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Numerical Study of Void Fraction Distribution Propagation in Gas-Liquid Two-Phase Flow

Jianhui YANG1,2Qing LI2Wenqiang LU1( )
Department of Physics, Graduate School, Chinese Academy of Sciences, Beijing 100039, China
Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, P.O. Box 2711, Beijing 100080, China
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Abstract

A dynamic propagation model was developed for waves in two-phase flows by assuming that continuity waves and dynamic waves interact nonlinearly for certain flow conditions. The drift-flux model is solved with the one-dimensional continuity equation for gas-liquid two-phase flows as an initial-boundary value problem solved using the characteristic-curve method. The numerical results give the void fraction distribution propagation in a gas-liquid two-phase flow which shows how the flow pattern transition occurs. The numerical simulations of different flow patterns show that the void fraction distribution propagation is determined by the characteristics of the drift-flux between the liquid and gas flows and the void fraction range. Flow pattern transitions begin around a void fraction of 0.27 and end around 0.58. Flow pattern transitions do not occur for very high void concentrations.

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Tsinghua Science and Technology
Pages 398-403

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Cite this article:
YANG J, LI Q, LU W. Numerical Study of Void Fraction Distribution Propagation in Gas-Liquid Two-Phase Flow. Tsinghua Science and Technology, 2005, 10(3): 398-403. https://doi.org/10.1016/S1007-0214(05)70088-2

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Received: 28 November 2003
Revised: 14 July 2004
Published: 01 June 2005
© Tsinghua University Press 2005