A study of mixing and intermittency in a coaxial turbulent jet
A study of mixing and intermittency in a coaxial turbulent jet
A large eddy simulation study of mixing and intermittency of a coaxial turbulent jet discharging into an unconfined domain has been conducted. The work aims to gain insight into the mixing and intermittency of turbulent coaxial jet configurations. The coaxial jet considered has relatively high jet velocities for both core and annular jets with an aspect ratio (core jet to annular jet) of 1.48. The computations resolved the temporal development of large-scale flow structures by solving the transport equations for the spatially filtered mass, momentum and passive scalar on a non-uniform Cartesian grid and employed the localized dynamic Smagorinsky eddy viscosity as a sub-grid scale turbulence model. The results for the time-averaged mean velocities, associated turbulence fluctuations and mean passive scalar fields are presented. The initial inner and outer potential cores and the shear layers established between two cores have been resolved, together with the establishment of high turbulence regions between the shear layers. The passive scalar fields developing from the core and the bypass flow were found to exhibit differences at near and far field locations. Probability density distributions of instantaneous mixture fraction and velocity have been created from which intermittency has been calculated and the development of intermittency from the probability density distributions for instantaneous velocity follows similar variations as for the passive scalar fields.
fluid dynamics
25507
Ranga Dinesh, K.K.J.
6454b22c-f505-40f9-8ad4-a1168e8f87cd
Savill, A.M.
f268afc4-a8e5-45cd-b5f1-afb459a24ef2
Jenkins, K.W.
4ca70a5c-46dd-40bf-ae46-9efa3790f8ea
Kirkpatrick, M.P.
cf76adda-898f-472d-a93a-c55d29b06fba
2010
Ranga Dinesh, K.K.J.
6454b22c-f505-40f9-8ad4-a1168e8f87cd
Savill, A.M.
f268afc4-a8e5-45cd-b5f1-afb459a24ef2
Jenkins, K.W.
4ca70a5c-46dd-40bf-ae46-9efa3790f8ea
Kirkpatrick, M.P.
cf76adda-898f-472d-a93a-c55d29b06fba
Ranga Dinesh, K.K.J., Savill, A.M., Jenkins, K.W. and Kirkpatrick, M.P.
(2010)
A study of mixing and intermittency in a coaxial turbulent jet.
Fluid Dynamics Research, 42 (2), .
(doi:10.1088/0169-5983/42/2/025507).
Abstract
A large eddy simulation study of mixing and intermittency of a coaxial turbulent jet discharging into an unconfined domain has been conducted. The work aims to gain insight into the mixing and intermittency of turbulent coaxial jet configurations. The coaxial jet considered has relatively high jet velocities for both core and annular jets with an aspect ratio (core jet to annular jet) of 1.48. The computations resolved the temporal development of large-scale flow structures by solving the transport equations for the spatially filtered mass, momentum and passive scalar on a non-uniform Cartesian grid and employed the localized dynamic Smagorinsky eddy viscosity as a sub-grid scale turbulence model. The results for the time-averaged mean velocities, associated turbulence fluctuations and mean passive scalar fields are presented. The initial inner and outer potential cores and the shear layers established between two cores have been resolved, together with the establishment of high turbulence regions between the shear layers. The passive scalar fields developing from the core and the bypass flow were found to exhibit differences at near and far field locations. Probability density distributions of instantaneous mixture fraction and velocity have been created from which intermittency has been calculated and the development of intermittency from the probability density distributions for instantaneous velocity follows similar variations as for the passive scalar fields.
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Published date: 2010
Keywords:
fluid dynamics
Organisations:
Engineering Science Unit
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Local EPrints ID: 347353
URI: http://eprints.soton.ac.uk/id/eprint/347353
ISSN: 0169-5983
PURE UUID: 76699c2b-24b8-4904-94d4-fe3492779ee9
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Date deposited: 28 Jan 2013 10:10
Last modified: 15 Mar 2024 03:46
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Author:
A.M. Savill
Author:
K.W. Jenkins
Author:
M.P. Kirkpatrick
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