A comparison of the hygric performance of interior insulation systems: A hot box–cold box experiment

• The hygric behaviour of interior insulation is studied for a winter condition.
• A capillary active system results in an accumulated moisture content in the wall.
• The glue mortar in the capillary active system can store a large amount of moisture.
• To avoid interstitial condensation, a vapour tight system is preferable.
• The X-ray projection method is a useful technique to study the moisture in the wall.

To increase the thermal performance of massive masonry walls, exterior or interior insulation can be used. The latter insulation technique is the most risky, though forms for example in cases of historical buildings, buildings with a worth-preserving facade or buildings in the urban context the only solution to increase the thermal performance of the wall.The current article compares the hygric performance of massive masonry walls provided with different interior insulation systems. To do so, small test walls are placed all together in a single hot box–cold box. The total moisture increase in the walls is measured by weighing the test walls. In addition, to investigate the working principle of the insulation systems the moisture distribution across the wall assemblies is investigated using the X-ray projection method. In the analysis capillary active as well as more standard non-capillary active insulation systems are investigated. For the imposed quasi steady-state winter condition, the increase of stored moisture inside walls with a capillary active system is found to be higher than for walls with a traditional vapour tight system.