Measurement of momentum transfer coefficients for H2, N2, CO, and CO2 incident upon spacecraft surfaces / / Steven R. Cook and Mark A. Hoffbauer |
Autore | Cook Steven Ralph <1961-> |
Pubbl/distr/stampa | Houston, Texas : , : National Aeronautics and Space Administration, Lyndon B. Johnson Space Center, , November 1997 |
Descrizione fisica | 1 online resource (77 pages) : illustrations |
Collana | Technical paper |
Soggetto topico |
Solar arrays
Plumes Momentum transfer International Space Station Rarefied gas dynamics |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910707970103321 |
Cook Steven Ralph <1961-> | ||
Houston, Texas : , : National Aeronautics and Space Administration, Lyndon B. Johnson Space Center, , November 1997 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics : fundamentals for research and practice / / Felix Sharipov |
Autore | Sharipov Felix |
Pubbl/distr/stampa | Weinheim an der Bergstrasse, Germany : , : Wiley-VCH, , 2016 |
Descrizione fisica | 1 online resource (345 p.) : ill |
Disciplina | 533.52 |
Soggetto topico | Rarefied gas dynamics |
ISBN |
3-527-68553-7
3-527-68552-9 3-527-68507-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | ger |
Record Nr. | UNINA-9910137226203321 |
Sharipov Felix | ||
Weinheim an der Bergstrasse, Germany : , : Wiley-VCH, , 2016 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics : fundamentals for research and practice / / Felix Sharipov |
Autore | Sharipov Felix |
Pubbl/distr/stampa | Weinheim an der Bergstrasse, Germany : , : Wiley-VCH, , 2016 |
Descrizione fisica | 1 online resource (345 p.) : ill |
Disciplina | 533.52 |
Soggetto topico | Rarefied gas dynamics |
ISBN |
3-527-68553-7
3-527-68552-9 3-527-68507-3 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | ger |
Record Nr. | UNINA-9910808796903321 |
Sharipov Felix | ||
Weinheim an der Bergstrasse, Germany : , : Wiley-VCH, , 2016 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics : kinetic modeling and multi-scale simulation / / Lei Wu |
Autore | Wu Lei |
Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
Descrizione fisica | 1 online resource (293 pages) : illustrations (black and white, and colour) |
Disciplina | 533.2 |
Soggetto topico |
Rarefied gas dynamics - Mathematical models
Rarefied gas dynamics |
ISBN |
9789811928727
9789811928710 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Preface -- Contents -- 1 Introduction -- 1.1 Navier-Stokes-Fourier Equations -- 1.2 Continuum Breakdown -- 1.2.1 Reentry of Space Vehicle -- 1.2.2 Microelectromechanical Systems -- 1.2.3 Shale Gas Extraction -- 1.2.4 Global Wind Profiling -- 1.3 Simple Gas Kinetic Theory -- 1.4 Knudsen Number -- 1.4.1 Spatial Knudsen Number -- 1.4.2 Temporal Knudsen Number -- 1.5 Molecular Dynamics Simulations -- References -- 2 Gas Kinetic Theory -- 2.1 Velocity Distribution Function -- 2.2 Binary Collision -- 2.2.1 Deflection Angle -- 2.2.2 Differential Cross Section -- 2.2.3 Grazing Collision -- 2.3 Boltzmann Equation -- 2.3.1 H-Theorem -- 2.3.2 Equilibrium Collision Frequency -- 2.3.3 Linearized Boltzmann Equation -- 2.4 Wang-Chang and Uhlenbeck Equation -- 2.5 Enskog Equation -- 2.5.1 Liquid-Vapor Flow -- 2.5.2 Granular Gas -- 2.6 Gas-Surface Boundary Condition -- 2.6.1 Maxwell Boundary Condition -- 2.6.2 Epstein Boundary Condition -- 2.6.3 Cercignani-Lampis Boundary Condition -- 2.7 Numerical Methods -- 2.7.1 Direct Simulation Monte Carlo -- 2.7.2 Discrete Velocity Methods -- 2.7.3 Multi-scale Simulation -- References -- 3 Fluid-Dynamic Equation -- 3.1 Hilbert Expansion -- 3.2 Chapman-Enskog Expansion -- 3.2.1 Expansion in Sonine Polynomials -- 3.2.2 Expansion to the First Order -- 3.2.3 Expansion to Higher Orders -- 3.3 Moment Methods -- 3.4 Accuracy of Macroscopic Equations -- 3.4.1 Equations from Chapman-Enskog Expansion -- 3.4.2 Moment Equations -- 3.5 Convergence of Moment Equations -- 3.5.1 Rayleigh-Brillouin Scattering -- 3.5.2 Sound Propagation -- References -- 4 Fast Spectral Method for Monatomic Gas Flow -- 4.1 Inverse Design of Collision Kernel -- 4.1.1 Power-Law Potential -- 4.1.2 Lennard-Jones Potential -- 4.2 Normalization -- 4.3 Fast Spectral Method -- 4.3.1 Carleman Representation -- 4.3.2 Fourier-Galerkin Spectral Method.
