Stochastic homogenization and macroscopic modelling of composites and flow through porous media
Theoretical and applied mechanics, 28-29 (2002) no. 1, p. 337
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The aim of this contribution is mainly twofold. First, the stochastic two-scale convergence in the mean developed by Bourgeat et al. [13] is used to derive the macroscopic models of: (i) diffusion in random porous medium, (ii) nonstationary flow of Stokesian fluid through random linear elastic porous medium. Second, the multi-scale convergence method developed by Allaire and Briane [7] for the case of several microperiodic scales is extended to random distribution of heterogeneities characterized by separated scales (stochastic reiterated homogenization).
Józef Joachim Telega; Włodzimierz Bielski. Stochastic homogenization and macroscopic modelling of composites and flow through porous media. Theoretical and applied mechanics, 28-29 (2002) no. 1, p. 337 . doi: 10.2298/TAM0229337T
@article{10_2298_TAM0229337T,
author = {J\'ozef Joachim Telega and W{\l}odzimierz Bielski},
title = {Stochastic homogenization and macroscopic modelling of composites and flow through porous media},
journal = {Theoretical and applied mechanics},
pages = {337 },
year = {2002},
volume = {28-29},
number = {1},
doi = {10.2298/TAM0229337T},
language = {en},
url = {http://geodesic.mathdoc.fr/articles/10.2298/TAM0229337T/}
}
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