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• W1837396759 abstract "An indirect method to identify the laminar to turbulent flow transition in shear-driven annular liquid films has been developed and used, together with literature measurements of the velocity profile, to approximately resolve the near wall structure in shear-driven annular liquid films. The limits between the laminar sublayer and the buffer layer and between the buffer layer and the turbulent layer have been found to correspond to about 9 and 40 wall units, respectively, which are higher than the corresponding limits of 5 and 30 wall units typical of single-phase boundary layers, thus indicating a weaker turbulence intensity in shear-driven annular liquid films with respect to single-phase wall-bounded flows. Additionally, a simple laminar to turbulent flow transition criterion and a prediction method for the average liquid film thickness have been developed for evaporation and condensation applications." @default.
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• W1837396759 date "2015-10-01" @default.
• W1837396759 modified "2023-09-30" @default.
• W1837396759 title "An indirect criterion for the laminar to turbulent flow transition in shear-driven annular liquid films" @default.
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• W1837396759 doi "https://doi.org/10.1016/j.ijmultiphaseflow.2015.05.002" @default.
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