2026-04-16T08:32:28Zhttps://repository.lib.bcit.ca/oai/requestoai:repository.lib.bcit.ca:node-16692025-05-12T18:11:38Znode:32oai_pmh:all_repository_itemsExperimental investigation of the wetting and drying potentials of wood frame walls subjected to vapor diffusion and wind-driven rain loads
This paper aims to study the effects of wind-driven rain load and vapor diffusion on the hygrothermal performance of wall systems in a wet and mild climate through a field experimental study. In the study, four test panels with a combination of vapor barrier and capillary break are manufactured, instrumented and installed in a field experimental facility. The wetting and drying potentials of the test panels in response to a predominately vapor diffusion and a wind-driven rain load are discussed based on the analysis of 15 months of measurement data. The experimental result shows that, in a yearly basis, the wetting and drying rates of a wall without a capillary break are about two times higher than that of the wall with a capillary break. While the wetting and drying rates are comparable in a wall system with a vapor barrier, the drying rate is 38% higher than the wetting rate in a wall with no vapor barrier. In general, a wall with no vapor barrier wets and also dries faster than a wall with a vapor barrier. For the wall types and climate considered in this paper, the wetting rates of walls with a predominately wetting mechanism of vapor diffusion and wind-drive rain load are comparable. In general, the experimental data suggest that even in a mild climate, vapor diffusion is a critical moisture load with comparable effect that wind-driven load induces.,Peer reviewed,Published. Received 14 February 2015, Revised 10 May 2015, Accepted 11 May 2015, Available online 19 May 2015.
2015
ISSN: 0360-1323
https://doi.org/10.1016/j.buildenv.2015.05.013
English
Tariku, Fitsum
Simpson, Ying
Iffa, Emishaw D.
Elsevier Ltd.
Text
© 2015 Elsevier Ltd. All rights reserved.
Hygrothermal effects
Durability of building materials