External walls design: The role of periodic thermal transmittance and internal areal heat capacity

Recent studies have shown that considering the values of superficial mass (Ms) and periodic thermal transmittance (Ymn) of external walls is not sufficient to achieve energy savings, particularly in summer. For this reason experimental reference values of the internal areal heat capacity (k1) were introduced.This study aims to understand the interdependency between some thermal parameters (U, Ms, φ, Fa, Ymn, k1) of massive and lightweight walls with respect to their energy performance in use in office buildings in Southern Europe. The study has analyzed eight walls with Italian standard U and Ymn values. These walls have been then modified in order to reach k1 values corresponding to the reference ones. The energy demand to ensure a defined level of indoor thermal comfort has been verified with thermodynamic simulations on a virtual test-room localized in two Italian cities, characterized by different climate conditions.The research results are: to develop design change strategies for external walls to achieve the k1 reference values; to quantify the thermal annual energy demand of a virtual test-room equipped with the sample walls and then equipped with the improved walls; to compare the energetic and economic impact for the improved walls against the sample ones.

► Thermal analysis of 8 sample external wall.
► Relationship between periodic transmittance and internal areal heat capacity.
► Design strategies for improved thermal performance of the sample walls.
► Thermodynamic simulation of the sample and improved walls in a virtual test-room.
► Energy and cost saving evaluation of improved walls vs. sample walls.