Mixing characteristic of

Mixing characteristic of

With the use of large eddy simulation (LES), the initial structure and mixing characteristics of both the subsonic and supersonic circular jets are studied, respectively. The stretched-vortex model combined with the high-order hybrid scheme is employed to solve the LES equations. The typical structu...

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Bibliographic Details
Main Authors: Huanhao Zhang, Zhihua Chen, Xun Sun, Zhengui Huang
Format: Article
Language:English
Published: Wiley 2018-12-01
Series:The Journal of Engineering
Subjects:
supersonic flow
mixing
jets
shock waves
flow simulation
shock wave effects
compressible flow
vortices
flow instability
LES equations
typical structures
initial jet
different conditions
evolution process
unique characteristics
compressible vortex ring
unsteady jet
jet gases
different mixing processes
subsonic jets
supersonic jets
supersonic jet
mixing process
mixing characteristic
supersonic unsteady circular jets
eddy simulation
initial structure
mixing characteristics
supersonic circular jets
stretched-vortex model
high-order hybrid scheme
Online Access:https://digital-library.theiet.org/content/journals/10.1049/joe.2018.9011
Description
Summary:With the use of large eddy simulation (LES), the initial structure and mixing characteristics of both the subsonic and supersonic circular jets are studied, respectively. The stretched-vortex model combined with the high-order hybrid scheme is employed to solve the LES equations. The typical structures of the initial jet at different conditions have been presented and discussed. The formation and evolution process of the vortex ring has been displayed in detail, and the unique characteristics of a compressible vortex ring generated by the unsteady jet have been identified. Furthermore, the engulfment and mixture of ambient gas with the jet gases have been discussed, the different mixing processes of both subsonic and supersonic jets, especially the shock wave effect in a supersonic jet on mixing process, have been illustrated.
ISSN:2051-3305

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