31st International Symposium on Shock Waves 1: Fundamentals
Editat de Akihiro Sasoh, Toshiyuki Aoki, Masahide Katayamaen Limba Engleză Hardback – 22 mar 2019
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Specificații
ISBN-13: 9783319910192
ISBN-10: 3319910191
Pagini: 1326
Ilustrații: XX, 1235 p. 787 illus., 540 illus. in color. In 2 volumes, not available separately.
Dimensiuni: 155 x 235 x 82 mm
Greutate: 2.13 kg
Ediția:1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
ISBN-10: 3319910191
Pagini: 1326
Ilustrații: XX, 1235 p. 787 illus., 540 illus. in color. In 2 volumes, not available separately.
Dimensiuni: 155 x 235 x 82 mm
Greutate: 2.13 kg
Ediția:1st ed. 2019
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
Cuprins
Chapter1.Aerodynamic Testing at Duplicated Hypersonic Flight Conditions with Hyper-Dragon.- Chapter2.Shock wave research: Remembrance of Professor I. I. Glass.- Chapter3.Legacy at T5.- Chapter4.Experimental studies of shock wave phenomena at the Ben Gurion University ? A Review.- Chapter5.Shock Compression Spectroscopy Under a Microscope.- Chapter6.Research on Shock-induced Aerothermodynamics for Future Planetary Explorations.- Chapter7.Kinetic shock Tubes: Recent developments for The study of homogeneous and heterogeneous chemical processs.- Chapter8.Structure and Unsteadiness of 3D Shock Wave / Turbulent Boundary Layer Interactions..- Chapter9.Propagation Behavior and Mitigation of Shock Wave along Water inside a Rectangular Tube.- Chapter10.Dust Lofting behind shock waves what is the dominate Lofting Mechanism.- Chapter11.Development of a fast running method for blast wave propagation.- Chapter12.On the Energy Exchange Mechanisms Controlling Blast and Fragment Evolution in a Responding Stone Pipe .- Chapter13.Interaction of a Blast Wave with a Material Interface.- Chapter14.Laboratory simulation of explosions using conical shock tubes.- Chapter15.Shock Tube Study of the Effect of Nitric Oxide Addition on Ignition Delay Times of n-Dodecane/Air Mixtures.- Chapter16.Ignition Delay Times of Methane and Hydrogen Highly Diluted in Carbon Dioxide.- Chapter17.A Study of the Chemiluminescence of СН*, ОН*, С2* and СО2* during the Oxidation of C2H2 behind Reflected Shock Waves .- Chapter18.A Study on Soot Formation Characteristics of a Gasoline Surrogate Fuel Using a Shock Tube.- Chapter19.Effect of Dimethyl Methylphosphonate (DMMP) Addition on H2, CH4, and C2H4 ignition Behind Reflected Shock Waves.- Chapter20.CO and H2O Time-histories in a Shock-heated H2S/CH4 Blend near Atmospheric Pressure.- Chapter21.Thermochemical nonequilibrium modeling of O2.- Chapter22.State-Resolved Transport Properties of Electronically Excited High-Temperature Flows behind Strong Shock Waves.- Chapter23.Oxygen Catalytic Recombination on Titanium Surface.- Chapter24.Computations of a Shock Layer Flow with a Vibrational-Specific Kinetics Model.- Chapter25.A One-dimensional Modeling of Seed-electron Generation and Electron Avalanche in Laser-supported Detonation.- Chapter26.PLIF-based concentration measurement of OH behind the blast wave emanating from an oxy-hydrogen detonation-driven shock tube.- Chapter27.Flame Propagation over the Heat Absorbing Substrate.- Chapter28.Propagation Mechanism of Detonations in Rough Walled Tube.- Chapter29.Effect of hydrodynamic instabilities on the development of hydrogen-air flame.- Chapter30.Characteristics of Crumpling Behavior of Graphene Oxide and Its Effects on Deflagration-to-Detonation Transition.- Chapter31.Detonation decay and flame propagation through a channel with porous walls.- Chapter32.Gas Flow with Stabilized Detonation in a Plane Channel.- Chapter33.Numerical Investigation on Vibrational Nonequilibrium Effect on ZND detonation model.- Chapter34.Stabilities of Rotating Detonation.- Chapter35.The influence of shock reflections on detonation re-initiation.- Chapter36.Experimental studies around shock tube for dynamic calibrations of high-frequency pressure transducers.- Chapter37.Effect of Imaging Blurring on 3D Computed Tomography of Chemiluminescence.