4.3.3 Detailed Implementation -- 4.3.4 Non-uniform Discretization of Velocity Space -- 4.4 Homogeneous Relaxation -- 4.4.1 Bobylev-Krook-Wu Solution -- 4.4.2 Discontinuous Velocity Distribution -- 4.5 Accuracy in Inhomogeneous Problems -- 4.5.1 Normal Shock Waves -- 4.5.2 Force-Driven Poiseuille Flows -- 4.5.3 Thermal Transpiration in a Cavity -- 4.6 Concluding Remarks -- References -- 5 Fast Spectral Method for Linear Gas Flow -- 5.1 Linearization -- 5.2 Poiseuille Flow -- 5.2.1 Poiseuille Flow Between Parallel Plates -- 5.2.2 Poiseuille Flow Through a Long Duct -- 5.3 Thermal Transpiration -- 5.4 Onsager-Casimir Relation -- 5.5 Influence of Intermolecular Potential -- 5.5.1 Lennard-Jones Potential -- 5.5.2 Accurate Transport Coefficients -- 5.5.3 Poiseuille Flow -- 5.5.4 Planar Fourier Flow -- 5.5.5 Planar Couette Flow -- 5.6 Cercignani-Lampis Boundary Condition -- 5.6.1 Poiseuille Flow Through Parallel Plates -- 5.6.2 Poiseuille Flow Through Long Tube -- References -- 6 Kinetic Modeling of Monatomic Gas Flow -- 6.1 Basic Rules -- 6.2 Velocity-Independent Collision Frequency -- 6.2.1 BGK Model -- 6.2.2 Ellipsoidal-Statistical BGK Model -- 6.2.3 Shakhov Model -- 6.2.4 Gross-Jackson Model -- 6.2.5 Nonlinearization -- 6.3 Velocity-Dependent Collision Frequency -- 6.4 Fokker-Planck Model -- 6.5 Accuracy of Kinetic Models -- 6.5.1 Normal Shock Wave -- 6.5.2 Thermal Transpiration -- References -- 7 Kinetic Modeling of Molecular Gas Flow -- 7.1 Bulk Viscosity -- 7.2 Thermal Conductivity -- 7.3 Thermal Relaxation Rates in DSMC -- 7.4 Kinetic Models -- 7.4.1 Hanson-Morse Model -- 7.4.2 Rykov Model -- 7.4.3 ESBGK Model -- 7.4.4 Wu Model -- 7.5 Accuracy of Kinetic Models -- 7.5.1 Normal Shock Wave -- 7.5.2 Couette Flow -- 7.5.3 Maxwell's Demon -- 7.6 Uncertainty Quantification -- 7.6.1 Normal Shock Wave -- 7.6.2 Flow Driven by Maxwell's Demon. 7.6.3 Thermal Transpiration in Cavity -- 7.7 Conclusions and Discussions -- References -- 8 General Synthetic Iterative Scheme -- 8.1 Problems of CIS -- 8.1.1 Slow Convergence -- 8.1.2 False Convergence -- 8.2 General Synthetic Iterative Scheme -- 8.2.1 Scheme-I GSIS -- 8.2.2 Scheme-II GSIS -- 8.3 Properties of GSIS -- 8.3.1 Super Convergence -- 8.3.2 Asymptotic Preserving -- 8.4 Numerical Tests -- 8.4.1 Coherent Rayleigh-Brillouin Scattering -- 8.4.2 Planar Fourier Flow -- 8.4.3 Couette Flow Between Eccentric Cylinders -- 8.5 Concluding Remarks and Outlooks -- References -- 9 Acoustics in Rarefied Gas -- 9.1 Formulation of the Problem -- 9.2 Oscillatory Couette Flow -- 9.3 Oscillating Lid-Driven Cavity Flow -- 9.3.1 Scaling Law for Anti-resonant Frequency -- 9.4 Planar Sound Propagation -- 9.5 Sound Propagation in Cavity -- 9.5.1 Two Types of Resonances -- 9.5.2 Sound Speed -- References -- 10 Slip and Jump Coefficients -- 10.1 State of the Problem -- 10.2 Viscous Slip -- 10.2.1 Viscous Slip Coefficient -- 10.2.2 Knudsen Layer Function -- 10.3 Thermal Slip -- 10.3.1 Thermal Slip Coefficient -- 10.3.2 Knudsen Layer Function -- 10.3.3 Molecular Gases -- 10.4 Temperature Jump -- References -- 11 Accuracy of Kinetic Boundary Condition -- 11.1 Reynolds Lubrication Equation -- 11.2 Experiments and Upscaling -- 11.3 Approximate Velocity Slip Coefficients -- 11.4 Comparison with Experiment -- 11.4.1 Poiseuille Flow Through a Rectangular Duct -- 11.4.2 Thermal Transpiration in a Rectangular Duct -- 11.4.3 Thermal Transpiration Through a Long Tube -- 11.5 Implication in Hypersonic Flows -- References -- 12 Porous Media Flow -- 12.1 Apparent Gas Permeability -- 12.2 Kinetic Formulation -- 12.3 Accuracy of Navier-Stokes Equations -- 12.4 Interpretation of Experiment -- 12.5 Asymptotic Behavior at Large KnKn -- References -- 13 Gas Mixture. 