Geodesic
On computation of the effective thermal conductivity of building bricks with hollow spaces
Matematičeskoe modelirovanie, Tome 17 (2005) no. 9, pp. 77-84.

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The effective thermal conductivity is introduced to describe heat transfer properties of modern building materials (ceramic bricks) with hollow spaces. The approach to compute this magnitude is discussed and it is shown that the effective thermal conductivity is appeared to be twice or more times smaller then the local thermal conductivity. The influence of some accessory factors is also considered. 
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     title = {On computation of the effective thermal conductivity of building bricks with hollow spaces},
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V. È. Grikurov; L. V. Ivanov; S. Yu. Slavyanov; R. V. Trepkov; S. A. Fursenko. On computation of the effective thermal conductivity of building bricks with hollow spaces. Matematičeskoe modelirovanie, Tome 17 (2005) no. 9, pp. 77-84. http://geodesic.mathdoc.fr/item/MM_2005_17_9_a6/

[1] V. S. Belyaev, L. P. Khokhlova, Proektirovanie energoekonomichnykh i energoaaktivnykh grazhdanskikh zdanii, Vysshaya shkola, M., 1991, 255 pp. | MR

[2] K. Liersch, N. Langer, EnEV-Praxis, Bauwerk Verlag, Berlin, 2002, 256c | MR

[3] G. Lohmeyer, Praktische Bauphysik, Teubner Verlag, Stuttgar–Leipzig–Wiesbaden, 2001, 705 pp. | MR

[4] E. M. Kartashev, Analiticheskie metody v teorii teploprovodnosti tverdykh tel, Vysshaya shkola, M., 2001, 550 pp. | MR

[5] A. D. Khudyakov, Teplozaschita zdanii v severnykh usloviyakh, M., 2001, 77 pp. | MR

[6] T. Muneer, J. Kubic, T. Grassie, Heat Transfer, Taylor Francis, New York and London, 2003, 353 pp. | MR

[7] C. Johnson, K. Eriksson, “Adaptive Finite Element Methods for Parabolic Problems I: A Linear Model Problem”, SIAM J. Numer. Anal., 28 (1991), 43–77 | DOI | MR | Zbl