Weighted non-linear compact schemes for the direct numerical simulation of compressible, turbulent flows
From MaRDI portal
Publication:474975
DOI10.1007/s10915-014-9818-0zbMath1299.76098OpenAlexW1993572354WikidataQ58214237 ScholiaQ58214237MaRDI QIDQ474975
Debojyoti Ghosh, James D. Baeder
Publication date: 25 November 2014
Published in: Journal of Scientific Computing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10915-014-9818-0
Related Items (14)
An improved WENO method based on Gauss-kriging reconstruction with an optimized hyper-parameter ⋮ Improvement of weighted compact scheme with multi-step strategy for supersonic compressible flow ⋮ Further improvement of weighted compact nonlinear scheme using compact nonlinear interpolation ⋮ A new paradigm of dissipation-adjustable, multi-scale resolving schemes for compressible flows ⋮ A new high-accuracy scheme for compressible turbulent flows ⋮ Modified monotonicity preserving constraints for high-resolution optimized compact scheme ⋮ A maximum-principle-satisfying high-order finite volume compact WENO scheme for scalar conservation laws with applications in incompressible flows ⋮ Efficient high-order gradient-based reconstruction for compressible flows ⋮ Compact schemes for multiscale flows with cell-centered finite difference method ⋮ GPU-accelerated DNS of compressible turbulent flows ⋮ Semi-implicit Time Integration of Atmospheric Flows with Characteristic-Based Flux Partitioning ⋮ Nonlinear Compact Finite-Difference Schemes with Semi-Implicit Time Stepping ⋮ Improved weighted compact nonlinear scheme for implicit large-eddy simulations ⋮ Efficient Implementation of Nonlinear Compact Schemes on Massively Parallel Platforms
Cites Work
- On the spectral and conservation properties of nonlinear discretization operators
- Explicit and implicit multidimensional compact high-resolution shock-capturing methods: Formulation
- Dispersion-relation-preserving finite differene schemes for computational acoustics
- On the spectral properties of shock-capturing schemes
- A bandwidth-optimized WENO scheme for the effective direct numerical simulation of compressible turbulence
- Stencil adaptation properties of a WENO scheme in direct numerical simulations of compressible turbulence
- Development of nonlinear weighted compact schemes with increasingly higher order accuracy
- A systematic methodology for constructing high-order energy stable WENO schemes
- Efficient implementation of essentially nonoscillatory shock-capturing schemes
- Efficient implementation of essentially nonoscillatory shock-capturing schemes. II
- Compact finite difference schemes with spectral-like resolution
- Weighted essentially non-oscillatory schemes
- A robust high-order compact method for large eddy simulation.
- A characteristic-wise hybrid compact-WENO scheme for solving hyperbolic conservation laws.
- Monotonicity preserving weighted essentially non-oscillatory schemes with increasingly high order of accuracy
- Conservative hybrid compact-WENO schemes for shock-turbulence interaction
- An essentially nonoscillatory high-order Padé-type (ENO-Padé) scheme
- Mapped weighted essentially non-oscillatory schemes: Achieving optimal order near critical points
- A new compact spectral scheme for turbulence simulations
- Essentially compact schemes for unsteady viscous incompressible flows
- Efficient implementation of weighted ENO schemes
- A high-resolution hybrid compact-ENO scheme for shock-turbulence interaction problems
- Implicit, high-resolution, compact schemes for gas dynamics and aeroacoustics
- An improved weighted essentially non-oscillatory scheme for hyperbolic conservation laws
- Compact Reconstruction Schemes with Weighted ENO Limiting for Hyperbolic Conservation Laws
- High Order Weighted Essentially Nonoscillatory Schemes for Convection Dominated Problems
- Boundary conditions for direct computation of aerodynamic sound generation
- Nonlinearly Stable Compact Schemes for Shock Calculations
- The influence of entropy fluctuations on the interaction of turbulence with a shock wave
- Interaction of isotropic turbulence with shock waves: effect of shock strength
- Proposed Inflow/Outflow Boundary Condition for Direct Computation of Aerodynamic Sound
- Decay of isotropic turbulence at low Reynolds number
- Direct numerical simulation of canonical shock/turbulence interaction
- Developing high-order weighted compact nonlinear schemes
- A residual-based compact scheme for the compressible Navier-Stokes equations
This page was built for publication: Weighted non-linear compact schemes for the direct numerical simulation of compressible, turbulent flows