13.1 Boltzmann Equation for Gas Mixture -- 13.2 Fast Spectral Method -- 13.2.1 Accuracy Analysis -- 13.2.2 Efficient Algorithm for Large Mass Ratio -- 13.3 Accuracy in Inhomogeneous Problems -- 13.4 Linearization and GSIS -- 13.5 McCormack Model -- References -- 14 Dense Gas Flow -- 14.1 Fast Spectral Method -- 14.2 Heated Granular Gas -- 14.3 Force-Driven Poiseuille Flow -- 14.3.1 Mass Flow Rate of Dense Gas -- 14.3.2 Influence of Restitution Coefficient -- 14.4 Heat Transfer -- 14.5 Kinetic Model for Dense Gas -- References -- 15 Fluctuation and Light Scattering -- 15.1 Rayleigh-Brillouin Scattering -- 15.1.1 Spontaneous RBS -- 15.1.2 Coherent RBS -- 15.2 Numerical Methods -- 15.2.1 Monatomic Gas -- 15.2.2 Molecular Gas -- 15.3 Accuracy of the Tenti Model -- 15.3.1 Temperature Retrieval Error -- 15.4 Extraction of Gas Property -- References -- Appendix A Special Functions -- Appendix B Relaxation Rates of Maxwellian Molecules -- Appendix C Numerical Quadratures -- C.1 Gauss-Legendre Quadrature -- C.2 Gauss-Hermite Quadrature -- Appendix D Implementation of Fast Spectral Method -- D.1 Algorithm 1: Zero-Padding -- D.2 Algorithm 2: No Zero-Padding -- D.3 Algorithm 3: Collision Frequency -- Appendix E MATLAB Code for Normal Shock Wave -- Appendix F MATLAB Code for Poiseuille Flow and Thermal Transpiration -- Index. |
Record Nr. | UNINA-9910592981803321 |
Wu Lei | ||
Singapore : , : Springer, , [2022] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics : kinetic modeling and multi-scale simulation / / Lei Wu |
Autore | Wu Lei |
Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
Descrizione fisica | 1 online resource (293 pages) : illustrations (black and white, and colour) |
Disciplina | 533.2 |
Soggetto topico |
Rarefied gas dynamics - Mathematical models
Rarefied gas dynamics |
ISBN |
9789811928727
9789811928710 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Preface -- Contents -- 1 Introduction -- 1.1 Navier-Stokes-Fourier Equations -- 1.2 Continuum Breakdown -- 1.2.1 Reentry of Space Vehicle -- 1.2.2 Microelectromechanical Systems -- 1.2.3 Shale Gas Extraction -- 1.2.4 Global Wind Profiling -- 1.3 Simple Gas Kinetic Theory -- 1.4 Knudsen Number -- 1.4.1 Spatial Knudsen Number -- 1.4.2 Temporal Knudsen Number -- 1.5 Molecular Dynamics Simulations -- References -- 2 Gas Kinetic Theory -- 2.1 Velocity Distribution Function -- 2.2 Binary Collision -- 2.2.1 Deflection Angle -- 2.2.2 Differential Cross Section -- 2.2.3 Grazing Collision -- 2.3 Boltzmann Equation -- 2.3.1 H-Theorem -- 2.3.2 Equilibrium Collision Frequency -- 2.3.3 Linearized Boltzmann Equation -- 2.4 Wang-Chang and Uhlenbeck Equation -- 2.5 Enskog Equation -- 2.5.1 Liquid-Vapor Flow -- 2.5.2 Granular Gas -- 2.6 Gas-Surface Boundary Condition -- 2.6.1 Maxwell Boundary Condition -- 2.6.2 Epstein Boundary Condition -- 2.6.3 Cercignani-Lampis Boundary Condition -- 2.7 Numerical Methods -- 2.7.1 Direct Simulation Monte Carlo -- 2.7.2 Discrete Velocity Methods -- 2.7.3 Multi-scale Simulation -- References -- 3 Fluid-Dynamic Equation -- 3.1 Hilbert Expansion -- 3.2 Chapman-Enskog Expansion -- 3.2.1 Expansion in Sonine Polynomials -- 3.2.2 Expansion to the First Order -- 3.2.3 Expansion to Higher Orders -- 3.3 Moment Methods -- 3.4 Accuracy of Macroscopic Equations -- 3.4.1 Equations from Chapman-Enskog Expansion -- 3.4.2 Moment Equations -- 3.5 Convergence of Moment Equations -- 3.5.1 Rayleigh-Brillouin Scattering -- 3.5.2 Sound Propagation -- References -- 4 Fast Spectral Method for Monatomic Gas Flow -- 4.1 Inverse Design of Collision Kernel -- 4.1.1 Power-Law Potential -- 4.1.2 Lennard-Jones Potential -- 4.2 Normalization -- 4.3 Fast Spectral Method -- 4.3.1 Carleman Representation -- 4.3.2 Fourier-Galerkin Spectral Method.
