Real gas flows with high velocities. (©2009)
- Record Type:
- Book
- Title:
- Real gas flows with high velocities. (©2009)
- Main Title:
- Real gas flows with high velocities
- Further Information:
- Note: Vladimir Lunev.
- Other Names:
- Lunev, Vladimir
- Contents:
- Gasdynamic Model and Equations; Outline of the Gasdynamic Model; Basic Equations and Postulates; Equations of State; Kinetic Theory; Second Law of Thermodynamics; Speed of Sound; Integral Equations of Motion; Kinematics of Fluid Media; Differential Equations of Gasdynamics; Rheological Model; Initial and Boundary Conditions; Similarity and Modeling in Gasdynamics; Euler Equations; Navier-Stokes Equations; Turbulent Flows; Viscous and Inviscid Flow Models; Inviscid Gasdynamics ; Stream Function, Potential, and Vortex; Integrals of Gasdynamic Equations; One-Dimensional Stationary Flows; Linear Equations of Gas Dynamics; Sound Wave Propagation; Nonlinear Effects; Steady Flow Past Thin Bodies; Thin Bodies in Supersonic Flow; Subsonic Flow Past Thin Bodies; Flow around Cylinder and Sphere; Stagnation Points and Singular Lines; Forces in Subsonic Flows; Aerodynamic Characteristics; Accelerated Motion of Bodies; Shock Waves; Introduction: Formulation of Problems; Shock Wave Structure; Normal Shocks in Perfect Gases; Shock Waves in Normal Gases; Oblique Shocks; Losses across Shock Waves; Piston and Wedge Problems; Theory of Characteristics; Formulation of the Problem; One-dimensional Unsteady Flows; Steady-state two-dimensional Flows; Three-dimensional Flows; Simple Waves; Expansion and Compression Waves; Disturbances in Non-uniform Media; Interaction of Sound and Shock Waves; Breakdown of an Arbitrary Discontinuity; Disturbances in Thin Layers; Shock Front Equation; Waves inGasdynamic Model and Equations; Outline of the Gasdynamic Model; Basic Equations and Postulates; Equations of State; Kinetic Theory; Second Law of Thermodynamics; Speed of Sound; Integral Equations of Motion; Kinematics of Fluid Media; Differential Equations of Gasdynamics; Rheological Model; Initial and Boundary Conditions; Similarity and Modeling in Gasdynamics; Euler Equations; Navier-Stokes Equations; Turbulent Flows; Viscous and Inviscid Flow Models; Inviscid Gasdynamics ; Stream Function, Potential, and Vortex; Integrals of Gasdynamic Equations; One-Dimensional Stationary Flows; Linear Equations of Gas Dynamics; Sound Wave Propagation; Nonlinear Effects; Steady Flow Past Thin Bodies; Thin Bodies in Supersonic Flow; Subsonic Flow Past Thin Bodies; Flow around Cylinder and Sphere; Stagnation Points and Singular Lines; Forces in Subsonic Flows; Aerodynamic Characteristics; Accelerated Motion of Bodies; Shock Waves; Introduction: Formulation of Problems; Shock Wave Structure; Normal Shocks in Perfect Gases; Shock Waves in Normal Gases; Oblique Shocks; Losses across Shock Waves; Piston and Wedge Problems; Theory of Characteristics; Formulation of the Problem; One-dimensional Unsteady Flows; Steady-state two-dimensional Flows; Three-dimensional Flows; Simple Waves; Expansion and Compression Waves; Disturbances in Non-uniform Media; Interaction of Sound and Shock Waves; Breakdown of an Arbitrary Discontinuity; Disturbances in Thin Layers; Shock Front Equation; Waves in Anomalous Media; Mixed, Subsonic-supersonic Flows; Formation of Mixed Flows; Von Kàrmàn and Chaplygin Equations; Formulation of Gasdynamic Problems; Supersonic Flow Past Blunt