We propose a new method of modeling granular media that utilizes a single two- or three-dimensional image and is formulated based on a Markov process. The process is mapped onto one that minimizes the difference between the image and a stochastic realization of the granular medium and utilizes a novel approach to remove possible unphysical discontinuities in the realization. Quantitative comparison between the morphological properties of the realizations and representative examples indicates excellent agreement
Invasion percolation (IP) models offer a computationally inexpensive way to simulate multiphase flow...
Granular flows are involved in geophysical phenomena and industrial applications. The knowledge of t...
Este trabalho tem como objetivos o estudo e a aplicação do processo de estimativa de propriedades pe...
We propose a new method of modeling granular media that utilizes a single two- or three-dimensional ...
ABSTRACT Fluid flow in, and the thermal, electrical, and acoustic properties of porous media are det...
A stochastic geometrical modeling method for reconstructing three dimensional pore scale microstruct...
In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flo...
In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flo...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
A stochastic geometrical modeling method for reconstructing three dimensional pore scale microstruct...
To evaluate the variability of multiphase flow properties of porous media at the pore scale, it is n...
The analysis of multiphase flow through porous media on the pore scale is a very important fundament...
A pore-scale model is presented for simulating two-phase flow in granular materials. The solid phase ...
Most models used in reservoir simulation studies are on the scale of meters to hundreds of meters. H...
The pore structure reconstruction of the porous media is of great importance to the research of mech...
Invasion percolation (IP) models offer a computationally inexpensive way to simulate multiphase flow...
Granular flows are involved in geophysical phenomena and industrial applications. The knowledge of t...
Este trabalho tem como objetivos o estudo e a aplicação do processo de estimativa de propriedades pe...
We propose a new method of modeling granular media that utilizes a single two- or three-dimensional ...
ABSTRACT Fluid flow in, and the thermal, electrical, and acoustic properties of porous media are det...
A stochastic geometrical modeling method for reconstructing three dimensional pore scale microstruct...
In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flo...
In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flo...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
A stochastic geometrical modeling method for reconstructing three dimensional pore scale microstruct...
To evaluate the variability of multiphase flow properties of porous media at the pore scale, it is n...
The analysis of multiphase flow through porous media on the pore scale is a very important fundament...
A pore-scale model is presented for simulating two-phase flow in granular materials. The solid phase ...
Most models used in reservoir simulation studies are on the scale of meters to hundreds of meters. H...
The pore structure reconstruction of the porous media is of great importance to the research of mech...
Invasion percolation (IP) models offer a computationally inexpensive way to simulate multiphase flow...
Granular flows are involved in geophysical phenomena and industrial applications. The knowledge of t...
Este trabalho tem como objetivos o estudo e a aplicação do processo de estimativa de propriedades pe...