4.3.3 Detailed Implementation -- 4.3.4 Non-uniform Discretization of Velocity Space -- 4.4 Homogeneous Relaxation -- 4.4.1 Bobylev-Krook-Wu Solution -- 4.4.2 Discontinuous Velocity Distribution -- 4.5 Accuracy in Inhomogeneous Problems -- 4.5.1 Normal Shock Waves -- 4.5.2 Force-Driven Poiseuille Flows -- 4.5.3 Thermal Transpiration in a Cavity -- 4.6 Concluding Remarks -- References -- 5 Fast Spectral Method for Linear Gas Flow -- 5.1 Linearization -- 5.2 Poiseuille Flow -- 5.2.1 Poiseuille Flow Between Parallel Plates -- 5.2.2 Poiseuille Flow Through a Long Duct -- 5.3 Thermal Transpiration -- 5.4 Onsager-Casimir Relation -- 5.5 Influence of Intermolecular Potential -- 5.5.1 Lennard-Jones Potential -- 5.5.2 Accurate Transport Coefficients -- 5.5.3 Poiseuille Flow -- 5.5.4 Planar Fourier Flow -- 5.5.5 Planar Couette Flow -- 5.6 Cercignani-Lampis Boundary Condition -- 5.6.1 Poiseuille Flow Through Parallel Plates -- 5.6.2 Poiseuille Flow Through Long Tube -- References -- 6 Kinetic Modeling of Monatomic Gas Flow -- 6.1 Basic Rules -- 6.2 Velocity-Independent Collision Frequency -- 6.2.1 BGK Model -- 6.2.2 Ellipsoidal-Statistical BGK Model -- 6.2.3 Shakhov Model -- 6.2.4 Gross-Jackson Model -- 6.2.5 Nonlinearization -- 6.3 Velocity-Dependent Collision Frequency -- 6.4 Fokker-Planck Model -- 6.5 Accuracy of Kinetic Models -- 6.5.1 Normal Shock Wave -- 6.5.2 Thermal Transpiration -- References -- 7 Kinetic Modeling of Molecular Gas Flow -- 7.1 Bulk Viscosity -- 7.2 Thermal Conductivity -- 7.3 Thermal Relaxation Rates in DSMC -- 7.4 Kinetic Models -- 7.4.1 Hanson-Morse Model -- 7.4.2 Rykov Model -- 7.4.3 ESBGK Model -- 7.4.4 Wu Model -- 7.5 Accuracy of Kinetic Models -- 7.5.1 Normal Shock Wave -- 7.5.2 Couette Flow -- 7.5.3 Maxwell's Demon -- 7.6 Uncertainty Quantification -- 7.6.1 Normal Shock Wave -- 7.6.2 Flow Driven by Maxwell's Demon. 7.6.3 Thermal Transpiration in Cavity -- 7.7 Conclusions and Discussions -- References -- 8 General Synthetic Iterative Scheme -- 8.1 Problems of CIS -- 8.1.1 Slow Convergence -- 8.1.2 False Convergence -- 8.2 General Synthetic Iterative Scheme -- 8.2.1 Scheme-I GSIS -- 8.2.2 Scheme-II GSIS -- 8.3 Properties of GSIS -- 8.3.1 Super Convergence -- 8.3.2 Asymptotic Preserving -- 8.4 Numerical Tests -- 8.4.1 Coherent Rayleigh-Brillouin Scattering -- 8.4.2 Planar Fourier Flow -- 8.4.3 Couette Flow Between Eccentric Cylinders -- 8.5 Concluding Remarks and Outlooks -- References -- 9 Acoustics in Rarefied Gas -- 9.1 Formulation of the Problem -- 9.2 Oscillatory Couette Flow -- 9.3 Oscillating Lid-Driven Cavity Flow -- 9.3.1 Scaling Law for Anti-resonant Frequency -- 9.4 Planar Sound Propagation -- 9.5 Sound Propagation in Cavity -- 9.5.1 Two Types of Resonances -- 9.5.2 Sound Speed -- References -- 10 Slip and Jump Coefficients -- 10.1 State of the Problem -- 10.2 Viscous Slip -- 10.2.1 Viscous Slip Coefficient -- 10.2.2 Knudsen Layer Function -- 10.3 Thermal Slip -- 10.3.1 Thermal Slip Coefficient -- 10.3.2 Knudsen Layer Function -- 10.3.3 Molecular Gases -- 10.4 Temperature Jump -- References -- 11 Accuracy of Kinetic Boundary Condition -- 11.1 Reynolds Lubrication Equation -- 11.2 Experiments and Upscaling -- 11.3 Approximate Velocity Slip Coefficients -- 11.4 Comparison with Experiment -- 11.4.1 Poiseuille Flow Through a Rectangular Duct -- 11.4.2 Thermal Transpiration in a Rectangular Duct -- 11.4.3 Thermal Transpiration Through a Long Tube -- 11.5 Implication in Hypersonic Flows -- References -- 12 Porous Media Flow -- 12.1 Apparent Gas Permeability -- 12.2 Kinetic Formulation -- 12.3 Accuracy of Navier-Stokes Equations -- 12.4 Interpretation of Experiment -- 12.5 Asymptotic Behavior at Large KnKn -- References -- 13 Gas Mixture. 13.1 Boltzmann Equation for Gas Mixture -- 13.2 Fast Spectral Method -- 13.2.1 Accuracy Analysis -- 13.2.2 Efficient Algorithm for Large Mass Ratio -- 13.3 Accuracy in Inhomogeneous Problems -- 13.4 Linearization and GSIS -- 13.5 McCormack Model -- References -- 14 Dense Gas Flow -- 14.1 Fast Spectral Method -- 14.2 Heated Granular Gas -- 14.3 Force-Driven Poiseuille Flow -- 14.3.1 Mass Flow Rate of Dense Gas -- 14.3.2 Influence of Restitution Coefficient -- 14.4 Heat Transfer -- 14.5 Kinetic Model for Dense Gas -- References -- 15 Fluctuation and Light Scattering -- 15.1 Rayleigh-Brillouin Scattering -- 15.1.1 Spontaneous RBS -- 15.1.2 Coherent RBS -- 15.2 Numerical Methods -- 15.2.1 Monatomic Gas -- 15.2.2 Molecular Gas -- 15.3 Accuracy of the Tenti Model -- 15.3.1 Temperature Retrieval Error -- 15.4 Extraction of Gas Property -- References -- Appendix A Special Functions -- Appendix B Relaxation Rates of Maxwellian Molecules -- Appendix C Numerical Quadratures -- C.1 Gauss-Legendre Quadrature -- C.2 Gauss-Hermite Quadrature -- Appendix D Implementation of Fast Spectral Method -- D.1 Algorithm 1: Zero-Padding -- D.2 Algorithm 2: No Zero-Padding -- D.3 Algorithm 3: Collision Frequency -- Appendix E MATLAB Code for Normal Shock Wave -- Appendix F MATLAB Code for Poiseuille Flow and Thermal Transpiration -- Index. |
