Cores of Swirling Particle Motion in Unsteady Flows

Author

Weinkauf, T. ; Sahner, J. ; Theisel, H. ; Hege, H.-C.

Author_Institution

Zuse Inst. Berlin, Berlin

Volume

13

Issue

6

fYear

2007

Firstpage

1759

Lastpage

1766

Abstract

In nature and in flow experiments particles form patterns of swirling motion in certain locations. Existing approaches identify these structures by considering the behavior of stream lines. However, in unsteady flows particle motion is described by path lines which generally gives different swirling patterns than stream lines. We introduce a novel mathematical characterization of swirling motion cores in unsteady flows by generalizing the approach of Sujudi/Haimes to path lines. The cores of swirling particle motion are lines sweeping over time, i.e., surfaces in the space-time domain. They occur at locations where three derived 4D vectors become coplanar. To extract them, we show how to re-formulate the problem using the parallel vectors operator. We apply our method to a number of unsteady flow fields.

Keywords

computational fluid dynamics; flow instability; flow visualisation; swirling flow; mathematical characterization; parallel vector operator; space-time domain; swirling particle motion; unsteady flow visualization; Aerospace industry; Aircraft; Airplanes; Blood flow; Data mining; Feature extraction; Numerical simulation; Robustness; Turbomachinery; Visualization; feature extraction; particle motion; unsteady flow visualization;

fLanguage

English

Journal_Title

Visualization and Computer Graphics, IEEE Transactions on

Publisher

ieee

ISSN

1077-2626

Type

jour

DOI

10.1109/TVCG.2007.70545

Filename

4376212