Journal
JOURNAL OF FLUID MECHANICS
Volume 756, Issue -, Pages 1027-1057Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1017/jfm.2014.308
Keywords
stratified flows; turbulent mixing
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Funding
- EPSRC [EP/P505445/1]
- AWE CASE award [30174006]
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Boussinesq salt-water laboratory experiments of Rayleigh-Taylor instability (RTI) can achieve mixing efficiencies greater than 0.75 when the unstable interface is confined between two stable stratifications. This is much greater than that found when RTI occurs between two homogeneous layers when the mixing efficiency has been found to approach 0.5. Here, the mixing efficiency is defined as the ratio of energy used in mixing compared with the energy available for mixing. If the initial and final states are quiescent then the mixing efficiency can be calculated from experiments by comparison of the corresponding density profiles. Varying the functional form of the confining stratifications has a strong effect on the mixing efficiency. We derive a buoyancy-diffusion model for the rate of growth of the turbulent mixing region, (h) over dot = 2 root alpha Agh (where A = A(h) is the Atwood number across the mixing region when it extends a height h, g is acceleration due to gravity and alpha is a constant). This model shows good agreement with experiments when the value of the constant alpha is set to 0.07, the value found in experiments of RTI between two homogeneous layers (where the height of the turbulent mixing region increases as h = alpha Agt(2), an expression which is equivalent to that derived for (h) over dot).
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