Open AccessStream Function-Vorticity Formulation And Heat Transport using FEM For Unstructured Meshes and Complex Domains
Author(s) -
Luís H. Carnevale,
Gustavo Rabello dos Anjos,
Norberto Mangiavacchi
Publication year - 2018
Publication title -
congresso brasileiro de fluidodinâmica computacional
Language(s) - English
Resource type - Conference proceedings
ISSN - 2525-4472
DOI - 10.17648/cbcfd-83701
Subject(s) - polygon mesh , vorticity , finite element method , stream function , computer science , function (biology) , mechanics , physics , thermodynamics , vortex , computer graphics (images) , evolutionary biology , biology
– The stream function-vorticity formulation is a useful alternative to solving the Navier-Stokes equations in two dimensional domain. One of its major difficulties is the lack of boundary conditions for vorticity, and several schemes are proposed to satisfy such a condition. In this paper we propose a finite element scheme for solving the couple problem of the stream functionvorticity formulation using linear triangle elements. A possible application of the method is also demonstrated using the calculated velocity field from the formulation in the heat transport equation to study the temperature distribution in a incompressible single-phase fluid medium. The results obtained were satisfactory when using low to moderate Reynolds number.
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