Vortex ring interaction with a layer of polymeric fluid

Rabia Sonmez; Robert A Handler; David B Goldstein; Saikishan Suryanarayanan; Ryan Kelly

Vortex ring interaction with a layer of polymeric fluid

ORAL

Abstract

Numerical simulations of laminar vortex rings interacting with a layer of polymeric fluid were performed. The results show that when ring-polymer interaction occurs, the flow kinetic energy decreases while enstrophy and dissipation increase. Detailed analysis of the flow reveals that elastic forces act to counter the motion of the ring. Future work will focus on identifying the key non-dimensional parameters, such as the Weissenberg number, that govern this phenomenon.

^*Support was provided by the National Science Foundation under grants 1904953 and 1905288. Simulations were performed on ARGO, a research computing cluster provided by the Office of Research Computing at George Mason University.

Nov. 21, 2023, 9:18 AM – Nov. 21, 2023, 9:31 AM

Presenters

Rabia Sonmez
- George Mason University

Authors

Rabia Sonmez
- George Mason University
Robert A Handler
- George Mason University
David B Goldstein
- University of Texas at Austin
Saikishan Suryanarayanan
- UT Austin
Ryan Kelly
- University of Texas at Austin