A random walk based methodology for the realistic estimation of radioactivity migration in a porous medium

A model for the migration of radioactivity in a porous medium that optimally combines the best of both the statistical and deterministic approaches is developed. To mimic the fractures and the porous matrix we resort to averaging over random samplings of the fracture length and the branching angle between two consecutive nodes of fractures. For propagation between nodes, certain computational aspects of the deterministic parallel fracture model is adopted.