Incompressible variable-density turbulence in an external acceleration field

Dynamics and mixing of a variable-density turbulent flow subject to an externally imposed acceleration field in the zero-Mach-number limit are studied in a series of direct numerical simulations. The flow configuration studied consists of alternating slabs of high- and low-density fluid in a triply...

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Published in	Journal of fluid mechanics Vol. 827; pp. 506 - 535
Main Authors	Gat, Ilana, Matheou, Georgios, Chung, Daniel, Dimotakis, Paul E.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 25.09.2017
Subjects	Acceleration Baroclinic flow Composition Computational fluid dynamics Computer simulation Convection Density Diffusion layers Diffusion rate Dye dispersion Dynamics Entrainment Fluid flow Fluids Growth rate Incompressible flow Laboratories Lagrange multiplier Mathematical analysis MATHEMATICS AND COMPUTING Mechanical engineering Pressure gradients Probability density functions Probability theory Ratios Shear Shear layers Simulation Statistical methods Stream flow Studies Turbulence Turbulent flow shear layer turbulence turbulent flows turbulent mixing
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Abstract	Dynamics and mixing of a variable-density turbulent flow subject to an externally imposed acceleration field in the zero-Mach-number limit are studied in a series of direct numerical simulations. The flow configuration studied consists of alternating slabs of high- and low-density fluid in a triply periodic domain. Density ratios in the range of $1.05\leqslant R\equiv \unicode[STIX]{x1D70C}_{1}/\unicode[STIX]{x1D70C}_{2}\leqslant 10$ are investigated. The flow produces temporally evolving shear layers. A perpendicular density–pressure gradient is maintained in the mean as the flow evolves, with multi-scale baroclinic torques generated in the turbulent flow that ensues. For all density ratios studied, the simulations attain Reynolds numbers at the beginning of the fully developed turbulence regime. An empirical relation for the convection velocity predicts the observed entrainment-ratio and dominant mixed-fluid composition statistics. Two mixing-layer temporal evolution regimes are identified: an initial diffusion-dominated regime with a growth rate ${\sim}t^{1/2}$ followed by a turbulence-dominated regime with a growth rate ${\sim}t^{3}$ . In the turbulent regime, composition probability density functions within the shear layers exhibit a slightly tilted (‘non-marching’) hump, corresponding to the most probable mole fraction. The shear layers preferentially entrain low-density fluid by volume at all density ratios, which is reflected in the mixed-fluid composition.
AbstractList	Dynamics and mixing of a variable-density turbulent flow subject to an externally imposed acceleration field in the zero-Mach-number limit are studied in a series of direct numerical simulations. The flow configuration studied consists of alternating slabs of high- and low-density fluid in a triply periodic domain. Density ratios in the range of<inline-graphic href='S0022112017004906_inline1' mime-subtype='gif' type='simple'/>$1.05\leqslant R\equiv \unicode[STIX]{x1D70C}_{1}/\unicode[STIX]{x1D70C}_{2}\leqslant 10$are investigated. The flow produces temporally evolving shear layers. A perpendicular density–pressure gradient is maintained in the mean as the flow evolves, with multi-scale baroclinic torques generated in the turbulent flow that ensues. For all density ratios studied, the simulations attain Reynolds numbers at the beginning of the fully developed turbulence regime. An empirical relation for the convection velocity predicts the observed entrainment-ratio and dominant mixed-fluid composition statistics. Two mixing-layer temporal evolution regimes are identified: an initial diffusion-dominated regime with a growth rate<inline-graphic href='S0022112017004906_inline2' mime-subtype='gif' type='simple'/>${\sim}t^{1/2}$followed by a turbulence-dominated regime with a growth rate<inline-graphic href='S0022112017004906_inline3' mime-subtype='gif' type='simple'/>${\sim}t^{3}$. In the turbulent regime, composition probability density functions within the shear layers exhibit a slightly tilted (‘non-marching’) hump, corresponding to the most probable mole fraction. In conclusion, the shear layers preferentially entrain low-density fluid by volume at all density ratios, which is reflected in the mixed-fluid composition. Dynamics and mixing of a variable-density turbulent flow subject to an externally imposed acceleration field in