- Chapter38.Time-Resolved Optical Flow of Supersonic Beveled Nozzles.- Chapter39.The Effect of Adaptive Sampling on Fluorescence Velocimetry Measurements in High-Speed Flows.- Chapter40.High-resolution background oriented schlieren technique for a laser-induced underwater shock wave.- Chapter41.Evaluation of the effect of an air plasma on the degradation of metallic coatings based on an analysis of the emission from the air behind the front of strong shock waves in the spectral range of 120-400 nm .- Chapter42.Application of NO Laser Induced Fluorescence in JF-10 Detonation-Driven Shock Tunnel.- Chapter43.Molecular Tagging Velocimetry of NH Fluorescence ina High-enthalpy Rarefied Gas Flow.- Chapter44.Measurements of Jet A-1 Vapor Concentration Using Quantum Cascade Laser.- Chapter45.Temperature Measurement in a Shock Tunnel Using Tunable Diode Laser Absorption Spectroscopy.- Chapter46.Measurement and Formulation of Velocity, Attitude and Trajectory of Moving Object Using Magnet-Coil Method for High-Speed Penetration Experiment.- Chapter47.Investigations of density field on a flat plate shock-boundary layer interaction at Hypersonic speeds using BOS.- Chapter48.Schlieren Tomography to Visualise Three Dimensional Supersonic Flows.- Chapter49.Interaction of a planar shock wave with a water surface.- Chapter50.Basic Experiment on Focusing Schieren PIV Method with LED Light Source.- Chapter51.Boundary-Layer Transition Detection at High Enthalpy Flow Conditions using Temperature-Sensitive Paint .- Chapter52.Development of Sprayable Ultrafast-PSP for Unsteady Flow.- Chapter53.Three-Dimensional Measurement of the Lateral Jet / Cross FlowInteraction Field by Colored-Grid Background Oriented Schlieren (CGBOS) Technique.- Chapter54.Numerical Investigation of Dust Lifting Induced by Vertical Shock Wave.- Chapter55.Gas Surface Interaction of Carbon Ablator in a Shock Tube.- Chapter56.Numerical Simulations of Shock Wave Interaction with a Water Droplet by Sharp Interface Methods.- Chapter57.High Order Hybrid Compact-WENO-Z Finite Difference Scheme for Hyperbolic Conservation Laws.- Chapter58.A fast mathematical modelling method for aerodynamic-heating predictions.- Chapter59.A Multi-Space Interrelation Theory for Correlating Aerodynamic Data from Hypersonic Ground Testing.- Chapter60.Reynolds Stress Models for Shock ? Turbulence Interaction.- Chapter61.On the analysis of full-spectrum k-distributions databases for thermal radiation in shock waves within CO2 rich atmospheres.- Chapter62.Measurement of Electron Density by Heterodyne Interferometer for Atmospheric Pressure Plasmas.- Chapter63.Parametrical Quasiresonant Amplification of Alfven Waves in Heat-Releasing Isentropic Unstable Medium .- Chapter64.Two-Dimensional MHD Structures in Heat-Releasing Plasma.- Chapter65.Mode transition from fast gas-ionization wave to laser-supported detonation wave.- Chapter66.Gas-Dynamic Flow behind Shock Wave Initiated by a Sliding Surface Discharge Channel.- Chapter67.Jet Formation of SF6 Bubble Induced by Incident and Reflected Shock Waves.- Chapter68.Interaction of Cylindrical Converging Shock Wave with SF6 Gas Bubble.- Chapter69.Numerical Study on Converging Richtmyer-Meshkov Instability.- Chapter70.Light/heavy converging Richtmyer-Meshkov instability in a conventional shock tube.- Chapter71.The Imploding Cylindrical Richtmyer-Meshkov Instability with a Two-Fluid Plasma Model.- Chapter72.Experimental Study on a Single-mode Interface Impacted by a Converging Shock.- Chapter73.The Richtmyer-Meshkov instability of a flat interface initiated by a perturbed shock.- Chapter74.A study of variable density mixing with reshock.- Chapter75.Wave Patterns in the Interaction of an Incident Shock with a Heavy Elliptic Gas Cylinder.- Chapter76.Reshocked Richtmyer-Meshkov instability: Numerical study on interface stretch and vortex cores characterization .- Chapter77.Self-generated magnetic fields in the plasma Richtmyer-Meshkov instability.- Chapter78.The Evolution of a Square SF6 Gas Cylinder Impacted by a Converging Shock Wave.