Record number :
92371
Title of article :
Potential flow around obstacles using the scaled boundary finite-element method
Author/Authors :
Cheng، Liang نويسنده , , Deeks، Andrew J. نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2003
Pages :
-720
From page :
721
To page :
0
Abstract :
The scaled boundary finite-element method is a novel semi-analytical technique, combining the advantages of the finite element and the boundary element methods with unique properties of its own. The method works by weakening the governing differential equations in one co-ordinate direction through the introduction of shape functions, then solving the weakened equations analytically in the other (radial) co-ordinate direction. These co-ordinate directions are defined by the geometry of the domain and a scaling centre. The method can be employed for both bounded and unbounded domains. This paper applies the method to problems of potential flow around streamlined and bluff obstacles in an infinite domain. The method is derived using a weighted residual approach and extended to include the necessary velocity boundary conditions at infinity. The ability of the method to model unbounded problems is demonstrated, together with its ability to model singular points in the near field in the case of bluff obstacles. Flow fields around circular and square cylinders are computed, graphically illustrating the accuracy of the technique, and two further practical examples are also presented. Comparisons are made with boundary element and finite difference solutions.
Keywords :
scaled boundary finite-element method , Laplaces equation , potential flow , singular points , unbounded domains
Journal title :
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS
Journal title :
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN FLUIDS
Serial Year :
2003
Link To Document :
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