Description
Interdisciplinary and Advanced Topics in Science and Engineering, Volume 3: Separation of Flow presents the problem of the separation of fluid flow. This book provides information covering the fields of basic physical processes, analyses, and experiments concerning flow separation.
Organized into 12 chapters, this volume begins with an overview of the flow separation on the body surface as discusses in various classical examples. This text then examines the analytical and experimental results of the laminar boundary layer of steady, two-dimensional flows in the subsonic speed range. Other chapters consider the study of flow separation on the two-dimensional body, flow separation on three-dimensional body shape and particularly on bodies of revolution. This book discusses as well the analytical solutions of the unsteady flow separation. The final chapter deals with the purpose of separation flow control to raise efficiency or to enhance the performance of vehicles and fluid machineries involving various engineering applications.
This book is a valuable resource for engineers.
Chapter
2. Modem Deyelopment of Flow Separation Theory
3. Mechanics of the Separated Flow
4. Analysis of Flow Separation
CHAPTER II. Steady Separation of Incompressible Laminar Flow from Two-dimensional Surfaces
1. Examples of Two-dimensional Steady Laminar Flow Separation
2. Analytical Methods for Prediction of Laminar Flow Separation
CHAPTER III. Steady Incompressible Laminar flow Separation on Bodies of Revolution and Other Three-dimensional Solid Configurations
1. Three-dimensional Laminar Flow Separation
3. Laminar Flow Separation on a Body of Revolution and a Delta Wing
CHAPTER IV. Incompressible Turbulent Flow Separation
1. Calculation of Momentum Thickness
2. Criteria of External Incompressible Two-dimensional Turbulent Flow Separation
3. Internal Flow Separation
4. Axiaily Symmetric and Three-dimensional Steady Incompressible Flow Separation
CHAPTER V. Unsteady Incompressible Flow Separation
1. Boundary Layer Separation after Impulsive Start of Motion
2. Axially Symmetric Unsteady Separation
3. Boundary Layer Separation with Constant Acceleration
4. Laminar Separation from a Moving Wall
CHAPTER VI. Compressible Flow Separation
1. Determination of Compressible Laminar Flow Separation Point without Interaction
2. Nature and Characteristics of Shock-induced Separated Flows and their Influences Up- and Downstream
3. Pressure Rise Involving Shock Interaction
4. Analysis of Shock-induced Separation
CHAPTER VII. Characteristics of Separated Flows
1. Separated Flows Over and Behind Two-dimensional Surfaces and Axial Symmetric Bodies
1. Wake Flow at Subsonic Speeds
2. Wake Flow at Supersonic and Hypersonic Speeds
CHAPTER IX. Leading-edge Flow Separation
1. Leading-edge Flow Separation at Subsonic Speeds
2. Criterion of the Laminar Leading-edge Flow Separation
3. Bursting of the Leading-edge Vortices
4. Leading-edge Flow Separation at Supersonic Speeds
5. Flow Separation on Thin Protruding Probes placed in Front of Blunt Bodies at Supersonic/Hypersonic Speeds
1. Base Pressure at Subsonic Speeds
2. Base Pressare at Supersonic Speeds
3. Experiment on Base Pressure Behind a Two-dimensional Surface
4. Analysis of Base Pressure Behind a Two-dimensional Surface
CHAPTER XI. Thermal Effects on Separation of Flow
1. Physics of Heat Transfer in Separation
2. Heat Transfer Effect on Separation at Subsonic Speeds
3. Position of Compressible Flow Separation
4. Heat Transfer on Separated Flow at Snpersonic and Hypersonic Speeds
5. Analysis of Heat Transfer Effects on Separated Flow
CHAPTER XII. Control of Separation of flow
1. Prevention or Delay of Separation of Flow
2. Flow Control by Provoking Separation
Separation of Flow
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