In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flow in porous rock is presented. The versatility of the SPH method has driven its use in increasingly complex areas of flow analysis, including flows related to porous rock for both groundwater and petroleum reservoir research. Previous approaches to such problems using SPH have involved the use of idealized pore geometries (cylinder/sphere packs etc.). In this paper we discuss the characterization of flow in models with geometries acquired from 3D X‐ray microtomograph images of actual porous rock. One key advantage of SPH is realized when considering the complexity of multiple fluid phases (e.g., water and oil). By incorporating interfacial ph...
Heap leaching is an important hydrometallurgical minerals processing technique, which involves the i...
Relative-permeability and capillary-pressure functions define how much oil can be recovered and at w...
Direct numerical simulations of flow through two millimeter-scale rock samples of limestone and sand...
In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flo...
Abstract. In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
Multi-fluid flow over and within porous media occurs frequently in nature and plays an important rol...
In this paper, the implementation of a 3D smooth particle hydrodynamics (SPH) simulator is presented...
In this work, new pressure inlet and outlet boundary conditions are developed for Smoothed Particle ...
Over recent decades, studies in porous media have focused on many fields, typically in the developme...
Today, the use of numerical modeling for characterizing properties of porous media and related conce...
Heap leaching is an important hydrometallurgical minerals processing technique, which involves the i...
Relative-permeability and capillary-pressure functions define how much oil can be recovered and at w...
Direct numerical simulations of flow through two millimeter-scale rock samples of limestone and sand...
In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale fluid flo...
Abstract. In this paper, a 3D Smooth Particle Hydrodynamics (SPH) simulator for modeling grain scale...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
In this paper, a three-dimensional smooth particle hydrodynamics (SPH) simulator for modeling grain ...
Multi-fluid flow over and within porous media occurs frequently in nature and plays an important rol...
In this paper, the implementation of a 3D smooth particle hydrodynamics (SPH) simulator is presented...
In this work, new pressure inlet and outlet boundary conditions are developed for Smoothed Particle ...
Over recent decades, studies in porous media have focused on many fields, typically in the developme...
Today, the use of numerical modeling for characterizing properties of porous media and related conce...
Heap leaching is an important hydrometallurgical minerals processing technique, which involves the i...
Relative-permeability and capillary-pressure functions define how much oil can be recovered and at w...
Direct numerical simulations of flow through two millimeter-scale rock samples of limestone and sand...