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Stability Analysis of Galerkin/Runge-Kutta Navier-Stokes Discretisations on Unstructured Grids

Abstract:: This paper presents a timestep stability analysis for a class of discretisations applied to the linearised form of the Navier-Stokes equations on a 3D domain with periodic boundary conditions. Using a suitable definition of the `perturbation energy' it is shown that the energy is monotonically decreasing for both the original p.d.e. and the semi-discrete system of o.d.e.'s arising from a Galerkin discretisation on a tetrahedral grid. Using recent theoretical results concerning algebraic and generalised stability, sufficient stability limits are obtained for both global and local timesteps for fully discrete algorithms using Runge-Kutta time integration.

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APA Style

Giles, M. (1995). Stability Analysis of Galerkin/Runge-Kutta Navier-Stokes Discretisations on Unstructured Grids. Unspecified.

MLA Style

Giles, M. Stability Analysis of Galerkin/Runge-Kutta Navier-Stokes Discretisations on Unstructured Grids. Unspecified, 1995.

Chicago Style

Giles, M. 1995. “Stability Analysis of Galerkin/Runge-Kutta Navier-Stokes Discretisations on Unstructured Grids.” Unspecified.
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Files:: NA-95-04.pdf

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+ Giles, M More by this author

Role:: Author

Publisher:: Unspecified
Publication date:: 1995-04-01

UUID:: uuid:b51da553-4ede-42eb-b9f9-a3acc42f2eaf
Local pid:: oai:eprints.maths.ox.ac.uk:1342
Deposit date:: 2011-06-12

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Copyright date:: 1995

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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