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A spectral method for the triangular cavity flow
Date Issued
22-05-2014
Author(s)
Abstract
We describe the use of a spectral collocation method to compute the characteristics of incompressible, viscous flow in a lid driven right triangular cavity with wall motion away from the right angle. First, the 2-D Gauss-Lobatto grid on the square [ - 1, 1] × [ - 1, 1] is mapped to a triangular domain by means of a singular mapping. A singularity subtraction technique is used to account for the most singular terms of the asymptotic expansions near the top corners of the flow. The unsteady Navier-Stokes equations in the vorticity-streamfunction formulation are then solved in this transformed grid using an influence matrix technique. A third order Adams Bashforth/Backward differentiation method appears to provide excellent numerical stability for the scheme and also permits a larger critical time step. Detailed characteristics of the flow and comparisons with published results are presented. © 2014 Elsevier Ltd.
Volume
95