Kemm, 2014 - Google Patents
A note on the carbuncle phenomenon in shallow water simulationsKemm, 2014
View PDF- Document ID
- 4688591827828979087
- Author
- Kemm F
- Publication year
- Publication venue
- ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik
External Links
Snippet
A classic problem in gas dynamics simulation is the occurrence of the carbuncle phenomenon, a breakdown of discrete shock profiles. We show that for high Froude number, this also occurs in shallow water simulations. Numerical evidence is given that commonly …
- 206010007247 Carbuncle 0 title abstract description 34
Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING; COUNTING
- G06F—ELECTRICAL DIGITAL DATA PROCESSING
- G06F17/00—Digital computing or data processing equipment or methods, specially adapted for specific functions
- G06F17/50—Computer-aided design
- G06F17/5009—Computer-aided design using simulation
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Xie et al. | An accurate and robust HLLC‐type Riemann solver for the compressible Euler system at various Mach numbers | |
| Banks et al. | An analysis of a new stable partitioned algorithm for FSI problems. Part I: Incompressible flow and elastic solids | |
| Fang et al. | Direct numerical simulation of supersonic turbulent flows around a tandem expansion-compression corner | |
| Wackers et al. | Combined refinement criteria for anisotropic grid refinement in free-surface flow simulation | |
| Briganti et al. | An efficient and flexible solver for the simulation of the morphodynamics of fast evolving flows on coarse sediment beaches | |
| Long et al. | A particle-element contact algorithm incorporated into the coupling methods of FEM-ISPH and FEM-WCSPH for FSI problems | |
| Skrzypiński et al. | Wind turbine blade vibration at standstill conditions—the effect of imposing lag on the aerodynamic response of an elastically mounted airfoil | |
| Kemm | A note on the carbuncle phenomenon in shallow water simulations | |
| Koganezawa et al. | Pathline analysis of traveling wavy blowing and suction control in turbulent pipe flow for drag reduction | |
| Huang et al. | Coupling finite difference method with finite particle method for modeling viscous incompressible flows | |
| Song et al. | Physically based sand slide method in scour models based on slope-limited diffusion | |
| Yu et al. | Verifying the Blade Element Momentum Method in unsteady, radially varied, axisymmetric loading using a vortex ring model | |
| Feng et al. | Modeling the resistive MHD by the CESE method | |
| Nikolić et al. | Asymptotic behavior of nonlinear sound waves in inviscid media with thermal and molecular relaxation | |
| Hu et al. | A dynamic reliability approach to seismic vulnerability analysis of earth dams | |
| Elgarayhi et al. | Propagation of nonlinear pressure waves in blood | |
| Lu et al. | An iterative method for the computation of the response of linearised Navier–Stokes equations to harmonic forcing and application to forced cylinder wakes | |
| Chertock et al. | Well-balanced central-upwind schemes for the Euler equations with gravitation | |
| Phongthanapanich | A stable hybrid Roe scheme on triangular grids | |
| Fenu et al. | Optimum shape and length of laterally loaded piles | |
| Nouri | The effect of Fe2O3 nanoparticles instead cement on the stability of fluid-conveying concrete pipes based on exact solution | |
| Sandilya et al. | Convergence of discontinuous finite volume discretizations for a semilinear hyperbolic optimal control problem | |
| Montanino et al. | A Least Square Residual version of the Modified Finite Particle Method to solve saddle point problems: Application to stationary Stokes and Navier–Stokes equations | |
| Bladé et al. | Preserving steady-state in one-dimensional finite-volume computations of river flow | |
| Kemm | On two deficiencies of the AUFS scheme for Euler flows and possible fixes |