Predicting Compositional Two-Phase Flow Behavior in Pipelines

A computational algorithm for predicting pressure and temperature profiles for compositional two-phase flow in pipelines has been developed. The algorithm is based on the coupling of the momentum and energy balance equations and the phase behavior of the flowing fluids. Mass transfer between the gas and the liquid phases is treated rigorously through flash calculations, making the algorithm capable of handling retrograde condensation. Temperatures can be predicted by applying the enthalpy balance equation iteratively. However, it was found that the explicit Coutler and Bardon analytical solution for the temperature profile yields nearly identical results for horizontal and near horizontal flow.

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Liquid Flow and Mass Transfer Behaviors in a Butterfly-Shaped Microreactor

Micromachines ◽

10.3390/mi12080883 ◽

2021 ◽

Vol 12 (8) ◽

pp. 883

Author(s):

Haicheng Lv ◽

Zhirong Yang ◽

Jing Zhang ◽

Gang Qian ◽

Xuezhi Duan ◽

...

Keyword(s):

Mass Transfer ◽

Flow Pattern ◽

Liquid Flow ◽

Two Phase Flow ◽

Flow Behavior ◽

Dynamics Simulation ◽

Mixing Efficiency ◽

Phase Flow ◽

Two Phase ◽

Flow Rates

Based on the split-and-recombine principle, a millimeter-scale butterfly-shaped microreactor was designed and fabricated through femtosecond laser micromachining. The velocity fields, streamlines and pressure fields of the single-phase flow in the microreactor were obtained by a computational fluid dynamics simulation, and the influence of flow rates on the homogeneous mixing efficiency was quantified by the mixing index. The flow behaviors in the microreactor were investigated using water and n-butanol, from which schematic diagrams of various flow patterns were given and a flow pattern map was established for regulating the flow behavior via controlling the flow rates of the two-phase flow. Furthermore, effects of the two-phase flow rates on the droplet flow behavior (droplet number, droplet size and standard deviation) in the microreactor were investigated. In addition, the interfacial mass transfer behaviors of liquid–liquid flow were evaluated using the standard low interfacial tension system of “n-butanol/succinic acid/water”, where the dependence between the flow pattern and mass transfer was discussed. The empirical relationship between the volumetric mass transfer coefficient and Reynold number was established with prediction error less than 20%.

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Two-Phase Flow Mass Transfer Analysis of Airlift Pump for Aquaculture Applications

Fluids ◽

10.3390/fluids6060226 ◽

2021 ◽

Vol 6 (6) ◽

pp. 226

Author(s):

Rashal Abed ◽

Mohamed M. Hussein ◽

Wael H. Ahmed ◽

Sherif Abdou

Keyword(s):

Mass Transfer ◽

Oxygen Transfer ◽

Transfer Rate ◽

Two Phase Flow ◽

Oxygen Transfer Rate ◽

Flow Patterns ◽

Oxygen Mass Transfer ◽

Phase Flow ◽

Two Phase ◽

Airlift Pump

Airlift pumps can be used in the aquaculture industry to provide aeration while concurrently moving water utilizing the dynamics of two-phase flow in the pump riser. The oxygen mass transfer that occurs from the injected compressed air to the water in the aquaculture systems can be experimentally investigated to determine the pump aeration capabilities. The objective of this study is to evaluate the effects of various airflow rates as well as the injection methods on the oxygen transfer rate within a dual injector airlift pump system. Experiments were conducted using an airlift pump connected to a vertical pump riser within a recirculating system. Both two-phase flow patterns and the void fraction measurements were used to evaluate the dissolved oxygen mass transfer mechanism through the airlift pump. A dissolved oxygen (DO) sensor was used to determine the DO levels within the airlift pumping system at different operating conditions required by the pump. Flow visualization imaging and particle image velocimetry (PIV) measurements were performed in order to better understand the effects of the two-phase flow patterns on the aeration performance. It was found that the radial injection method reached the saturation point faster at lower airflow rates, whereas the axial method performed better as the airflow rates were increased. The standard oxygen transfer rate (SOTR) and standard aeration efficiency (SAE) were calculated and were found to strongly depend on the injection method as well as the two-phase flow patterns in the pump riser.

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Upward Vertical Two-Phase Flow Through an Annulus—Part II: Modeling Bubble, Slug, and Annular Flow

Journal of Energy Resources Technology ◽

10.1115/1.2905916 ◽

1992 ◽

Vol 114 (1) ◽

pp. 14-30 ◽

Cited By ~ 26

Author(s):

E. F. Caetano ◽

O. Shoham ◽

J. P. Brill

Keyword(s):

Flow Pattern ◽

Annular Flow ◽

Two Phase Flow ◽

Flow Behavior ◽

Bubble Flow ◽

Phase Flow ◽

Two Phase ◽

Flow Through ◽

Physical Phenomena ◽

Good Agreement

Mechanistic models have been developed for each of the existing two-phase flow patterns in an annulus, namely bubble flow, dispersed bubble flow, slug flow, and annular flow. These models are based on two-phase flow physical phenomena and incorporate annulus characteristics such as casing and tubing diameters and degree of eccentricity. The models also apply the new predictive means for friction factor and Taylor bubble rise velocity presented in Part I. Given a set of flow conditions, the existing flow pattern in the system can be predicted. The developed models are applied next for predicting the flow behavior, including the average volumetric liquid holdup and the average total pressure gradient for the existing flow pattern. In general, good agreement was observed between the experimental data and model predictions.

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Heat and mass transfer of two-phase flow with Electric double layer effects induced due to peristaltic propulsion in the presence of transverse magnetic field

Journal of Molecular Liquids ◽

10.1016/j.molliq.2017.01.033 ◽

2017 ◽

Vol 230 ◽

pp. 237-246 ◽

Cited By ~ 114

Author(s):

M.M. Bhatti ◽

A. Zeeshan ◽

R. Ellahi ◽

N. Ijaz

Keyword(s):

Magnetic Field ◽

Mass Transfer ◽

Heat And Mass Transfer ◽

Double Layer ◽

Transverse Magnetic Field ◽

Electric Double Layer ◽

Two Phase Flow ◽

Transverse Magnetic ◽

Phase Flow ◽

Two Phase

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A surface renewal model for interfacial heat and mass transfer in transient two-phase flow

International Journal of Multiphase Flow ◽

10.1016/0301-9322(78)90016-2 ◽

1978 ◽

Vol 4 (5-6) ◽

pp. 571-573 ◽

Cited By ~ 21

Author(s):

S. Banerjee

Keyword(s):

Mass Transfer ◽

Heat And Mass Transfer ◽

Two Phase Flow ◽

Phase Flow ◽

Two Phase ◽

Surface Renewal ◽

Renewal Model

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Local heat and mass transfer for gas-solid two phase flow in CFB

Journal of Thermal Science ◽

10.1007/bf02653123 ◽

1994 ◽

Vol 3 (3) ◽

pp. 200-204

Author(s):

Feng Lu ◽

Ming-Heng Shi

Keyword(s):

Mass Transfer ◽

Heat And Mass Transfer ◽

Two Phase Flow ◽

Local Heat ◽

Phase Flow ◽

Two Phase

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Compressibility Effect in Two-Phase Flow and Its Application to Flow Metering With Orifice Plate and Convergent-Divergent Nozzle

Journal of Fluids Engineering ◽

10.1115/1.3241017 ◽

1983 ◽

Vol 105 (4) ◽

pp. 394-399 ◽

Cited By ~ 6

Author(s):

H. Pascal

Keyword(s):

Two Phase Flow ◽

Flow Behavior ◽

Orifice Plate ◽

Phase Flow ◽

Gas Solubility ◽

Mass Ratio ◽

Two Phase ◽

Compressibility Effect ◽

Flow Metering ◽

Solution Gas

The effect of solution gas on the two-phase flow behavior through an orifice plate and a convergent-divergent nozzle has been investigated with regard to the flow metering of compressible two-phase mixtures. A proper thermodynamics approach to consider more accurately the compressibility effect in an accelerated two-phase flow, in particular that through an orifice and Laval’s nozzle in the presence of the solution gas, has been developed. From this approach an equation of state of mixture was derived and used in determining the orifice equation. An analysis of flow behavior has been performed and several illustrative plots were presented in order to evaluate the gas solubility effect in the flow metering with an orifice plate or a convergent-divergent nozzle. A delimitation between critical and noncritical flow has been established in terms of measured parameters and a relationship between the critical pressure and gas-liquid mass ratio was also shown.

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