Record Nr. | UNISA-996490352303316 |
Wu Lei | ||
Singapore : , : Springer, , [2022] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Rarefied gas dynamics [[electronic resource] ] : space science and engineering / / edited by Bernie D. Shizgal, David P. Weaver |
Pubbl/distr/stampa | Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 |
Descrizione fisica | 1 online resource (561 p.) |
Altri autori (Persone) |
ShizgalBernie D
WeaverDavid P |
Collana | Progress in astronautics and aeronautics |
Soggetto topico | Rarefied gas dynamics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-60086-632-8
1-60086-413-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title""; ""Copyright""; ""Acknowledgment of Support""; ""Table of Contents""; ""Preface""; ""Chapter 1. Satellite Aerodynamics""; ""Aerodynamic Characteristics Derived from Observation of Satellite Motion""; ""Numerical Analysis of Aerothermodynamic Environment of HITEN Spacecraft Aerobrake Experiment""; ""Manned Mars Entry Vehicle Aerothermodynamic Analysis""; ""Measurement and Prediction of Aerodynamic Effecton YOHKOH Satellite at Lower Earth Orbit""; ""Particle Simulation of Satellite Aerobraking with Coupled Surface Heat Transfer""
""Measuring Lift Coefficient in Free Molecular Flow While Aerobraking Magellan""""Vehicle Aerodynamics in the Transition Regime""; ""Chapter 2. Rarefied Aerodynamic Flows""; ""Aerodynamics of Rarefied Gases and High-Altitude Flight""; ""Force and Heat Transfer on Delta Wing from Continuum to Free Molecular Flow""; ""Computational Tools for Rarefied Aerodynamics""; ""Monte Carlo Simulation of Plume Effects on Space Vehicles""; ""Investigation of Nozzle and Plume Expansions of a Small Helium Thruster"" ""Investigation of Aerodynamic Control Surface Efficiency in Transitional Regime of Rarefied Gas""""Application of Local Method in Prediction of Aerodynamic Characteristics of Complex Configurations""; ""Computation of Transitional Flows Around Three-Dimensional Re-Entry Bodies""; ""Experimental Study of Angular Dispersion of Liquid Drop Streams""; ""Kinetic Theory Model Predictions Compared with Low-Thrust Axisymmetric Nozzle Plume Data""; ""Transient Behavior of a Rarefied Gas Mixture to Sudden Start of Reaction at an Infinite Plane Catalytic Wall""; ""Chapter 3. Hypersonic Rarefied Flows"" ""Direct Monte Carlo Simulations of Hypersonic Low-Density Flows About an ASTV Including Wake Structure""""Direct Monte Carlo Simulations of Hypersonic Viscous Interactions Including Separation""; ""Direct Simulation of Rarefied Hypersonic Flow over a Flat Plate with Incomplete Surface Accommodation""; ""Unified Plots of Hypersonic Flow past Flat Plates in Transition Regime""; ""lonization Reactions and Electric Fields in Plane Hypersonic Shock Waves""; ""Direct Simulation of the Hypersonic Rarefied Flow of Nitrogen and Argon past a Delta Wing"" ""Direct Simulation of a Hypersonic Shock Interaction Problem""""Slender Lifting Body Axial Force Prediction in Hypersonic Rarefied Flow""; ""Rarefied Hypersonic Flow over a Sharp Flat Plate:Numerical and Experimental Results""; ""Rarefied Hypersonic Flow over a Flat Plate withTruncated Leading Edge""; ""Aerodynamic Optimization for Hypersonic Flight at Very High Altitudes""; ""Effects of Mach Number, T(wall), T(infinity), and Thermal Accommodation Coefficient on Flow Around Bluff Bodies in the Rarefied Regime""; ""Rarefied Flow Simulations About a Blunt-Ended Cylinder at Incidence"" ""Chapter 4. Plasma Physics"" |
Record Nr. | UNINA-9910457954103321 |
Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics [[electronic resource] ] : theory and simulations / / edited by Bernie D. Shizgal, David P. Weaver |
Pubbl/distr/stampa | Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 |
Descrizione fisica | 1 online resource (727 p.) |
Altri autori (Persone) |
ShizgalBernie D
WeaverDavid P |
Collana | Progress in astronautics and aeronautics |
