Applied gas dynamics 2nd edition by Ethirajan Rathakrishnan ISBN 1119500397 9781119500391
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ISBN 10: 1119500397
ISBN 13: 978-1119500391
Author: Ethirajan Rathakrishnan
A revised edition to applied gas dynamics with exclusive coverage on jets and additional sets of problems and examples
The revised and updated second edition of Applied Gas Dynamics offers an authoritative guide to the science of gas dynamics. Written by a noted expert on the topic, the text contains a comprehensive review of the topic; from a definition of the subject, to the three essential processes of this science: the isentropic process, shock and expansion process, and Fanno and Rayleigh flows.
In this revised edition, there are additional worked examples that highlight many concepts, including moving shocks, and a section on critical Mach number is included that helps to illuminate the concept. The second edition also contains new exercise problems with the answers added. In addition, the information on ram jets is expanded with helpful worked examples. It explores the entire spectrum of the ram jet theory and includes a set of exercise problems to aid in the understanding of the theory presented. This important text:
- Includes a wealth of new solved examples that describe the features involved in the design of gas dynamic devices
- Contains a chapter on jets; this is the first textbook material available on high-speed jets
- Offers comprehensive and simultaneous coverage of both the theory and application
- Includes additional information designed to help with an understanding of the material covered
Written for graduate students and advanced undergraduates in aerospace engineering and mechanical engineering, Applied Gas Dynamics, Second Edition expands on the original edition to include not only the basic information on the science of gas dynamics but also contains information on high-speed jets.
Applied gas dynamics 2nd Table of contents:
1. Basic Facts
- Definition of Gas Dynamics
- Compressibility and Supersonic Flow
- Speed of Sound and Temperature Rise
- Mach Angle
- Thermodynamics in Fluid Flow: First and Second Laws
- Properties of a Perfect Gas
- Wave Propagation and Sound Velocity
- Subsonic vs. Supersonic Flows
- Similarity Parameters and Compressible Flow Regimes
- Summary
2. Steady One‐Dimensional Flow
- Fundamental Equations and Reservoir Discharge
- Streamtube Area–Velocity Relation and de Laval Nozzle
- Supersonic Flow Generation and Nozzle Performance
- Diffusers and Dynamic Head Measurement
- Summary
3. Normal Shock Waves
- Equations of Motion and Normal Shock Relations
- Stagnation Pressure Change and Hugoniot Equation
- Shock Wave Propagation and Reflection
- Shock Tube Overview
- Summary
4. Oblique Shock and Expansion Waves
- Oblique Shock Relations and Shock Polar
- Supersonic Flow over Wedges and Prandtl–Meyer Expansion
- Reflection and Interaction of Shocks
- Thin Airfoil Theory
- Summary
5. Compressible Flow Equations
- Crocco’s Theorem and Potential Equations
- Boundary Conditions and Pressure Coefficient
- Summary
6. Similarity Rule
- Prandtl–Glauert Rule for Subsonic and Supersonic Flow
- von Karman Rule for Transonic Flow
- Hypersonic Similarity and Gothert’s Rule
- Critical Mach Number
- Summary
7. Two‐Dimensional Compressible Flows
- General Linear Solution for Supersonic Flow
- Flow over Wave‐Shaped Walls
- Summary
8. Flow with Friction and Heat Transfer
- Constant Area Duct Flow with Friction
- Adiabatic Flow and Flow with Heating/Cooling in Ducts
- Summary
9. Method of Characteristics
- Concepts of Characteristics and Compatibility Relation
- Computational Methods and Supersonic Nozzle Design
- Summary
10. Measurements in Compressible Flow
- Pressure, Temperature, and Velocity Measurements
- Compressible Flow Visualization Techniques
- Wind and Hypersonic Tunnels
- Summary
11. Ramjet
- Ideal Ramjet and Aerodynamic Losses
- Engine Component Aerothermodynamics
- Performance and Shock–Boundary Layer Interactions
- Supersonic Combustion
- Summary
12. Jets
- Mathematical and Turbulent Jet Theory
- Experimental Methods and Jet Control Techniques
- Noncircular Jets and Applications
- Summary
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