Statistics of 2D multi-mode iso-thermally stratified compressible Rayleigh-Taylor instability

Denis Aslangil; Man Long Wong

Statistics of 2D multi-mode iso-thermally stratified compressible Rayleigh-Taylor instability

ORAL

Abstract

The flow compressibility through the strength of the background stratification has been reported to have a stabilization effect in single-mode 2D Rayleigh-Taylor instability (RTI) at Atwood numbers less than 0.05. This work extends the study of such effects on the low Atwood number (A=0.04) 2D RTI to the multi-mode perturbation using direct numerical simulations, DNS. We study the growth of the RTI, mixing, energetics, and the vortical dynamics of the flow with different Mach and Reynolds numbers. In addition, we present a detailed analysis of our DNS to study how compressibility plays a role in the transport of Turbulent Kinetic Energy, TKE, of the multi-mode 2D RTI.

Nov. 22, 2022, 2:47 PM – Nov. 22, 2022, 3:00 PM

Publication: Denis Aslangil, and Man Long Wong. "Study of iso-thermal stratification strength on 2D multi-mode compressible Rayleigh-Taylor instability," AIAA 2022-0456. AIAA SCITECH 2022 Forum. January 2022.<br>Tyler Prine, Denis Aslangil, and Man Long Wong. "Coupled effects of iso-thermal stratification strength and Atwood number on 2D single-mode compressible Rayleigh-Taylor instability," Submitted to AIAA SCITECH 2023 Forum. January 2023.

Presenters

Denis Aslangil

The University of Alabama

Authors

Denis Aslangil

The University of Alabama
Man Long Wong

Los Alamos National Laboratory