Modeling of three-phase heavy oil–water–gas bubbly flow in upward vertical pipes |
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Authors: | O Cazarez D Montoya AG Vital AC Bannwart |
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Institution: | 1. Instituto Mexicano del Petróleo, Eje Central Lázaro Cárdenas No. 152, Col. San Bartolo Atepehuacan, C.P. 07730, México D.F., Mexico;2. Centro Nacional de Investigación y Desarrollo Tecnológico, Depto. de Mecánica, Interior Internado Palmira s/n, Col. Palmira, Cuernavaca, Morelos, Mexico;3. Dept. of Petroleum Engineering, Faculty of Mechanical Engineering, The State University of Campinas, 13083-970 Campinas, SP, Brazil |
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Abstract: | A bubbly gas–bubbly oil flow pattern may occur when water, heavy oil and gas flow simultaneously in vertical pipes in such a way that water is the continuous phase. In this work, a one-dimensional, thermal, transient two-fluid mathematical model, for such flow, is presented. The model consists of mass, momentum and energy conservation equations for every phase whose numerical solution is based on the finite difference technique in the implicit scheme. The model is able to predict pressure, temperature, volumetric fraction and velocity profiles. For accurate modeling of multiphase flows, the key issue is to specify the adequate closure relationships, thus drag and virtual mass forces for the gas and oil phases were taken into account and special attention was paid on the gas–oil drag force. When this force was included into the model it was found that: (1) such force had the same order of magnitude than the oil drag force and both forces were smaller than the gas drag force, (2) the pressure, gas and oil velocities and gas and oil volume fraction profiles were affected, (3) the numerical stability was increased. The model predictions are in agreement with experimental data reported in literature. |
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Keywords: | Three-phase flow Bubbly gas&ndash bubbly oil Heavy oil Two-fluid model |
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