Temperatura di esercizio di isolanti termici in copertura: simulazioni con modello di calcolo e verifica speriemntale

The effectiveness of thermal insulation materials in roof applications is affected by the thermal impact of solar radiation. This is particularly true for flat roofs where the insulation material is applied directly under a water-proof membrane. The two most important aspects of this application are: • The high temperature levels due to solar radiation; • The significant temperature variations during the different periods of the day and of the year. This research study examined the temperature spread inside a water proof kit and in particular the maximum temperatures that can be reached in the insulation layer. The research study consisted of two phases: • Modelling: Using a calculation model, the temperature gradient was calculated for all the different layers of a typical water-proof kit configuration simulating the possible variation of several climatic parameters. • Practical validation: the real conditions on two different roofs were measured to proof the validity of the model. The study results showed that the insulation layer in contact with the external water-proof membrane of flat roofs can reach temperature peaks of more than 70°C during the period of highest solar radiation. In the hot Mediterranean climate of southern Europe, temperatures can reach 80°C. The maximum temperatures on curved roofs in more moderate climate zones can reach 67°C. The project showed daily temperature variations of close to 40°K inside the insulation material and about 50°K on the surface. These temperature peaks exceed the maximum functional temperatures of several insulation materials. With a view to guaranteeing the quality and durability of roof kits, specifiers and architects should be aware of how high temperature levels reached in zones of intensive solar radiation affect the dimensional stability of insulation material.