This paper proposes a particle tracking technique for applying the Eulerian-Lagrangian localized adjoint method or the Eulerian-Lagrangian method to solve transport equations in a rapidly changing unsteady flow. The proposed particle tracking technique uses a linear temporal interpolation of velocity to avoid the error introduced when using a stepwise temporal approximation of the velocity, which has been adopted in many existing particle tracking techniques. Numerical experiments were carried out on several example problems to demonstrate the superior accuracy and efficiency of the proposed particle tracking technique over Cheng\u27s and Pollock\u27s methods. The numerical results show that the use of a linear temporal interpolation of vel...
AbstractThis paper develops an efficient particle tracking algorithm to be used in fluid simulations...
Particle-laden ows are of great interest since they occur in a variety of industrial applications, s...
In this work a mixed Eulerian-Lagrangian technique is presented, hereinafter abbreviated as ELAFINT ...
This paper proposes a particle tracking technique for applying the Eulerian-Lagrangian localized adj...
This paper proposes a particle tracking technique for applying the Eulerian-Lagrangian localized adj...
This paper presents a study of the accuracy and performance issues involved in parallel, in-element ...
A new Lagrangian particle method for solving transient viscoelastic flow for both macroscopic and mi...
Abstract: The study of micro and nano particle-laden multiphase flow has received much attention due...
A new Lagrangian particle method for solving transient viscoelastic flow for both macroscopic and mi...
Advection-dispersion is generally solved numerically with methods that treat the problem from one of...
The transport or the separation of solid particles or droplets suspended in a fluid flow is a common...
This work presents a novel proposal of a second-order accurate (in time and space) particle-based me...
Abstract: A new formulation for tracking multiple particles in slow viscous flow for microfluidic ap...
In tracking moving boundaries that arise in several flow problems, a mixed Eulerian-Lagrangian algor...
The application of laser-based velocimetry in experimental researches of flows is closely involved i...
AbstractThis paper develops an efficient particle tracking algorithm to be used in fluid simulations...
Particle-laden ows are of great interest since they occur in a variety of industrial applications, s...
In this work a mixed Eulerian-Lagrangian technique is presented, hereinafter abbreviated as ELAFINT ...
This paper proposes a particle tracking technique for applying the Eulerian-Lagrangian localized adj...
This paper proposes a particle tracking technique for applying the Eulerian-Lagrangian localized adj...
This paper presents a study of the accuracy and performance issues involved in parallel, in-element ...
A new Lagrangian particle method for solving transient viscoelastic flow for both macroscopic and mi...
Abstract: The study of micro and nano particle-laden multiphase flow has received much attention due...
A new Lagrangian particle method for solving transient viscoelastic flow for both macroscopic and mi...
Advection-dispersion is generally solved numerically with methods that treat the problem from one of...
The transport or the separation of solid particles or droplets suspended in a fluid flow is a common...
This work presents a novel proposal of a second-order accurate (in time and space) particle-based me...
Abstract: A new formulation for tracking multiple particles in slow viscous flow for microfluidic ap...
In tracking moving boundaries that arise in several flow problems, a mixed Eulerian-Lagrangian algor...
The application of laser-based velocimetry in experimental researches of flows is closely involved i...
AbstractThis paper develops an efficient particle tracking algorithm to be used in fluid simulations...
Particle-laden ows are of great interest since they occur in a variety of industrial applications, s...
In this work a mixed Eulerian-Lagrangian technique is presented, hereinafter abbreviated as ELAFINT ...