A model for turbulent polydisperse two-phase flow in vertical channels

A polydisperse two-phase flow model is developed and used to analyze the effect of the bubble size on the radial phase distribution in vertical upward channels. The two-fluid model is evaluated considering that the bubble size distribution can be represented with groups of constant mass. The model accounts for interfacial momentum transfer terms arising from drag, lift, turbulent dispersion and wall forces for the different bubble sizes. The turbulence is modeled with the k–e model for bubbly flow. A two-phase wall logarithmic law is developed to evaluate the boundary conditions for the k–e and the two-fluid models. The turbulence in the buffer and laminar near-wall regions is evaluated considering the asymptotic consistency of the k–e model approaching the solid surface. The model is able to predict the transition from the near-wall gas volume fraction peaking to the core peaking beyond a critical bubble size. The double gas volume fraction peak experimentally observed when both, small and big bubbles, are present can be also simulated. The model was numerically solved for fully developed flow by means of a finite difference method and the results were compared against the experimental data measured by others in air/water vertical ducts.

[1]  Isao Kataoka,et al.  Turbulence structure of air-water bubbly flow—I. measuring techniques , 1975 .

[2]  言彦 世古口,et al.  気ほう流の研究 : 第1報, 垂直上昇流における疎な気ほう群について , 1974 .

[3]  A. K. Agrawal,et al.  Shape of liquid drops moving in liquid media , 1966 .

[4]  Robert I. Nigmatulin,et al.  Spatial averaging in the mechanics of heterogeneous and dispersed systems , 1979 .

[5]  Mamoru Ishii,et al.  Two-fluid model and hydrodynamic constitutive relations , 1984 .

[6]  Isao Kataoka,et al.  Turbulence structure of air-water bubbly flow—II. local properties , 1975 .

[7]  R. Lahey,et al.  Phase distribution in bubbly two-phase flow in vertical ducts , 1994 .

[8]  I. Žun,et al.  The mechanism of bubble non-homogeneous distribution in two-phase shear flow , 1990 .

[9]  D. Wilcox Turbulence modeling for CFD , 1993 .

[10]  I. Zun,et al.  The transverse migration of bubbles influenced by walls in vertical bubbly flow , 1980 .

[11]  Michio Sadatomi,et al.  Momentum and heat transfer in two-phase bubble flow—I. Theory , 1981 .

[12]  S. G. Bankoff,et al.  Structure of air-water bubbly flow in a vertical pipe—II. Void fraction, bubble velocity and bubble size distribution , 1993 .

[13]  O. C. Jones,et al.  The Prediction of Two-Phase Turbulence and Phase Distribution Phenomena Using a K-κ Model , 1989 .

[14]  Yassin A. Hassan,et al.  Law of the Wall for Two-Phase Turbulent Boundary Layers , 1998 .

[15]  Donald A. Drew,et al.  The analysis of two-phase flow and heat transfer using a multidimensional, four field, two-fluid model , 2001 .

[16]  O. C. Jones,et al.  3-D turbulence structure and phase distribution measurements in bubbly two-phase flows , 1987 .

[17]  Yassin A. Hassan,et al.  A two-equation turbulence model of turbulent bubbly flows , 2001 .

[18]  Gustavo C. Buscaglia,et al.  A Note on the Numerical Treatment of the k-epsilon Turbulence Model* , 2001 .

[19]  S. G. Bankoff,et al.  Structure of air-water bubbly flow in a vertical pipe—I. liquid mean velocity and turbulence measurements , 1993 .

[20]  Tay-Jian Liu Investigation of the wall shear stress in vertical bubbly flow under different bubble size conditions , 1997 .

[21]  D. Drew,et al.  Theory of Multicomponent Fluids , 1998 .

[22]  V. Nakoryakov,et al.  Gas-Liquid Bubbly Flow in Vertical Pipes , 1996 .

[23]  D. Drew,et al.  A polydisperse model for bubbly two-phase flow around a surface ship , 1999 .

[24]  D. Drew,et al.  Assessment of turbulent dispersion models for bubbly flows in the low Stokes number limit , 2003 .

[25]  N. Zuber,et al.  Drag coefficient and relative velocity in bubbly, droplet or particulate flows , 1979 .

[26]  J. Flaherty,et al.  Analysis of phase distribution in fully developed laminar bubbly two-phase flow , 1991 .

[27]  Jean-Louis Marié,et al.  Similarity law and turbulence intensity profiles in a bubbly boundary layer at low void fractions , 1997 .

[28]  M. Ishii Thermo-fluid dynamic theory of two-phase flow , 1975 .

[29]  D. Drew,et al.  Application of general constitutive principles to the derivation of multidimensional two-phase flow equations , 1979 .