Visualizing unstructured flow data using dual stream functions

Author

Knight, David ; Mallinson, Gordon

Author_Institution

Numerical Algorithms Group Ltd., Oxford, UK

Volume

2

Issue

4

fYear

1996

fDate

12/1/1996 12:00:00 AM

Firstpage

355

Lastpage

363

Abstract

One of the most important ways of visualizing fluid flow is the construction of streamlines, which are lines that are everywhere tangential to the local fluid velocity. Stream surfaces are defined as surfaces through which no fluid penetrates. Streamlines can therefore be computed from the intersection of two nonparallel stream surfaces. This paper presents new algorithms for the computation of dual stream functions from computational fluid dynamics data that is defined on an unstructured tetrahedral mesh. These algorithms are compared with standard numerical routines for computing streamlines, and are shown to be quicker and more accurate than techniques involving numerical integration along the streamline

Keywords

computational geometry; data visualisation; diagrams; differential equations; flow visualisation; integration; mesh generation; physics computing; computational fluid dynamics; diagrams; differential equation; dual stream functions; fluid flow; local fluid velocity; numerical integration; numerical routines; stream surfaces; streamlines; unstructured flow data visualization; unstructured tetrahedral mesh; Computational fluid dynamics; Data visualization; Differential equations; Fluid flow; Helium; Interpolation; Mechanical engineering; Particle tracking; Position measurement; Spline;

fLanguage

English

Journal_Title

Visualization and Computer Graphics, IEEE Transactions on

Publisher

ieee

ISSN

1077-2626

Type

jour

DOI

10.1109/2945.556503

Filename

556503