Two-phase flow

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Two-phase flow refers to the interactive flow of two distinct phases – each phase representing a mass or volume of matter – with common interfaces in a channel. While combination between any two phases represents a significant area of two-phase flow, liquid-vapor (gas) flow is by far the most common in various industries and thus has been investigated in greater depth. <br>
Two-phase flow refers to the interactive flow of two distinct phases – each phase representing a mass or volume of matter – with common interfaces in a channel. While combination between any two phases represents a significant area of two-phase flow, liquid-vapor (gas) flow is by far the most common in various industries and thus has been investigated in greater depth. <br>
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*'''[[Flow Patterns of Liquid-Vapor (Gas) Two-Phase Flow]]'''
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*'''[[Flow patterns of liquid-vapor (Gas) two-phase flow]]'''
:[[Concepts and Notations for Two-Phase Flow|Concepts and notations]], Flow Patterns in [[Two-Phase Flow Patterns in Vertical Tubes|vertical tube]], and [[Two-Phase Flow Patterns in Horizontal Tubes|horizontal tubes]].  
:[[Concepts and Notations for Two-Phase Flow|Concepts and notations]], Flow Patterns in [[Two-Phase Flow Patterns in Vertical Tubes|vertical tube]], and [[Two-Phase Flow Patterns in Horizontal Tubes|horizontal tubes]].  
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*'''[[Two-Phase Flow Models]]'''
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*'''[[Two-phase flow models]]'''
:[[Homogeneous Flow Model for Two-Phase Flow|Homogeneous]] and [[Separated Flow Model for Two-Phase Flow|separated]] flow models, [[Frictional Pressure Drop Models for Two-Phase Flow|frictional pressure drop]], and [[Void Fraction Model for Two-Phase Flow|void fraction]].
:[[Homogeneous Flow Model for Two-Phase Flow|Homogeneous]] and [[Separated Flow Model for Two-Phase Flow|separated]] flow models, [[Frictional Pressure Drop Models for Two-Phase Flow|frictional pressure drop]], and [[Void Fraction Model for Two-Phase Flow|void fraction]].
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*'''[[Forced Convective Condensation]]'''
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*'''[[Forced convective condensation]]'''
:[[Two-Phase Flow Regimes for Forced Convective Condensation|Two-phase flow regimes]] and [[Heat Transfer Predictions for Forced Convective Condensation|heat transfer predictions]].
:[[Two-Phase Flow Regimes for Forced Convective Condensation|Two-phase flow regimes]] and [[Heat Transfer Predictions for Forced Convective Condensation|heat transfer predictions]].
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*'''[[Forced Convective Boiling]]'''
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*'''[[Forced convective boiling]]'''
:[[Flow Regimes in Horizontal and Vertical Tubes|Flow regimes]], [[Bubble Lift-Off Size in Forced Convective Boiling|bubble lift-off size]], and [[Heat Transfer Predictions for Forced Convective Boiling|heat transfer predictions]].
:[[Flow Regimes in Horizontal and Vertical Tubes|Flow regimes]], [[Bubble Lift-Off Size in Forced Convective Boiling|bubble lift-off size]], and [[Heat Transfer Predictions for Forced Convective Boiling|heat transfer predictions]].
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*'''[[Two-Phase Flow and Heat Transfer in Micro- and Minichannels]]'''
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*'''[[Two-phase flow and heat transfer in micro- and minichannels]]'''
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:[[Two-Phase Flow Patterns in Micro- and Minichannels|Two-phase flow patterns]], [[Flow Condensation in Micro- and Minichannels|flow condensation]], [[Flow Evaporation and Boiling in Micro- and Minichannels|flow evaporation and boiling]].
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:[[Two-phase flow patterns in micro- and minichannels|Two-phase flow patterns]], [[Flow condensation in micro- and minichannels|flow condensation]], [[Flow evaporation and boiling in micro- and minichannels|flow evaporation and boiling]].
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Revision as of 21:19, 30 August 2009

Two-phase flow refers to the interactive flow of two distinct phases – each phase representing a mass or volume of matter – with common interfaces in a channel. While combination between any two phases represents a significant area of two-phase flow, liquid-vapor (gas) flow is by far the most common in various industries and thus has been investigated in greater depth.

Concepts and notations, Flow Patterns in vertical tube, and horizontal tubes.
Homogeneous and separated flow models, frictional pressure drop, and void fraction.
Two-phase flow regimes and heat transfer predictions.
Flow regimes, bubble lift-off size, and heat transfer predictions.
Two-phase flow patterns, flow condensation, flow evaporation and boiling.


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