New turbulence model for gas-liquid two-phase bubbly flow

H. J. Liang; D. F. Che; G. Xi

New turbulence model for gas-liquid two-phase bubbly flow

H. J. Liang
, D. F. Che
, G. Xi

能源与动力工程学院

Xi'an Jiaotong University

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Based on the standard single phase turbulent flow model, a new turbulence model is put forward to model the gas-liquid two-phase bubbly flow in a general non-orthogonal curvilinear co-ordinate system. In this model, the dissipation of the turbulent kinetic energy of gas bubbles is governed by the dissipation equations of the gas bubbles. The convection, diffusion, production and dissipation of the turbulent kinetic energy of bubbles, and the coupling interaction between the mass, momentum, and energy of two fluids are taken into account. Theoretically speaking it is a more perfect model than the k-ε or k-ε-k_p. predicted results by using this model for the gas-liquid two-phase flow in a straight duct are in satisfactory agreement with the experimental data in the literature, with a maximum relative deviation of less than 20% within the investigated range.

源语言	英语
页（从-至）	15-18
页数	4
期刊	Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University
卷	35
期	1
出版状态	已出版 - 1月 2001

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title = "New turbulence model for gas-liquid two-phase bubbly flow",

abstract = "Based on the standard single phase turbulent flow model, a new turbulence model is put forward to model the gas-liquid two-phase bubbly flow in a general non-orthogonal curvilinear co-ordinate system. In this model, the dissipation of the turbulent kinetic energy of gas bubbles is governed by the dissipation equations of the gas bubbles. The convection, diffusion, production and dissipation of the turbulent kinetic energy of bubbles, and the coupling interaction between the mass, momentum, and energy of two fluids are taken into account. Theoretically speaking it is a more perfect model than the k-ε or k-ε-kp. predicted results by using this model for the gas-liquid two-phase flow in a straight duct are in satisfactory agreement with the experimental data in the literature, with a maximum relative deviation of less than 20\% within the investigated range.",

keywords = "Modeling, Turbulent flow, Two-phase flow",

author = "Liang, \{H. J.\} and Che, \{D. F.\} and G. Xi",

year = "2001",

month = jan,

language = "英语",

volume = "35",

pages = "15--18",

journal = "Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University",

issn = "0253-987X",

publisher = "Xi'an Jiaotong University",

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TY - JOUR

T1 - New turbulence model for gas-liquid two-phase bubbly flow

AU - Liang, H. J.

AU - Che, D. F.

AU - Xi, G.

PY - 2001/1

Y1 - 2001/1

N2 - Based on the standard single phase turbulent flow model, a new turbulence model is put forward to model the gas-liquid two-phase bubbly flow in a general non-orthogonal curvilinear co-ordinate system. In this model, the dissipation of the turbulent kinetic energy of gas bubbles is governed by the dissipation equations of the gas bubbles. The convection, diffusion, production and dissipation of the turbulent kinetic energy of bubbles, and the coupling interaction between the mass, momentum, and energy of two fluids are taken into account. Theoretically speaking it is a more perfect model than the k-ε or k-ε-kp. predicted results by using this model for the gas-liquid two-phase flow in a straight duct are in satisfactory agreement with the experimental data in the literature, with a maximum relative deviation of less than 20% within the investigated range.

AB - Based on the standard single phase turbulent flow model, a new turbulence model is put forward to model the gas-liquid two-phase bubbly flow in a general non-orthogonal curvilinear co-ordinate system. In this model, the dissipation of the turbulent kinetic energy of gas bubbles is governed by the dissipation equations of the gas bubbles. The convection, diffusion, production and dissipation of the turbulent kinetic energy of bubbles, and the coupling interaction between the mass, momentum, and energy of two fluids are taken into account. Theoretically speaking it is a more perfect model than the k-ε or k-ε-kp. predicted results by using this model for the gas-liquid two-phase flow in a straight duct are in satisfactory agreement with the experimental data in the literature, with a maximum relative deviation of less than 20% within the investigated range.

KW - Modeling

KW - Turbulent flow

KW - Two-phase flow

UR - https://www.scopus.com/pages/publications/0034873038

M3 - 文章

AN - SCOPUS:0034873038

SN - 0253-987X

VL - 35

SP - 15

EP - 18

JO - Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University

JF - Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University

IS - 1

ER -

New turbulence model for gas-liquid two-phase bubbly flow

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