A low-order mixed finite element method for a class of quasi-Newtonian Stokes flows. Part I: a priori error analysis
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A low-order mixed finite element method for a class of quasi-Newtonian Stokes flows. Part I: a priori error analysisFecha
2004-03Cita bibliográfica
G. N. Gatica, M. González, S. Meddahi, A low-order mixed finite element method for a class of quasi-Newtonian Stokes flows. Part I: a priori error analysis, Computer Methods in Applied Mechanics and Engineering. 193(9-11) (2004) 881-892.
Resumen
[Abstract] We present a mixed finite element method for a class of non-linear Stokes models arising in quasi-Newtonian fluids.
Our results include, as a by-product, a new mixed scheme for the linear Stokes equation. The approach is based on the
introduction of both the flux and the tensor gradient of the velocity as further unknowns, which yields a twofold saddle
point operator equation as the resulting variational formulation. We prove that the continuous and discrete formulations
are well posed, and derive the associated a priori error analysis. The corresponding Galerkin scheme is defined
by using piecewise constant functions and Raviart–Thomas spaces of lowest order.
Palabras clave
Mixed finite element method
Twofold saddle point formulation
Stokes equation
Twofold saddle point formulation
Stokes equation
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Derechos
Reconocimiento 4.0 Internacional
ISSN
0045-7825