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Gas-liquid flows, arising as it does out of Master level and post experience courses, is particularly suitable for these audiences. However, book will also be a valuable source to researchers, not only to new readers coming to the subject for the first time, but also to those more experienced who will gain new insights from its contents. Amongst its aims are to bring together communality of features in two-phase flow across flow patterns and geometries and to put new material into the context of earlier work showing how early and later descriptions have a common root.
The book introduces the basic methods used for two phase design methods, particularly for pressure drop. It goes on to introduce flow patterns and the physics of the transitions between them. It goes on to examine the major flow patterns, concentrating on annular flow in vertical pipes. It finishes with chapters on geometries other than pipes, including pipe junctions.
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Table of contents: |
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CHAPTER 6 - VERTICAL ANNULAR FLOW |
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| 6.3.1 Methods of Measurement |
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| 6.3.2 Interface Characteristics |
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| 6.3.3 Causes of Disturbance Waves |
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| 6.3.4 Wave Frequency and Velocity |
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| 6.3.5 Modelling of Disturbance waves |
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| 6.3.6 Film Thickness and Interfacial Shear Stress |
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6.4 ENTRAINED FRACTION AND RATES OF ATOMISATION AND DEPOSITION |
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| 6.4.1 Mechanisms of Atomisation |
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| 6.4.2 Methods of Measurement |
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| 6.4.3 Inception of Entrainment |
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| 6.4.4 Data Sources and Parametric Trends for Entrained Fraction |
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| 6.4.5 Equations to Predict Entrained Fraction |
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| 6.4.6 Mechanism of Deposition |
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| 6.4.7 Methods to Predict Rates of Entrainment and Deposition |
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| 6.5.1 Methods of Measurement |
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| 6.5.2 Means and Distribution |
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| 6.5.3 Sources of Data and Parametric Trends |
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| 6.5.4 Equations to Predict Drop Size |
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6.6 SOLUTION OF EQUATIONS AND PREDICTIONS |
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| 6.6.1 Methods of Solution |
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| 6.6.2 Comparison of Predictions with Experimental Data |
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