University of Leicester
Browse
DOCUMENT
PoF-2016.pdf (2.37 MB)
DOCUMENT
1.4939835.pdf (7.18 MB)
1/0
2 files

Initial Condition Effects on Large Scale Structure in Numerical Simulations of Plane Mixing Layers

journal contribution
posted on 2016-02-09, 11:48 authored by William Andrew McMullan, Stephen J. Garrett
In this paper, Large Eddy Simulations are performed on the spatially developing plane turbulent mixing layer. The simulated mixing layers originate from initially laminar conditions. The focus of this research is on the effect of the nature of the imposed fluctuations on the large-scale spanwise and streamwise structures in the flow. Two simulations are performed; one with low-level three-dimensional inflow fluctuations obtained from pseudo-random numbers, the other with physically correlated fluctuations of the same magnitude obtained from an inflow generation technique. Where white-noise fluctuations provide the inflow disturbances, no spatially stationary streamwise vortex structure is observed, and the large-scale spanwise turbulent vortical structures grow continuously and linearly. These structures are observed to have a three-dimensional internal geometry with branches and dislocations. Where physically correlated provide the inflow disturbances a “streaky” streamwise structure that is spatially stationary is observed, with the large-scale turbulent vortical structures growing with the square-root of time. These large-scale structures are quasi-two-dimensional, on top of which the secondary structure rides. The simulation results are discussed in the context of the varying interpretations of mixing layer growth that have been postulated. Recommendations are made concerning the data required from experiments in order to produce accurate numerical simulation recreations of real flows.

History

Citation

Physics of Fluids, 2016, 28, 015111

Author affiliation

/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Engineering

Version

  • AM (Accepted Manuscript)

Published in

Physics of Fluids

Publisher

American Institute of Physics

issn

1070-6631

eissn

1089-7666

Acceptance date

2015-12-31

Copyright date

2016

Available date

2016-02-09

Publisher version

http://scitation.aip.org/content/aip/journal/pof2/28/1/10.1063/1.4939835

Language

en

Usage metrics

    University of Leicester Publications

    Categories

    No categories selected

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC