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Symmetric Boundary Condition Technique In Nasir Galerkin Finite Volume Solver For 3d Temperature Field

Submitted2008-12-30
Last Update2008-12-30
TitleSymmetric Boundary Condition Technique In Nasir Galerkin Finite Volume Solver For 3d Temperature Field
Author(s)Author #1
Author title:
Name: Falah M. Wegian
Org: Associate Professor, Civil Engineering Department, College of Technological Studies (PAAET), Kuwait
Country: Kuwait
Email:

Author #2
Author title:
Name: Saeed-Reza Sabbagh-Yazdi
Org: Associate Professor, Civil Engineering Department, KN Toosi University of Technology, Tehran, IRAN
Country: Iran
Email: SYazdi@kntu.ac.ir

Other Author(s)
Contact AuthorAuthor #2
Alt Email: syazdi@kntu.ac.ir
Telephone:
KeywordsNASIR 3D temperature solver, Galerkin finite volume method, Symmetric boundary conditions.
AbstractIn order to solve a typical three-dimensional temperature problem numerically, the three-dimensional temperature diffusion equation is chosen as the mathematical model. The finite volume formulation is derived using Galerkin approach for the mesh of tetrahedral elements, which facilitates solving temperature problems with complicated geometries. In this approach, the Poisson equation is multiplied by the piece wise linear shape function of tetrahedral element and integrated over the control volumes which are formed by gathering all the elements meeting every computational node. The linear shape functions of the elements vanish by some mathematical manipulations and the resulting formulation can be solved explicitly for each computational node. The algorithm is not only able to handle the essential boundary conditions but also the natural boundary conditions using a novel technique. Accuracy and efficiency of the algorithm are assessed by comparison of the numerical results for a bench mark problem of heat generation and transfer in a block with its analytical solution. Then, the introduced technique for imposing natural boundary conditions on unstructured tetrahedral mesh is examined for cases with inclined symmetric boundaries.
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