Numerical homogenization of mesoscopic loss in poroelastic media
Artikel i vetenskaplig tidskrift, 2015

This contribution deals with the numerical homogenization of mesoscopic flow phenomena in fluid-saturated poroelastic media. Under compression, mesoscopic heterogeneities induce pore pressure gradients and consequently pressure diffusion of the pore fluid. Since this process takes place on a scale much smaller than the observable level, the dissipation mechanism is considered as a local phenomenon. The heterogeneous poroelastic medium is substituted by an overall homogeneous Cauchy medium accounting for viscoelastic properties. Applying volume averaging techniques we derive a consistent upscaling procedure based on an appropriate extension of the Hill-Mandel lemma. We introduce various sets of boundary conditions for the poroelastic problem and discuss the relation between size of the SVEm (Statistical Volume Element) and maximum diffusion length. Numerical examples for two- and three-dimensional problems are given.

Numerical homogenization

Mesoscopic loss



Ralf Jänicke

Ruhr-Universität Bochum

Beatriz Quintal

Université de Lausanne

Holger Steeb

Ruhr-Universität Bochum

European Journal of Mechanics, A/Solids

0997-7538 (ISSN)

Vol. 49 382-395


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