Open AccessGFEM AND LSFEM IN THE SOLUTION OF THE TRANSIENT BIDIMENSIONAL CONVECTION-DIFFUSION EQUATION
Author(s) -
Estaner Claro Romão,
J. B. Aparecido,
João Batista Campos Silva,
Luiz Felipe Mendes de Moura
Publication year - 2009
Publication title -
revista de engenharia térmica
Language(s) - English
Resource type - Journals
ISSN - 1676-1790
DOI - 10.5380/reterm.v8i1.61879
Subject(s) - convection–diffusion equation , mathematics , discretization , finite element method , galerkin method , mathematical analysis , convection , transient (computer programming) , discontinuous galerkin method , diffusion , square (algebra) , algebraic equation , physics , mechanics , geometry , computer science , thermodynamics , quantum mechanics , operating system , nonlinear system
Convection dominated flows result in a hyperbolic system of equations which leads to ill-conditioned matrices and oscillatory approximations when using the classical Galerkin Finite Element Method (GFEM). In this paper, the Least Square Finite Method (LSFEM) is introduced in the study of transient bidimensional convection-diffusion problems. The differentiated equation of second order which describes the convective-diffusive phenomenon is transformed into an equivalent system of partial differentiated equations of first order which is discretized by the formulation of the LSFEM resulting in a defined algebraic, symmetrical and positive system. The performance of the method is verified by the solution of a test- problem.
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