tambov, Russian Federation
Tambov, Russian Federation
Tambov, Tambov, Russian Federation
By means of full-scale tests of frame-panel walls with a various insulation materials, performed during three heating periods, a 3-fold increase in the humidity of expanded polystyrene foam and an increase in its thermal conductivity by 23% was found. Its using efficiency in such panels is 20% lower compared to mineral wool slabs and extruded polystyrene slabs.
humidity, full-scale tests, frame-panel walls, temperature, thermal conductivity, insulation, energy consumption
1. Zaborova, D.D. & Musorina, T.A. (2022) Environmental and energy-efficiency considerations for selecting building envelopes, Sustainability, 14(10), pp. 5914 [online]. Available at: https://doi.org/10.3390/su14105914
2. Ivantsov, A.I. (2018) Comparative longevity of enclosing structures depending on climatic conditions and architectural and constructive characteritcs of buildings, IOP Conference Series: Materials Science and Engineering, 022077. DOI:https://doi.org/10.1088/1757-899X/463/2/022077.
3. Gamayunova, O., Musorina, T., Petrichenko, M. & Goremikins, V. (2020) Warming of panel houses in various climatic zones, Proceedings of EECE 2019. Energy, Environmental and Construction Engineering. Cham., pp. 253-263. DOI:https://doi.org/10.1007/978-3-030-42351-3_22.
4. Dileep Kumar, Morshed Alam, Patrick X.W. Zou, Jay G. Sanjayan & Rizwan Ahmed Memon (2020) Comparative analysis of building insulation material properties and performance, Renewable and Sustainable Energy Reviews, 131, 110038 [online]. Available at: https://doi.org/10.1016/j.rser.2020.110038
5. Yarcev, V.P., Strulev, S.A. & Mamontov, A.A. (2015) Justification of the choice of heat-insulating materials for protecting designs of the frame and panel board building, Nauchnyj vestnik Voronezhskogo gosudarstvennogo arhitekturno-stroitel'nogo universiteta. Seriya: Fiziko-himicheskie problemy i vysokie tekhnologii stroitel'nogo materialovedeniya, 1(10), pp. 15-20 (in Russian).
6. Mamontov, S.A. & Kiseleva, O.A. (2011) The influence of the ageing process on the structure and characteristics of the polysterene foam, Plasticheskie massy, (5), pp. 3-5 (in Russian).
7. Fokin, K.F. (1973) Construction heat engineering of enclosing parts of buildings. M.: Stroyizdat (in Russian).
8. Mıhlayanlar, E., Dilmaç, Ş. & Güner, A. (2008) Analysis of the effect of production process parameters and density of expanded polystyrene insulation boards on mechanical properties and thermal conductivity. Materials & Design. 29(2), pp. 344-352 [online]. Available at: https://doi.org/10.1016/j.matdes.2007.01.032
9. Egorova, E.I. & Koptenarmusov, V.B. (2005) Fundamentals of polystyrene plastics technology. St. Petersburg: HIMIZDAT (in Russian).
10. Anoshin, N.M., Arakelyan, A.S. Benogonyan, N.V. & [et al.]. (2019) Solving problems in the field of energy efficiency. Yekaterinburg: Publishing house "Agraf" (in Russian).