Soggetto topico | Rarefied gas dynamics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-60086-631-X
1-60086-412-0 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title""; ""Copyright""; ""Table of Contents""; ""Preface""; ""Chapter 1. Discrete Velocity Models ""; ""Compressible Channel Flow Using Two Discrete Velocity Gas Models""; ""New Exact Similarity Shock-Wave Solutions to the Discrete Boltzrpann Models""; ""Modified Discrete Velocity Gas Simulation""; ""Navier-Stokes Equations for a Class of Discrete Models with Different Moduli""; ""Structure of a Single-Component Exosphere in the Discrete Velocity Approximation""; ""Chapter 2. Relaxation and Rate Processes""; ""Transport Properties in Nonequilibrium Gas Mixtures""
""Particle Simulation of Vibrational Relaxation""""Discrete Modeling of Vibrational Relaxation Processes in Rarefied Nonequilibrium Flows""; ""Electron Thermalization Processes in Gaseous Mixtures""; ""Direct Simulation Monte Carlo Method for Internal-Translational Energy Exchange in Nonequilibrium Flow""; ""Chapter 3. Direct Simulation Monte Carlo Method: Methodology""; ""Monte Carlo Simulations for Industrial Problems and Perspectives""; ""Procedure for Adapting Direct Simulation Monte Carlo Meshes"" ""Efficient Three-Dimensional Direct Simulation Monte Carlo for Complex Geometry Problems""""Direct Monte Carlo Simulation of Ionized Rarefied Flows on Large MIMD Parallel Supercomputers""; ""New Algorithms for Application in the Direct Simulation Monte Carlo Method""; ""Systematic Errors in Stationary Boltzmann Simulation Schemes""; ""Chapter 4. Direct Simulation Monte Carlo Method: Reactions and Flows""; ""New Chemical Reaction Model for Direct Simulation Monte Carlo Studies""; ""Modeling Chemical Reactions in Nonequilibrium Rarefied Flows Using Direct Simulation Monte Carlo Approach"" ""Direct Simulation Monte Carlo Modeling of Near-Continuum Flows with Chemical Reactions""""Simulation of Chemical Reactions with the Majorant Frequency Scheme""; ""Transient Motion of Rarefied Gas Caused by Heat Addition Simulated by the Direct Simulation Monte Carlo Method""; ""Direct Simulation Monte Carlo Analysis of Detailed Flow Structures in Gas Mixtures""; ""Comparison of Numerical Solutions of Transition Regime Flows: Direct Simulation Monte Carlo Simulation and Navier-Stokes Computation""; ""Monte Carlo Direct Simulation for Gas Flows with Vortexes Between Concentric Cylinders"" ""Monte Carlo Simulation Using Attractive-Repulsive Potentials""""Direct Simulation Monte Carlo Calculation of Sphere Drag in Low Supersonic Transition Flows""; ""Analysis of Gas Film Lubrication Using the Monte Carlo Direct Simulation Method""; ""Chapter 5. Mathematical Techniques""; ""Plane Waves in a Multispeed Discrete Velocity Gas""; ""Fluctuations for a Many-Particle System""; ""Deterministic Method for Solving the Boltzmann Equation""; ""Implicit Methods for Kinetic Equations""; ""Theoretical Comparison of Stochastic Particle Methods in Rarefied Gas Dynamics"" ""Deterministic and Nondeterministic Algorithms for Rarefied Gas Dynamics"" |
Record Nr. | UNINA-9910457175503321 |
Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics [[electronic resource] ] : experimental techniques and physical systems / / edited by Bernie D. Shizgal, David P. Weaver |
Pubbl/distr/stampa | Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 |
Descrizione fisica | 1 online resource (647 p.) |
Altri autori (Persone) |
ShizgalBernie D
WeaverDavid P |
Collana | Progress in astronautics and aeronautics |
Soggetto topico | Rarefied gas dynamics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-60086-630-1
1-60086-411-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title""; ""Copyright""; ""Table of Contents""; ""Preface""; ""Chapter 1. Experimental Diagnostics""; ""Electron Beam Rotational Temperature Measurements in a Heated Rarefied Gas Wind Tunnel""; ""Measurement of Rotational Temperature in a Freejet Flow of Chemically Reacting Iodine Vapor""; ""Coherent Anti-Stokes Raman Spectroscopy:Application to High-Temperature, Nonreactive Gas Phenomena""; ""Laser-Induced Fluorescence Measurements of Supersonic Expansion Flow and Comparisons with Direct Simulation Monte Carlo Calculations""
