This investigation is concerned with the accuracy of numerical schemes for solving partial differential equations used in science and engineering simulation codes. Richardson extrapolation methods for steady and unsteady problems with structured meshes are presented as part of the verification procedure to determine code and calculation accuracy. The local truncation error de- termination of a numerical difference scheme is shown to be a significant component of the veri- fication procedure as it determines the consistency of the numerical scheme, the order of the numerical scheme, and the restrictions on the mesh variation with a non-uniform mesh. Genera- tion of a series of co-located, refined meshes with the appropriate variation of mesh...
A broad range of mathematical modeling errors of fluid flow physics and numerical approximation erro...
Recent decades have seen a very rapid success in developing numerical methods based on explicit cont...
Computer simulations of complex mathematical models are a powerful tool for design, but they introdu...
This investigation is concerned with the accuracy of numerical schemes for solving partial different...
Richardson extrapolation is a methodology for improving the order of accuracy of nu-merical solution...
The concept of Richardson extrapolation is evaluated for improving the solution accuracy of two well...
The classical theory of numerical methods for partial differential equations is concerned to a large...
The largest and most difficult numerical approximation error to estimate is discretization error. Th...
Richardson extrapolation (RE) is based on a very simple and elegant mathematical idea that has been ...
AbstractRichardson Extrapolation is a powerful computational tool which can successfully be used in ...
Using Computational Fluid Dynamics (CFD) to predict a flow field is an approximation to the exact pr...
We present a perspective on verification and validation of CFD tools for analysis and design, identi...
The issues of verification, calibration, and validation of computational fluid dynamics (CFD) codes ...
Accuracy of numerical solution is of paramount importance for any CFD simulation. The error in satis...
New methodology for verification of computational methods using unstructured grids is presented. The...
A broad range of mathematical modeling errors of fluid flow physics and numerical approximation erro...
Recent decades have seen a very rapid success in developing numerical methods based on explicit cont...
Computer simulations of complex mathematical models are a powerful tool for design, but they introdu...
This investigation is concerned with the accuracy of numerical schemes for solving partial different...
Richardson extrapolation is a methodology for improving the order of accuracy of nu-merical solution...
The concept of Richardson extrapolation is evaluated for improving the solution accuracy of two well...
The classical theory of numerical methods for partial differential equations is concerned to a large...
The largest and most difficult numerical approximation error to estimate is discretization error. Th...
Richardson extrapolation (RE) is based on a very simple and elegant mathematical idea that has been ...
AbstractRichardson Extrapolation is a powerful computational tool which can successfully be used in ...
Using Computational Fluid Dynamics (CFD) to predict a flow field is an approximation to the exact pr...
We present a perspective on verification and validation of CFD tools for analysis and design, identi...
The issues of verification, calibration, and validation of computational fluid dynamics (CFD) codes ...
Accuracy of numerical solution is of paramount importance for any CFD simulation. The error in satis...
New methodology for verification of computational methods using unstructured grids is presented. The...
A broad range of mathematical modeling errors of fluid flow physics and numerical approximation erro...
Recent decades have seen a very rapid success in developing numerical methods based on explicit cont...
Computer simulations of complex mathematical models are a powerful tool for design, but they introdu...