| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1707651 | Applied Mathematics Letters | 2015 | 6 Pages |
We consider transport of neutral species interacting under a potential of mean force with randomly placed, rigid spherical obstacles. Generally, this kind of transport problems are studied as so-called perforated domain problems, where one imposes no-flux or reaction boundary conditions on the pore walls forming the interface between the pore and the solid phase. Here, we advocate a general framework that replaces the perforated domain formulation with interaction energies as well as with characteristic and scale-dependent randomness of materials. Our framework provides both well-posed effective macroscopic equations for highly heterogeneous situations and a full scale description for weakly heterogeneous materials for which we present first computational results.