""Rotational Temperature Determination of O2 Using Laser-Induced Predissociative Fluorescence in Hypersonic Flows""""Temperature Measurement in Hypersonic Flow by Laser-Induced Fluorescence""; ""Measurement and Interpretation of the Atomic Vapor Velocities Produced by Electron Bombardment""; ""Chapter 2. Nonequilibrium Flows""; ""OH Rotational Temperature and Concentration Measurements in Hypersonic Shock Waves""; ""Flow field Characteristics in Freejets of Monatomic and Diatomic Gases"" ""Direct Simulation Monte Carlo Calculations Compared with Sonic Orifice Expansion Flows of Argon and N2""""Optical Measurement and Data Reduction for Definitely Unsteady Flow Pattern""; ""Translational Non equilibrium in Rarefied Flow Through a Slit""; ""One-Dimensional Nonlocal Transport Model for Free Molecular Flow in Ducts""; ""Numerical Simulation of Pumping Process in the Diffusion Pump""; ""Chapter 3. Collision Phenomena""; ""Collision Dynamics of Atom-Spherical Top Molecule Systems""; ""Statistical Inelastic Cross Section Model for Molecules with Discrete Rotational Energy"" ""New Discrete Vibrational Energy Model for the Direct Simulation Monte Carlo Method""""Distributed Approximating Function Approach to Real-Time Quantum Dynamics""; ""Near Resonance Mechanism of Vibrational-Rotational Energy Transfer""; ""Chapter 4. Rate Processes and Material Processing""; ""Dependence of Collision Rates upon RovibrationalState and Velocity as Studied by Light-Induced Drift""; ""Modeling the Reactive Gas Composition in the H + Methane Etching of Gallium Arsenide""; ""Thermal Energy Exchange Between an Ultraminiature Hot-Film Sensor and a High-Speed Gas Flow"" ""Materials Processing in Dual-Mode Microwave/Radiofrequency Plasmas""""Chapter 5. Clusters""; ""Supercooled Liquid Clusters in Molecular Beams:Prospects for Superfluid H2""; ""Relation Between Cluster Abundance and Cluster Size in a Condensing Gas""; ""Cluster Formation in Freejets: Comparison of Monatomic and Polyatomic Vapors Mixed with an Inert Carrier Gas""; ""Molecular Clusters in Water and Intramolecular Vibration Spectra: A Molecular Dynamics Simulation Study""; ""Fourier Transform Infrared Spectroscopy of Molecular Clusters"" ""Cluster Formation in the Laser-Induced Plume Created Above YBaCuO Superconductor"" |
Record Nr. | UNINA-9910457167103321 |
Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics [[electronic resource] ] : space science and engineering / / edited by Bernie D. Shizgal, David P. Weaver |
Pubbl/distr/stampa | Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 |
Descrizione fisica | 1 online resource (561 p.) |
Altri autori (Persone) |
ShizgalBernie D
WeaverDavid P |
Collana | Progress in astronautics and aeronautics |
Soggetto topico | Rarefied gas dynamics |
ISBN |
1-60086-632-8
1-60086-413-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title""; ""Copyright""; ""Acknowledgment of Support""; ""Table of Contents""; ""Preface""; ""Chapter 1. Satellite Aerodynamics""; ""Aerodynamic Characteristics Derived from Observation of Satellite Motion""; ""Numerical Analysis of Aerothermodynamic Environment of HITEN Spacecraft Aerobrake Experiment""; ""Manned Mars Entry Vehicle Aerothermodynamic Analysis""; ""Measurement and Prediction of Aerodynamic Effecton YOHKOH Satellite at Lower Earth Orbit""; ""Particle Simulation of Satellite Aerobraking with Coupled Surface Heat Transfer""
""Measuring Lift Coefficient in Free Molecular Flow While Aerobraking Magellan""""Vehicle Aerodynamics in the Transition Regime""; ""Chapter 2. Rarefied Aerodynamic Flows""; ""Aerodynamics of Rarefied Gases and High-Altitude Flight""; ""Force and Heat Transfer on Delta Wing from Continuum to Free Molecular Flow""; ""Computational Tools for Rarefied Aerodynamics""; ""Monte Carlo Simulation of Plume Effects on Space Vehicles""; ""Investigation of Nozzle and Plume Expansions of a Small Helium Thruster"" ""Investigation of Aerodynamic Control Surface Efficiency in Transitional Regime of Rarefied Gas""""Application of Local Method in Prediction of Aerodynamic Characteristics of Complex Configurations""; ""Computation of Transitional Flows Around Three-Dimensional Re-Entry Bodies""; ""Experimental Study of Angular Dispersion of Liquid Drop Streams""; ""Kinetic Theory Model Predictions Compared with Low-Thrust Axisymmetric Nozzle Plume Data""; ""Transient Behavior of a Rarefied Gas Mixture to Sudden Start of Reaction at an Infinite Plane Catalytic Wall""; ""Chapter 3. Hypersonic Rarefied Flows"" ""Direct Monte Carlo Simulations of Hypersonic Low-Density Flows About an ASTV Including Wake Structure""""Direct Monte Carlo Simulations of Hypersonic Viscous Interactions Including Separation""; ""Direct Simulation of Rarefied Hypersonic Flow over a Flat Plate with Incomplete