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A Projection Method for Incompressible Viscous Flow on Moving QuadrilateralGrids

✍ Scribed by David P. Trebotich; Phillip Colella

Publisher
Elsevier Science
Year
2001
Tongue
English
Weight
360 KB
Volume
166
Category
Article
ISSN
0021-9991

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✦ Synopsis

We present a second-order accurate projection method for numerical solution of the incompressible Navier-Stokes equations on moving quadrilateral grids. Our approach is a generalization of the Bell-Colella-Glaz (BCG) predictor-corrector method for incompressible flow. Irregular geometry is represented in terms of a moving, body-fitted cylindrical coordinate system. Mapped coordinates are used to smoothly transform in both time and space the moving domain onto a logically rectangular domain which is fixed in time. To treat the time dependence and inhomogeneities in the incompressibility constraint introduced by the presence of deforming boundaries, we introduce a nontrivial splitting of the velocity field into vortical and potential components to eliminate the inhomogeneous terms in the constraint and a generalization of the BCG algorithm to treat time-dependent constraints. The method is second-order accurate in space and time, has a time step constraint determined by the advective CFL condition, and requires the solution of well-behaved linear systems amenable to the use of fast iterative methods. We demonstrate the method on the specific example of viscous incompressible flow in an axisymmetric deforming tube.

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