Interstitial Condensation In Roof

Inside the roof wall or floor elements.

Interstitial condensation in roof.

Condensation risk analysis for the glasgow school with the dew point indicated under the membrane. In addition to providing a psychometric chart this article includes dew point calculation formulas and references to dew point and psychometric chart calculations research and psychometric chart preparation or interpretation. The position of the insulation means that the roof deck and most of its structure has no protection from low temperatures during the winter. Interstitial condensation can cause deterioration or even failure of the components of the assembly potentially shortening their useful lifespan.

It is the result of the interaction between a complex set of factors. Interstitial condensation is different from surface condensation such as that caused by cold bridging and its occurrence within the roof or wall structure of a building is difficult to detect without investigation. Interstitial condensation is a form of structural damp that occurs when warm moist air penetrates inside a wall roof or floor structure. Only through fasteners such as screws brick ties and roof screws would be at risk in such high rh environments.

Moisture will condense in this zone to form interstitial condensation. The moisture laden air can penetrate into hidden interstitial wall cavity through the exterior in a warm humid outdoor period and from inside the building during. Interstitial condensation is condensation which occurs between layers of the construction i e. When that moisture laden air reaches a layer inside the interstitial structure that is at dew point temperature it condenses into liquid water on that surface.

How to find the dew point in buildings when does moisture condense on surfaces and in cavities. Condensation in a cold roof. Interstitial condensation is a particular problem in cold deck roofs where the insulation is placed in between the joists in the void above the ceiling. Interstitial condensation commonly occurs when moist air permeates through elements of the building fabric across which there is a temperature difference typically but not always when warm moist internal air moves towards the cooler outer parts of external walls or roofs driven by a pressure difference.

Swimming pools may have dew points exceeding 60 f 15 c and hence would require more r value on the exterior to avoid interstitial condensation in cold climates. The standard of roof ventilation varies widely but the current building regulations specify that 270mm mineral wool should be used to insulate your a roof space at a minimum. The incorporation of adequate insulation and ventilation in the roof void of a cold roof construction or sufficient insulation and vapour control layer in a warm roof construction will prevent the formation of interstitial condensation in the normal range of environmental conditions experienced.