论文信息 - Pressure and time treatment for Chebyshev spectral solution of a Stokes problem

Pressure and time treatment for Chebyshev spectral solution of a Stokes problem

To investigate the influences of time scheme, pressure treatment and initial conditions in incompressible fluid dynamics, a Stokes problem is solved numerically on a slab geometry within the framework of spectral approximation in space. Four algorithms are examined: splitting schemes, influence matrix method, penalty formulation and pseudo-spectral space-time technique. It is shown that splitting schemes are less accurate than the other processes. Furthermore, the initial field should respect a compatibility condition to avoid singularities at the initial time. If it is not possible to build such a compatible field, the numerical procedure has to present good damping properties at the first steps of the time integration.

M. Deville | L. Kleiser | F. Montigny-Rannou

[1] R. Rannacher,et al. Finite element approximation of the nonstationary Navier-Stokes problem. I : Regularity of solutions and second-order error estimates for spatial discretization , 1982 .

[2] W. Bauer,et al. Einsatz mathematischer Methoden bei der Hydroenergiegewinnung , 1984 .

[3] U. Schumann,et al. Treatment of incompressibility and boundary conditions in 3-D numerical spectral simulations of plane channel flows , 1980 .

[4] Wing Kam Liu,et al. Finite Element Analysis of Incompressible Viscous Flows by the Penalty Function Formulation , 1979 .

[5] D. Gottlieb,et al. Numerical analysis of spectral methods : theory and applications , 1977 .