AbstractWe present a review of the CIP method, which is a kind of semi-Lagrangian scheme and has been extended to treat incompressible flow in the framework of compressible fluid. Since it uses primitive Euler representation, it is suitable for multi-phase analysis. The recent version of this method guarantees the exact mass conservation even in the framework of semi-Lagrangian scheme. Comprehensive review is given for the strategy of the CIP method that has a compact support and subcell resolution including front capturing algorithm with functional transformation
The space–time Galerkin/least-squares finite element method with discontinuity capturing (ST-GLSDC),...
This paper presents a new cell-centered Lagrangian scheme for two-dimensional compressible flow. The...
In [4], the pressure evolution equation was used to calculate smooth pressure proles for otherwise o...
AbstractWe present a review of the CIP method, which is a kind of semi-Lagrangian scheme and has bee...
"Two semi-Lagrangian schemes that guarantee exactly mass conservation are proposed. Although they a...
Semi-Lagrangian methods have been around for some time, dating back at least to [3]. Researchers hav...
Semi-Lagrangian methods have been around for some time, dating back at least to [3]. Researchers hav...
A unified method for simulating multiphase flows using an exactly mass, momentum, and energy conserv...
Motivated by the enlightenment that diminishing the jump at the cell boundary can effectively reduce...
iv This dissertation presents efficient and scalable algorithms for the simulation of in-compressibl...
We propose a fully conservative high-order upwind multi-moment method for the conservation equation....
The dynamics of inviscid multicomponent fluids may be modelled by the Euler equations, augmented by ...
Abstract: A mass-conservative version of the semi-implicit semi-Lagrangian High-Resolution Limited A...
We propose a fully conservative and less oscillatory multi-moment scheme for the approximation of hy...
A characteristic-based semi-Lagrangian (CSL) method is developed for hyperbolic systems of conservat...
The space–time Galerkin/least-squares finite element method with discontinuity capturing (ST-GLSDC),...
This paper presents a new cell-centered Lagrangian scheme for two-dimensional compressible flow. The...
In [4], the pressure evolution equation was used to calculate smooth pressure proles for otherwise o...
AbstractWe present a review of the CIP method, which is a kind of semi-Lagrangian scheme and has bee...
"Two semi-Lagrangian schemes that guarantee exactly mass conservation are proposed. Although they a...
Semi-Lagrangian methods have been around for some time, dating back at least to [3]. Researchers hav...
Semi-Lagrangian methods have been around for some time, dating back at least to [3]. Researchers hav...
A unified method for simulating multiphase flows using an exactly mass, momentum, and energy conserv...
Motivated by the enlightenment that diminishing the jump at the cell boundary can effectively reduce...
iv This dissertation presents efficient and scalable algorithms for the simulation of in-compressibl...
We propose a fully conservative high-order upwind multi-moment method for the conservation equation....
The dynamics of inviscid multicomponent fluids may be modelled by the Euler equations, augmented by ...
Abstract: A mass-conservative version of the semi-implicit semi-Lagrangian High-Resolution Limited A...
We propose a fully conservative and less oscillatory multi-moment scheme for the approximation of hy...
A characteristic-based semi-Lagrangian (CSL) method is developed for hyperbolic systems of conservat...
The space–time Galerkin/least-squares finite element method with discontinuity capturing (ST-GLSDC),...
This paper presents a new cell-centered Lagrangian scheme for two-dimensional compressible flow. The...
In [4], the pressure evolution equation was used to calculate smooth pressure proles for otherwise o...