The Assessment of Details of Existing Building Structures with the Addition of a Thermally Conductive Element

The Assessment of Details of Existing Building Structures with the Addition of a Thermally Conductive Element

Kapitola, resp. kapitoly v odborné knize

The process of renovation of historical buildings is a broad topic, which includes various branches of building engineering, such as building physics, life cycle of material and buildings, energy assessment and others. In this paper, the author focuses on the prediction of the internal surface temperature factor, since its assessment is necessary for the design of the building envelope, excluding the effect of surface condensation at the corners. In the simulation program, a 2D detail of the corner in the external perimeter wall of the building structure with and without external thermal insulation composite system (ETICS) was created and a sheet of highly conductive material was added. The effect of a 1 mm thick aluminum sheet on the internal surface temperature over a time period of five years was investigated under unsteady-state conditions. The main objective of the simulation was to Investigate, in first phase, the behavior of the internal surface temperature at the corner of an external perimeter wall with ETICS, and in a second phase the behavior of internal surface temperature at the corner of an outer perimeter wall without ETICS.

The process of renovation of historical buildings is a broad topic, which includes various branches of building engineering, such as building physics, life cycle of material and buildings, energy assessment and others. In this paper, the author focuses on the prediction of the internal surface temperature factor, since its assessment is necessary for the design of the building envelope, excluding the effect of surface condensation at the corners. In the simulation program, a 2D detail of the corner in the external perimeter wall of the building structure with and without external thermal insulation composite system (ETICS) was created and a sheet of highly conductive material was added. The effect of a 1 mm thick aluminum sheet on the internal surface temperature over a time period of five years was investigated under unsteady-state conditions. The main objective of the simulation was to Investigate, in first phase, the behavior of the internal surface temperature at the corner of an external perimeter wall with ETICS, and in a second phase the behavior of internal surface temperature at the corner of an outer perimeter wall without ETICS.

Building envelope, Conductive material, Temperature factor

Building envelope, Conductive material, Temperature factor

Martin Králík, Miloš Kalousek

21.12.2025

Springer Nature Singapore

Singapore

9789819518258

Lecture Notes in Civil Engineering, Construction, Energy, Environment and Sustainability

Lecture Notes in Civil Engineering

533

540

8

https://link.springer.com/chapter/10.1007/978-981-95-1826-5_56