The Transfer Theory Application in the Thermal Insulation Materials Durability Research
- Authors: Anikanova T.V.1, Pogromsky A.S.2, Pavlenko N.V.3,4
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Affiliations:
- National Research Moscow State University of Civil Engineering
- Belgorod State Technological University named after V.G. Shukhov
- Scientific-Research Institute of Building Physics of RAACS
- Institute of Mechanics, Lomonosov Moscow State University
- Issue: No 6 (2024)
- Pages: 21-25
- Section: International Scientific Conference – XV Academic readings dedicated to the memory of Academician of RAACS Osipov G.L., "Actual problems of building physics. Energy saving. Reliability of building structures and environmental safety. Artificial Intelligence"
- URL: https://ter-arkhiv.ru/0585-430X/article/view/635019
- DOI: https://doi.org/10.31659/0585-430X-2024-825-6-21-25
- ID: 635019
Cite item
Abstract
To ensure a sufficient level of thermal protection of buildings in accordance with Federal Law 261-FZ, mass heat insulation of newly erected and existing buildings began after 2009. The issues of changing the performance indicators of thermal insulation materials over time from the standpoint of energy efficiency of buildings are of great interest. The paper considers the issues of durability of insulation used in different regions of Russia. It is proposed to use an equation based on the theory of transfer for a comparative analysis of the performance indicators of thermal insulation materials. The proposed equation makes it possible to analyze data obtained by different authors using various research methods (laboratory experiments, field tests, forecasting properties using computer modeling). Using the transfer theory, changes in the coefficient of thermal conductivity and strength of heat insulation materials are investigated based on the results of studies of materials in a climate chamber and computer modeling. It has been established that the initial rates of change processes in strength and thermal conductivity coefficient have the same orientation for the data obtained by different authors, however, in absolute values the results differ significantly from each other, perhaps this is due to the inaccuracy of the initial data. In further work, it is proposed to conduct full-scale thermal imaging studies of materials, which will make it possible to adjust the values of the initial velocity and braking coefficient for different materials, taking into account climatic conditions. The calculated values of the initial velocity and the braking coefficient of the process will make it possible to predict with high accuracy the change in the operational parameters of the material over time.
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About the authors
T. V. Anikanova
National Research Moscow State University of Civil Engineering
Author for correspondence.
Email: anik.tv@yandex.ru
Candidate of Sciences (Engineering)
Russian Federation, MoscowA. S. Pogromsky
Belgorod State Technological University named after V.G. Shukhov
Email: pogrom7@yandex.ru
Engineer
Russian Federation, BelgorodN. V. Pavlenko
Scientific-Research Institute of Building Physics of RAACS; Institute of Mechanics, Lomonosov Moscow State University
Email: nv-pavlenko@mail.ru
Candidate of Sciences (Engineering)
Russian Federation, Moscow; MoscowReferences
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