates the hygrothermal performance and the theoretical risk of mould growth in critical locations in half-timbered walls fitted with internal insulation through 2D-dimensional hygrothermal simulations. Sev-eral types of insulation systems were investigated, including diffusion-open and diffusion-tight systems. Moreover, the effect of exterior plaster to reduce rain in-trusion was investigated. The results showed potentially critical relative humidity levels at several places inside the half-timbered walls, mainly when using diffu-sion-tight systems. However, the combination with exterior plaster positively af-fected the hygrothermal performance. The direction of the wall is important, as wind-driven rain influences the performance more than the possibility of drying out inwards.
Original language | English |
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Title of host publication | Multiphysics and Multiscale Building Physics : Proceedings of the 9th International Building Physics Conference (IBPC 2024) Volume 3: Building Systems and HVAC Technologies |
Editors | Umberto Berardi |
Place of Publication | Singapore |
Publisher | International Association of Building Physics |
Publication date | 2025 |
Pages | 451–456 |
ISBN (Print) | 978-981-97-8312-0 |
ISBN (Electronic) | 978-981-97-8315-1 |
DOIs | |
Publication status | Published - 2025 |
Event | 9th International Buildings Physics Conference - Toronto Metropolitan University, Toronto, Canada Duration: 25 Jul 2024 → 27 Jul 2024 |
Conference
Conference | 9th International Buildings Physics Conference |
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Location | Toronto Metropolitan University |
Country/Territory | Canada |
City | Toronto |
Period | 25/07/2024 → 27/07/2024 |