05322nam 2200673 450 991013229530332120230807212446.01-118-82191-21-119-11312-11-118-82190-4(CKB)3710000000335317(EBL)1911670(SSID)ssj0001402140(PQKBManifestationID)11898142(PQKBTitleCode)TC0001402140(PQKBWorkID)11357795(PQKB)11076095(DLC) 2014037425(MiAaPQ)EBC1911670(Au-PeEL)EBL1911670(CaPaEBR)ebr11011823(CaONFJC)MIL708892(OCoLC)899942078(EXLCZ)99371000000033531720140916d2015 uy| 0engur|n|---|||||txtccrHigh enthalpy gas dynamics /Ethirajan RathakrishnanHoboken, New Jersey :John Wiley & Sons Inc.,2015.1 online resource (781 p.)Description based upon print version of record.1-322-77610-5 1-118-82189-0 Includes bibliographical references and index.Cover; Title Page; Copyright; Dedication; About the Author; Preface; Chapter 1: Basic Facts; 1.1 Introduction; 1.2 Enthalpy versus Internal Energy; 1.3 Gas Dynamics of Perfect Gases; 1.4 Compressible Flow; 1.5 Compressibility; 1.6 Supersonic Flow; 1.7 Speed of Sound; 1.8 Temperature Rise; 1.9 Mach Angle; 1.10 Summary; Exercise Problems; References; Chapter 2: Thermodynamics of Fluid Flow; 2.1 Introduction; 2.2 First Law of Thermodynamics; 2.3 The Second Law of Thermodynamics (Entropy Equation); 2.4 Thermal and Calorical Properties; 2.5 The Perfect Gas; 2.6 Summary; Exercise ProblemsReferencesChapter 3: Wave Propagation; 3.1 Introduction; 3.2 Velocity of Sound; 3.3 Subsonic and Supersonic Flows; 3.4 Similarity Parameters; 3.5 Continuum Hypothesis; 3.6 Compressible Flow Regimes; 3.7 Summary; Exercise Problems; References; Chapter 4: High-Temperature Flows; 4.1 Introduction; 4.2 Importance of High-Enthalpy Flows; 4.3 Nature of High-Enthalpy Flows; 4.4 Most Probable Macrostate; 4.5 Counting the Number of Microstates for a given Macrostate; 4.6 Evaluation of Thermodynamic Properties; 4.7 Evaluation of Partition Function in terms of4.8 High-Temperature Thermodynamic Properties of a Single-Species Gas4.9 Equilibrium Properties of High-Temperature Air; 4.10 Kinetic Theory of Gases; 4.11 Collision Frequency and Mean Free Path; 4.12 Velocity and Speed Distribution Functions; 4.13 Inviscid High-Temperature Equilibrium Flows; 4.14 Governing Equations; 4.15 Normal and Oblique Shocks; 4.16 Oblique Shock Wave in an Equilibrium Gas; 4.17 Equilibrium Quasi-One-Dimensional Nozzle Flows; 4.18 Frozen and Equilibrium Flows; 4.19 Equilibrium and Frozen Specific Heats; 4.20 Inviscid High-Temperature Nonequilibrium Flows4.21 Nonequilibrium Normal Shock and Oblique Shock Flows4.22 Nonequilibrium Flow over Blunt-Nosed Bodies; 4.23 Transport Properties in High-Temperature Gases; 4.24 Summary; Exercise Problems; References; Chapter 5: Hypersonic Flows; 5.1 Introduction; 5.2 Newtonian Flow Model; 5.3 Mach Number Independence Principle; 5.4 Hypersonic Flow Characteristics; 5.5 Governing Equations; 5.6 Dependent Variables; 5.7 Transport Properties; 5.8 Continuity Equation; 5.9 Momentum Equation; 5.10 Energy Equation; 5.11 General Form of the Equations of Motion; 5.12 Experimental Measurements of Hypersonic Flows5.13 Measurements of Hypersonic Flows5.14 Summary; Exercise Problems; References; Chapter 6: Aerothermodynamics; 6.1 Introduction; 6.2 Empirical Correlations; 6.3 Viscous Interaction with External Flow; 6.4 CFD for Hypersonic Flows; 6.5 Computation Based on a Two-layer Flow Model; 6.6 Calibration and Validation of the CFD Codes; 6.7 Basic CFD-Intuitive Understanding; 6.8 Summary; Exercise Problem; References; Chapter 7: High-Enthalpy Facilities; 7.1 Introduction; 7.2 Hotshot Tunnels; 7.3 Plasma Arc Tunnels; 7.4 Shock Tubes; 7.5 Shock Tunnels; 7.6 Gun Tunnels7.7 Some of the Working Facilities This is an introductory level textbook which explains the elements of high temperature and high-speed gas dynamics. Readers will gain an understanding how the thermodynamic and transport properties of high temperature gas are determined from a microscopic viewpoint of the molecular gas dynamics, and how such properties affect the flow features, the shock waves and the nozzle flows, from a macroscopic viewpoint. In addition, the experimental facilities for the study on the high enthalpy flows are described in a concise and easy-to-understand style. Practical examples are given throughout emphaGas dynamicsGasesThermal propertiesEnthalpyGas dynamics.GasesThermal properties.Enthalpy.533/.2Rathakrishnan Ethirajan869269MiAaPQMiAaPQMiAaPQBOOK9910132295303321High enthalpy gas dynamics2020033UNINA