We present a new general-purpose advection scheme for unstructured meshes based on the use of a variation of the interface-tracking flux formulation recently put forward by O. Ubbink and R. I. Issa (J. Comput. Phys. 153, 26 (1999)), in combi-nation with an extended version of the flux-limited advection scheme of J. Thuburn (J. Comput. Phys. 123, 74 (1996)), for continuous fields. Thus, along with a high-order mode for continuous fields, the new scheme presented here includes optional integrated interface-tracking modes for discontinuous fields. In all modes, the method is conservative, monotonic, and compatible. It is also highly shape preserving. The scheme works on unstructured meshes composed of any kind of connectivity element, includin...
In this thesis two developed Lagrangian / Eulerian numerical are presented for advecting the sharp f...
Summarization: On unstructured meshes, the cell‐centered finite volume (CCFV) formulation, where the...
The overarching goal of CFD is to compute solutions with low numerical error. For finite-volume sche...
We study advection schemes for unstructured grid ocean models. Four linear advection schemes are inv...
An important feature of our newly developed Volume-of-Fluid interface advection method, isoAdvector,...
We study advection schemes for unstructured grid ocean models. Four linear advection schemes are inv...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
In solving two-phase flows, the location of the interface between the phases is necessary to handle ...
A new geometrical Volume-of-Fluid (VOF) method for capturing interfaces on three-dimensional (3-D) C...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
The discontinuous control-volume finite-element method is applied to the one-dimensional advection-d...
In this paper the advection of element data which are linearly distributed inside the elements is ad...
We present a new limiter method for solving the advection equation using a high-order, finite-volume...
The accurate and efficient discretization of singularly perturbed advection–diffusion equations on a...
A simple, robust, mass-conserving numerical scheme for solving the linear advection equation is desc...
In this thesis two developed Lagrangian / Eulerian numerical are presented for advecting the sharp f...
Summarization: On unstructured meshes, the cell‐centered finite volume (CCFV) formulation, where the...
The overarching goal of CFD is to compute solutions with low numerical error. For finite-volume sche...
We study advection schemes for unstructured grid ocean models. Four linear advection schemes are inv...
An important feature of our newly developed Volume-of-Fluid interface advection method, isoAdvector,...
We study advection schemes for unstructured grid ocean models. Four linear advection schemes are inv...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
In solving two-phase flows, the location of the interface between the phases is necessary to handle ...
A new geometrical Volume-of-Fluid (VOF) method for capturing interfaces on three-dimensional (3-D) C...
We devise a numerical method for passive advection of a surface, such as the interface between two i...
The discontinuous control-volume finite-element method is applied to the one-dimensional advection-d...
In this paper the advection of element data which are linearly distributed inside the elements is ad...
We present a new limiter method for solving the advection equation using a high-order, finite-volume...
The accurate and efficient discretization of singularly perturbed advection–diffusion equations on a...
A simple, robust, mass-conserving numerical scheme for solving the linear advection equation is desc...
In this thesis two developed Lagrangian / Eulerian numerical are presented for advecting the sharp f...
Summarization: On unstructured meshes, the cell‐centered finite volume (CCFV) formulation, where the...
The overarching goal of CFD is to compute solutions with low numerical error. For finite-volume sche...