A number of particle models that are suitable for simulating multiphase fluid flow and biogeological processes have been developed during the last few decades. Here we discuss three of them: a microscopic model - molecular dynamics; a mesoscopic model - dissipative particle dynamics; and a macroscopic model - smoothed particle hydrodynamics. Particle methods are robust and versatile, and it is relatively easy to add additional physical, chemical and biological processes into particle codes. However, the computational efficiency of particle methods is low relative to continuum methods. Multiscale particle methods and hybrid (particle–particle and particle–continuum) methods are needed to improve computational efficiency and make effective us...
The primary purpose of this project is to use a combination of computer modeling and laboratory expe...
An important problem in porous media involves the ability of micron and submicron-sized biological p...
Traditional grid-based numerical methods, such as finite volume method (FVM), are not suitable to s...
Abstract A number of particle models that are suitable for simulating multiphase fluid flow and biog...
methods for simulation of subsurface multiphase fluid flow and biogeochemical processes
Particle methods are much less computationally efficient than grid based numerical solution of the N...
This work focuses on the review of particle-based multiscale and hybrid methods that have surfaced i...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
Many subsurface flow and transport problems of importance today involve coupled non-linear flow, tra...
Small scale multiphase fluid motion is fundamentally important for applications in environmental, bi...
Particle methods were first developed to handle the advection term in the equations of motion of flu...
This paper was presented at the 3rd Micro and Nano Flows Conference (MNF2011), which was held at the...
A particle-based multiscale model for submicron fluid flow is proposed in this work. The model is ba...
Continuum methods have been used for numerical simulation of solid and fluid for a long time but the...
Abstract.- We present a novel method for simulating hydrodynamic phenomena. This particle-based meth...
The primary purpose of this project is to use a combination of computer modeling and laboratory expe...
An important problem in porous media involves the ability of micron and submicron-sized biological p...
Traditional grid-based numerical methods, such as finite volume method (FVM), are not suitable to s...
Abstract A number of particle models that are suitable for simulating multiphase fluid flow and biog...
methods for simulation of subsurface multiphase fluid flow and biogeochemical processes
Particle methods are much less computationally efficient than grid based numerical solution of the N...
This work focuses on the review of particle-based multiscale and hybrid methods that have surfaced i...
Abstract. Many subsurface flow and transport problems of importance today involve coupled non-linear...
Many subsurface flow and transport problems of importance today involve coupled non-linear flow, tra...
Small scale multiphase fluid motion is fundamentally important for applications in environmental, bi...
Particle methods were first developed to handle the advection term in the equations of motion of flu...
This paper was presented at the 3rd Micro and Nano Flows Conference (MNF2011), which was held at the...
A particle-based multiscale model for submicron fluid flow is proposed in this work. The model is ba...
Continuum methods have been used for numerical simulation of solid and fluid for a long time but the...
Abstract.- We present a novel method for simulating hydrodynamic phenomena. This particle-based meth...
The primary purpose of this project is to use a combination of computer modeling and laboratory expe...
An important problem in porous media involves the ability of micron and submicron-sized biological p...
Traditional grid-based numerical methods, such as finite volume method (FVM), are not suitable to s...