A low-order mixed finite element method for a class of quasi-Newtonian Stokes flows. Part II: a posteriori error analysis

González Taboada, María; Gatica, Gabriel N.; Meddahi, Salim

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http://hdl.handle.net/2183/15597

A low-order mixed finite element method for a class of quasi-Newtonian Stokes flows. Part II: a posteriori error analysis

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2004_María Gonzalez_A_low-order_mixe_Part_II.pdf (500 KB)

Identifiers

URI: http://hdl.handle.net/2183/15597

Publication date

2004-03

Authors

González Taboada, María

Gatica, Gabriel N.

Meddahi, Salim

Bibliographic citation

G. N. Gatica, M. González, S. Meddahi, A low-order mixed finite element method for a class of quasi-Newtonian Stokes flows. Part II: a posteriori error analysis, Computer Methods in Applied Mechanics and Engineering. 193(9-11) (2004) 893-911.

Abstract

[Abstract] This is the second part of a work dealing with a low-order mixed finite element method for a class of nonlinear Stokes models arising in quasi-Newtonian fluids. In the first part we showed that the resulting variational formulation is given by a twofold saddle point operator equation, and that the corresponding Galerkin scheme becomes well posed with piecewise constant functions and Raviart–Thomas spaces of lowest order as the associated finite element subspaces. In this paper we develop a Bank–Weiser type a posteriori error analysis yielding a reliable estimate and propose the corresponding adaptive algorithm to compute the mixed finite element solutions. Several numerical results illustrating the efficiency of the method are also provided.