Analysis of the small viscosity and large reaction coefficient in the computation of the generalized Stokes problem by a novel stabilized finite element method

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題名:	Analysis of the small viscosity and large reaction coefficient in the computation of the generalized Stokes problem by a novel stabilized finite element method
作者:	楊肅煜;Duan, Huo-Yuan;Hsieh, Po-Wen;Tan, Roger C.E.;Yang, Suh-Yuh
貢獻者:	理學院數學系
關鍵詞:	Coefficients;Finite element method;Fluid flow;Generalized Stokes problem;Inverse;Large reaction coefficient;Mathematical analysis;Mathematical models;Small viscosity;Stabilization;Stabilization parameter;Stabilized finite element method;Viscosity
日期:	2014-04-01
上傳時間:	2026-04-23 16:10:53 (UTC+8)
出版者:	Elsevier;Elsevier B.V
摘要:	摘要： •We propose and analyze a novel stabilized FEM for the generalized Stokes equations.•The method uses the residuals of the momentum equation and the divergence-free equation to define the stabilization terms.•We explicitly establish the dependence of error bounds on the viscosity, the reaction coefficient and the mesh size.•Comparisons made with other existing methods show that the stabilized FEM can attain better accuracy and stability. In this paper, we propose and analyze a novel stabilized finite element method (FEM) for the system of generalized Stokes equations arising from the time-discretization of transient Stokes problem. The system involves a small viscosity, which is proportional to the inverse of large Reynolds number, and a large reaction coefficient, which is the inverse of small time step. The proposed stabilized FEM employs the C0 piecewise linear elements for both velocity field and pressure on the same mesh and uses the residuals of the momentum equation and the divergence-free equation to define the stabilization terms. The stabilization parameters are fixed and element-independent, without a comparison of the viscosity, the reaction coefficient and the mesh size. Using the finite element solution of an auxiliary boundary value problem as the interpolating function for velocity and the H1-seminorm projection for pressure, instead of the usual nodal interpolants, we derive error estimates for the stabilized finite element approximations to velocity and pressure in the L2 and H1 norms and most importantly, we explicitly establish the dependence of error bounds on the viscosity, the reaction coefficient and the mesh size. Our analysis reveals that this stabilized FEM is particularly suitable for the generalized Stokes system with a small viscosity and a large reaction coefficient, which has never been achieved before in the error analysis of other stabilization methods in the literature. We then numerically confirm the effectiveness of the proposed stabilized FEM. Comparisons made with other existing stabilization methods show that the newly proposed method can attain better accuracy and stability. 出版者： Elsevier B.V 出版日期： 2014-04-01 出處： Computer methods in applied mechanics and engineering, 2014-04, Vol.271, p.23-47 資源來源： Elsevier ScienceDirect Journals Complete 版權： 2013 Elsevier B.V. 識別號： ISSN: 0045-7825 識別號： EISSN: 1879-2138 識別號： DOI: 10.1016/j.cma.2013.11.024
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