Abstract
To meet the increasingly stringent energy efficiency requirements, the market share of timber frame houses is steadily growing across Europe. Timber frame walls in Belgium are typically combined with a brick veneer cladding, which has a high buffer capacity for wind driven rain and a relative low cavity ventilation rate. Consequently, moisture levels inside the cavity may become high, which might lead to an inward vapour flow and an elevated moisture content in the inner part of the wall. In combination with a moisture sensitive timber frame inner wall, this could result in an increased risk of fungal growth. Therefore, the aim of the current paper is to study the hygrothermal performance of timber frame walls with brick veneer cladding in a moderate sea climate. To do so, a field study on two typical timber frame walls with brick veneer cladding is conducted. The field study specifically focuses on the contradictory criterion for the vapour diffusion resistance of the wind barrier for summer and winter conditions. The data of the in-situ measuring campaign indicates that the differences between set-ups with wind barriers with different vapour diffusion resistance is rather limited. In addition, a parameter analysis is conducted using a numerical model. The parameter analysis indicates an increased mould growth risk due to the brick veneer cladding and the importance of providing hygroscopic moisture buffer capacity inside the wall.
Highlights
Building enclosures protect the indoor environment from exterior environmental loads
The relative humidity at the interface between insulation and wind barrier for the vapour open set-up is even regularly higher compared to the vapour tight setup
The cavity vapour pressure is often higher than the indoor vapour pressure, which in that case makes a more vapour tight wind barrier more beneficial to reduce the moisture levels at its interface with the insulation layer
Summary
Building enclosures protect the indoor environment from exterior environmental loads. BBRI [2], the Belgian Building Research Institute, recommends the interior sheathing to be 6 to 15 times more vapour tight than the exterior one This design principle is obviously based on cold climates [3,4], not considering a possible inward vapour flow. In moderate European climates, mainly an outward vapour flow will take place through the building component in winter conditions, while in summer conditions solar driven inward vapour transport may occur. This leads to a contradictory criterion for the vapour diffusion resistance of the exterior and interior sheathing.
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