Fundamentals of Gas Dynamics provides the essential applications and problem–solving techniques used in gas dynamics. Written in an accessible but rigorous style, this book includes all the equations, tables, and charts necessary to approach the problems and exercises in each chapter. Temperature–entropy diagrams and the role of entropy are highlighted throughout to make this elusive property more understandable and useful.
New to this Second Edition is a chapter covering real gas behavior. The information in this chapter provides a valuable bridge between the conventional types of lower–temperature applications and propulsion applications, both covered elsewhere in this book. Included in this new chapter on real gas behavior is a simplified technique for solving problems where the ratio of the heat capacities varies appreciably, as well as discussions and examples comparing this technique to more exact methods.
Unique coverage also includes:
∗ Updated information on propulsion applications and new engine photographs
∗ Key parameter variations plotted as a function of Mach number
∗ Updated material and appendixes on conical shocks
∗ Appendixes containing information to treat air as a real gas
∗ Enhanced gas property tabular entries that are given in both English Engineering and SI units
∗ Alternatives to using tabular information in calculations
Fundamentals of Gas Dynamics, Second Edition is an indispensable book for students in mechanical, aerospace, and chemical engineering courses, as well as aerospace engineers.
To the Student.
Review of Elementary Principles.
Control Volume Analysis–Part I.
Control Volume Analysis–Part II.
Introduction to Compressible Flow.
Varying–Area Adiabatic Flow.
Standing Normal Shocks.
Moving and Oblique Shocks.
Real Gas Effects.
Answers to Problems.
OSCAR BIBLARZ, PhD, is Professor of Aeronautics and Astronautics at the Naval Postgraduate School in Monterey, California. He is coauthor (with George Sutton) of Rocket Propulsion Elements, published by Wiley.