In this paper we extend the application of unstructured high-order finite-volume central-weighted essentially non-oscillatory (CWENO) schemes to multicomponent flows using the interface capturing paradigm. The developed method achieves high-order accurate solution in smooth regions, while providing oscillation free solutions at discontinuous regions. The schemes are inherently compact in the sense that the central stencils employed are as compact as possible, and that the directional stencils are reduced in size, therefore simplifying their implementation. Several parameters that influence the performance of the schemes are investigated, such as reconstruction variables and their reconstruction order. The performance of the schemes is asses...
Understanding the motion of fluids is crucial for the development and analysis of new designs and pr...
An implementation of a novel low-mach number treatment for high-order finite-volume schemes using ar...
Os datos relativos aos resultados deste artigo poden descargarse desde https://doi.org/10.17862/cran...
In this paper the relaxed, high-order, Multidimensional Optimal Order Detection (MOOD) framework is ...
We develop a shock- and interface-capturing numerical method that is suitable for the simulation of ...
In this paper we develop a family of arbitrarily high-order non-oscillatory hybrid Discontinuous Gal...
This paper presents a new volume-of-fluid scheme (M-CICSAM), capable of capturing abrupt interfaces ...
The development of high-order solution methods remain a very active field of research in Computation...
In this paper we develop a family of very high-order central (up to 6th-order) non-oscillatory schem...
The solution of the non-hydrostatic compressible Euler equations using Weighted Essentially Non-Osci...
This paper presents a two phases flow model combined with a high order finite volume solver on unstr...
First, a new reconstruction strategy is proposed to improve the accuracy of the fifth-order weighted...
28 pagesThis work concerns the simulation of compressible multi-material fluid flows and follows the...
This paper presents an extension of a Weighted Essentially Non-Oscillatory (WENO) type schemes for t...
In this paper a relaxed formulation of the a posteriori Multi-dimensional Optimal Order Detection (M...
Understanding the motion of fluids is crucial for the development and analysis of new designs and pr...
An implementation of a novel low-mach number treatment for high-order finite-volume schemes using ar...
Os datos relativos aos resultados deste artigo poden descargarse desde https://doi.org/10.17862/cran...
In this paper the relaxed, high-order, Multidimensional Optimal Order Detection (MOOD) framework is ...
We develop a shock- and interface-capturing numerical method that is suitable for the simulation of ...
In this paper we develop a family of arbitrarily high-order non-oscillatory hybrid Discontinuous Gal...
This paper presents a new volume-of-fluid scheme (M-CICSAM), capable of capturing abrupt interfaces ...
The development of high-order solution methods remain a very active field of research in Computation...
In this paper we develop a family of very high-order central (up to 6th-order) non-oscillatory schem...
The solution of the non-hydrostatic compressible Euler equations using Weighted Essentially Non-Osci...
This paper presents a two phases flow model combined with a high order finite volume solver on unstr...
First, a new reconstruction strategy is proposed to improve the accuracy of the fifth-order weighted...
28 pagesThis work concerns the simulation of compressible multi-material fluid flows and follows the...
This paper presents an extension of a Weighted Essentially Non-Oscillatory (WENO) type schemes for t...
In this paper a relaxed formulation of the a posteriori Multi-dimensional Optimal Order Detection (M...
Understanding the motion of fluids is crucial for the development and analysis of new designs and pr...
An implementation of a novel low-mach number treatment for high-order finite-volume schemes using ar...
Os datos relativos aos resultados deste artigo poden descargarse desde https://doi.org/10.17862/cran...