A control‐volume based method for the numerical calculation of axisymmetric incompressible fluid flow and heat transfer is presented. The proposed method extends the staggered grid approach to unstructured triangular meshes. The velocities are stored at the vertices and the edges of a triangle, pressure and temperature are stored at the vertices. Accordingly, velocities are interpolated in a quadratic way, pressure and temperature linearly. The accuracy of the proposed method is examined for a number of different testproblems. Compared to a linear interpolation scheme implemented in the same code, more accurate solutions and smaller computation times are obtained for the proposed quadratic scheme. The method was designed for and is about to be applied to the numerical simulation of crystal growth.
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1 December 2002
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Research Article|
December 01 2002
Comparison of linear and quadratic shape functions for a hybrid control‐volume finite element method Available to Purchase
Y. Stry;
Y. Stry
University of Applied Sciences, Nürnberg, Germany
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M. Hainke;
M. Hainke
Fraunhofer Institute IIS‐B, Schottkystr, Erlangen, Germany
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Th. Jung
Th. Jung
Institute for Material Science (LS VI), University of Erlangen‐Nürnberg, Germany
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Publisher: Emerald Publishing
Online ISSN: 1758-6585
Print ISSN: 0961-5539
© MCB UP Limited
2002
International Journal of Numerical Methods for Heat & Fluid Flow (2002) 12 (8): 1009–1031.
Citation
Stry Y, Hainke M, Jung T (2002), "Comparison of linear and quadratic shape functions for a hybrid control‐volume finite element method". International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 12 No. 8 pp. 1009–1031, doi: https://doi.org/10.1108/09615530210448732
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