Least squares finite element method for 3D unsteady diffusion and reaction-diffusion problems
ARTIGO
Inglês
In this paper a study to application of Least Squares Finite Element Method (LSFEM) is made and with auxiliary equations (temperature derivatives) in the solution of Transient Three-dimensional Diffusion-Reaction. In order to do so, two applications are presented and discussed, one of them Pure...
In this paper a study to application of Least Squares Finite Element Method (LSFEM) is made and with auxiliary equations (temperature derivatives) in the solution of Transient Three-dimensional Diffusion-Reaction. In order to do so, two applications are presented and discussed, one of them Pure Diffusion and another DiffusionReaction, both solved towards the constructive meshes with hexahedron of 8 and 27 nodes. This analysis uses the standard L∞ (maximum error in all meshes) and L2 (average error in all the meshes) to verify the numerical error committed in the solution
FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP
2014/06679-8
CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ
500382/2011-5
Aberto
Texto completo: https://wseas.org/wseas/cms.action?id=7662
Least squares finite element method for 3D unsteady diffusion and reaction-diffusion problems
Least squares finite element method for 3D unsteady diffusion and reaction-diffusion problems
Fontes
WSEAS transactions on fluid mechanics Vol. 9 (2014), p. 196-209 |