Several dispersion relation-preserving (DRP) spatially central discretizations are considered as the base scheme in the framework of the Yee & Sjögreen low dissipative nonlinear filter approach. In addition, the nonlinear filter of Yee & Sjögreen with shock-capturing and long time integration capabilities is used to replace the standard DRP linear filter for both smooth flows and flows containing discontinuities. DRP schemes for computational aeroacoustics (CAA) focus on dispersion error consideration for long time lin- ear wave propagation rather than the formal order of accuracy of the scheme. The resulting DRP schemes usually have wider grid stencils and increased CPU operations count compared with standard central schemes of the same fo...
We present a study of the effect of artificial dissipation models on nonlinear wave computations usi...
Accurate and efficient direct numerical simulation of turbulence in the presence of shock waves repr...
A stable high-order numerical scheme for direct numerical simulation (DNS) of shock-free compressibl...
Several dispersion relation-preserving (DRP) spatially central discretizations are considered as the...
Recent progress in the improvement of numerical stability and accuracy of the Yee and Sjögreen [49] ...
In Kotov et al. (Proceedings of ICCFD8, 2014) the LES of a turbulent flow with a strong shock by Yee...
The Yee & Sjögreen adaptive numerical dissipation control in high order scheme (High Order Filter Me...
This paper extends the accuracy of the high order nonlinear filter finite difference method of Yee a...
Topics covered include: Low-dispersion scheme for nonlinear acoustic waves in nonuniform flow; Compu...
High-accuracy schemes have been proposed here to solve computational acoustics and DNS problems. Thi...
A class of high-order nonlinear filter schemes by Yee et al. (J Comput Phys 150:199–238, 1999), Sjög...
A comprehensive study is conducted on a second-order low-dissipation low-dispersion (LD2) scheme in ...
© 2014 Elsevier Ltd. The influence of numerical dissipation on direct numerical simulation (DNS) of ...
An eighth-order filter method for a wide range of compressible flow speeds (H. C. Yee and B. Sjogree...
We present a study of the effect of artificial dissipation models on nonlinear wave computations usi...
Accurate and efficient direct numerical simulation of turbulence in the presence of shock waves repr...
A stable high-order numerical scheme for direct numerical simulation (DNS) of shock-free compressibl...
Several dispersion relation-preserving (DRP) spatially central discretizations are considered as the...
Recent progress in the improvement of numerical stability and accuracy of the Yee and Sjögreen [49] ...
In Kotov et al. (Proceedings of ICCFD8, 2014) the LES of a turbulent flow with a strong shock by Yee...
The Yee & Sjögreen adaptive numerical dissipation control in high order scheme (High Order Filter Me...
This paper extends the accuracy of the high order nonlinear filter finite difference method of Yee a...
Topics covered include: Low-dispersion scheme for nonlinear acoustic waves in nonuniform flow; Compu...
High-accuracy schemes have been proposed here to solve computational acoustics and DNS problems. Thi...
A class of high-order nonlinear filter schemes by Yee et al. (J Comput Phys 150:199–238, 1999), Sjög...
A comprehensive study is conducted on a second-order low-dissipation low-dispersion (LD2) scheme in ...
© 2014 Elsevier Ltd. The influence of numerical dissipation on direct numerical simulation (DNS) of ...
An eighth-order filter method for a wide range of compressible flow speeds (H. C. Yee and B. Sjogree...
We present a study of the effect of artificial dissipation models on nonlinear wave computations usi...
Accurate and efficient direct numerical simulation of turbulence in the presence of shock waves repr...
A stable high-order numerical scheme for direct numerical simulation (DNS) of shock-free compressibl...