Add to ORKGWe demonstrate the power of adaptive mesh refinement with adjoint-based error estimates in verification of simulations governed by the steady Euler equations. The flow equations are discretized using a finite volume scheme on a Cartesian mesh with cut cells at the wall boundaries. The discretization error in selected simulation outputs is estimated using the method of adjoint-weighted residuals. Practical aspects of the implementation are emphasized, particularly in the formulation of the refinement criterion and the mesh adaptation strategy. Following a thorough code verification example, we demonstrate simulation verification of two- and three-dimensional problems. These involve an airfoil performance database, a pressure signature of a b...
We present an approach for the computation of error estimates in output functionals such as lift or ...
Engineering computational fluid dynamics (CFD) analysis and design applications focus on output func...
Research in error estimation, mesh conditioning, and solution enhancement for finite element, finite...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90641/1/AIAA-53965-537.pd
Mesh adaptation based on error estimation has become a key technique to improve th eaccuracy o fcom...
The growth in computational power and algorithm development in the past few decades has granted the ...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/140439/1/6.2014-2576.pd
This lecture course covers the theory of so-called duality-based a posteriori error estimation of DG...
L’adaptation de maillage est un outil puissant pour l’obtention de simulations aérodynamiques précis...
We demonstrate a well-posed formulation of permeable boundary conditions and mass- flow-rate functio...
We present adjoint-based techniques to estimate the error of a numerical flow solution with respect ...
In this talk we present higher order and adaptive discontinuous Galerkin methods for an efficient a...
An overview of twenty years of adjoint-based aerodynamic design research at NASA Langley Research Ce...
A critical assessment of the accuracy of Cartesian-mesh approaches for steady, transonic solutions o...
Nowadays, aerodynamic computational modeling is carried out on a daily basis in an industrial settin...
We present an approach for the computation of error estimates in output functionals such as lift or ...
Engineering computational fluid dynamics (CFD) analysis and design applications focus on output func...
Research in error estimation, mesh conditioning, and solution enhancement for finite element, finite...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90641/1/AIAA-53965-537.pd
Mesh adaptation based on error estimation has become a key technique to improve th eaccuracy o fcom...
The growth in computational power and algorithm development in the past few decades has granted the ...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/140439/1/6.2014-2576.pd
This lecture course covers the theory of so-called duality-based a posteriori error estimation of DG...
L’adaptation de maillage est un outil puissant pour l’obtention de simulations aérodynamiques précis...
We demonstrate a well-posed formulation of permeable boundary conditions and mass- flow-rate functio...
We present adjoint-based techniques to estimate the error of a numerical flow solution with respect ...
In this talk we present higher order and adaptive discontinuous Galerkin methods for an efficient a...
An overview of twenty years of adjoint-based aerodynamic design research at NASA Langley Research Ce...
A critical assessment of the accuracy of Cartesian-mesh approaches for steady, transonic solutions o...
Nowadays, aerodynamic computational modeling is carried out on a daily basis in an industrial settin...
We present an approach for the computation of error estimates in output functionals such as lift or ...
Engineering computational fluid dynamics (CFD) analysis and design applications focus on output func...
Research in error estimation, mesh conditioning, and solution enhancement for finite element, finite...