Kotov, E.V.; Nemova, D.; Sergeev, V.; Dontsova, A.; Koriakovtseva, T.; Andreeva, D. Thermal Performance Assessment of Aerogel Application in Additive Construction of Energy-Efficient Buildings. Sustainability2024, 16, 2398.
Kotov, E.V.; Nemova, D.; Sergeev, V.; Dontsova, A.; Koriakovtseva, T.; Andreeva, D. Thermal Performance Assessment of Aerogel Application in Additive Construction of Energy-Efficient Buildings. Sustainability 2024, 16, 2398.
Kotov, E.V.; Nemova, D.; Sergeev, V.; Dontsova, A.; Koriakovtseva, T.; Andreeva, D. Thermal Performance Assessment of Aerogel Application in Additive Construction of Energy-Efficient Buildings. Sustainability2024, 16, 2398.
Kotov, E.V.; Nemova, D.; Sergeev, V.; Dontsova, A.; Koriakovtseva, T.; Andreeva, D. Thermal Performance Assessment of Aerogel Application in Additive Construction of Energy-Efficient Buildings. Sustainability 2024, 16, 2398.
Abstract
The main development direction of energy efficiency technologies in construction is the creation of various materials with a complex structure and unique strength, thermal and other properties. The aerogel is a material with high porosity and excellent thermal insulation properties. This paper provides the state-of-the-art of aerogel applications for the additive manufacturing of energy efficient buildings. This work provides the experimental and numerical assessment results of thermal conductivity of aerogel-enhanced blanket, the experimental assessment results of thermal performance of aerogel-enhanced building structure, the experimental assessment results of the aerogel application as mixture powder component of the concrete mixture to printing building and the experimental assessment results of the aerogel application as parget powder component. Experimental results show the effect of aerogel powder component application: thermal conductivity decreased by 25%.
Keywords
aerogel; thermal performance; additive building structure; thermal conductivity; energy efficiency
Subject
Engineering, Civil Engineering
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.