Temporal Artificial Stress Diffusion for Numerical Simulations of Oldroyd-B Fluid Flow
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Mathematics,Special Issue Mathematical Dynamic Flow Models
Abstract
This paper presents a numerical evaluation of two different artificial stress diffusion
techniques for the stabilization of viscoelastic Oldroyd-B fluid flows at highWeissenberg numbers.
The standard artificial diffusion in the form of a Laplacian of the extra stress tensor is compared
with a newly proposed approach using a discrete time derivative of the Laplacian of the extra stress
tensor. Both methods are implemented in a finite element code and demonstrated in the solution
of a viscoelastic fluid flow in a two-dimensional corrugated channel for a range of Weissenberg
numbers. The numerical simulations have shown that this new temporal stress diffusion not only
efficiently stabilizes numerical simulations, but also vanishes when the solution reaches a steady
state. It is demonstrated that in contrast to the standard tensorial diffusion, the temporal artificial
stress diffusion does not affect the final solution.
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Temporal Artificial Stress Diffusion for Numerical Simulations of Oldroyd-B Fluid Flow
by Marília Pires and Tomáš Bodnár
Mathematics 2022, 10(3), 404; https://doi.org/10.3390/math10030404 - 27 Jan 2022