- Chapter79.Electron shock dynamics in the two-fluid plasma Richtmyer-Meshkov instability.- Chapter80.The Evolution of Concentration and Velocity-Fluctuations in the Richtmyer-Meshkov Instability.- Chapter81.Numerical Investigation of High-Temperature Effects in a Shock-Bubble Interaction..- Chapter82.Transmitted wave of shock wave through various materials.- Chapter83.Numerical investigation of the interaction between a planar shock wave with a square bubble containing different gases.- Chapter84.Underwater Shock Wave by Explosion in a Closed Space.- Chapter85.Collision of underwater explosion with compressible porous wall.- Chapter86.Disturbance Waves behind the Shock Propagating through Non-uniform Gas.- Chapter87.Study on Mach stem shape of the asymmetric Mach reflection.- Chapter88.Experimental and numerical investigations of a shock wave propagation through a bifurcation.- Chapter89.The Reflection of Cylindrical Shock-Waves on Cylindrical Walls.- Chapter90.On InMR-TRR Transition on a Concave Cylindrical Reflector.- Chapter91.Reflection of a Planar Shock Wave over a Concave Double Wedge.- Chapter92.Shock Wave Reflections from a Plane of Symmetry.- Chapter93.The influence of short acting pressure driver pulses on the behavior of shock waves in micro shock tubes .- Chapter94.Investigation of an Expansion Fan/Shock Wave Interaction between High Aspect Ratio Wedges.- Chapter95.Interaction of multiple cylindrical expanding shock waves.- Chapter96.Shock Interaction on a V-shaped Blunt Leading Edge.- Chapter97.Delayed Ventilation of Partially Confined DetonationProducts by Shock Reflection from a Convergent Nozzle Opening.- Chapter98.Geometrical perception of convex surface reflections.- Chapter99.Numerical Simulation of Supersonic/Hypersonic Flow for TSTO's Staging Separation.- Chapter100.Experimental Study of Normal Shock Wave-Isotropic Turbulence Interaction Using Counter-Driver Shock Tube.- Chapter101.Numerical Studies on Form of Weak Shock Reflection over Wedges.- Chapter102.Shock Wave Generation Method using High-Speed Jet.- Chapter103.Analytical Prediction of Mach Stem Height for Asymmetric Wedge Reflection in 2-D Steady Flows.- Chapter104.Upstream Pressure Induced MR-RR Shock Transitions.- Chapter105.Revisiting Shock Propagation in a Temperature Gradient.- Chapter106.On Hysteresis at Axisymmetric Curved Shock Reflection from an Axial Cylinder.- Chapter107.Singularity formation in the geometry of perturbed shocks.- Chapter108.A Generalized Form of the Simplified Bernoulli Trial Collision Scheme Applied to Shock Waves.- Chapter109.On aProblem of Shock Wave Structure.- Chapter110.Ab Initio Simulation of Shock Waves propagating through gaseous mixtures.- Chapter111.Comparison of DSMC Chemistry Models for Shock Tube Simulations in the Nitrogen at Rarefied and Continuum Regime.- Chapter112.Experimental and Numerical Studies on Plume Structures of Micro-Nozzles Operating at High Vacuum Conditions.- Chapter113.DSMC Study on Hypersonic Flow past a Rectangular Cylinder.- Chapter114.INFLUENCE OF PHASE TRANSITIONS COMPONENTS OF MIXTURES ON THERMODYNAMIC PARAMETERS OF SHOCK-WAVE LOADING.- Chapter115.Experimental study of the ejection of particles from the shock-loaded metals.- Chapter116.PHASE TRANSITIONS OF TITANIUM UNDER DYNAMIC LOADING.- Chapter117.RESULTS OF INVESTIGATIONS OF PHASE TRANSITIONS OF SHOCK COMPRESSED METALS.- Chapter118.Shock wave propagation through heterogeneous cementitious composites.- Chapter119.Equation of state and phase transformations of zirconium in shock waves.- Chapter120.Reynolds number effects onShock-wave boundary layer interaction in a hypersonic flow.- Chapter121.Numerical Study for Interactions between Separation on Supersonic Flow and Laser-Induced Blast Wave.- Chapter122.Schlieren-based Characterization of Separation Shock Unsteadiness in Shock Wave/Turbulent Boundary Layer Interactions with Separation.- Chapter123.Experimental study of hypersonic shock wave / transitional boundary layer interaction.- Chapter124.Micro-Vortex Generator Controlled Shock-Boundary Layer Interactions in Supersonic Intake.