Lehrinhalte
basics of continuum mechanical flow modelling, numerical grids, grid
generation, finite-volume methods for complex geometries,
finite-volume methods for incompressible flows, upwind methods,
flux-blending, pressure-correction methods, numerical methods for
turbulent flows, basics of statistical turbulence modelling, k-eps
model, sparse linear and nonlinear system solvers, ILU methods,
conjugate gradient methods, preconditioning, multigrid methods,
parallel computing
Literatur
M. Schäfer: Numerik im Maschinenbau, Springer, Berlin, 1999.
M. Schäfer: Computational Engineering - Introduction to Numerical Methods, Springer, Berlin, 2006.
Voraussetzungen
contents of the introductive course "Numerical Methods" (summer term)
Erwartete Teilnehmerzahl
40
basics of continuum mechanical flow modelling, numerical grids, grid
generation, finite-volume methods for complex geometries,
finite-volume methods for incompressible flows, upwind methods,
flux-blending, pressure-correction methods, numerical methods for
turbulent flows, basics of statistical turbulence modelling, k-eps
model, sparse linear and nonlinear system solvers, ILU methods,
conjugate gradient methods, preconditioning, multigrid methods,
parallel computing
Literatur
M. Schäfer: Numerik im Maschinenbau, Springer, Berlin, 1999.
M. Schäfer: Computational Engineering - Introduction to Numerical Methods, Springer, Berlin, 2006.
Voraussetzungen
contents of the introductive course "Numerical Methods" (summer term)
Erwartete Teilnehmerzahl
40
- Lehrende: Michael Schäfer
Semester: WT 2019/20