Numerical model for the computation of permeability of a cemented granular material

A hybrid numerical model based on finite-element and discrete-element methods was verified for modelling the flow of granular materials in silos or bins. Laboratory experiments involving gravity flow of soybean from a parallel wall bin with length-to-width ratio of three (state of plane strain) were

As the temperature of a saturated porous medium drops, the water in the pores starts to freeze. Since the temperature at which the phase change takes place is dependent on the pore size, the permeability of the medium changes continuously. Simultaneously, due to the expansion of water on freezing, i

The paper first examines the question of uniqueness of a basic yet simplified constitutive model with strain softening. It is shown that the constitutive equations lead to a unique solution for the case of rate-dependent as well as rate-independent formulation and its implementation in finite elemen

A hybrid numerical model for the solution of bulk solids flow in silos and bins was used for the analysis of flow in symmetric and asymmetric rectangular bins. Seven analyses in symmetric bins with varying wall frictions, hopper slopes and discharge openings were carried out. In the four asymmetric