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Finite element method for free surface flows of incompressible fluids in three dimensions. Part I. Boundary fitted mesh motion
Journal article   Peer reviewed

Finite element method for free surface flows of incompressible fluids in three dimensions. Part I. Boundary fitted mesh motion

Richard Cairncross, PRandall Schunk, Thomas Baer, Rekha Rao and Phillip Sackinger
International journal for numerical methods in fluids, v 33(3), pp 375-403
01 Jan 2000
DOI: https://doi.org/10.1002/1097-0363(20000615)33:3<375::AID-FLD13>3.0.CO;2-O

Abstract

Boundary conditions Capillary flow Computational complexity Computational fluid dynamics Computational geometry Convergence of numerical methods Curve fitting Finite element method Galerkin methods Navier Stokes equations
Computational fluid mechanics techniques for examining free surface problems in two-dimensional form are now well established. Extending these methods to three dimensions requires a reconsideration of some of the difficult issues from two-dimensional problems as well as developing new formulations to handle added geometric complexity. This paper presents a new finite element formulation for handling three-dimensional free surface problems with a boundary-fitted mesh and full Newton iteration, which solves for velocity, pressure, and mesh variables simultaneously. A boundary-fitted, pseudo-solid approach is used for moving the mesh, which treats the interior of the mesh as a fictitious elastic solid that deforms in response to boundary motion. To minimize mesh distortion near free boundary under large deformations, the mesh motion equations are rotated into normal and tangential components prior to applying boundary conditions. The Navier-Stokes equations are discretized using a Galerkin-least square/pressure stabilization formulation, which provides good convergence properties with iterative solvers. The result is a method that can track large deformations and rotations of free surface boundaries in three dimensions. The method is applied to two sample problems: solid body rotation of a fluid and extrusion from a nozzle with a rectangular cross-section. The extrusion example exhibits a variety of free surface shapes that arise from changing processing conditions.

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