A new geometrical Volume-of-Fluid (VOF) method for capturing interfaces on three-dimensional (3-D) Cartesian and unstructured meshes is introduced. The method reconstructs interfaces as first- and second-order piecewise planar approximations (PLIC), and advects volumes in a single unsplit Lagrangian–Eulerian (LE) geometrical algorithm based on constructing flux polyhedrons by tracing back the Lagrangian trajectories of the cell-vertex velocities. In this way, the situations of overlapping between flux polyhedrons are minimized, consequently, the accuracy in the solution of the advection equation is improved by minimizing the creation of overshoots (volume fractions over one), undershoots (volume fractions below zero) and wisps (fluid in voi...
The Volume of Fluid (VOF) method is one of the most effective methods employed in the simulation of ...
A new VOF advection method based on a 3-D reconstruction of the fluid interface has been developed a...
The use of mesh refinement techniques is becoming more and more popular in computational ʂ...
The numerical simulation of interfacial and free surface ows is a vast and interesting topic in the ...
In this paper, we present a three-dimensional (3D) reconstruction algorithm for Cartesian grids and ...
In this thesis two developed Lagrangian / Eulerian numerical are presented for advecting the sharp f...
n this paper we present and analyze different volume-of-fluid (VOF) reconstruction and advection alg...
A new volume tracking method is introduced for tracking interfaces in three-dimensional (3D) geometr...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
Simulations involving free surfaces and fluid interfaces are important in many areas of engineering...
In this work we present a new mixed markers and volume-of-fluid (VOF) algorithm for the reconstructi...
A new VOF advection method based on a 3-D reconstruction of the fluid interface has been developed a...
The Volume of Fluid (vof) method is a powerful tool for modelling the movement of free surface fluid...
This paper introduces a novel method for the efficient and accurate computation of volume fractions ...
The Volume of Fluid (VOF) method is one of the most effective methods employed in the simulation of ...
A new VOF advection method based on a 3-D reconstruction of the fluid interface has been developed a...
The use of mesh refinement techniques is becoming more and more popular in computational ʂ...
The numerical simulation of interfacial and free surface ows is a vast and interesting topic in the ...
In this paper, we present a three-dimensional (3D) reconstruction algorithm for Cartesian grids and ...
In this thesis two developed Lagrangian / Eulerian numerical are presented for advecting the sharp f...
n this paper we present and analyze different volume-of-fluid (VOF) reconstruction and advection alg...
A new volume tracking method is introduced for tracking interfaces in three-dimensional (3D) geometr...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
Simulations involving free surfaces and fluid interfaces are important in many areas of engineering...
In this work we present a new mixed markers and volume-of-fluid (VOF) algorithm for the reconstructi...
A new VOF advection method based on a 3-D reconstruction of the fluid interface has been developed a...
The Volume of Fluid (vof) method is a powerful tool for modelling the movement of free surface fluid...
This paper introduces a novel method for the efficient and accurate computation of volume fractions ...
The Volume of Fluid (VOF) method is one of the most effective methods employed in the simulation of ...
A new VOF advection method based on a 3-D reconstruction of the fluid interface has been developed a...
The use of mesh refinement techniques is becoming more and more popular in computational ʂ...