Sentence examples for displacement in the simulation of from inspiring English sources

Open image in new window Fig. 9 Hydraulic aperture obtained with flow in x- or y-direction versus applied displacement in the simulation of a 'brittle' rock.

Open image in new window Fig. 5 Fracture aperture distributions at successive applied displacements in the simulation of a 'brittle' rock (unit of aperture in the legend: m).

Open image in new window Fig. 15 Histograms of mechanical aperture (mm) at successive applied displacements in the simulation of a 'ductile' rock.

Open image in new window Fig. 11 Histograms of mechanical aperture (mm) at successive applied displacements in the simulation of a 'brittle' rock.

Open image in new window Fig. 6 Fluid velocity distributions at successive applied displacements in the simulation of a 'brittle' rock.

Units along x- and y-axes are m. a Initial state, zero displacement of top surface; b displacement of 1.0 mm Open image in new window Fig. 7 Fluid pressure distributions at successive applied displacements in the simulation of a 'brittle' rock.

Open image in new window Fig. 2 Stress versus displacement obtained in the simulation of a 'brittle' rock.

Open image in new window Fig. 3 Hydraulic and maximum apertures versus applied displacement obtained in the simulation of a 'brittle' rock.

Two numerical examples illustrate the beneficial convergence rate of the WBM and show the importance that in-plane displacements can have in the simulation of non-coplanar plate assemblies.

The lattice Boltzmann method (LBM) can simulate the CO2 displacement processes in a two-dimensional or three-dimensional (3D) pore structure, but until now, the CO2 displacement mechanisms had not been thoroughly investigated and the 3D pore structure of real rock had not been directly taken into account in the simulation of the CO2 displacement process.

This article reports recent developments and advances in the simulation of the CO2-formation fluid displacement behaviour at the pore scale of subsurface porous media.