Bodies; Nozzle and Jet Flows; Subsonic Flow Past a Convex Corner; Disturbance/Subsonic Region Interaction; Existence of steady-state solutions; Self-similar Solutions; Basic Concepts; Cone in Incompressible Flow; Transonic Problems; Cone in Supersonic Flow; Conical Flows; Cone at Incidence; Delta Wing in a Supersonic Flow; Strong Blast; Blast in Real Gases; Self-similar Dissipative Flows; Flows with Strong Shocks; Hypersonic Stabilization; Busemann and Newton formulas; Blunt Bodies; Aerodynamic Characteristics; Free Layer; Piston Problem; Truncation Series Method; Flow in the Near-Axis Region; Variable-Density Flow; Thin Shock Layers; Flow around Conical Bodies; Counter Jet; Degenerate Shock Layer Equations; Thin Sharp Bodies in Hypersonic Flow; Nonlinear Theory; Time-dependent Analogy; Integral Conservation Laws; Similarity Law; Flow around Thin Bodies; Thin Bodies at High Incidence; Time-dependent Flows; Flows Past Thin Blunt Bodies; General Flow Pattern; Similarity Law and Blast Analogy; Real Gas Effects; Flow Past Blunt Cones; Bodies of Revolution at Incidence; Wings with Blunt Edges; Wings with Blunt Noses; 3-D Vortex Flows; Nonunifrom Flow Past a Cylinder; Relaxing Gas Models; Formulation of the Problem; Basic Postulates; Equations of State for Gas Mixtures; Limiting Flow Regimes; Gas Composition and Basic Reactions; Entropy and Equilibrium Conditions; Boltzmann Distribution; Equilibrium Reactions and Composition; Reaction Rates; Relaxation of Complex Systems; Relaxation-reaction Interaction; Relaxation of the Electron Temperature; Conclusion; Nonequilibrium gas flows; Equations of Nonequilibrium Flows; Limiting Flow Regimes; Limiting speeds of sound; Disturbances in Nonequilibrium Gases; Shock Waves and Relaxation Zones; Short Waves; Viscosity-relaxation Analogy; Stationary Waves in Relaxing Media; The Law of Binary Similarity; Nonequilibrium flows Past Bodies; Nozzle and Jet Flows; Thermal Rarefaction Waves; Sublimation Waves; Viscous Flows and Boundary Layers; Equations for Viscous Flows; Exact Solutions; Parabolized Navier-Stokes Equations; Boundary Layer on a Flat Plate; Parabolization of the Equations; Boundary Layer in a Compressible Gas; Models of Turbulent Flows; Boundary Layer on Blunt Bodies; Viscous-inviscid Interaction; Boundary Layer in a Nonunifrom Flow; Method of Mass-average Parameters; Boundary Layer on Thin Sharp Bodies; Entropy Effect on Blunt Bodies; Flows in Viscous Layers; Three-dimensional Boundary Layer; Viscous Flows of Multicomponent Gases; Nonequilibrium Dissipative Flows; Nonequilibrium Boundary and Viscous Layers; Transport Coefficients of Individual Components; Radiating gasdynamics; Physics of Gas Radiation; Radiating and Absorbing Jets; Flows of Intensely Radiating Gases; Nonequilibrium Radiating Gases; Bibliography … (more)
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2009
- Copyright Date:
- 2009
- Extent:
- 1 online resource (xv, 735 pages), illustrations
- Subjects:
- 629.132/306
Aerodynamics, Hypersonic
Gas flow
TRANSPORTATION -- Aviation -- General
Aerodynamics, Hypersonic
Gas flow
Gasdynamik
Electronic books - Languages:
- English
- ISBNs:
- 9781439804667
1439804664
1282105906
9781282105904 - Related ISBNs:
- 9781439804650
1439804656 - Notes:
- Note: Includes bibliographical references and index.
Note: Print version record. - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.149992
- Ingest File:
- 01_075.xml