Home – Home – Jornals – Journal of Mining Sciences 2023 number 4

The experimental procedure is developed and tested on a laboratory scale and using layered samples of manmade geomaterials. Within the dual-permeability model, the procedure enables determining parameters that govern fluid flow and poroelastic deformation in fractured porous rock masses, namely, fracture permeability k₁ and mass transfer coefficient β, as well as their dependence on stresses σ. The testing procedure is proposed and implemented. In the procedure, under the stepwise increasing normal stress σ, the stationary flow rates Q₁(σ) and Q₂(σ) are measured in a quasiregular fractured porous sample at the preset pressure difference: using a standard setup (Q₁) and in closed end-face fractures (Q₂). The mathematical model of the experiment is constructed, and the analytical solution of the problem on stationary flow is obtained: pressure patterns in fractures, and stress-dependence of flow rates. The experimental data interpretation algorithm enables calculating k₁ and β by the recorded flow rates Q₁ and Q₂. It is shown that the permeability k₁ is proportional to σ ^-2, and β remains almost unchanged.