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Numerical analysis of a stabilized finite element approximation for the three-field linearized viscoelastic fluid problem using arbitrary interpolations
dc.contributor.author | Castillo del Barrio, Ernesto |
dc.contributor.author | Codina, Ramon |
dc.contributor.other | Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental |
dc.date.accessioned | 2017-09-26T14:23:46Z |
dc.date.available | 2017-09-26T14:23:46Z |
dc.date.issued | 2017-07 |
dc.identifier.citation | Castillo, E., Codina, R. Numerical analysis of a stabilized finite element approximation for the three-field linearized viscoelastic fluid problem using arbitrary interpolations. "ESAIM: mathematical modelling and numerical analysis (ESAIM: M2AN)", Juliol 2017, vol. 51, núm. 4, p. 1407. |
dc.identifier.issn | 0764-583X |
dc.identifier.uri | http://hdl.handle.net/2117/108029 |
dc.description | The original publication is available at www.esaimm2an.org. |
dc.description.abstract | In this paper we present the numerical analysis of a three-field stabilized finite element formulation recently proposed to approximate viscoelastic flows. The three-field viscoelastic fluid flow problem may suffer from two types of numerical instabilities: on the one hand we have the two inf-sup conditions related to the mixed nature problem and, on the other, the convective nature of the momentum and constitutive equations may produce global and local oscillations in the numerical approximation. Both can be overcome by resorting from the standard Galerkin method to a stabilized formulation. The one presented here is based on the subgrid scale concept, in which unresolvable scales of the continuous solution are approximately accounted for. In particular, the approach developed herein is based on the decomposition into their finite element component and a subscale, which is approximated properly to yield a stable formulation. The analyzed problem corresponds to a linearized version of the Navier-Stokes/Oldroyd-B case where the advection velocity of the momentum equation and the non-linear terms in the constitutive equation are treated using a fixed point strategy for the velocity and the velocity gradient. The proposed method permits the resolution of the problem using arbitrary interpolations for all the unknowns. We describe some important ingredients related to the design of the formulation and present the results of its numerical analysis. It is shown that the formulation is stable and optimally convergent for small Weissenberg numbers, independently of the interpolation used. |
dc.format.extent | 1 p. |
dc.language.iso | eng |
dc.subject | Àrees temàtiques de la UPC::Física::Física de fluids::Flux de fluids |
dc.subject.lcsh | Viscoelastic materials--Fluid dynamics |
dc.subject.other | Inf-sup conditions |
dc.subject.other | Oldroyd-B |
dc.subject.other | Stabilized finite element methods |
dc.subject.other | Viscoelastic fluids |
dc.title | Numerical analysis of a stabilized finite element approximation for the three-field linearized viscoelastic fluid problem using arbitrary interpolations |
dc.type | Article |
dc.subject.lemac | Viscoelasticitat -- Models matemàtics |
dc.contributor.group | Universitat Politècnica de Catalunya. ANiComp - Anàlisi numèrica i computació científica |
dc.identifier.doi | 10.1051/m2an/2016068 |
dc.description.peerreviewed | Peer Reviewed |
dc.relation.publisherversion | https://www.esaim-m2an.org/component/article?access=doi&doi=10.1051/m2an/2016068 |
dc.rights.access | Open Access |
local.identifier.drac | 21549653 |
dc.description.version | Postprint (author's final draft) |
local.citation.author | Castillo, E.; Codina, R. |
local.citation.publicationName | ESAIM: mathematical modelling and numerical analysis (ESAIM: M2AN) |
local.citation.volume | 51 |
local.citation.number | 4 |
local.citation.startingPage | 1407 |
local.citation.endingPage | 1407 |
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