This paper examines different approaches for driving mesh adaptation and provides theoretical developments for understanding the relationship between discretization error, the numerical scheme, and the mesh. Discrete and continuous equations governing the transport of discretization error are developed and it is shown that the truncation error acts as the local source for these equations. Examination of the truncation error in generalized coordinates provides insight into the role of mesh quality (mesh stretching for the 1D case) in the discretization error. Numerical results are presented for 1D steady-state Burgers equation at Reynolds numbers of 32 and 128. Four different approaches for driving mesh adaption are implemented for this case...
We present a perspective on verification and validation of CFD tools for analysis and design, identi...
The effects of mesh irregularities on accuracy of unstructured node-centered finite-volume discretiz...
This article reviews recent work in output-based error estimation and mesh adaptation for Computatio...
Accuracy of numerical solution is of paramount importance for any CFD simulation. The error in satis...
Error quantification for industrial CFD requires a new paradigm in which a robust flow solver with e...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
Numerical experiments have proved that numerical errors are at least as large as other sources of er...
This paper explores the potential of numerical optimization methods to determine grid distributions ...
Mesh adaptation based on error estimation has become a key technique to improve th eaccuracy o fcom...
International audienceIn this chapter we are concerned with mesh generation methods and mesh adaptiv...
There is an increased demand for reliable calculations of solutions to problems modeled by conservat...
The Paper projects the meshless LSFD-U methodology as a Cartesian grid method. A point distribution ...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
Since its conception, computational fluid dynamics (CFD) has had a role to play in both the industri...
We present a perspective on verification and validation of CFD tools for analysis and design, identi...
The effects of mesh irregularities on accuracy of unstructured node-centered finite-volume discretiz...
This article reviews recent work in output-based error estimation and mesh adaptation for Computatio...
Accuracy of numerical solution is of paramount importance for any CFD simulation. The error in satis...
Error quantification for industrial CFD requires a new paradigm in which a robust flow solver with e...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
At present all numerical schemes based on some form of differencing approach are plagued by some lac...
Numerical experiments have proved that numerical errors are at least as large as other sources of er...
This paper explores the potential of numerical optimization methods to determine grid distributions ...
Mesh adaptation based on error estimation has become a key technique to improve th eaccuracy o fcom...
International audienceIn this chapter we are concerned with mesh generation methods and mesh adaptiv...
There is an increased demand for reliable calculations of solutions to problems modeled by conservat...
The Paper projects the meshless LSFD-U methodology as a Cartesian grid method. A point distribution ...
International audienceUnstructured grid adaptation is a tool to control Computational Fluid Dynamics...
Since its conception, computational fluid dynamics (CFD) has had a role to play in both the industri...
We present a perspective on verification and validation of CFD tools for analysis and design, identi...
The effects of mesh irregularities on accuracy of unstructured node-centered finite-volume discretiz...
This article reviews recent work in output-based error estimation and mesh adaptation for Computatio...