Title :
An Adaptive Mesh Strategy for Transient Flows Simulations
Author :
Popiolek, Tales Luiz ; Awruch, Armando Miguel
Author_Institution :
Inst. of Math., Stat. & Phys., Fed. Univ. Found. of Rio Grande, Rio Grande, Brazil
Abstract :
An adaptive mesh strategy for the numerical simulation of incompressible transient flows with heat transfer and mass transport is presented in this work. The Finite Element technique, with unstructured meshes formed by tetrahedral elements, and the two-step Taylor-Galerkin method are used. The velocity field is obtained by an explicit scheme, while pressure field is computed by an implicit scheme using a pre-conditioned conjugate gradient method. Error indicators, an adaptation criterion, a refinement scheme, a smoothing process and an appropriate data structure are used to obtain a suitable mesh in order to get accurate results. To evaluate the adaptive mesh strategy performance, two numerical applications involving transient incompressible viscous fluid flows with heat transfer and mass transport, taking into account relevant error indicator, are presented.
Keywords :
Galerkin method; compressible flow; conjugate gradient methods; error analysis; flow instability; flow simulation; heat transfer; mesh generation; plastic flow; adaptive mesh strategy; error indicators; finite element technique; heat transfer; incompressible transient flow; mass transport; numerical simulation; preconditioned conjugate gradient method; smoothing process; tetrahedral elements; transient flows simulation; two-step Taylor-Galerkin method; unstructured meshes; viscous fluid flows; Boundary conditions; Data structures; Finite element methods; Heating; Mathematical model; Smoothing methods; Transient analysis; Finite elements; adaptive mesh; heat transfer; mass transport;
Conference_Titel :
Computational Modeling (MCSUL), 2009 Third Southern Conference on
Conference_Location :
Rio Grande
Print_ISBN :
978-1-4244-5980-3
DOI :
10.1109/MCSUL.2009.31
