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Dynamic subscales in the finite element approximation of thermally coupled incompressible flows

✍ Scribed by Ramon Codina; Javier Principe

Publisher
John Wiley and Sons
Year
2007
Tongue
English
Weight
589 KB
Volume
54
Category
Article
ISSN
0271-2091

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✦ Synopsis

Abstract

In this paper, we propose a variational multiscale finite‐element approximation for the incompressible Navier–Stokes equations using the Boussinesq approximation to model thermal coupling. The main feature of the formulation in contrast to other stabilized methods is that we consider the subscales as transient. They are solution of a differential equation in time that needs to be integrated. Likewise, we keep the effect of the subscales both in the nonlinear convective terms of the momentum and temperature equations and, if required, in the thermal coupling term of the momentum equation. Apart from presenting the main properties of the formulation, we also discuss some computational aspects such as the linearization strategy or the way to integrate in time the equation for the subscales. Copyright Β© 2007 John Wiley & Sons, Ltd.

πŸ“œ SIMILAR VOLUMES

Time dependent subscales in the stabiliz
Time dependent subscales in the stabilized finite element approximation of incompressible flow problems
✍ Ramon Codina; Javier Principe; Oriol Guasch; Santiago Badia πŸ“‚ Article πŸ“… 2007 πŸ› Elsevier Science 🌐 English βš– 698 KB

In this paper we analyze a stabilized finite element approximation for the incompressible Navier-Stokes equations based on the subgrid-scale concept. The essential point is that we explore the properties of the discrete formulation that results allowing the subgrid-scales to depend on time. This app