Add to ORKGThe development of numerical methods for hyperbolic conservation laws has been a rapidly growing area for the last ten years. Many of the fundamental concepts and state-of-the-art developments can only be found in meeting proceedings or internal reports. This review paper attempts to give an overview and a unified formulation of a class of shock-capturing methods. Special emphasis is on the construction of the basic nonlinear scalar second-order schemes and the methods of extending these nonlinear scalar schemes to nonlinear systems via the extact Riemann solver, approximate Riemann solvers, and flux-vector splitting approaches. Generalization of these methods to efficiently include real gases and large systems of nonequilibrium flows is di...
Many applications in engineering practice can be described by thehyperbolic partial differential equ...
Many applications in engineering practice can be described by thehyperbolic partial differential equ...
In recent years, a class of numerical schemes for solving hyperbolic partial differential equations ...
An attempt is made to give a unified and generalized formulation of a class of high resolution, expl...
The development of numerical methods for hyperbolic conservation laws has been a rapidly growing are...
The development of shock-capturing finite difference methods for hyperbolic conservation laws has be...
AbstractThis work describes an unsplit, second-order accurate algorithm for multidimensional systems...
Second- and third-order two time-level five-point explicit upwind-difference schemes are described f...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
The development is reviewed of shock capturing methods, paying special attention to the increasing n...
Two classes of explicit compact high-resolution shock-capturing methods for the multidimensional com...
Some numerical aspects of finite-difference algorithms for nonlinear multidimensional hyperbolic con...
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
Many applications in engineering practice can be described by thehyperbolic partial differential equ...
Many applications in engineering practice can be described by thehyperbolic partial differential equ...
In recent years, a class of numerical schemes for solving hyperbolic partial differential equations ...
An attempt is made to give a unified and generalized formulation of a class of high resolution, expl...
The development of numerical methods for hyperbolic conservation laws has been a rapidly growing are...
The development of shock-capturing finite difference methods for hyperbolic conservation laws has be...
AbstractThis work describes an unsplit, second-order accurate algorithm for multidimensional systems...
Second- and third-order two time-level five-point explicit upwind-difference schemes are described f...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
This work describes an unsplit, second-order accurate algorithm for multidimensional systems of hype...
The development is reviewed of shock capturing methods, paying special attention to the increasing n...
Two classes of explicit compact high-resolution shock-capturing methods for the multidimensional com...
Some numerical aspects of finite-difference algorithms for nonlinear multidimensional hyperbolic con...
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
A class of high-resolution implicit total variation diminishing (TVD) type algorithms suitable for t...
Many applications in engineering practice can be described by thehyperbolic partial differential equ...
Many applications in engineering practice can be described by thehyperbolic partial differential equ...
In recent years, a class of numerical schemes for solving hyperbolic partial differential equations ...