A 3-D streamline tracking algorithm using dual stream functions

Author

Kenwright, David N. ; Mallinson, Gordon D.

Author_Institution

Dept. of Mech. Eng., Auckland Univ., New Zealand

fYear

1992

fDate

19-23 Oct 1992

Firstpage

62

Lastpage

68

Abstract

A methodology has been developed for constructing streamlines and particle paths in numerically generated fluid velocity fields. A graphical technique is used to convert the discretely defined flow within a cell into one represented by two three-dimensional stream functions. Streamlines are calculated by tracking constant values of each stream function, a process which corresponds to finding the intersection of two stream surfaces. The tracking process is mass conservative and does not use a time stepping method for integration, thus eliminating a computationally intensive part of traditional tracking algorithms. The method can be applied generally to any three-dimensional compressible or incompressible steady flow. Results presented compare the performance of the new method to the most commonly used scheme and show that calculation times can be reduced by an order of magnitude

Keywords

computer graphics; flow simulation; flow visualisation; physics computing; 3D streamline tracking; calculation times; computational fluid dynamics; dual stream functions; graphical technique; incompressible steady flow; mass conservative; numerically generated fluid velocity fields; particle paths; stream surfaces; three-dimensional stream functions; tracking process; Computational fluid dynamics; Data visualization; Equations; Humans; Length measurement; Mechanical engineering; Particle measurements; Solids; Spirals; Time measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Visualization, 1992. Visualization '92, Proceedings., IEEE Conference on

Conference_Location

Boston, MA

Print_ISBN

0-8186-2897-9

Type

conf

DOI

10.1109/VISUAL.1992.235225

Filename

235225