Ryo Kurimoto scite author profile

A scaling analysis based on the field equations for two phases and the jump conditions at the interface is carried out to deduce a balance of forces acting on a Taylor drop rising through stagnant liquid in a vertical pipe. The force balance is utilized to deduce a functional form of an empirical correlation of terminal velocity of the Taylor drop.Undetermined coefficients in the correlation are evaluated by making use of available correlations for two limiting cases, i.e. extremely high and low Reynolds number Taylor bubbles in large pipes. Terminal velocity data obtained by interface tracking simulations are also used to determine the coefficients. The proposed correlation expresses the Froude number Fr as a function of the drop Reynolds number Re D , the Eötvös number Eo D and the viscosity ratio μ*. Comparisons between the correlation, simulations and experimental data confirm that the proposed correlation is applicable to Taylor bubbles and drops under various conditions, i.e., 0.002 < Re D < 4960, 4.8 < Eo D < 228, 0 < μ* < 70, 1 < N < 14700, and −12 < logM < 4, where N is the inverse viscosity number and M the Morton number.

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Terminal velocities of clean and fully-contaminated drops in vertical pipes

Kurimoto

Hayashi

Tomiyama

2013

International Journal of Multiphase Flow

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Effect of the Reynolds Number on the Performance of a NACA0012 Wing with Leading Edge Protuberance at Low Reynolds Numbers

Yasuda

Fukui

Matsuo

et al. 2018

Flow Turbulence Combust

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Prediction models of void fraction and pressure drop for gas-liquid slug flow in microchannels

Kurimoto

Nakazawa

Minagawa

et al. 2017

Experimental Thermal and Fluid Science

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Bubble shape under the action of electric forces

Marco

Kurimoto

Saccone

et al. 2013

Experimental Thermal and Fluid Science

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Ryo Kurimoto

Terminal velocity of a Taylor drop in a vertical pipe

Terminal velocities of clean and fully-contaminated drops in vertical pipes

Effect of the Reynolds Number on the Performance of a NACA0012 Wing with Leading Edge Protuberance at Low Reynolds Numbers

Prediction models of void fraction and pressure drop for gas-liquid slug flow in microchannels

Bubble shape under the action of electric forces

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