the zero-Mach-number limit are studied in a series of direct numerical simulations. The flow configuration studied consists of alternating slabs of high- and low-density fluid in a triply periodic domain. Density ratios in the range of [formula omitted: see PDF] are investigated. The flow produces temporally evolving shear layers. A perpendicular density-pressure gradient is maintained in the mean as the flow evolves, with multi-scale baroclinic torques generated in the turbulent flow that ensues. For all density ratios studied, the simulations attain Reynolds numbers at the beginning of the fully developed turbulence regime. An empirical relation for the convection velocity predicts the observed entrainment-ratio and dominant mixed-fluid composition statistics. Two mixing-layer temporal evolution regimes are identified: an initial diffusion-dominated regime with a growth rate [formula omitted: see PDF] followed by a turbulence-dominated regime with a growth rate [formula omitted: see PDF] . In the turbulent regime, composition probability density functions within the shear layers exhibit a slightly tilted ('non-marching') hump, corresponding to the most probable mole fraction. The shear layers preferentially entrain low-density fluid by volume at all density ratios, which is reflected in the mixed-fluid composition. Dynamics and mixing of a variable-density turbulent flow subject to an externally imposed acceleration field in the zero-Mach-number limit are studied in a series of direct numerical simulations. The flow configuration studied consists of alternating slabs of high- and low-density fluid in a triply periodic domain. Density ratios in the range of $1.05\leqslant R\equiv \unicode[STIX]{x1D70C}_{1}/\unicode[STIX]{x1D70C}_{2}\leqslant 10$ are investigated. The flow produces temporally evolving shear layers. A perpendicular density–pressure gradient is maintained in the mean as the flow evolves, with multi-scale baroclinic torques generated in the turbulent flow that ensues. For all density ratios studied, the simulations attain Reynolds numbers at the beginning of the fully developed turbulence regime. An empirical relation for the convection velocity predicts the observed entrainment-ratio and dominant mixed-fluid composition statistics. Two mixing-layer temporal evolution regimes are identified: an initial diffusion-dominated regime with a growth rate ${\sim}t^{1/2}$ followed by a turbulence-dominated regime with a growth rate ${\sim}t^{3}$ . In the turbulent regime, composition probability density functions within the shear layers exhibit a slightly tilted (‘non-marching’) hump, corresponding to the most probable mole fraction. The shear layers preferentially entrain low-density fluid by volume at all density ratios, which is reflected in the mixed-fluid composition.
Author	Matheou, Georgios Dimotakis, Paul E. Gat, Ilana Chung, Daniel
Author_xml	– sequence: 1 givenname: Ilana orcidid: 0000-0003-0223-0507 surname: Gat fullname: Gat, Ilana email: igat@caltech.edu organization: Graduate Aerospace Laboratories, California Institute of Technology, Pasadena, CA 91125, USA – sequence: 2 givenname: Georgios surname: Matheou fullname: Matheou, Georgios organization: Graduate Aerospace Laboratories, California Institute of Technology, Pasadena, CA 91125, USA – sequence: 3 givenname: Daniel orcidid: 0000-0003-3732-364X surname: Chung fullname: Chung, Daniel organization: Department of Mechanical Engineering, University of Melbourne, Victoria 3010, Australia – sequence: 4 givenname: Paul E. surname: Dimotakis fullname: Dimotakis, Paul E. organization: Graduate Aerospace Laboratories, California Institute of Technology, Pasadena, CA 91125, USA
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Snippet	Dynamics and mixing of a variable-density turbulent flow subject to an externally imposed acceleration field in the zero-Mach-number limit are studied in a...
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SubjectTerms	Acceleration Baroclinic flow Composition Computational fluid dynamics Computer simulation Convection Density Diffusion layers Diffusion rate Dye dispersion Dynamics Entrainment Fluid flow Fluids Growth rate Incompressible flow Laboratories Lagrange multiplier Mathematical analysis MATHEMATICS AND COMPUTING Mechanical engineering Pressure gradients Probability density functions Probability theory Ratios Shear Shear layers Simulation Statistical methods Stream flow Studies Turbulence Turbulent flow
Title	Incompressible variable-density turbulence in an external acceleration field
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