This article is concerned with the numerical approximation of one and two-dimensional special ultra-relativistic Euler equations. The governing equations are coupled first-order nonlinear hyperbolic partial differential equations. These equations describe perfect fluid flow in terms of the particle density, the four-velocity and the pressure. A high-resolution shock-capturing central upwind scheme is employed to solve the model equations. To avoid excessive numerical diffusion, the considered scheme avails the specific information of local propagation speeds. By using Runge-Kutta time stepping method and MUSCL-type initial reconstruction, we have obtained 2nd order accuracy of the proposed scheme. After discussing the model equations and th...
The class of hyperbolic conservation laws model the phenomena of non-linear wave propagation, includ...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
Modern upwind schemes employ an upwind-biased stencil to solve convective terms in order to satisfy ...
The accurate modeling of various features in high energy astrophysical scenarios requires the soluti...
The accurate modeling of various features in high energy astrophysical scenarios requires the soluti...
This paper reports the application of space–time conservation element and solution element (CE/SE) m...
AbstractA finite volume method with grid adaption is applied to two hyperbolic problems: the ultra-r...
Abstract. The formation of singularities in relativistic flows is not well understood. Smooth soluti...
A comparative study of five upwind schemes was performed to evaluate their ability accurately model ...
This thesis presents and verifies a numerical method for solving the compressible Euler equations. T...
We assess the suitability of a recent high-resolution central scheme developed by [CITE] for the sol...
Available from TIB Hannover: RR 4487(2001,21) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Tec...
This paper presents second-order accurate genuine BGK schemes in the framework of finite volume meth...
In the field of computational fluid dynamics, many numerical algorithms have been developed to simul...
The dynamics of inviscid multicomponent relativistic fluids may be modelled by the relativistic Eule...
The class of hyperbolic conservation laws model the phenomena of non-linear wave propagation, includ...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
Modern upwind schemes employ an upwind-biased stencil to solve convective terms in order to satisfy ...
The accurate modeling of various features in high energy astrophysical scenarios requires the soluti...
The accurate modeling of various features in high energy astrophysical scenarios requires the soluti...
This paper reports the application of space–time conservation element and solution element (CE/SE) m...
AbstractA finite volume method with grid adaption is applied to two hyperbolic problems: the ultra-r...
Abstract. The formation of singularities in relativistic flows is not well understood. Smooth soluti...
A comparative study of five upwind schemes was performed to evaluate their ability accurately model ...
This thesis presents and verifies a numerical method for solving the compressible Euler equations. T...
We assess the suitability of a recent high-resolution central scheme developed by [CITE] for the sol...
Available from TIB Hannover: RR 4487(2001,21) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Tec...
This paper presents second-order accurate genuine BGK schemes in the framework of finite volume meth...
In the field of computational fluid dynamics, many numerical algorithms have been developed to simul...
The dynamics of inviscid multicomponent relativistic fluids may be modelled by the relativistic Eule...
The class of hyperbolic conservation laws model the phenomena of non-linear wave propagation, includ...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
Modern upwind schemes employ an upwind-biased stencil to solve convective terms in order to satisfy ...