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Fluid Dynamics Research
Tanny, J., Center for Technological Education Holon, P.O.B. 305, Holon, Israel
Chai, A., Faculty of Engineering, Tel-Aviv University, Tel-Aviv, Israel
Kit, E., Faculty of Engineering, Tel-Aviv University, Tel-Aviv, Israel
Turbulent entrainment laws obtained experimentally for an annular two-layer stratified flow are predicted theoretically using the mixing model recently developed by Mory (1991). This paper shows how the salinity spectra measured by Chai and Kit (1991) can be utilized by the model equations to predict the power of the entrainment law for a flow in an annulus with or without a velocity shear across the density interface. The predicted values are found to be very close to the measured ones. © 1995.
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On the law of turbulent entrainment across a density interface
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Tanny, J., Center for Technological Education Holon, P.O.B. 305, Holon, Israel
Chai, A., Faculty of Engineering, Tel-Aviv University, Tel-Aviv, Israel
Kit, E., Faculty of Engineering, Tel-Aviv University, Tel-Aviv, Israel
On the law of turbulent entrainment across a density interface
Turbulent entrainment laws obtained experimentally for an annular two-layer stratified flow are predicted theoretically using the mixing model recently developed by Mory (1991). This paper shows how the salinity spectra measured by Chai and Kit (1991) can be utilized by the model equations to predict the power of the entrainment law for a flow in an annulus with or without a velocity shear across the density interface. The predicted values are found to be very close to the measured ones. © 1995.
Scientific Publication
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