4.7 Article

Stabilization of advection dominated problems through a generalized finite element method

出版社

ELSEVIER SCIENCE SA
DOI: 10.1016/j.cma.2021.113889

关键词

Advection; Convection; Diffusion; Generalized finite element

资金

  1. AFRL, USA-University Collaborative Center in Structural Sciences [FA850-13-2347]

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The article explores the alleviation of spurious oscillations introduced by traditional finite element methods in advection dominated problems through a generalized finite element formulation. This method is demonstrated to effectively capture boundary layer development and provide smooth numerical solutions with improved error levels compared to traditional formulations. Insights into the improvements offered by the generalized finite element method are further illuminated through a consistent decomposition of the variational multiscale method for comparison with classical stabilized methods.
Traditional finite element approaches are well-known to introduce spurious oscillations when applied to advection dominated problems. We explore alleviation of this issue from the perspective of a generalized finite element formulation, which enables stabilization of a linear differential operator through enrichments based on fundamental solutions. This is demonstrated through application to steady/unsteady one- and two-dimensional advection-diffusion problems. Here, boundary layer development is efficiently captured using a set of exponential functions derived from fundamental solutions to the problems considered. Results demonstrate smooth, numerical solutions with convergence observed to be in relative agreement with expected convergence rates for elliptic problems. Furthermore, significantly improved error levels are observed compared to traditional finite element formulations. Additional insights in improvements offered by the generalized finite element method are illuminated using a consistent decomposition of the variational multiscale method, enabling comparison with classical stabilized methods. (C) 2021 Elsevier B.V. All rights reserved.

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