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Modern Developments in Gas Dynamics de W. H. Loh

Modern Developments in Gas Dynamics

Autor W. H. Loh
en Limba Engleză Paperback – 12 feb 2012
During the last decade, the rapid growth of knowledge in the field of fluid mechanics and heat transfer has resulted in many significant ad­ vances of interest to students, engineers, and scientists. Accordingly, a course entitled "Modern Developments in Fluid Mechanics and Heat Transfer" was given at the University of California to present significant recent theoretical and experimental work. The course consisted of seven parts: I-Introduction; II-Hydraulic Analogy for Gas Dynamics; 111- Turbulence and Unsteady Gas Dynamics; IV-Rarefied and Radiation Gas Dynamics; V-Biological Fluid Mechanics; VI-Hypersonic and Plasma Gas Dynamics; and VII-Heat Transfer in Hypersonic Flows. The material, presented by the undersigned as course instructor and by various guest lecturers, could easily be adapted by other universities for use as a text for a one-semester senior or graduate course on the subject. Due to the extensive notes developed during the University of California course, it was decided to publish the material in three volumes, of which the present is the first. The succeeding volumes will be entitled "Selected Topics in Fluid and Bio-Fluid Mechanics" and "Introduction to Steady and Unsteady Gas Dynamics." Finally, I must express a word of appreciation to my wife Irene and to my children, Wellington Jr. and Victoria, who made it possible for me to write and edit this book in the very quiet atmosphere of our home.
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Specificații

ISBN-13: 9781461586265
ISBN-10: 1461586267
Pagini: 404
Ilustrații: XIV, 386 p.
Dimensiuni: 152 x 229 x 22 mm
Greutate: 0.58 kg
Ediția:1969
Editura: Springer
Locul publicării:New York, NY, United States

Public țintă

Research

Cuprins

1 Theory of the Hydraulic Analogy for Steady and Unsteady Gas Dynamics.- 1. Two-Dimensional Steady Flow Analogy.- 2. Hydraulic Jumps (Shocks).- 3. One-Dimensional Unsteady Gas Dynamics by Hydraulic Analogy.- 4. Hydraulic Analogy for Longitudinal Plane Waves. Derivation of Equations of Standing Waves.- 5. Experimental Verification.- Appendix A.- Appendix B.- Notation.- References.- 2 Combined Heat and Mass Transfer Processes.- 1. Conservation Equations.- 2. Constitutive Equations.- 3. Laminar Boundary Layer Equations.- 4. Solutions of the Laminar Boundary Layer Equations.- 5. Turbulent Boundary Layers.- 6. Correction Equations for Pr ? 1 and Le ? 1.- Notation.- References.- 3 Hypersonic Viscous Flows.- 1. Induced-Pressure Effects.- 2. Closed-Form Local Similarity.- 3. Boundary Layer Transition.- 4. Turbulent Boundary Layer.- Notation.- References.- 4 Hypersonic Gas Dynamics of Slender Bodies.- 1. Inviscid Flows and Related Problems.- 2. The Outer-Edge Problem of the Hypersonic Boundary Layer on a Slender Body.- 3. Transverse Curvature and Cross Flow in the Strong-Interaction Regime.- Acknowledgment.- References.- 5 Hypersonic Blunt-Body Gas Dynamics.- 1. Classification of Body Shapes.- 2. Blunt-Body Flow Fields.- 3. Flow Regimes.- 4. Flow-Field Gas Properties.- 5. Inviscid-Flow Analysis.- 6. Viscous-Flow Analysis.- 7. Interactions of Viscous-Inviscid Flow.- 8. Wake Flows.- 9. Summary.- Notation.- References.- 6 Rarefied Gas Dynamics.- 1. Elements of Kinetic Theory.- 2. Free-Molecular Flow.- 3. Slip Flow.- References.- 7 Fundamentals of Radiation Gas Dynamics.- 1. Fundamentals of Radiative Transfer.- 2. Fundamental Equations of Radiation Gas Dynamics.- 3. Initial and Boundary Conditions of Radiation Gas Dynamics.- 4. Similarity Parameters of Radiation Gas Dynamics.-5. Radiation Mean Free Path.- 6. Wave Motion in a Radiating Gas.- 7. Shock Waves.- 8. Two-Dimensional Channel Flows of an Ionized, Radiating Gas.- 9. Unsteady Laminar Boundary Layer on an Infinite Plate.- 10. A Uniform Flow of a Radiating Gas Over a Semiinfinite Plate.- 11. Stagnation-Point Heat Transfer in Radiation Gas Dynamics.- Acknowledgment.- Notation.- References.- 8 Some Problems of Radiative Transfer.- 1. Absorption Coefficients for Radiative Transfer Calculation.- 2. The Differential Approximation.- 3. A Problem of Thermal Choking by Radiation.- Notation.- References.- 9 Plasma Dynamics.- 1. Plasmas and Plasma Dynamics.- 2. Fundamental Equations of the Dynamics of an Electrically-Conducting Fluid.- 3. Equations and Boundary Conditions of Electromagnetic Fields.- 4. Magnetogasdynamic Approximations.- 5. Electrogasdynamic Approximations.- 6. Important Parameters of Electromagnetofluid Dynamics.- 7. One-Dimensional Flow in Magnetogasdynamics.- 8. One-Dimensional Flow in Electrogasdynamics.- 9. Channel Flow in Magnetohydrodynamics.- 10. Waves and Shocks in Magnetogasdynamics.- 11. Boundary Layer Flow in Magnetofluid Dynamics.- 12. Wakes in Magnetohydrodynamics.- 13. Tensor Electrical Conductivity.- 14. Turbulent Flow in Magnetohydrodynamics.- 15. Multifluid Theory of Magnetofluid Dynamics.- Acknowledgment.- Notation.- References.- Author Index.