Thermophysical Properties of Aerated Concrete Enclosing Structures: Fid-Bau Portal

Thermophysical Properties of Aerated Concrete Enclosing Structures

Barysheva, Olga / Barysheva, Alina

In construction, a transition to new effective enclosing structures that meet the requirements of modern standards in terms of heat engineering characteristics is underway. Multilayer enclosing structures are often used with the use of heat-insulating materials with a porous structure, which have good heat-shielding properties, and can reduce the thickness and weight of the enclosing structures. The operational properties of such structures and their durability are largely determined by the moisture conditions of the materials. The main goal was to determine heat and moisture transfer in aerated concrete enclosing structures in order to ensure a given temperature regime in the premises. The achievement of this goal was associated with the solution of the following tasks: conducting an experimental study, modeling heat transfer using the example of autoclaved aerated concrete based on the Elcut software package; calculation of the moisture state of structures made of autoclaved aerated concrete at various values of moisture content of aerated concrete blocks. Under various heat and humidity conditions, the characteristics of heat transfer in autoclaved aerated concrete have been experimentally found. Using the Elcut program, models of heat transfer in enclosing structures made of autoclaved aerated concrete were obtained using various brands of autoclaved aerated concrete. The computational substantiation of multilayer building envelopes made of aerated concrete with optimal design solutions to ensure a comfortable thermal and humidity regime in the premises has been carried out.