Gas dynamics
Author(s)
Bibliographic Information
Gas dynamics
PHI Learning, 2010
3rd ed., Eastern Economy ed.
- : pbk
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
At every stage, the physics governing the process, its application and limitations are discussed in depth. In the third edition, several new problems with answers have been added at the end of many chapters. The chapter titled Measurements in Compressible Flow has been augmented with high speed wind tunnels, covering the type of supersonic tunnels, their design features, calibration, instrumentation and operating principles. With a strong emphasis on basic concepts and problem-solving skills, this text is suitable for a course Gas Dynamics/Compressible Flows/High-speed Aerodyna-mics both at undergraduate and postgraduate levels in aerospace engineering, mechanical engineering, chemical engineering and applied physics. The elegant and concise writing style of the book, along with illustrations and worked examples, makes it eminently suitable for self-study by scientists and engineers working in the field of gas dynamics in industries and research laboratories. Some of the distinguishing features of the book are : Concise coverage of the thermodynamic concepts to serve as revision of the background material.
Logical and systematic treatment of fundamental aspects of gas dynamics, waves in the supersonic regime and gas dynamic processes. Extensive treatment of steady one-dimensional flow, normal shocks, oblique shock and expansion waves, Fanno flow and Rayleigh flow. In-depth presentation of potential equations for compressible flows, similarity rule and two-dimensional compressible flows. Discussion of the Method of Characteristics and the analytical relations of the coordinates for supersonic nozzle design. Introduction to measurements in compressible flows and optical flow visualization techniques. Introduction to rarefied gas dynamics and high-temperature gas dynamics. Numerous end-of-chapter problems to develop an orderly approach to problem-solving methodology. Solutions Manual for instructors containing the complete worked-out solutions to chapter-end problems.
Table of Contents
Preface Preface to the First Edition 1. Some Preliminary Thoughts 2. Basic Equations of Compressible Flow 3. Wave Propagation 4. Steady One-Dimensional Flow 5. Normal Shock Waves 6. Oblique Shock and Expansion Waves 7. Potential Equation for Compressible Flow 8. Similarity Rule 9. Two-Dimensional Compressible Flows 10. Prandtl - Meyer Flow 11. Flow with Friction and Heat Transfer 12. Method of Characteristics 13. Measurements in Compressible Flow 14. Rarefied Gas Dynamics 15. High-Temperature Gas Dynamics Appendices A: Table A1: Isentrophic Flow of Perfect Gas
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