- Chapter125.MVG Control on Supersonic Compression Ramp Flow.- Chapter126.Improvement of pressure recovery in a duct by repetitive laser energy depositions.- Chapter127.Unsteadiness of Cowl Shock/Convex Corner Interaction in an Inlet.- Chapter128.Incident shock/turbulent boundary layer interactions on concave walls.- Chapter129.Experimental Study of Unsteadiness in Axisymmetric Step-induced Shock Wave/Turbulent Boundary Layer Interactions .- Chapter130.Numerical study of shock wave-boundary layer interaction in cylinder-flare configuration.- Chapter131.A Study on Turbulent Transition of Unsteady Boundary Layer Induced by Weak-Compression Wave.- Chapter132.Passive Control of Hypersonic Separated Flow around Spiked Bodies .- Chapter133.Surface Heat Transfer of Tertiary Gas Mixtures with Roughness Controlled..- Chapter134.Effect of Dielectric Barrier Discharge Plasma Actuators (DBD-PA) on Boundary Layer Separation Control in Hypersonic Flows.- Chapter135.Numerical simulations of transverse jet in supersonic crossflow toward an understanding of interaction mechanism.- Chapter136.Shock Induced Corner Separation in Supersonic Duct Flows.- Chapter137.Forced Boundary Layer Transition Experiments on a Multi-wedge in a Gun Tunnel.- Chapter138.Aft-body effects on lip shock-wave laminar free-interaction.- Chapter139.Temperature Distribution Measurement for the Comprehension of the Interaction Phenomena between the Shock Wave and the DC Discharged Field.- Chapter140.An interaction between shock wave and vortex induced by small volume high pressure shock tube .- Chapter141.Experimental Study on Grid Turbulence Interacting with a Spherical Shock wave.- Chapter142.Numerical Study of Variable Density Turbulence Interaction with Shock Waves.- Chapter143.Measurement of Velocity Fluctuations and Overpressure of Spherical Shock Wave in Grid Turbulence.- Chapter144.The influence of the high-pressure part length on shock waves exiting from an open tube.- Chapter145.Robust and low-dissipation explicit formulation of improved adaptive WCNS scheme.- Chapter146.Direct Numerical Simulations of Interaction Between Planar Shock Wave and Homogeneous Isotropic Turbulence at Low Turbulent Mach Number.- Chapter147.Numerical Analysis of Shockwave Diffraction .- Chapter148.Investigations on Compressible Mixing Layers by Using Hot-wire Velocimetry.- Chapter149.Spectral Radiant Intensity Calculation of Air in Shock tube.
Textul de pe ultima copertă
This is the first volume of a two volume set which presents the results of the 31st International Symposium on Shock Waves (ISSW31), held in Nagoya, Japan in 2017. It was organized with support from the International Shock Wave Institute (ISWI), Shock Wave Research Society of Japan, School of Engineering of Nagoya University, and other societies, organizations, governments and industry. The ISSW31 focused on the following areas: Blast waves, chemical reacting flows, chemical kinetics, detonation and combustion, ignition, facilities, diagnostics, flow visualization, spectroscopy, numerical methods, shock waves in rarefied flows, shock waves in dense gases, shock waves in liquids, shock waves in solids, impact and compaction, supersonic jet, multiphase flow, plasmas, magnetohyrdrodynamics, propulsion, shock waves in internal flows, pseudo-shock wave and shock train, nozzle flow, re-entry gasdynamics, shock waves in space, Richtmyer-Meshkov instability, shock/boundary layer interaction, shock/vortex interaction, shock wave reflection/interaction, shock wave interaction with dusty media, shock wave interaction with granular media, shock wave interaction with porous media, shock wave interaction with obstacles, supersonic and hypersonic flows, sonic boom, shock wave focusing, safety against shock loading, shock waves for material processing, shock-like phenomena, and shock wave education. These proceedings contain the papers presented at the symposium and serve as a reference for the participants of the ISSW 31 and individuals interested in these fields.