A stabilized finite element formulation of the navier-stokes equations for fluid-structure interaction

Arif Masud

A stabilized finite element formulation of the navier-stokes equations for fluid-structure interaction

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Abstract

This paper presents a space-time finite element formulation of the Navier-Stokes equations, stabilized via the Galerkin/least-squares method. The variational equation is based on the time discontinuous Galerkin method and is written in terms of the physical entropy variables. This formulation is analogous to the arbitrary Lagranglan-Eulerian technique and thus is applicable to fluid-structure interaction problems. Free surface oscillation of a liquid filled tank is presented to show the performance of the proposed method.

Original language	English (US)
Pages (from-to)	95-97
Number of pages	3
Journal	American Society of Mechanical Engineers, Fluids Engineering Division (Publication) FED
Volume	242
State	Published - 1996
Externally published	Yes

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General Engineering

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abstract = "This paper presents a space-time finite element formulation of the Navier-Stokes equations, stabilized via the Galerkin/least-squares method. The variational equation is based on the time discontinuous Galerkin method and is written in terms of the physical entropy variables. This formulation is analogous to the arbitrary Lagranglan-Eulerian technique and thus is applicable to fluid-structure interaction problems. Free surface oscillation of a liquid filled tank is presented to show the performance of the proposed method.",

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AB - This paper presents a space-time finite element formulation of the Navier-Stokes equations, stabilized via the Galerkin/least-squares method. The variational equation is based on the time discontinuous Galerkin method and is written in terms of the physical entropy variables. This formulation is analogous to the arbitrary Lagranglan-Eulerian technique and thus is applicable to fluid-structure interaction problems. Free surface oscillation of a liquid filled tank is presented to show the performance of the proposed method.

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A stabilized finite element formulation of the navier-stokes equations for fluid-structure interaction

Abstract

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