Surface Accommodation""; ""Unified Plots of Hypersonic Flow past Flat Plates in Transition Regime""; ""lonization Reactions and Electric Fields in Plane Hypersonic Shock Waves""; ""Direct Simulation of the Hypersonic Rarefied Flow of Nitrogen and Argon past a Delta Wing"" ""Direct Simulation of a Hypersonic Shock Interaction Problem""""Slender Lifting Body Axial Force Prediction in Hypersonic Rarefied Flow""; ""Rarefied Hypersonic Flow over a Sharp Flat Plate:Numerical and Experimental Results""; ""Rarefied Hypersonic Flow over a Flat Plate withTruncated Leading Edge""; ""Aerodynamic Optimization for Hypersonic Flight at Very High Altitudes""; ""Effects of Mach Number, T(wall), T(infinity), and Thermal Accommodation Coefficient on Flow Around Bluff Bodies in the Rarefied Regime""; ""Rarefied Flow Simulations About a Blunt-Ended Cylinder at Incidence"" ""Chapter 4. Plasma Physics"" |
Record Nr. | UNINA-9910781542403321 |
Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Rarefied gas dynamics [[electronic resource] ] : experimental techniques and physical systems / / edited by Bernie D. Shizgal, David P. Weaver |
Pubbl/distr/stampa | Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 |
Descrizione fisica | 1 online resource (647 p.) |
Altri autori (Persone) |
ShizgalBernie D
WeaverDavid P |
Collana | Progress in astronautics and aeronautics |
Soggetto topico | Rarefied gas dynamics |
ISBN |
1-60086-630-1
1-60086-411-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
""Cover""; ""Title""; ""Copyright""; ""Table of Contents""; ""Preface""; ""Chapter 1. Experimental Diagnostics""; ""Electron Beam Rotational Temperature Measurements in a Heated Rarefied Gas Wind Tunnel""; ""Measurement of Rotational Temperature in a Freejet Flow of Chemically Reacting Iodine Vapor""; ""Coherent Anti-Stokes Raman Spectroscopy:Application to High-Temperature, Nonreactive Gas Phenomena""; ""Laser-Induced Fluorescence Measurements of Supersonic Expansion Flow and Comparisons with Direct Simulation Monte Carlo Calculations""
""Rotational Temperature Determination of O2 Using Laser-Induced Predissociative Fluorescence in Hypersonic Flows""""Temperature Measurement in Hypersonic Flow by Laser-Induced Fluorescence""; ""Measurement and Interpretation of the Atomic Vapor Velocities Produced by Electron Bombardment""; ""Chapter 2. Nonequilibrium Flows""; ""OH Rotational Temperature and Concentration Measurements in Hypersonic Shock Waves""; ""Flow field Characteristics in Freejets of Monatomic and Diatomic Gases"" ""Direct Simulation Monte Carlo Calculations Compared with Sonic Orifice Expansion Flows of Argon and N2""""Optical Measurement and Data Reduction for Definitely Unsteady Flow Pattern""; ""Translational Non equilibrium in Rarefied Flow Through a Slit""; ""One-Dimensional Nonlocal Transport Model for Free Molecular Flow in Ducts""; ""Numerical Simulation of Pumping Process in the Diffusion Pump""; ""Chapter 3. Collision Phenomena""; ""Collision Dynamics of Atom-Spherical Top Molecule Systems""; ""Statistical Inelastic Cross Section Model for Molecules with Discrete Rotational Energy"" ""New Discrete Vibrational Energy Model for the Direct Simulation Monte Carlo Method""""Distributed Approximating Function Approach to Real-Time Quantum Dynamics""; ""Near Resonance Mechanism of Vibrational-Rotational Energy Transfer""; ""Chapter 4. Rate Processes and Material Processing""; ""Dependence of Collision Rates upon RovibrationalState and Velocity as Studied by Light-Induced Drift""; ""Modeling the Reactive Gas Composition in the H + Methane Etching of Gallium Arsenide""; ""Thermal Energy Exchange Between an Ultraminiature Hot-Film Sensor and a High-Speed Gas Flow"" ""Materials Processing in Dual-Mode Microwave/Radiofrequency Plasmas""""Chapter 5. Clusters""; ""Supercooled Liquid Clusters in Molecular Beams:Prospects for Superfluid H2""; ""Relation Between Cluster Abundance and Cluster Size in a Condensing Gas""; ""Cluster Formation in Freejets: Comparison of Monatomic and Polyatomic Vapors Mixed with an Inert Carrier Gas""; ""Molecular Clusters in Water and Intramolecular Vibration Spectra: A Molecular Dynamics Simulation Study""; ""Fourier Transform Infrared Spectroscopy of Molecular Clusters"" ""Cluster Formation in the Laser-Induced Plume Created Above YBaCuO Superconductor"" |
Record Nr. | UNINA-9910781420403321 |
Washington, D.C., : American Institute of Aeronautics and Astronautics, Inc., 1994 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|